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COPYRIGHT DEPOSIT:

THE MACMILLAN COMPANY

NEW YORK - BOSTON - CHICAGO - DALLAS
ATLANTA + SAN FRANCISCO

MACMILLAN & CO., LimitEepD

LONDON - BOMBAY - CALCUTTA
MELBOURNE

THE MACMILLAN CO. OF CANADA, Lop.
TORONTO

MANAGEMENT OF DAIRY
FRAN iS

7.) BY
M: MORTENSEN

PROFESSOR OF DAIRYING AT IOWA STATE COLLEGE

New York
THE MACMILLAN COMPANY

1921

All rights reserved

COPYRIGHT, 1921
By THE MACMILLAN COMPANY

Set up and electrotyped. Published January, 1921.

©ChA604853

?

PREFACE

Tue larger portion of the material presented in this book has
been collected by the author during the fourteen years while
he was engaged in commercial dairy work. Much has also been
obtained from the experience of others. The author has during
the past ten years taught the subject of creamery management
to students, and the material presented in this book has been
given to the students in the form of lectures.

Acknowledgment is due to Professor F. W. Beckman of the
Department of Agricultural Journalism of Iowa State College
for his valuable assistance, particularly with the chapter on
Advertising, which was largely written by him, also to Pro-
fessors B. W. Hammer, A. W. Rudnick, and M. R. Tolstrup,
who have all assisted in this work.

The author is indebted to the following parties for the use of
electrotypes and illustrations: Creamery Package Manufac-
turing Company, Chicago, Illinois; J. G. Cherry Company,
Cedar Rapids, Iowa; York Manufacturing Company, York, Pa.;
Vilter Manufacturing Company, Milwaukee, Wisconsin; Madi-
son Cooper Company, Calcium, N. Y.; National Dairy Council,
Chicago, Illinois; The Wisconsin Experiment Station, Madison,
Wisconsin; Kansas Experiment Station, Manhattan, Kansas;
and the Dairy Divisicn, Department of Agriculture, Washing-
ton, 1). ‘C.

M. MORTENSEN.
Iowa State College,
December, 1920.

CONTENTS

CHAPTER PAGE

{- Prelmmary Survey Of Conditions). 5... ters scjejae sm 2 bie oes - I

als) Limes OTP ATI ALTOD ye eo ye! Sw ar Sia Miaratea e's fh mere a)» acer ee = EE

Chaps PMC SEAMS Spe ht Tigo 5 a ahs hegre ics Pe gree ela arene ee Si II

OM CAL IONS yma e eh Nra eet Eis Dasara el aetal hin Alaa fhe fa 14

Mutual Codperative Creamery Association..............- 18

Fomt-stock: Companys c2 460 jo ster oe cee) ore aie ar Siay ta ay nee eo 21

Wide @reamen OMSEFUCHIONL wif Wri ee sh he ad 2 4 te ee 24
15 PEG ah nea Sk a ae PI Be Area 2

Foundations, Walls and Brickwork.............-.--+-++ 30

[Core CR net et ELLA CEOS ORM ae Nae Coat Rants tee ea Page 36

Bet Uiie ne aera es peer nd acta Gk be easy Behe wheats a oh re 37

METAL ULEREROTR oats Pcs yin teas Sly te bended ua) Be wie Bie eterene dane ye 38

MV oeware Disposal... thik So. 5 Sch ht meebo lore whe ao in9.e 79 40

SE WCr SY SECU eh clits etn abe Sie WR cielo tices a a's ct 40

ESSDOOR sk Mario aes hs Pals has alan et Rimi Hee Ae pamela 43

Serger en caeak Ct9 nk 2 ee ao ls eats clas 2 shee alate eat tla 44

ee Eeleviir (fei co 1 (0) ee em et eg SOS ea ee Cpa 49

Parts DR IOELy: a ra oa tae Oil Saeas c eave ete ch Ser cassia ate inal arate 49

Systems of Reiniverationy 0)... 0.0. fee a. Hie eee ney. ee 58

Natural Refrimeration. in... le ow vin, oa) Sea Glink emere 58

Vi. Mechanical/Retriveration: 0.30222. 209- is. aie ee as Bee oS = 68

PETE T Ae MIScISSIONs 263 Pt comer ees vi ae oe a hion bt athe a viele > 68

Gompressiom Sy Stent, 4 )) 5). ogame lhe sec ee «eee ss Pon 69

ABecrption ovstent "6-02 fag auk Gah s «oa Maes ye = wel 81

VIE ped LAN sto itil ni eee, MEN Reel Rat acarD ea he We SUE NL ad Se a age, ncaa, Saree Narra 84

Organizing a Strong Working Force...............-+++++- 84

Paying tor aborts i7.6 oan cet eaten oe eee 92

WitL.:Purchase of Milk: and Creamy. 2.2002 2: $6). de ee eae ee eee 100

System of Dealing with Patrons..................-++040: 100

Systems of Milk and Cream Purchase and Delivery........ 108

IX. Purchasing Equipment and Supplies.....................-- 123

PO UVED SAL cian hie cov i ceih tera eStats Sage wee aes 123

PROM COIN Sint tips: fae w Gee enon aisle aie ae eae ae 125

[hve thasg ete tRNA) kok eS oe an CL ek 126

viii CONTENTS

CHAPTER PAGE
x, Cost af Bowetint. cA oe warts a cceew cai etree 22 eee 131
Steams Pawer ey tds heey coker ea ae en A eet 131
Gasoline for Power .0.(ec20 2 ee Se wisi ee 140
Kerosene tor Powers oii.o auc cule oo Lee tee Se ee eee 141
Blectric\Powert. ti ies Actas 8 eee Sot ale ae ee 141
cl, PASCOUIMIZA GOR feces tae pene tae Lyla heh Ne Wii nage oats Lee 143
A. Cost of Pasteunmatioms 2). eon eye os Gevesit, Se vic nee 143
B. The Economic Efficiency of Pasteurizing Machinery.... 150
DOE. (Cost Ol: Wistert oc tog te sects toy ae en ee Od rc 158
A. Power Required for Pumping Water...............:.. 158
B: Water Pumps 20c othe) calor ee Phra 160
C. Economy in Pumping Water at the Creamery......... 162
XIII. Rent, Depreciation, Interest, and Insurance................ 163
PNR FRG ag) ache ON Ss 5 ace RR al neon, SR ke ne 164
By Wepreciation 3,2 4.14ehcc Bes aint cies oth 165
Ged Ric) cn Rn ORR RARE MeN TER ORME DOOD eB Ck Ra 165
dO AN SURAMICE hic. Ste. Aer ENN 1aegenee Miia eal Reet fot Send ae 163

XIV. The Butter Overrun and the Relation between Chemical Com-
position of Butter and ‘Overrun :s.().h\0a.2i ee ee ee 168
‘hewbutter OVerrun.ss | firs ah) cece) s ere ee age eae 168

Relation between Chemical Composition of Butter and
OVNI Aa) Fag eras cls Ooo oe Sea uel Pee 2 170
XV. Mechanical Losses and Their Influence on Butter Overrun.... 181
Losses that Occur during the Manufacturing Process. ..... 181
Losses Due to Inaccuracy in Weighing and Testing........ 188
Per Cent Overrun which may be Legally Obtained........ 195
os Vis Cost of Manutactunng, Butter.) 080) 1 ese hs os ee 198
XVII. Profits Obtained from the Manufacture of Ice Cream........ 203
RC OS OE MVEA TCMIAL WMO Musali. caccan schon athe cee ee 203
Boield Giice Crean 5.) skid onssin. «lien hee blah eee 218
C. General Expenses in Manufacturing Ice Cream........ 221
PVArh Marketing of Dairy Products: 230085. eo ki ee eee 226
A) SAT OSINIARSIMNI NG i us.s.o ess accu aan ea oe ee nie on kee ae 226
S., Methods of Marketing, oiis0 Xn vida ee es eee 231
oF Ge Re CGES c's Siac csc hue cae reer acco Ae eee: eee 237
mi. Cost of Marketing Dairy Products: 1.0)... 4404 cece Ce 245
A. Cost of Marketing: Butter. ()015).5e 5 one ee Cee 245
B. Cost of Marketing Cheese..... . Bret ercry vd Gg: ane atid (ag CR ee 253
C. Gostof; Marketing Tee: Creams: 65 Aes 2 cack oe ae 254

D. Cost of Marketing Milk and Cream.................. 258

CONTENTS ix

CHAPTER PAGE
ox Prepanne-the Bubter-tor Markets: \.0 0.0 .se20 i. do eee B72
Pe MGECE PAGRAGES so. ol rie espe 3 S14 vu don Cae ba Sigler dae 272
Pent PME ELLER ELE eos ie) Ae ane Nes nae oe} seas See ea 277

Poo sAGVentinine lialny F TOCUCES +2 crass is aes elk se he ye et Ses 281
ihe Pagsases of Advertising. 0. kG ac. eal eee a me 282
Essentials’in Creamery Advertising. .:. 62... 4. ne. eee 287

Mediums for Creamery Advertising...................+5- 204

Planning and Writing the Advertisement... 420... 05.002... 299

Pete wma isiness (OrrespOndenees.! (sh u's a Ale Wow iamane el. J ale oe coe 309
ene Anpesrance Of lnekter <1 .0. Ma Adee eae. aca es 6 309

BSE Paes ra neebeer saci le rcteebenante aero cae On eet n te hint a2 312

Go ned eoenaleetbentors wep ar ev, Sergi ae ei eee an Sees any

Deeibnic Gt Corespondencen) 2/0 eee A 318

ree Wier Terhits Alka CO UECCELOMS. ahd. 041 ie nae douche, Abo Meee can aie nlch no) 319
Pe Ree reclit Nlatt ta von utr sts one Ne, Loner RSE diene hia 319

B. Fact upon which the Credit Man Bases his Judgment... 320

©, Office Records of Credit. Information, 00% . 0.000... 2 323
TOTECBIECEOMS, here ier) Nk Aol an Rn Ne ay ma Ania mhaLueahy Bu aes

Bocty. «reamery pookkeeming 0.7. fn ksh Ae ae ee le eee 332
A. Definition and General Information...) 0. 0..0.54.5.... 332

| Shea Uke ve Wyol Bu eqh gala i/o MU te a ra aia Aa a i 335

Ge Record OF Sales Wena.’ Ge oes Ganlaon eee ele wine as 341
avecord Of Inventory 22 ote. iste. es Vale ea 342

Prolite ate iaeissie nc tie eal Poche ular eS haaieeaeaerars 345

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LIST OF ILLUSTRATIONS

PAGE
1.—Large windows in front expose the interior of the factory to

the View Of PaSsers-Dy oe. ee) Metis ee ale to nee 25

2.—The arrangement of the creamery is influenced by the loca-

font ot the railroad feack 2-3 JP 64 aire eee een ee oes ue om 27

3.—A well-arranged floor plan for a small creamery..........-- 29
A— Details of Construction 0... ec tt 1 i hee rae ee 32
5.—A sewer system that is readily cleaneds s.05 8s 1 Bape eae 40
Gell (Tap pe ast es Bye ote oe a ae hs eas 41
Fe IP MCAAEES I Bhs Rast deena pie cakes aoe, 2S ele Pe oe eS 42
tog AE NE irc c al Cv ci 1 eel an ie eee ee eee une ene errr tee 43
g.—Sections showing the construction Of a septic tank ?).(..%. 3) 47
10.—Sections of insulated walls by Ruddick...............-+.-- 55
11.—Section showing construction of floor and wall insulated with

GEL OR LUNE Nee a hg A Lara asa cee oS pe tedleh eotater ped or Stance 57
12.—Section showing perfect air circulation in an ice bunker refrig-

EPA es eter carat ee ath Gichobere ARES Mis aiMabesds, Vente lo: a) 5, Atate uae Reat gare 59
$3. Insulated ice hotise 07: u'iifee.).sicle vig te Poet eee ey aa 61
14.—The Cooper gravity brine system and chloride of calcium

TREC SCAND hehe alte Spm ena Carrey CP DE ERC a eal i TA 63
15.—Method of connecting refrigerating systems............--- 71
16.—York single-acting ammonia compressor.........-...----- 74
17.—Vilter double-acting ammonia compressor.........-..---- 75
18.—An atmospheric ammonia condenser............----+-++-- |
19.—A double-pipe ammonia condenser..........--.--++-----> 79
20.—System for artificial ice making...............---++++++> 82
By Ma OF the REEDIIONY : be oho. ate oo ee cee es eile ot 105
go> Wideet: vest pocket PRess 224)... hap ek bee we tt tes £00
23.—Plant equipped with water-heating apparatus............- 139
24.—Pasteurizer with the Danish Experiment Station Improve-

TATE TE eh eee ee eed ais coe SPM anne ip ihn eig ais RLS Bins = Sy 154
ac.—Reading a butter-fat test...../..... 6... 0 eee eee eee 194
oie Siti atteher ge esd Seo. Avie coe usin Sak eo eos 251
27.—Public weigh-house, Alkmar, Holland........-.-..+-++5+5 252

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LIST OF ILLUSTRATIONS

PAGE
28.—Wisconsin cheddar cheese production, 1911............... 255
29.—Cheddar cheese shipments from Wise, I91I............... 255
30.—Total expense of milk distribution per quart.............. 263
31.—Percentages of total costs per quart by size of total business... 263
30.—A refrigerator butter Carrier... ..:....-<.....+.¢0 seen 273
2A DUE CLD ake MEE A eee oh ee Ales iba x Cee ee ee 273
34.—Advertising the food value of dairy products.............. 285
35.—Advertising the food value of dairy products.............. 285

36:—A well-designed: trade-anark. 23.02. 0d 02 bc Wal oe 290

LIST OF FORMS

PAGE
FORM I.—Application for Position as Buttermaker............ 85
Form ls ormation’ Banik oy oes woe neta hies ais lat wate Chane 86
Form 11].—Creamery Productive Labor Cost Record.......... 95
Form IV.—Creamery Proportioned Yearly Labor Recor.d...... 99
Form We Creamery: Field Recotde ) 22). cx) fey Gein 5 ies 106
Fovm Vi. Monthly Record,of Patrons... 05, <-%. - eens 8.5 3 107
Form Vil—Receivine Clerk’s'Can Record. O21.) ads as 112
ForM VIII.—Daily Cream Receiving Record................-- 113
ForM PX vere RepOL’ sahara eG ran oi a ahs s/o s oa peas 118
ForM x Route oheckine Records .05 2.5 2e 6 ead 6 a F ees bears 119
ForM Ble S tation report el eis alee ety sts aS gsi es 2 520 8s aie 121
ForM Soll ——“Greamery Order tor supplies, 2 ai) s)-|2\. eens 128
ForM Mh — Inventory, Ol Suppllesen. 055.8 yn pees lee oie mals 129
ForM SV eRe OF SUPE ct ia heh cue eek sersl afc wl a aye degenetions =m te 130
ForM SE FisuiPamee IRECOEC soc eae seca ease fie ads ae renee! cle ehs 167
ForRM eV eG huey RECOLGs. sc cies Os nae Wile ihe ddaaia vaca 189
Form XVII.—Daily Cost Record and Manufacturing Report. .... 202

Form XVIII.—Ice Cream Manufacturing Report Showing Cost of
Material Used Per Gallon of Ice Cream Manufactured 222

Form Meibe -—- Ice Cream Shipping Lago. a) cane fae ye 225
Form XX.—Report Card on Prospective Customers.........-- 238
Form le a leslie tas ac, setae Aisa ty oleae Soke eins ae 239
Teak, . a — a Vs Fe cn. fe et ee bates ae 0 be is ore es Se 240
Hari ooocl lt —— Sta temetite.. |. sc Aca eetkekiea eye =f dere aie e oie Fisheye 241
ait Rely Patrons. sales Vicket...2)3es5. 2s. tae oss oe ee SS 242
Form (XV. Record of Consignments... . 2... 2. ene eee yee 243
ieee oe i OUite SEES oh wee ea os em «ayes stam eee g 2 inal 244
Form XXVla.—Daily Balance Sheet...........----2-:2e espns 270
Horm) SOX Vill—=The Order Clerk’s Credit Card.2. 2... 066.4 + 5-0 225
ne ah Bake ED PAEGS GE isis fein aw ceca ieee tm sea ree ee es 330
Porm ey G0 — Saeht Dralts cos. oleh Poo ea eee ee een teen? 330
Von poco — hime Welt. cn e ae elf tis © ee er oe ee 331
Horie - Me —Webit Ledger. i. 6 ee. ec ec ntinsne esas eee nee 333

XIV LIST OF FORMS

PAGE
ForM Ae Re AS HRC EOTO? Aa | ed: Gee Ae cele WAC eg ie 334
Horm” XOC KUL — Cheeks Repister: 25 4. erdise odo ast. he ere 330
FORM “XOX XTT——Patrons’ Statement and: Check): . 222/245. 28 337
Form XXXIV.—Itemized Record of Purchases.................. 338
FORM}? OX. —-b tease FR eCOrGL A er sth eee iat. ac oo 340
RGR at Gee Vil ales GREEORA irs ul his onl ae te ee. hee = ee ae 343
Form XXXVII.—Butter Department—Inventory................. 344
HORM NOMA Ide SLOGK RECON. <5 olltayni.s sc Pe) Peek ics wns de 345
RORM) XX XP lee Cream Tniventory js... i< bs eee es sleek 346
Form XL.—Manufacturing and Inventory Record........... 347
ForM XLI.—Statement of Profit and Loss for May........... 348
Form 2) OH Doser (Co CA 16 4s Rear eR ey A ma OE te a Pe 349

ForM SLE Financal\Statement. 4.2 i.065. saat ss ceaes coe 350

LIST OF TABLES

PAGE

TABLE I.—Transmission of Heat Through Various Insulating
SCRUCEUNE SHS rie hs aisll Ste dete aa tein tebe te oh ie a3 52
TABLE II.—Table of High Test Chloride Calcium Solutions..... 73
TABLE i _Composition of fuels... Jo acer ae eet k ee ee Sas £22
TABLE IV.—Quantity of Fuel Saved by Heating Feed Water.... 136
TABLE SE alt SOWIE deh giel Sess sta ecie Ct ie See hha a ote 137
TABLE VI.—Densities and Specific Volumes of Water........... 145
TasLE VII.—Table for Determining Friction Loss.............. 160

TasBLtE VIII.—Table Giving Value of Overrun per Pound of Butter
and per Found ov Butter Mat ...c1. Sto. ayer asa
TABLE IX.—Table Giving Value of Overrun per Pound of Butter
and per poundor butter Fat. 7 Vso... Shan ese ee
TABLE X.—Table Illustrating How the Fat Content of the Result-
ing Butter Iufluences the Reduction in per cent of
OV PEDUIS Je tye dee, ss hansacnaty. «ccleaner neta eae aca
TABLE XI.—Table Illustrating How the Fat Content of the Whole
Milk Influences the Reduction in Overrun...........
TaBLE XII.—Table Illustrating How the Fat Content of Resulting
Cream Influences the Reduction in Overrun.........
TaBLE XIII.—Table Illustrating How the Fat Content of Resulting
Butter Influences the Reduction in Overrun........
TaBLE XIV.—Table Illustrating How the Fat Content of Cream In-
fluences the Reduction in Overrun.................
TABLE XV.—lllustration of the Financial Loss Sustained by a
Creamery Taking Composite Samples..............
TasBLE XVI.—Influence of Temperature on Reading of Test.......
Dante MVit——Who Gets the Money? oi 0o 5. fc Se ins 08>
TABLE XVIII.—What it Costs to Make and Market Kansas Creamery
CEST A CCT PTO a Haas es adi ar aes ARE ara ae pa Sarre
TaBLE XIX.—Comparison of the Official Creamery Butter Grades of
Different Wholesale Trade Organizations...........
TaBLE XX.—A Comparison of Prices at Which Different Grades of
Butter and Butter Substitutes Were Sold in New York,
Philadelphia, Chicago, St. Paul, and Minneapolis.....

XV

171

£q2

184
184

185

XVi LIST OF TABLES

PAGE

TaBLE XXI.—Comparison of Quality (Average Score) and Average
Retail Price of Branded and Unbranded Butter....... 250
TABLE XXIJ.—Labor Cost For Filling and Capping Milk Bottles... .. 259

TaBLE XXIII.—Table Showing Time Required for Filling and Capping. 260
TABLE XXIV.—Percentages of Total Cost per Quart of Wholesale and
Retail Milk (Eighty Plants), by Size of Character of
IB USUMESS oh cena)? vs cbc dim, cen ch Wu ew 6 264
TABLE XXV.—Table Showing Cost of. Handiing Milk in American
OEIC So ila ess dan 4. sls ate gahd: Ce Glare er 265

MANAGEMENT OF DAIRY PLANTS

Pry Ua,

ay
on -

MANAGEMENT OF DAIRY
PLANTS

CHAPTER I
PRELIMINARY SURVEY OF CONDITIONS

A CREAMERY may be owned and controlled by an individual,
a closed stock company, or it may be controlled by the people
of the entire community; but regardless of its prospective form
of organization, certain factors which will largely determine the
success or failure of the enterprise should be considered in its
undertaking. These are:

1. Nature of business.
. Raw material available.
. Competition.
. Amount of money required.
. Banking facilities.
. Amount of rural business handled by the town.
. Attitude of the community toward the undertaking.
. Railroad facilities.
9. Suitability of site and building.

10. Competence in the manager.

Nature of Business. — Formerly the creamery business was
confined strictly to butter making, but now several side lines
are often included, such as ice cream making and cheese making.
A creamery receiving milk, either exclusively or in part, may
find it advantageous to manufacture cheese from all or from a
portion of it. Some creameries handle eggs at a profit. It is
even claimed that a laundry may be operated profitably in con-
nection with a creamery. It may be operated at a profit; but,
for sanitary reasons, a laundry seems hardly proper as a side

I

coms Ot PW ND

2 MANAGEMENT OF DAIRY PLANTS

line as a codrdinate feature of the creamery. If operated by
common power, the laundry should be separated from the
creamery by a solid wall and the workers in one place should
take no part in the operations of the other place.

The market facilities will naturally play a big part in deter-
mining the nature of the business. If a creamery is located in
a thriving town or in a city, ice cream making would naturally
fit in with butter making. Special demands may be created for
soft cheese. A retail business may be started to advantage.
In a number of cities, creameries are selling, at retail, all the
products they manufacture.

Although some or perhaps all of such side lines should be
taken up gradually only after the business has been established,
yet there should be a fair survey of such opportunities at the
outset, as these will often largely determine the advisability of
starting a creamery.

Raw Material Available. — Considering Iowa conditions, a
creamery located in the country or in a small town and not de-
pending on local markets for the sale of its products, nor placing
any dependence on side lines, should receive cream or milk from
not less than 600 cows.! If working with less, the operating
expenses are too great and such a creamery is unable to com-
pete with a strong rival. Farrington and Benkendorf 2 estimate
for Wisconsin that there should be at least 400 cows for a cream-
ery and 200 cows for a cheese factory, with a good prospect of
increasing this number in the near future.

As an illustration, consider two creameries, one receiving the
raw material from 400 cows, the other receiving the raw mate-
rial from 800 cows. Assume that these creameries are handling
only gathered cream, that the entire amount of butter fat pro-
duced by the cows is sold to the creamery, and that each cow
produces 140 pounds of butter fat annually. Also take for
granted that the price paid by each creamery for butter fat
delivered at its plant is not less than the New York quotation
for extras, and that the butter is sold on commission at one
cent per pound in excess of the price paid for butter fat. The

Bul. 139, Ia. Agr. Expt. Sta., 1913. ° Bul. 244, Wis. Agr. Expt. Sta., 1915.

PRELIMINARY SURVEY OF CONDITIONS

3

average yearly selling price of the butter is estimated at 27

cents per pound. The overrun is figured at 20 per cent.

DaILy STATEMENT OF CREAMERY No. 1 !

400 cows produce yearly 56,000 lbs. butter fat.
400 cows produce daily 155.5 lbs. butter fat.
155.5 lbs. butter fat produce 186.6 lbs. butter.

Disbursements
Resasstose mutter iat.At/20 CeMts. oh occ ge eee akg $40.43
Butter maker’s salary at $100 per month................ 3233
TE OS SEU 61701 C0 Pa 8 1 0 a Ma MS re OR 1.20
roo lis scm iil tor Starter yi! l) jou | Dee 2 oe ie .50
Copal ree TCE AA AA An ORR LL dite era OS Om PG OP Ba 1.00
Miran ete hte ah uci, co Suh lh) ae eh ERs Ava ven Wala ve aah Uh ay hah <25
MAISCEUANCOUSIEXDECNSES. 0.5.) .0s\ secs oh cde be eeee eee & 50
8 per cent interest on a $4,000 investment............... 89
Annual depreciation: of To per cent o'y 6... sft ed hk Ke
Ficieht on 186 Ibs. butter at 1 cent per Ib... 4). 0.02.8 1.86
Commission of 5 per cent on 186.6 lbs. butter at 27 cents... 2.52
Credits '

Mao-6. 1S, UkEer ab 27 CENTS so oN. SL ios yoe een eld ses $50.38
Roo Ibs: buttermulk-at-ro. cents per Cw... 06 eee ce es 50

Taal ys cay Son areas ed whale a ag cet

DAILY STATEMENT OF CREAMERY NO. 2
800 cows produce yearly 112,000 lbs. butter fat.
800 cows produce daily 311.1 lbs. butter fat.
311.1 lbs. butter fat produce 373.3 lbs. butter.

_ Disbursements
Set fs: Diter tat at BO Gants. igi. 66 a bd ee $80.88
utver maker s Salaryat Gr25.. 2.85) shee ca cda soe 4.16
Ree RE TE EGIGE UC 2 nt ead tbe ann Pn Ra aes Rha ecw, al > 2.40
Proce eset PNK TOM Statler... gis vtec dhe sadis alee ses 1.00
LEE GOL ST Sys IY OS a ke oni ys ee 1.20
CLRID APSO gC eR 25

1 Estimates made under pre-war conditions.

$53-59

50.88
$ 2.71

4 MANAGEMENT OF DAIRY PLANTS

WMISCENANEOUS EXPENSES» joicic. 0.4 6 Ges + sin bein te cp aes on * 550

8 per cent interest on a $4,000 investment............... 89

Annual depreciation of io per cent? ... 20.4.0... Suen ee 5h

Freight on 373.3 lbs. butter at 1 cent per Ib.............. 3-73

Commission of 5 per cent on 373.3 lbs. butter at 27 cents... 5.04
$101.16

Credits

a7aic dbs: utterat 27 CetS so. ois dodo oedema dee be $100.79
1,000 lbs. buttermilk at 10 cents per cwt............... 1.00 $101.79
WGOLADP TORT Onin: Sous fae, Oe oe 0.63

From the above it is evident that a creamery receiving the
cream from only 400 cows will not be able to pay for butter fat
within one cent of the price received for its butter. When
meeting competition from a larger plant, its strength will be
reduced. It also appears as if Creamery No. 2 should be able
to pay for butter fat within a fraction of a cent of the price it
receives for butter.

In using the above tables, however, it should be considered
that a certain amount of milk and cream will be used on the
farm. In reality, therefore, if the stockholders sign up for 800
cows, we should not depend on receiving the cream from more
than 600 cows.

Competition. — Competition should be considered in the
purchase of raw material as well as in the sale of finished product.
In the matter of purchase, study the character of the competi-
tion, the methods adopted by competitors, the nature of their
business, their costs for collecting raw material and for produc-
ing finished output, and their facilities for marketing. If the
competitor is a man of clean habits and of sound business prin-
ciples, then he will have the best people of the community work-
ing with him. If he is less honest in his dealings, his competi-
tion may be disagreeable for a time but will eventually lose out
against a strong rival. A proprietary plant cannot prosper in
the same town where a successful codperative creamery is in

PRELIMINARY SURVEY OF CONDITIONS 5

operation. The cream-receiving station is usually operated at
such an expense and the cream collected there is of such poor
quality that its competition seldom wins great strength against
a local codperative plant. But it should always be considered
that a competing firm, regardless of its nature, will, while it
lasts, receive at least a share of the business.

A coéperative creamery may be organized and operated in
any community if the stockholders represent enough cows. A
proprietary plant should seldom, if ever, be established in a
territory surrounded by strong competitors, for under other-
wise equal conditions the younger firm is at a disadvantage.

It is rather unusual for a smaller plant to establish a local
market for its butter; but if it does, it should know about its
competitors who sell goods on the same market, their selling
prices, quality of goods, cost of delivery, credit systems, and
special concessions offered to their dealers.

Amount of Money Required. — The money needed to start
and carry on a creamery business includes the amounts neces-
sary for building, equipment, and working capital.

The building may be rented. This is the mode frequently
adopted when starting in cities, especially by people who have
only limited means, and while the business is yet in its experi-
mental stage. A storeroom is often fitted up at small cost and
the principal investment consists of such machinery as may be
readily converted into cash in case of failure. A new creamery
building large enough to make 1,000 pounds of butter daily
when only cream is received may be built and equipped for
from $4,000 to $5,000, while a creamery with a capacity of 2,000
pounds of butter daily, including a six-ton compressor, can be
built and equipped for from $8,000 to $10,000.!

In addition to the building and equipment, a working capital
is required. By working capital is understood the margin of
quick assets over current liabilities. Quick assets are those
which can readily be turned into cash, such as good accounts,
good receivable bills, marketable notes, and securities. Further-
more, in the creamery business we can include under this head

1 Estimates made under pre-war conditions.

6 MANAGEMENT OF DAIRY PLANTS

inventories of raw material as well as of finished product; also,
such supplies as tubs, salt, butter color, etc. However, butter
wrappers, cartons, or other articles marked with a particular
trade-mark and which could, therefore, not be sold readily to
other factories should not be considered under the head of
quick assets.

The amount of money required for working capital depends
mainly on the amount of business, method of paying for cream,
time of credit on supplies, amount of supplies carried on hand,
terms of credit to customers, and promptness in collecting out-
standing accounts, and, finally, on the amount of stock kept on
hand either in the form of finished products or as products in
process of manufacture.

Where the raw material is bought on time and the finished
product is sold for cash or on a commission basis, only a small
working capital is required. Some codperative creameries con-
duct their business on this basis, paying monthly or semimonthly
for the raw material and selling their butter on consignment.
In such cases the company often makes out a sight draft, with
bill of lading, for two thirds the value of the butter shipped.
This draft is then sent through the bank, and the company’s
account there is generally credited with the amount at the time
of deposit. If, however, a system is adopted by which the raw
material is bought on cash basis and the finished product sold
on two weeks’ time, then the company will need sufficient cap-
ital to pay in advance for the month’s supply of cream and sup-
plies needed. This is because the butter fat remains unsold in
the creamery for several days in the form of cream or butter.
Moreover some of the outstanding credit accounts will not be
collected even within three or four weeks after sale of butter.

Banking Facilities. — Due consideration should be given
both to the financial responsibility and to the authorized capital
stock of the bank from which the creamery enterprise must
make loans. National banks by law are required to limit their
loans to one concern to 20 per cent of the bank’s authorized
capital and surplus. A creamery transacting a big business
and buying its raw material for cash may often during the

PRELIMINARY SURVEY OF CONDITIONS *§

summer months need to borrow more money than the smaller
banks are able to furnish.

Amount of Rural Business Transacted in the Town. — To
a local proprietary creamery it is of importance that the farmers
from the surrounding territory do their trading in the town in
which the creamery is located. The greater the territory the
town draws trade from, the better patronage the creamery will
receive, as farmers usually sell their cream where they do their
buying. It has also the advantage of enabling the creamery
man to meet more of his patrons and thereby to come in closer
touch with them.

For the coéperative and the central creamery this factor is
of less importance. In the former case, farmers deliver their
cream where they are financially interested. In the latter case,
the central plant generally prefers to locate in some city where
other opportunities of greater importance are afforded. Such
concerns do not cater particularly to local producers, but de-
pend on raw material being shipped to them from long dis-
tances.

Attitude of the Community Toward the Undertaking. —
Unless both the producers and the people of the town manifest
a reasonable amount of interest in the creamery undertaking
it will be more or less of an experiment as to outcome. A co-
operative creamery may be successful without the support of
the people of the town, but a proprietary plant should have
the support of both country and town people.

If the people do not manifest any interest or if they show
unwillingness to support the local creamery, such indifference
or even unfriendliness may usually be traced to one or more of
the following causes: First, the people have had unpleasant
experiences with former local creameries; or, second, they con-
sider the men at the head of the undertaking as undesirable
persons with whom to do business; or, third, the community
as a whole is rather pessimistic and lacking in codperative spirit.
Any one of these factors is well worth considering. Although
a manager may win out eventually in spite of it all, yet the
business will have proved more expensive by the time it is put

8 MANAGEMENT OF DAIRY PLANTS

on a profitable working basis than in the case of the creamery
which receives the support of its local people in starting.

A community of townspeople and farmers may often indi-
cate its good will toward such a project by offering a bonus to
the promoter. This usually consists of a building site or even
offer to pay part of the building costs. Such an offer is of much
value as an evidence of local friendliness; but as the bonus is,
of course, always in lieu of certain specified conditions, to ac-
cept it may hamper future success more than the bonus will
compensate. The creamery company as a rule will do better to
buy its own site and erect its own building, thereby keeping
greater independence and increasing its prestige in the com-
munity.

Railroad Facilities. — A central plant should be located in
a city with more than one railroad. The more railroads lead-
ing to the city, the larger the region to draw from and the more
thoroughly the immediately surrounding territory is made avail-
able to the creamery. A large plant also markets its own prod-
ucts, and it is therefore an advantage to be directly connected
with a larger number of towns and cities. This factor should
not be disregarded by the smaller plants, for many of them
might advantageously dispose of their products to near-by
dealers.

Suitability of Site and Building. — In determining the lo-
cation and housing of a creamery give thorough consideration
to sanitation, convenience, and business advantages.

1. Location with Reference to Sanitation. — The surroundings
of a creamery should be sanitary. Good facilities for drainage
are essential. A creamery should never be located close to
barns or places where offensive odors are prevalent, or to places
which are natural breeding grounds for flies. It is advisable to
provide room for a septic tank large enough to handle the sew-
age from the creamery. A sufficient supply of good water should
be available.

If a building formerly utilized for other purposes is secured,
it should be so located and constructed that it can readily be
put into a suitable and sanitary condition without too great

PRELIMINARY SURVEY OF CONDITIONS 9

expense. The floors will usually have to be replaced with ce-
ment floors; the walls should be smooth, preferably cemented
with smooth, hard, cement plaster, or at any rate they should
be thoroughly renovated and painted or whitewashed. There
should be plenty of windows, and the building should permit
of easy ventilation.

2. Location with Reference to Convenience. — Ii the creamery
is in a city, it should be so located that at least one side and
one end of the building face a street or an alley. If located in
the center of a block it will be inconvenient for shipping and
the amount of sunlight available will be insufficient. A cream-
ery should not be located in the principal retail portion of the
city, as those streets are crowded with people and the sidewalks
cannot be used for shipping so readily as in districts less crowded.
In smaller towns this factor will not deserve so much consid-
eration.

A location adjoining a railroad track is of advantage to a
creamery doing a large business, but for the smaller plant in a
small town the railroad track is of less value. It may even bea
disadvantage, inasmuch as patrons delivering their own milk.
or cream will consider the trains a source of danger. Where
farmers deliver their products to the creamery, the location is
most convenient if near the center of town. But if, for other
reasons, the creamery must be located inconveniently for these
deliveries, patronage will often be secured by establishing cream-
receiving stations near the trading centers.’

3. Location with Reference to Business Advantage. — Cream-
receiving stations are located at business centers, not merely
for the sake of convenience, but also for advertising advantages
which are perhaps of equal importance. The creamery itself,
if located in the main portion of a town, is thus better adver-
tised. In such a building the front windows should be large
enough for the passer-by to obtain a fair view of the entire plant.
In larger cities, small creameries are at times located in the
retail districts, but they should be so placed that shipping will

1 This is to be recommended only for such places where other creameries collect
through stations.

IO MANAGEMENT OF DAIRY PLANTS

be taken care of from the back part of the creamery through
the alley.

Competence of the Manager. — Managers competent to
operate a large creamery are scarce. The successful manager
should have had general business experience, and preference
should be given to one who has also had practical creamery ex-
perience. A company should thoroughly investigate the past
record of the man under consideration for this position.

The manager should be honest and broad-minded. He should
be fair in his dealings with everybody. The manager should be
clean in habits. One who is addicted to liquor cannot be trusted
at all times nor can he render his employers the best service.

The creamery manager should have a discerning mind. He
must be able to judge the men with whom he has business deal-
ings and also the men he employs. He should recognize the
limitations as well as the possibilities of his employees.

He should be an organizer. He must be able not only to es-
tablish a superior working system in factory, field, and office,
but along with this he must also organize a working force which
can carry out his ideas without friction, each member becoming
a useful link in the entire chain of the organization. He should
be a good executive. As such he must be a man of punctuality
and perseverance, able to gain the confidence of his employees,
and at the same time obtain efficient and economic service from
them.

He should have had at least a fair technical training in the
manufacture of those products which his factory is to handle.

He should be a money-maker. The success of a business
enterprise is largely measured by its financial success. A man
that can be expected to make money for the company is sup-
posed to be able to save for himself. Nevertheless, some men
do make money for their employers while spending their own
earnings as soon as received. The ability of a man to save is,
however, a good guide when engaging a creamery manager.

CHAPTER II
FORM OF ORGANIZATION

THE simplest and oldest form of business ownership is that
by the individual. As long as one person owns and operates a
business, its organization is very simple. All business transac-
tions with this individually owned concern will be directly with
the owner or his agent. Should this person, however, take one
or more partners, then an organization known as a copartner-
ship is formed.

COPARTNERSHIP

A partnership is an association founded upon a contract be-
tween two or more competent persons for joining their money,
goods, labor, and skill, or any or all of these, for the purpose of
carrying on a legal trade or business, with the understanding
that there shall be a communion of profit among such partners.

Partnerships are of two kinds — general and limited. A gen-
eral partnership is the most common form and is an association
of two or more parties who agree to enter into a specified busi-
ness without fixing limitations. A limited partnership is an
association of parties for some of whom liability is limited.
This latter form of partnership is allowed in some states, but is
rarely organized, and is now largely supplanted by the corpora-
tion. A limited partnership is usually required to file in some
public office a certificate showing its membership, the purpose
for which organized, its total capital, its assets, and the number
of shares held by special partners.

How a Partnership is Formed. — A partnership may be
formed by a written agreement. Such an agreement should
specify the names and duties of each partner, the purpose for
which the partnership is created, the amount of money invested
by each, how the partners will share in profits and losses, form

II

I2 MANAGEMENT OF DAIRY PLANTS

of bookkeeping records, duration of the company, and other
special provisions. :

A verbal agreement is sufficient for creating a partnership,
but in the absence of a written agreement the law assumes that
partners share profits and losses equally.

Who May Be Partners. — All legally competent persons
may enter into a partnership. Insanity, idiocy, or habitual
drunkenness disqualifies persons from becoming partners.

A minor may enter into a partnership, but contracts by him
are voidable and he cannot be held for partnership liability.
The minor, when he comes of age, or before, has the further
privilege of renouncing his connection with the company and
of disaffirming past transactions if he chooses. If, however, he
remains connected with the company a reasonable length of
time after coming of age, the law assumes that he 1, a legal
partner.

Classes of Partners. — According to their responsibilities,
partners may be designated as:

1. Ostensible Partner, the real partner; that is, the one known
to the world as a partner.

2. Dormant Partner, the silent partner; that is, not known
to the world as a partner but partaking of profits. He can
sever his connection with the company without giving public
notice of the same and is not liable for debts contracted after
his retirement.

3. Nominal Partner, appearing to the world as partner with-
out having any interest in the firm’s business. He is liable to
a third party to the same degree as the ostensible partner.

4. Special Partner, one who supplies a certain amount of
capital. If complying with the statutory requirements, he is
liable only in proportion to his interest in the firm.

Liabilities of the Firm. — A partnership has the privilege
of doing business in the firm name and may sue or be sued
like an individual. Debts contracted by any member of the
firm for purchases made on the firm account shall be paid by
the partnership. In case of the partnership being dissolved,
the partners, in accordance with agreement, will divide the-

FORM OF ORGANIZATION T3

property which remains after all firm indebtedness has been
paid.

Liabilities of Individual Partners. — The liabilities of part-
ners to each other are regulated by written agreement; in its
absence, the law assumes that partners share alike in profits
and losses. If a partner withdraws before his partnership con-
tract expires, he is liable to the remaining member or members
of the firm for damages due to his withdrawal.

The partners are individually responsible to a third party
for indebtedness contracted by the copartnership.

But creditors of each partner as an individual, if any, must
first be satisfied before that partner’s personal property can
be attached for his partnership liabilities.

A new partner is not responsible for debts contracted before
he was admitted as a partner.

Dissolution of Partnership. — A partnership is dissolved by

1. Expiration of predetermined time.

2. Mutual agreement.

. Death of a partner.

. Change of membership.

. Bankruptcy of a member or of the partnership itself.

. Court action, as in case of dishonesty, habitual drunken-
ness,. etc.

No partner can sell out his interest in a copartnership and
in that way avoid liability for debts contracted.

When a copartnership is dissolved, a notice thereof should
be sent in writing to all firms or individuals with whom the
company is dealing or with whom it had former dealings.
Such announcements should also be made through the news-
papers.

If a partnership is dissolved by the death of one member,
the surviving members settle the partnership accounts, but they
are not authorized to carry on the business for other pur-
poses. When the affairs of the partnership have been settled
and when the amount belonging to the deceased has been paid
to his rightful heirs, the surviving partners may then resume
business.

Aun & WwW

I4 MANAGEMENT OF DAIRY PLANTS

CORPORATION

A corporation has been defined as an association of individuals
forming a body which the law regards as an individual. The
members of such a body may change successively without affect-
ing its status as a legal unit.

We may distinguish between business corporations organized
for pecuniary profits and corporations established for other than
pecuniary purposes, such as churches, fraternal organizations,
etc. The business corporation is gradually supplanting the
more risky form of copartnership. This body organized for
pecuniary profit is the one most commonly known by the name
of “Corporation” or “ Business Corporation,” being an organ-
ization of persons for the purpose of conducting some com-
mercial enterprise.

Advantages of the Corporation. — Parties investing money
in business find that the corporation has several advantages
over the older form of organization. Such advantages are:
First, the permanency of the organization regardless of death,
insolvency, or change of its members; second, the limited lia-
bilities; third, the ease with which any person’s interest in the
corporation may be disposed of or transferred to other parties.

Creation of a Corporation. — A copartnership is created by
contract between two or more competent persons with the
purpose of carrying on some legal business. A corporation is
not created merely by agreement of the members, but must
receive permission from certain government officials to act as
a corporate being. Usually the secretary of state grants the
applicant a charter permitting the members to do business
under a corporate name and particularizing the rights and priv-
ileges granted to such a body. The number of members re-
quired for creating a corporation varies in the different states,
the minimum number in most states being from three to five.

Before commencing any business except their own organiza-
tion, the members must adopt articles of incorporation which
must be signed and acknowledged by the incorporators. For
a corporation consisting of a number of members it is not neces-

FORM OF ORGANIZATION T5

sary that all act as incorporators, the number required being
designated by law. The articles, when properly signed, are
submitted to the secretary of state for his acceptance.

It is advisable to consult an attorney when formulating the
articles of incorporation, as the required form is controlled by
statute. The following may serve as an illustration of points
which are usually considered in such articles.

1. The name of the corporation and its principal place of
business.

2. The general nature of the business to be transacted.

3. The amount of capital stock authorized, the number of
shares into which it is to be divided, and the time and condi-
tions on which it is to be paid.

4. The time of commencement and termination for the cor-
poration. !

5. The names of the officers or persons by whom its affairs
are to be conducted and the time and manner in which they
will be elected.

6. The highest amount of indebtedness to which it is at any
time to subject itself.

7. Whether private property is to be exempt from corporate
debts.

Powers of the Corporation. — A corporation is considered
by law as being a legal or artificial person. It cannot carry
on business except to the extent permitted by its articles of
incorporation. If the organization decides to engage in busi-
ness not permitted by its charter, an amendment to its articles
of incorporation must first be made. The ordinary powers of
a corporation are as follows:

1. Perpetual Succession. — By this it is not understood that
a corporation can continue forever, for in most states the dura-
tion of the corporation is determined by the articles of incor-
poration. But if the organization is operated in compliance
with law, the corporation may be renewed successively and
thus continue indefinitely.

The change of membership in a corporation does not affect
the life thereof. The holding of stock in a corporation is evi-

16 MANAGEMENT OF DAIRY PLANTS

denced by a certificate of stock which is transferable. A cor-
poration may, therefore, consist of members who were not its
original stockholders, yet the corporation is the same and pos-
sesses the same rights and privileges as under its original in-
corporators.

2. Electing Officers and Filling Vacancies. — The directors
constitute the managing officers of the corporation. They are
elected by the stockholders from their own membership. The
directors again usually elect from the stockholders, or more
often from their own members, a president, a vice president,
treasurer, and a secretary. The president, vice president, and
treasurer, if elected from stockholders not already directors,
become members of the directing board upon their election to
office. A majority of the directors usually constitutes a quorum
for the transactions of business. The board is limited in power
by the articles of incorporation and by the by-laws of the
organization. The individual members of the board of directors
cannot transact business for the corporation; they must act as
a body. The board, however, has power to appoint some
agent whom it can authorize to transact the business of the
corporation.

In case of vacancy in an office due to death, withdrawal,
or any other cause, the board of directors is vested with power
to elect a successor who will hold office until the first regular
meeting for election of officers.

3. Right to Sue and be Sued. — The corporation may sue and
be sued as an individual, but its individual members cannot sue
or be sued on the corporation’s account.

4. Right to Purchase and Hold Property and Real Estate.

5. Right to Use a Common Seal.

6. Right to Make By-Laws. — The by-laws are the rules and
regulations by which a corporation governs itself. They should
be passed by the stockholders of the corporation and must be
consistent with the articles of incorporation and with the gen-
eral law.

The by-laws contain special provisions in reference to stock
and stockholders. They define the duties of directors and offi-

FORM OF ORGANIZATION 7

cers, contain the rules governing finances and dividends, and
regulations as to meetings, amendments, and special provisions.

Rights and Liabilities of Individual Stockholders. — The
‘powers of individual stockholders are vested in the board of
directors, but each. individual has the right to attend stock-
holders’ meetings and to cast one vote for each share of stock
he holds. He can participate in dividends in proportion to his
holdings in the corporation. In case of dissolution of the cor-
poration he has a right to share, proportionately to his holdings,
in whatever amount is left after the liabilities of the company
have been paid.

The stockholder of a creamery corporation, in case of in-
solvency, is liable to the full amount for which he has subscribed
and in some states assessments may be made against the stock.

Capital Stock. — The capital stock of a corporation is the
aggregate amount of stock which the company is allowed by
its charter to issue. This capital stock is divided into shares.
The size of these shares is left to the discretion of stockhoiders,
but is usually one hundred dollars each. The definition of kinds
of stock is frequently controlled by statute but may usually
be considered as follows:

1. Common Stock. — This is the general stock of the corpora-
tion — the stock which, without special provisions, shares in
profits. If no special stock is issued by the company, all of its
stock is common stock. The holder of common stock partici-
pates in profits. He has the right to attend all meetings of
the company, can vote on his stock, and shares in the assets
of the company in proportion to the shares of stock he holds.

2. Preferred Stock. — This is stock which has been sold under
a guaranty that it will net a definite per cent dividend if the
same is earned by the company. If less is earned, the entire
earnings will then be divided among the holders of preferred
stock. The dividend on the common stock is declared after the
holders of preferred stock have all been satisfied. If the cor-
poration becomes insolvent, the preferred stock is redeemed
after the debts have been paid and before any of the common
stock has been redeemed.

18 MANAGEMENT OF DAIRY PLANTS

3. Treasury Stock. — Issued stock which has become the
property of the corporation by purchase, gift, etc., is known
as “treasury stock.’’ As such it is inactive, since it does not
share in profits and has no power to vote. It is considered as °
an asset of the company and may be sold or held by the com-
pany at the discretion of the directors.

4. Watered Stock. — This is stock that represents more than
the full value of money which has been paid into the treasury
of the company. Stock is watered by the unscrupulous cor-
poration either for the purpose of making a big profit on the
sale of stock or for the purpose of deceiving people as to the
real earnings being made. Consider, for example, an electric-
light company. It has invested $100,000 in the enterprise.
The stockholdets realize 25 per cent on their investment. In
order to comply with certain state laws as well as to conceal
from the public the enormous rate of dividend, the corporation
issues stock up to $200,000 without correspondingly increasing
any tangible values on which that additional stock rests. On
such an inflated capital this annual dividend then becomes 12%
per cent instead of 25 per cent.

Certificate of Stock. — A certificate of stock is evidence of
ownership. It is transferable when properly indorsed by the
owner and made payable to the purchaser. It is then to be
transferred on the books of the company.

Dissolution of a Corporation. — A corporation may be dis-
solved (1) at the expiration of the predetermined time, (2) by
the voluntary act of the stockholders, (3) by law — as in case
of fraud or dishonesty in the conduct of business by the direct-
ing board or the managing officers, (4) by insolvency.

When a corporation is dissolved, the debts of the company
are first to be paid. The balance of the assets will then be
divided among the stockholders in proportion to their holdings
in the company.

MUTUAL COOPERATIVE CREAMERY ASSOCIATION

This form of creamery organization was originated in Den-
mark in 1882 by Stilling Anderson of Copenhagen. The asso-

FORM OF ORGANIZATION 19

ciation was organized in the small country town of Hjedding
not far from Esbjerg in Jutland. Codéperative associations along
other lines were started in Denmark as early as 1866 by Mr.
Sonne of Tisted, Jutland. Mr. Sonne’s idea for such associa-
tions was originally borrowed from Great Britain.

A mutual codperative creamery association is an organization
of dairymen for the purpose of jointly converting the raw ma-
terials, milk and cream, into finished products such as butter,
cheese, ice cream, etc., the business being conducted on a purely
mutual and codperative plan.

Such an organization may or may not be incorporated. If
incorporated, its business, like that of any other corporation,
is governed by articles of incorporation and by-laws. Its affairs
are likewise conducted by a board of directors, and officers are
elected either by vote of the members of the organization or
by its directors. The directors usually select an agent who is
responsible to the board of directors for his management of the
business.

Capital Stock and Dividends. — In some states the codp-
erative association is organized with capital stock, but no divi-
dends are declared on such stock. In other states the codpera-
tive association is organized without capital stock, thereby
indicating that dividends cannot be declared.

The codperative creamery, like the church, is of common
benefit to a community and should be the common property of
its people. The money required for establishing such a cream-
ery should be subscribed by the producers in proportion to the
amount of butter fat produced by each. In Denmark, a person
joining a codperative creamery association must guarantee to
furnish the milk from all of his cows for a definite period ex-
tending over several years. This system, however well adapted
to Denmark, has not been incorporated in the by-laws of asso-
ciations in the United States. It is more difficult in this coun-
try to have the amount subscribed correspond to the amount
of butter fat delivered to the creamery.

One of the more satisfactory methods of securing money for
the establishment of a codperative creamery is through a loan

20 MANAGEMENT OF DAIRY PLANTS

secured by the association. This loan may be made by a bank
or by individual members of the association. If the money is
borrowed from a bank or a loan association, such an institution
will naturally demand security. This is given by the members
of the creamery association in the form of individual notes or
joint notes which are held by the bank as collateral. The in-
terest on this loan and part of its capital are paid annually from
a sinking fund which is created by reserving one cent or a frac-
tion of a cent per pound, from the price of the butter fat de-
livered by each patron, or by assessing each patron a definite
per cent on the money he receives for butter fat delivered.
The amount or per cent to be paid varies in proportion to the
amount of indebtedness, to the total amount of butter fat re-
ceived by the association, and to the number of years required
to pay the entire indebtedness.

A sinking fund should always be created by the codperative
creamery association, whether the plant has been paid for or
not. It is needed to keep the plant and equipment in repair
and to buy new equipment. The amount accumulated for that
purpose should measure up to 20 per cent of the cost of building
and equipment and should be kept as a special account in the
bank.

' All money received by the association from the sale of its
goods belongs to the patrons of the creamery. After all oper-
ating expenses have been paid and the necessary amount de-
ducted for a sinking fund, the remaining sum should be divided
among the patrons in proportion to the amount of butter fat
delivered by each.

Membership and Its Rights. — Only patrons of the cream-
ery may become members of a mutual coéperative association.
Each patron has one vote on all matters pertaining to the
business. The fact that a person becomes a patron of the
creamery should make him a member of the association as,
in paying his share of the sinking fund, he is paying toward the
maintenance of the plant.

Dissolution. — In case of the dissolution of a codperative
creamery association, each patron or former patron has the right

FORM OF ORGANIZATION 2k

to share in whatever amount is left after the liabilities of the
association have been paid, such share being in proportion to the
amount of business he has transacted through the association.

Advantages. — The codperative creamery is usually suc-
cessful in communities where a sufficient amount of milk is pro-
duced and where the people understand how to work together
in harmony. In such communities the advantages of the
mutual codperative creamery association over one owned by
an individual or a company are, primarily:

1. Increased Value of Raw Product. — This is due to elimina-
tion of dividends on capital stock and also to decreased expense
in securing raw material through assurance of its more definite
supply. Furthermore, this greater profit to members on their
raw product stimulates them to secure increased production
from their herds.

2. Better Quality of Raw Product. — The patrons of a codpera-
tive creamery realize more keenly the importance of better care
for milk and cream on their own farms, knowing that neglect
along such lines results in direct loss to them. Ina codperative
organization the producers pay closer attention to the quality
of goods delivered by their fellow members and the one who de-
livers raw products of inferior quality is able to severe criticism.

JOINT-STOCK COMPANY

The joint-stock company as a creamery Company is an organ-
ization of persons who join together for the purpose of convert-
ing raw materials into finished products as well as for the pur-
pose of marketing the same. This organization has a capital
stock on which dividends are declared. The joint-stock com-
pany proves to be most successful in certain places, mainly
those localities where the townpeople have come to a full realiza-
tion of the advantages of home industry and organization, and
where they exert some influence over the farming population.
Many such creamery companies have been organized entirely
by the efforts of the townspeople. They are commonly known
as codperative creameries but are not strictly codperative in
principle. Some of them approach coéperative methods closely

22 MANAGEMENT OF DAIRY PLANTS

while others are operated on much the same plan as a business
corporation.

Capital and Dividends. — The joint-stock company differs
from the codperative organization in that it declares dividends
on capital stock and that stock is frequently held by people
who are not producers. Some creameries operated under this
form declare a large dividend on capital stock, but such divi-
dend should not at any time exceed the current rate of interest
on money loans. Some of these associations, when properly
controlled by the producers, stipulate in their articles of incor-
poration what per cent of dividend may be declared. Some do
not designate such returns as dividends but as interest. They
are thus making the codperative feature more prominent and
are also guarding against the possibility of any stockholder
obtaining an unfair dividend, as the maximum rate of interest
is defined by law.

Price Paid for Raw Material. — Some creameries draw a
distinct line between patrons who are stockholders and patrons
owning no stock. They often pay a non-stockholder from one
to two cents less per pound for butter fat delivered to the cream-
ery; at the same time they deduct from his check a regular
membership assessment for running expenses and for the sink-
ing fund from which dividends and cost of repairs are paid.

To illustrate, suppose a creamery thus organized and con-
ducted received an average of 400 pounds of butter fat daily
or 144,000 pounds annually. If its capital stock was $5,000
and one cent per pound were deducted for fat received, the
dividend declared in that way would amount to $1,440 an-
nually, or 28.8 per cent of the capital stock. At the same time
patrons might be required to contribute to the sinking fund
from which the regular dividend on capital stock is to be de-
clared to stockholders.

Obviously, the price paid for butter fat should be the same
for all, whether stockholders or not. When non-stockholders
assist in creating a sinking fund from which dividends and cost
of repairs are paid, no more can rightfully be asked of them;
nor is it fair to the patrons of such a creamery to create a sinking

FORM OF ORGANIZATION 23

fund much in excess of what is actually needed for declaring a
fair dividend and for upkeep of the plant.

Who May Become Stockholders. — Others than patrons of
the creamery may own stock in the organization. But the
patrons should at all times own its major portion. If the con-
trolling interest is held by non-producers, the codperative
features of the organization are likely to be less marked, and
the producers are more likely to lose enthusiasm. A creamery
that has been organized as a joint-stock company may even-
tually be changed into a codperative creamery by gradually
buying up the stock with the money in the sinking fund, if agree-
able to the stockholders. It often appeals to a stockholder to
know that he may subscribe to stock with the understanding
that a definite dividend, say 8 per cent, will be paid annually
together with a definite per cent of the capital. He feels more
keenly that money thus subscribed is not lost.

Rights of Stockholders. — Only stockholders of the organi-
zation can vote on matters pertaining to the business. Some
creameries are so organized that the stockholder has one vote
for each share of stock, others come closer to the mutual co-
operative association in allowing each member only one vote
regardless of the amount of stock he holds. In most creameries
of this kind the number of shares that can be held by one in-
dividual is limited.

This form of creamery organization, if conducted as near as
possible on the codperative plan, has the same advantages as
the codperative association; and in places where the townspeople
are more aggressive than the farming population, this form is
even preferred. This type of creamery association should not
be confused with some of the big corporations that provide for
a certain amount of stock to be sold to producers in different
sections of the country. The latter form is not coéperative in
any way except inname. The organization is under the absolute
control of comparatively few individuals as, even if more than
half of the stock were sold to producers, such stockholders are
usually scattered so widely that no united action could be
carried through by them,

CHAPTER III
CREAMERY CONSTRUCTION
FLOOR PLAN

Size of Floor. — The amount of floor space needed depends
on the character and volume of business to be conducted and
the methods of manufacture. The amount of room required
in a plant handling whole milk is somewhat greater than that
required for a plant manufacturing the same amount of butter
from gathered cream. If cheese or ice cream is to be manufac-
tured in connection with butter making, the problem becomes
more complex. There is no definite rule by which to figure the
amount of space required for manufacturing a definite amount
of finished product, as it depends so largely on the method of
manufacturing. As an illustration: In the manufacture of but-
ter, one plant prefers to pasteurize the cream, another will churn
the cream raw. The latter requires less space than the former
for doing the same amount of work. Then, again, the kind of
machinery installed often makes a noticeable difference, one
pasteurizer occupying perhaps twice as much floor space as
another of the same capacity.

It is considered that a floor space 26 feet by 5o0 feet is
sufficient for a gathered-cream factory manufacturing up to
500 pounds of butter daily, and a floor space 30 feet by 60 feet
for manufacturing from 500 pounds to 1,500 pounds daily. A
floor space of 40 feet by 60 feet should be sufficient for manu-
facturing from 1,000 pounds to 1,500 pounds of butter and from
50 gallons to too gallons of ice cream daily.

Arrangement. — The chief factors in determining a success-
ful plan of arrangement are:

1. Local Conditions. — Arrangement of floor space will be
influenced by location with respect to street, alley, or railroad /

24

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terior 0

Fic. 1.— Large windows in front expose the in

26 MANAGEMENT OF DAIRY PLANTS

track. Weather conditions might determine the place for cream
intake. Retail business in connection with the factory might
change the whole plan of arrangement. Advertising possibil-
ities might well bring certain portions of the factory to the
front so that some of its manufacturing operations are in plain
sight of people passing by. This point is well illustrated by
Fig. 1, in which is shown a butter and ice cream factory located
on the main street. Large windows in front expose the interior
of the factory to the view of passers-by. The floor plan in
Fig. 2 illustrates some influences a railroad track may have on
the arrangement of a creamery. This building had to be so
planned that coal, ice, and supplies could be unloaded from the
cars on the creamery track and butter loaded into cars similarly
placed. )

2. Convenience in Operation — The greatest economy of.labor
and power is obtained by having the product move through
its successive factory operations on a straight line. At one end
of that line the factory receives its raw material, as cream or
milk; at the other end it puts out that raw material as finished
product in the form of butter, cheese, ice cream, etc. It is ob-
vious that those parts of a factory whose work is closely related
should be near together. It would be very inconvenient, for
' example, to have the receiving room close to the churn and
more distant from the cream ripeners. The natural and most
logical arrangement is that with the cream-receiving room or
platform first, the vat next, and then the churn. Testing is so
closely connected with the receiving of cream and milk that it
should be done close by or in the receiving room. Office work
is also closely connected with the work in the receiving and
testing rooms and should be near to both.

Referring again to the floor plan in Fig. 2: In order that ice,
coal, and supplies might be most conveniently unloaded direct
from the car, it was necessary to locate the boiler toward the
center of the building. This made it very inconvenient in re-
moving ashes, and the supply room was not conveniently lo-
cated. Later, when it was decided to install a refrigerating
plant, the former inconvenience was readily overcome by remoy-

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28 MANAGEMENT OF DAIRY PLANTS

ing the coal room, boiler room, and receiving room to the other
end of the building. The refrigerator could then be located
against the supply storage room.

Slope of Floor.— The floor in a creamery should have a
slope of about one inch in four feet. In the churn room this
slope should gradually increase toward the drain.

Floor Materials. — Cement floors are perhaps the most
serviceable as well as the most economical for creameries, but
sawed stone and tile are also used to a limited extent.

1. Cement. — The cement floor consists of a concrete base
from four inches to six inches in thickness, with a surfacing one
half inch in thickness. The base should be placed on a well
settled and packed soil.

The concrete base may be made of one part best Portland
cement, two parts clean, coarse, sharp sand, and three parts
mixed gravel or finely broken stone or tile, all thoroughly mixed
and lightly tamped in place. Before the concrete has set, there
should be applied to it a half-inch finish or surfacing consisting
of equal parts of Portland cement and sharp sand, and this
should then be troweled smooth.

A cement floor may be laid in the second or third story of a
creamery building; but unless the entire floor is constructed
from reénforced concrete, such cement should be laid on top
of a heavy plank floor properly supported to prevent jarring.
Such an upper-story floor should be constructed practically the
same as the main floor described above, except that between
the concrete base and the plank floor there should be laid a
covering of waterproof prepared material similar to prepared
roofing. The sheets of this material should be properly ce-
mented before the cement floor is laid. This waterproofing
answers the double purpose of preventing the floor from leaking
and of preserving it from cracks due to uneven contraction and
expansion in the cement and wood. If the different parts of
the floor are subjected to extreme differences in temperature,
then the surfacing should be divided off into squares or rect-
angles about thirty inches wide. The crevices may be filled
with hot asphalt.

29

CREAMERY CONSTRUCTION

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30 MANAGEMENT OF DAIRY PLANTS

2. Stone and Tile. —If sawed stone or tile is used for the
floor, either one should be laid in cement on a concrete base
similar to the base constructed for cement floors.

3. Asphalt. — This has been used for creamery floors to some
extent as a surface coating usually of about one and one half
inches in thickness. It is laid on a concrete base as in the case
of floors previously described. As asphalt floor has the advan-
tage of being comparatively soft and hence less tiring to work-
men than the harder floors. Furthermore, it is considered
waterproof, and is comparatively easy to repair. However, as
it gradually dissolves under hot water, it proves less desirable
for floor covering in a creamery.

4. Plank. — The plank floor was formerly used more exten-
sively than any other kind. As it is unsanitary and lacking
in durability, it cannot be considered very serviceable.

FOUNDATIONS, WALLS, AND BRICKWORK

Mortar. — Kidder! recommends for brickwork a mortar
made from one part of Portland cement and three parts of
sand. “One barrel of Portland cement and three barrels of
sand thoroughly and properly mixed will make 31/3 barrels, or
12 cubic feet, of good strong mortar . . . sufielenigge
lay . . . 750 bricks, with 1/4 to 3/8-inch joints.”

Hoeppner maintains that a mortar made from cement and
sand alone should not be used for hollow tile, as such mortar
is too “short” and will roll off the tile and hence does not insure
a full joint.

Cement. — Cement used for building construction should
meet the following requirements of the American Society for
Testing Materials:

The specific gravity of the cement, thoroughly dried at too°
C., shall not be less than 3.10.

It shall leave by weight a residue of not more than 8 per cent
on a No. too, and not more than 25 per cent on a No. 200 sieve.

It shall develop initial set in not less than thirty minutes,

1 Architects’ and Builders’ Pocketbook, by Kidder, 1912, pp. 199-200.

CREAMERY CONSTRUCTION SL

but must develop hard set in not less than one hour, nor more
than ten hours.!

Cement mortar is injured to a great extent if frozen before
it is set. Kidder 2 maintains that it is not safe to allow a slow-
setting cement mortar to freeze in less than four days after it
has been placed, while a very quick-setting cement mortar may
freeze in twelve hours without injury provided the mortar is
kept frozen until set. Portland cement mortar is injured more
. when it alternately freezes and thaws than when it remains
frozen before it has set hard.

Foundation. — This is most satisfactorily constructed from
concrete. The thickness of the foundation at its top is equal to
that of the wall, but gradually increases in thickness toward
the bottom (Fig. 4). The depth of the foundation varies in
accordance with the character of the ground and the size of the
building. A foundation from 4 feet to 6 feet deep is usually
sufficient for a building one story to two stories in height.

The concrete for the foundation may be made of one part
Portland cement, three parts clean, coarse, sharp sand, and five
parts tile or stone broken in pieces of not more than 2 inches
dimension. The cement and sand are first to be thoroughly
mixed in the dry state, then mixed with water, and the broken
tile or stone added, after which the concrete is turned over
three times in the mixing box and immediately deposited in the
trenches and tamped lightly until the water rises to the surface.
The concrete walls above ground should be finished smooth
and even.

Walls. — The kind of material from which the walls of a
creamery may be constructed depends largely on the cost and
efficiency of material available in the particular locality. The
most common materials used in the construction of creamery
walls are brick, hollow tile, brick and hollow tile, and cement
blocks. A frame building is not to be recommended, as the
_ fire risk is greater and the structure is lacking in sanitation,
durability, and appearance. The walls of workrooms should
be at least 16 feet from floor to ceiling.

1 Kidder, 1912, p. 853. 2 Kidder, p. 199.

32 MANAGEMENT OF DAIRY PLANTS

Note:-
Eorth bockfilling to be

thoroughly tamped tos
below top of foundations

| 18 IS equare footing
—+/~p-- 10 support I Beam yee 15° I Seam

NSS KS AE 45 (Shrert TAKDB FESS

RUNS? AEIEAS LEON
a /0-9
Ss F

e eNe Ae PE L

SS eC DLO ALSN rch) 5-6 =

Front

3 ft lona

Wall mr
\7> 1" 12-9" Fg
VD6P1| Sheathing 15 AZ*T Beam ye

ee ER Lee eee

Lintel Reinforcement -
For 7 foot door as here detailed, 9
lintels are to be 8x 8-3-4
with 4 Be twisted bars
For 6 door, Iintel shall be 8%] 5
8x70 with 3- %°’twisted bars
fer windows and doors 3°
wide, lintels are to be 8=8™
Ao with 1-272" *twisted bar

e REINFORCED CONCRETE LINTEL-

2<8 planks

pees thru zi
eam eve
with Ig belt

Joists to be f'»7
spaced IG ds ez

end bridged ff
, every fetal FFI

*JOIST FRAMING.

Rear
Wall

PE

Kefi rige rator
a

¢ SQUARE BRICK CALMNEY

CER TE eee
| ean
: SS 175111)

i au aunt

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ce ih i

Drawn by CE Wright

2 DL ilS (and) SC Lorie
* Creamery Lio 1i-

Fic. 4. — Details of construction.

CREAMERY CONSTRUCTION ae

1. Brick. — Brick is perhaps the most satisfactory material
from which to construct a creamery wall, but it is also the most
expensive. The standard size of brick is 2 inches by 4 inches by
8 inches. The brick should be uniform in composition and
free from lime spots. A hard-burned brick is most durable;
but for a building located in the city, pressed brick is more
satisfactory for facing. A brick should be tested for its power
to absorb moisture. This may readily be done by the following
method: Place a brick in the furnace or in the oven of a kitchen
range; leave it there for 24 hours or until the weight of the brick
remains constant; then submerge in water for 24 hours; after-
ward, wipe it dry with a cloth and weigh. A brick absorbing
moisture to exceed 8 per cent of its own weight should be re-
jected. Such a brick will disintegrate during the winter season
when the moisture in it freezes.

A one-story or two-story creamery building constructed from
brick should have a wall not less than 1o inches thick, allowing
2 inches for air space. The bricks should be laid with well-
filled, full-bedded joints 3/8 inches wide. The walls should be
plumb and straight, using a line on both sides of the wall through-
out its entire height. They should be securely bonded with
headers, and should be reénforced above all openings. All ex-
posed joints in walls should be neatly smoothed with the trowel.

2. Hollow Tile. — Hollow tile has been used quite extensively
during recent years in the construction of creameries. The
standard sizes of hollow tile are 4 inches by 8 inches by 12 inches
and 5 inches by 8 inches by 12 inches. The former is used more
frequently. What has been stated concerning the quality of
brick applies also to tile. It is tested in a similar manner, and
any tile absorbing moisture to exceed 5 per cent of its own
weight should be discarded.

Hollow tile may be laid in two different ways — either on
edge or down flat. If on edge and with a tile 4 inches thick,
the wall should be constructed to inches thick with a 2-inch
air space allowed. The principal objection to this wall, unless
cemented on both sides, is its unattractive appearance. If the
tiles are laid flat, a single layer will make a wall 8 inches thick.

34 MANAGEMENT OF DAIRY PLANTS

Such a wall is suitable for a one-story creamery, and is prac-
tically as attractive as one made of brick.

Particular care should be taken that joints are well filled
with properly prepared mortar. If not, rain dashed by heavy
wind will beat through the wall. Special attention should also
be given to assure that ends of blocks are properly joined with
mortar. Owing to their construction, this becomes the most
difficult task in laying tile.

The principal advantages of hollow tile are its comparative
cheapness and low cost of laying. Air spaces in blocks serve
as insulation if the walls are absolutely tight in construction.
If any particular objection can be made, it is primarily that a
hollow-tile wall may be more readily damaged, as by a wagon
backing up against it. Ifa hole is made, the hollow tile affords
an excellent hiding place for mice and rats. It is also more
difficult to make an air-tight wall from hollow tile.

3. Combination of Brick and Hollow Tile. — This is becoming
the more popular material for wall construction. It usually
consists of a 4-inch brick for the outside wall, then a 2-inch air
space, and finally a 4-inch hollow tile, making a 10-inch wall.
The brick and hollow tile should be securely bonded with
headers. This combined material has advantages over hollow
tile in that it gives the building an outward appearance of solid
brick, and the latter can be laid more easily to form a tight wall.
It has the advantage of a solid brick wall in being less expensive
and at the same time just as durable, since the inside wall is
covered with cement plaster. Inside partitions are usually
built from hollow tile exclusively.

4. Cement Blocks. —'The cement blocks used for creamery
construction are either 8 inches by 8 inches by 24 inches or
else 8 inches by 8 inches by 16 inches in size. These blocks
should be double, with two or four wire headers between halves.
Those used for outside walls are usually made rock-faced for
the sake of appearance; those for inside partitions are smooth-
faced. The blocks should show good workmanship in construc-
tion, be made of good material, and show a sustaining strength,
under test, of at least 1,000 pounds per square inch after they

CREAMERY CONSTRUCTION 35

have reached an age of 28 days. The blocks should be imbedded
in cement mortar, with joints not exceeding 34 inch. The
greatest objection to the cement-block wall is its tendency to
absorb moisture. This, however, is largely overcome by using
the particular blocks described above.

5. Sals and Lintels.— These are made most satisfactorily
from concrete. The exterior window sills, if thus made, should
be reénforced and set in place. The lintels should be reénforced,
and the concrete used should be of a strong mixture containing
one or more parts of cement, two parts of clean sand, and four
parts of coarse gravel or broken stone.

6. Plastering. — The walls of all rooms except the coal room
should be covered with two or three coats of a good, hard wall
plaster. The last coat is to be composed of hard cement wall
plaster, finished with a steel trowel, and brought to a true,
even surface free from cracks.

All plastering should be carried to the floor and connected
with the surfacing from the floor. It is often advisable to carry
the floor surfacing up on the wall for about one foot. Instead
of the wall meeting the floor on a right angle, the juncture may
be slightly rounded, thus making it easier to clean. A wall
finished as above may be scrubbed and can, therefore, be kept
in a sanitary condition.

Chimney. — In planning the foundation for a chimney, it
is advisable to consult an architect or at least some experienced
person. If the soil is loose or wet, it may be necessary to drive
piles on which to build the foundation. Fig. 4 illustrates a foun-
dation and chimney built on firm soil for a 37-foot brick chimney.

The chimney proper or stack should be built from shale brick.
The core of the chimney upward from the bottom of the smoke-
bridging opening should be built of fire brick laid in fire clay
and securely bonded to the outer wall with galvanized iron
bonds of such length and strength as to insure stability. Due
provision should be made in the stack for attaching the smoke
bridging or flue from the boiler, and for placing an iron clean-
out door in the bottom of the stack. A door 18 inches by 18
inches is most satisfactory for the ordinary sized stack.

36 MANAGEMENT OF DAIRY PLANTS

Engine and Boiler Foundations. — These should be built in
accordance with details and specifications furnished by the man-
ufacturer, and should be made from concrete composed of one
part Portland cement, two and one-half parts clean sand, and
five parts coarse gravel, broken stone, or tile. The foundation
bolts should be placed in gas piping 1% inch greater in diameter,
and should extend to within 3 inches of the bottom of the
foundation.

ROOFS

The size and number of timbers required to support the roof
should be carefully figured by an architect. It is considered
that timbers should not span over more than 24 feet. If the
building is of such construction that longer timbers are required,
it may be advisable to use one or more steel beams, thereby
shortening the timbers required as well as increasing the strength
of the building.

There are two general types of roofs —the flat and the
pitched.

Flat Roof. — The flat roof is constructed in much the same
manner as a floor except that it has a slight pitch. The most
common materials used on this type of roof are gravel, tin, and
special prepared roofing such as asbestos, etc.

1. Gravel Roof. — The gravel roof should have a pitch of from
5/8 inch to 1 inch in the foot. It is supposed to protect a wooden
roof better than tin, its life being from 10 to 15 years. Its cost
will amount to about $7 per square,' a square being 100 square
feet.

2. Tin Roof. — A tin roof, if properly laid and kept painted,
will last from 20 to 30 years. Its cost will vary from $8 to $11
per square.

3. Prepared Roofing. — Such roofs are constructed in accord-
ance with specifications furnished by the manufacturer. The
cost of constructing a four-ply asbestos roof at Hartley, Iowa,
was $7.29 per square.’

1 Figured at pre-war cost of material and labor.
* Bul. 139, Ia. Agr. Expt. Sta., 1913.

CREAMERY CONSTRUCTION 34

Pitched Roof. — Materials recommended as fireproof for a
pitched roof are asbestos shingles, clay tiles, metal tiles, and
slate.

The pitch of the roof is obtained by dividing the height by
the span; thus we speak of its being one-half, one-third, and
one-fourth pitched.

PAINTING

Paint consists of a liquid carrier with which is mixed a solid
substance called pigment which gives the color desired. For
ordinary painting, this liquid consists of linseed oil; but for
enamel paints, varnish is used. White pigments consist of white
lead, white zinc, or zinc lead. Yellow is commonly chromate
of lead, or chrome yellow. Green is chrome green — a mixture
of chrome yellow and Prussian blue. Blue is ultramarine, or
sometimes Prussian blue. Brilliant red is usually a coal-tar
color, while dull reds and browns are oxides of iron. Others
are dull yellow. Black paints are made from carbons such as
boneblack, lampblack, or graphite.

Paints should never be applied to wet or damp surfaces. A
plastered wall should first be washed thoroughly with a solution
of soap and next with a solution of alum. After it is entirely
dry, a coat of oil should be applied, and then the paint. If ap-
plied directly, the paint will be attacked by the lime in the
plaster.

Knots, sap, and defects in the woodwork should be thoroughly
covered with one coat of shellac reduced to the proper consist-
ency in pure grain alcohol. All joints, nail holes, and similar
defects should be filled level with white-lead putty after the
priming coat has been applied.

Priming Coat. — The priming coat is the first paint applied,
and usually consists of ordinary paint and raw linseed oil mixed
in equal proportions. A gallon of priming coat will cover about
300 square feet. All exterior woodwork that is to be painted
should be primed immediately upon its delivery to the premises.

1 Kidder, Architects’ and Builders’ Pocketbook, 1912, p. 1403.

38 MANAGEMENT OF DAIRY PLANTS

Painting Proper. — After the priming coat is properly dried,
two or more coats of ordinary paint should be applied. A gallon
of paint will cover about 600 square feet. White paints are
frequently used in our most modern creameries, often with a
darker wainscoting. A very attractive effect is produced by
applying two or three coats of common white paint followed
with two coats of white enamel paint. If the proper enamel is
secured, woodwork or cement walls thus painted may be washed
with soap and water.

Painting Steel and Iron. — In painting structural steel or
galvanized iron, it should first be thoroughly scrubbed and
dried, then painted. The first coat should consist of pure red
lead and pure linseed oil mixed in the proportion of twenty-five
pounds of lead to one gallon of oil. The next two coats should
consist of white lead and linseed oil, mixed with coloring matter
as desired.

VENTILATION

A creamery or dairy establishment should be well equipped
with windows, and these should be kept open as much as pos-
sible. But ventilation obtained in this way is far from sufficient.
If the chimney is of good capacity, it can be made to serve as
a most excellent means of ventilation. Mr. J. Sorenson ! recom-
mends the placing of two registers in the chimney, each to be
from 6 to ro inches square. One is to be located about 6 inches
from the floor and the other near the ceiling, the lower being
used during cold weather and the upper during summer months.

One type of simple ventilator is in the form of a flue extending
from the ceiling through the roof and properly protected with
a hood. This type is fairly satisfactory during the summer
season, but during the winter too much heat escapes through
the flue. A type similar to the King system of ventilation will
prove more satisfactory. This should consist of large openings
near the floor from which flues extend through the roof of the
building. The foul air is drawn up and discharged through
these flues, and the fresh air is admitted through a series of

1 Bul. 41, Minnesota Dairy and Food Dept., 1912.

CREAMERY CONSTRUCTION 39

small openings placed midway in the wall on the opposite side
of the room.

A hood connected with a flue extending through the roof
should be installed over wash sinks and pasteurizers so that
steam from such places may be conducted away from the
room.

CHAPTER IV
SEWAGE DISPOSAL
SEWER SYSTEM

ALL rooms in the creamery, except the coal room and the re-
frigerator, should be connected with the sewer. Water from
wash sinks should be conducted through a pipe directly into
the sewer, a trap being placed under the sink. Some creameries
have an open drain or gutter in the workroom, with the floor

Fic. 5. — A sewer system that is readily cleaned.

sloping gently toward a trap through which the water runs into
a closed tile or sewer system.

If tile is used in constructing the drainage system, it should
be glazed. The tile should have a diameter of from 6 to 8 inches,
and should be so laid that it may be cleaned with a wire or iron
rod, if necessary. The sewer system in a large building should
be constructed to clean readily by sections without requiring

40

SEWAGE DISPOSAL 41

pipes to be cut. This may be accomplished by using Ts or
double Ts instead of Ls, closing them with plugs.

Sewer Traps. — A sewer trap is a contrivance holding water,
to be placed in local drainpipes wherever there is danger of air
from a sewer getting into the interior of a building. The water
acts as a seal against passage of gas in either direction, but
permits free passage of liquid in the direction of the main sewer.
The principal kinds of traps used in a creamery are the bell
trap, the siphon trap, and the S trap.

1. Bell Trap. — This is the one most commonly used in
smaller creameries. In large creameries, the bell trap is often

SLIPILIAR IIS. pee i marae eens: aaar22*

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S

SL LD y

BALVBVWVUBAsapeseeaeWaeeeVA WR LS&RULREUREBLERT

, a BULBRSVeweweeset Seale eVeaeeeaealwWeRaaBWaesass

Fic. 6. — Bell trap.

used as a floor trap, while one of the other forms may be added
to the sewer system. The bell trap alone usually affords suffi-
cient protection in small plants when a comparatively large
amount of water is passing through at short intervals and where
the creamery sewer is not connected with some larger sewer
system as in cities. A bell trap cannot be ventilated; therefore,
whenever that is found necessary, another style of trap should
be installed.

The principal reasons of insufficiency in a non-ventilated trap
are:

1, An increased pressure of gas within the sewer may displace

42 MANAGEMENT OF DAIRY PLANTS

the water seal enough to permit passage of gas. When this does
occur, the gas usually passes in the form of bubbles and can be
detected in that way.

2. Excessive suction may draw so much water out of the trap
that the remainder fails to act as a seal.

3. By evaporation, the water seal may be so lowered that
gas is allowed to pass.

4. By absorption, the water may take up gas on the sewer
side and liberate it on the house side.

2. Stphon Trap. — This is per-
haps the most satisfactory of traps
to be ventilated. The ventilator
should be the same size as the pipe
composing the drain. It is placed
in the second curvature of the
siphon. It is most satisfactory to
place the ventilated trap in a local
sewer before that enters the main
sewer. Bell traps will then usually
suffice for the floor traps.

3. S-Shaped Trap. — This type,
which can be ventilated, is used frequently under sinks and to
some extent, also, in the main sewer system.

Catch Basin. — It is well to have the large drain that leads
out of a creamery connect with a catch basin a short distance
from the building. This basin should be round, about 3 feet
in diameter, and from 5 to 7 feet deep, depending on the slope
of the ground. It may be built from either concrete or brick
as happens to be most convenient. Its use is to catch all heavy
materials, such as sand, nails, etc.; for this purpose, the bottom
of the basin should be from 2 to 4 feet lower than the tile that
carries the drainage away from it. This catch basin may be
covered with plank and about a foot of dirt, thus preventing
any odors from escaping. It should be inspected once or twice
a year to make sure that it is in good working order. If filled
up to any extent, it should be cleaned — the work of only a few
minutes.

SLIT M MIO ee.
f poses npamariotd

Zo
eo”

(OMIM OL MILL LMT

ID MS aa,

Sea

Fic. 7. — Siphon Trap.

SEWAGE DISPOSAL 43

CESSPOOL

In many places, the creamery will be required to purify its
sewage before allowing it to enter the town sewer or before dis-
charging it into public streams. For that purpose a cesspool
or a septic tank is used.

The cesspool may be utilized if the subsoil is of a loose, sandy,
or gravelly nature. The cesspool consists of a hole dug in such

Fic. 8. — Catch Basin.?

soil of a size sufficient to hold several days’ sewage. It should
be walled up with stones not too closely fitted together and the
top covered tight with planks and earth. The sewage water
will seep away between the stones into the surrounding loose
subsoil and thence gradually disappear. As this subsoil becomes
clogged with suspended particles from the sewage, it gradually
decreases in efficiency as a filter. Then a second cesspool is
often dug, the sewage being conducted from one to the other
through a tile placed some distance from the bottom of each pit.

The cesspool is hardly to be recommended, as it has too many
possibilities for danger through contamination of well water.
But if used, it should be located at least 400 or 500 feet from
the well.

1Bulletin 46, Minn. Dairy and Food Dep.

44 - MANAGEMENT OF DAIRY PLANTS

SEPTIC TANK

In sewage purification, the septic tank proves of greater serv-
ice and of less danger than the cesspool. In the latter, sewage
is purified by filtration. In the former, it is cleansed mainly
by a process of fermentation. This process involves the follow-
ing principles which in turn influence the size and form of con-
struction of the septic tank:

1. Solid matter in the sewage which is subject to fermenta-
tion must be given time to be decomposed by bacterial action.
This calls for a tank large enough to hold several days’ drainage.

2. The bacteria are anaerobic and work best where sewage is
quiet and covered with air-excluding scum. To accomplish this,
the tank is divided into compartments which will automatically
retard the flow of sewage between intake and outlet and keep
fresh sewage separate from the older, thus hastening decom-
position in the latter.

It is maintained by some that the septic tank alone will be
sufficient for the purification of sewage from the creamery. But
it is safer to connect the septic tank with a filter bed over which
the fermented sewage is discharged from the tank, either directly
or through an intervening dosing chamber. By this method
the purification of sewage is accomplished in two stages and
with greater certainty of result.

1. The reduction process, which takes place in the tank and
under conditions of air exclusion. Here the solid matter held
in suspension in the sewage is decomposed by fermentation into
an easily burned substance.

2. The oxidation process, occurring in the filter bed and with
greatest possible exposure to air. Here the products of reduc-
tion are spread over the surfaces of numerous soil particles and
thus purified through oxidation.

Size of Tank. — The tank must be so large that it will hold
sewage accumulations long enough for complete decomposition
to take place. In creamery sewage, the solid matter is largely
milk remnants in which decomposition is confined mainly to

1 Wisconsin Exp. Sta. Bulletin 245, 1915, p. 54.

SEWAGE DISPOSAL 45

liquefaction of protein, breaking up of milk sugars, and emulsi-
fication of fats. This generally necessitates a larger tank than
for a like amount of ordinary sewage.

The size necessary to take care of this daily flow can be es-
timated in various ways, one being to assume that the amount
of sewage will be from 1 to 1% gallons for every pound of butter
manufactured. In general, a septic tank for creamery use
should be large enough to hold the sewage which would accumu-
late for about six days in the summer season. As fermentation
will be slower during winter, the sewage must be left longer in
the tank in order to decompose; but this is offset by the smaller
quantity of water used during winter months. Hence, one size
will usually prove satisfactory the year round.

But before a septic tank is installed, the sewer from the build-
ing should be so connected that water which does not need
purification may be conducted away from the creamery without
passing through the septic tank, and only such drainage as needs
purification should be admitted to the tank; otherwise, the
sewage in the tank becomes too dilute and a much larger tank
will be required. Chemicals, such as strong acids or alkalies,
should be eliminated from sewage for the tank.

Construction of Tank. — The septic tank should be so located
that its inlet is at least somewhat below the outlet from the
factory. The most satisfactory material for construction is
concrete. To facilitate decomposition, as explained above, the
tank should be divided into three compartments of equal size.
The outside walls and bottom should be about 12 inches thick;
the partitions may be reduced to 6 or 8 inches in thickness.

Siphons connect the first compartment with the second and
the second with the third. They prevent the scum from being
carried away and thus destroying the putrefactive bacteria.
They also prevent the drainage from running across the surface
of the tank without remaining to be decomposed. These two
siphons, together with the inlet and outlet pipes, may be con-
structed from 4-inch pipe.

The inlet pipe discharging sewage from the factory into the
tank and the outlet pipe at the opposite end should each have

46 MANAGEMENT OF DAIRY PLANTS

an elbow on the inside of the tank so that the drainage will be
delivered and take its exit below the surface of sewage already
in the tank, thus not disturbing the scum.

The partitions, the elbows at the two ends, and the siphon
connections all operate. to compel the liquid to run slowly
through the tank as desired and to keep the scum undisturbed.
As the drainage enters, the substances not in suspension — solid
matter, sand, etc. — settle to the bottom, and leave the liquid
portion to be at once attacked “ye numerous decomposing
ferments beneath the scum.

The cover of the tank may be constructed from planks or
from concrete, the latter béi.s the most satisfactory. It should
be provided with manholes through which the sediment in the
tank may be removed at least once a year.

Dosing Chamber. — Farrington and Davis ' recommend that
a dosing chamber be provided between the septic tank and the
filter bed, its purpose being to compel the liquid from the tank
to discharge onto the filter bed intermittently instead of contin-
uously and thus allow air to permeate the filter bed at intervals.

The dosing chamber should be large enough to contain effluent
from the tank sufficient to flood the filter bed from one to three
inches deep. The depth of the chamber should equal the dis-
charging depth of some standard siphon.

Filter Bed. — This is constructed from about a foot of gravel
on top of which is added three or four feet of coarse sand, tile
being laid at the bottom of the gravel for carrying the water
away. Farrington and Davis estimate that the area of the
filter bed should be such that the rate of application of the settled
wastes would not exceed 25,000 gallons per acre in 24 hours.

Thus, AOU IESE area of filter needed, in
25,000

square feet.

If the effluent has too strong an odor, they recommend that
chloride of lime be added to it in the dosing chamber about an
hour before its discharge onto the filter bed. The proportion

1 Wisconsin Exp. Sta. Bulletin 245, 1915, p. 13.

47

SEWAGE DISPOSAL

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48 MANAGEMENT OF DAIRY PLANTS

of lime chloride thus added should be from 1 to 5 pounds to
1,000 gallons of effluent.

Sewage for Irrigation. — Experiments have been carried on
to some extent in Denmark and Ireland, using creamery sewage
for irrigating purposes and flooding several small fields alter-
nately by intermittent discharge. In the United States, this
would be of little interest to city manufacturers and, for the
present, of but small value to country operators.

CHAPTER V
REFRIGERATION

OnE of the chief requirements in any creamery is adequate
means for keeping the products it handles properly cooled. Re-
frigeration may be brought about either by a natural or by a
mechanical system. In either case, however, it is essential that
cooling rooms and cooling tanks are properly insulated.

INSULATION

A thermic insulator is anything which prevents or retards
the transmission of heat. As applied to a creamery, insulation
means the separation of its storage rooms from outside tempera-
tures by non-heat-conducting walls, ceilings, floors, windows and
doors. The insulator conserves refrigeration which has been
created through natural or artificial means; hence, the slower
its powers of heat transmission, the better the insulator will be.
Any rules of guidance for effective insulation must, therefore,
be based on the principles of heat transmission.

Transmission of Heat. — Heat may be transmitted in three
ways:

1. By Radiation. — Heat is transferred from one body to an-
other where the temperature of the intervening medium remains
unaltered. This form of transmission is of less importance in
considering the subject of insulation.

2. By Convection. — Heat is transferred by convection when
it is carried from one point or object to another by means of
some outside agent as air, water, or any gas or fluid; thus heat
may be removed from a cold-storage room by the brine method
of refrigeration. In the case of a refrigerator wall with large
air space, the face next to the outer air is warmer than the face
next to the cold room. In the air space, the air against the

49

50 MANAGEMENT OF DAIRY PLANTS

outer wall becomes heated and rises, its place being taken by
the cold air against the inside wall. As this in turn becomes
warm, it forces its way upward; the other air, having gradually
cooled, drops to the bottom; thus a continuous circulation is
set up inside the air space itself and heat is constantly trans-
ported by convection.

3. By Conduction. —'This mode of transmission is accom-
plished by the transfer of heat from one molecule to another.
It is the mode oftenest to be reckoned with in problems of in-
sulation. The heat conductivity of dense substances, such as
metals whose molecules are heavy and close together, is high;
the conductivity of lighter material, such as wood, is less; while
that of the gases is extremely low. An absolute vacuum would
be an absolute insulator, but that is practically impossible on
a large scale. Material containing the greatest amount of air
divided in the smallest air spaces forms the best insulating
material.

Formula for Estimating Heat Conduction. — Of course,
there is no building material or form of construction which gives
perfect insulation. The total amount of heat which any given
insulation will transmit in 24 hours is the measure of the re-
frigeration lost through imperfect insulation in that time, and
hence of the refrigeration that must be applied every 24 hours
to offset that loss and keep the storage room at a given degree
of temperature. For calculating this loss and consequently
needed offset, the following formula may be used:

R = fn (¢—V’) British thermal units 1

In the foregoing formula, f represents the total square feet
of insulating surface surrounding a given storage room — walls,
floor, ceiling, windows, and doors; 2 is the number of B. T. U.
of heat transmitted through such surface every 24 hours for
each square foot, for each degree Fahrenheit of difference in
temperature between inside and outside of wall; ¢ is the average
temperature outside the wall, and ?’ is the temperature to be

1A B. T. U. is the amount of heat required to raise the temperature of rt pound
of water 1° F., at its greatest density.

REFRIGERATION Si

maintained inside. R represents the number of units of re-
frigeration lost through these walls every 24 hours, and hence
of refrigeration that must be supplied every 24 hours to offset
that loss.

In other words, R is the measure of ice meltage in 24 hours,
expressed in British thermal units. This, translated into tons 4
of ice which can support that meltage, gives the following
formula:

Factors Governing Insulation of Storage Rooms. — The
selection and use of insulating materials are to be guided by the
following factors:

1. Insulating Powers of Materials, Structures, and Walls. —
The insulating power of any material, structure, or wall is really
the same as its heat-conducting power applied inversely, and
is measured by the value of m as given in the formulas above.

A. Insulating Materials. — For different materials, Siebel 2
gives the following values for n:

GE (ome: WOOes 6) er a aeiet Gis Gen, Oak a0. Pe,
pees Who Yer gal] D100 ee npr es a 1.6 ie
Pera MULAL EG NCORK, 0. 02 ts tone te, fo. 13 5
AMO ASICS Peg Otol ke Nad Se 1.0 *

PARSE WCHISE eyeutiise vekd Yd heed Ohan es 1 2 4 Et es
‘+ charcoal, powdered e.. 5.6.0 des 1.3 “
MICO EEO are eye oe ee recs A eet cL OF o.7 gs
SURSOLEMIAPOE WeNe skin ecnud at vena ho 0.5 ef

B. Insulating Structures. — In the following table by Starr,3
the value of for different structures is shown in column I.
Column II shows the meltage of ice in pounds per 24 hours,
where the difference in temperatures is 40° F. and the trans-
mitting surface is 100 square feet.

1To convert 1 pound of ice at 32° F. into water at 32° F. requires an amount of
heat equal to 142 B. T. U. — known as the “‘latent heat of fusion”’ for ice.

2 Siebel’s Compend. of Mechanical Refrigeration and Engineering, ro11, p. 117.

3 Ibid, p. 381. 5

52 MANAGEMENT OF DAIRY PLANTS

TABLE I

TRANSMISSION OF HEAT THROUGH VARIOUS INSULATING ‘STRUCTURES

Structures

5/8-in. oak — paper, 1 in. lampblack, 7/8-in. pine. (This is

the ordinary small stock family refrigerator.).........
One 7/8-in. board, 1-in. pitch, 1 7/8-in. board............
Four 7/8-in. spruce boards, two papers, solid, no air space .
Two double boards and paper (four 7/8-in. boards), and one

PET As) Os = Aa a CPR EL egcp) eage ee par OP > SA VOR ge a eared ea ane
One 7/8-in. board, 2-in. pitch, one 7/8-in. board..........
One 7/8-in. board, 2%-in. mineral wool, paper, one 7/8-in.

Two 7/8-in. double boards and two papers, 1-in. hair felt. .
Two 7/8-in. boards and paper, 1-in. sheet cork, two 7/8-in.
boats ane paper. ere eae ete teste pie ee hake %
One 7/8-in. board, paper, 2-in. calcined pumice, paper and
CASTES SEUREs Geaze Aide ay cme rnetenetat ras we tr eet MACE Yuta,
Four double 7/8-in. boards with paper between (eight
beards) ‘and three 8-nivair spaces idee i ees
Hair-quilt insulator, four boards, four quilts, hair.........
One 7-in. board, 6-in. pat. silicated strawboard, air cell
finished inside with thin layer pat. cement...........
One 7/8-in. board, paper, 3-in. sheet cork, paper, one 7/8-in.

Two 7/8-in. boards and paper, 8-in. mill shavings and paper,

two-7/S-in: boards'and paper... 0.8 els ea ok ee
PIAS SHEMET Y MOISE 5/27 bec hae Sit ee el easy A a8 cae eat ae oa
SIAITEE MATIN. Veit vere sunlcetorsyord Mal ow st becteas ceciaustel mata thd ePenematale
Double boards and paper, 1-in. air, 4-in. sheet cork, paper,

Olle. "7 (Sate POAT SS. «25, eee A Ae caesar ett ee
Sane with sail, Sneek Cobley. 20m Mae clea tenes
7/8-in. board, paper, 1-in. mineral wool, paper, 7/8-in. board
Double boards and papers, 4-in. granulated cork, double

Dowras and paper yi.s co cae at ee ee eae

I

1.80

ry

160.
138.
120.

105.
rig:

Lor.

48.

~J

OD

C. Insulating Walls. — Pine wood is a good insulator. When
used for walls, the value for m has been given as 2 B. T. U.

REFRIGERATION 53

Brick is a much better conductor of heat and therefore a poorer
insulator. In accordance with results obtained in Germany,!
the value of for a brick wall 1o inches thick is 8.5 B. T. U.
If an air space is added to the wall, this figure is reduced to
6.1 B. T. U. If the wall is absolutely air-tight, the thickness
of the air space is immaterial.

According to the same report, sandstone and limestone are
still higher conductors of heat than brick. In a 12-inch wall
built from sandstone, the value was found to be 11.0 B. T. U.;
and in a wall built from limestone of the same thickness, 1
proved to be equal to 13 B. T. U.

For a single-sashed window, the factor » may be taken as
12; for a double-sashed window, as 7 (Box).

D. Thickness of Insulation. — The heat-conducting powers
of any insulation are approximately inversely proportional to
its thickness, other conditions being equal. A 1o-inch brick
wall will transmit 8.50 B. T. U., whereas a 4o-inch wall under
the same conditions will transmit only 3.85 B. T. U.

2. Temperature to be Maintained. — A decrease in the tem-
perature to be maintained requires a corresponding increase in
insulating power. This is illustrated in the following table:

Temperature from —10 to 5° F., use 6 in. cork

ce e Oo «6 ce ce ce

5 to 20 5
ce ec 20 to ee ce e 4 cc ce
ce ce 22 to 45° “ce ce 3 ce ee
ce ce 45 and above ce 2 ce ce

3. Climatic Conditions. — These will naturally affect the dif-
ference in temperature on the two sides of a wall and will con-
sequently affect the transmission of heat. They should be
given due attention when constructing a cold-storage room
close to an engine room or a boiler room, or when constructing
it with an outside wall face, or when locating it on a south
rather than a north exposure.

4. Other Factors. — The materials used for insulation should
be free from rot, mold, and offensive odors. In both nature of

1 Siebel’s Compend. of Mechanical Refrigeration and Engineering, tort, p. 382.

54 MANAGEMENT OF DAIRY PLANTS

materials and form of construction, the walls should be vermin-
and germ-proof and should give no inducement for mice and
rats tonest within them. Insulation should be not only moisture-
proof, but also elastic and of light weight to prevent settling.
Other qualities to be regarded are the degree of fireproofness,
durability, strength, appearance, cost, etc.

Construction for Insulation. — All refrigerators should be
constructed with a vestibule. When the door of the vestibule
is open, the door of the refrigerator should be kept closed, and
vice versa.

1. Dead Air Space. — This is the oldest form of insulation.
Although the air itself is a good insulator, it should be divided
into small air cells to be most efficient. In a large space, heat
is carried readily from one side of the wall to the other by convec-
tion, and the slightest crack or even nail hole will tend greatly
to reduce insulating power.

The inefficiency of this form of construction is demonstrated
by Ruddick. A refrigerator thus constructed with a 6-inch
dead air space melted 1,879 pounds of ice. During the same
time and under the same conditions, a refrigerator of the same
size and of same construction, except that the 6-inch hollow
space was filled with sawdust, melted 1,328 pounds of ice. The
third type of refrigerator, similarly constructed with 6 inches
of shavings, melted 1,055 pounds of ice during the same time
and under the same conditions. The average temperature held
in the refrigerators was 42° F. for the one built with air spaces,
41° F. for the one insulated with sawdust, while the temperature
was reduced to 37.6° F. in the one insulated with shavings.

2. Sawdust and Shavings. — As already stated, both are effi-
cient insulators; but they must be kept dry. Sawdust absorbs
moisture more readily than shavings. When damp, both lose
greatly in efficiency; and sawdust will then not merely become
a most excellent conductor of heat, but will also settle and leave
an empty space on top. Shavings, if properly packed, will not
settle. They are, as a whole, the most satisfactory of the two
materials,

1 Canada Dairy Commr. Rept. for 1906, pp. 52-55.

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50 MANAGEMENT OF DAIRY PLANTS

3. Cork. — Cork is perhaps one of the most satisfactory ma-
terials for both efficiency and durability. It is used in the form
of granulated cork and also as cork slabs. Slabs are put on in
one or more courses, in the latter case all joints being broken.

In accordance with instructions given by a constructing firm
the cork board should be erected in a half-inch Portland cement
mortar mixed in the proportion of one part Portland cement
to two parts clean, sharp sand. Against the exposed surface of
this cork board, a Portland cement plaster finish, about 1% inch
in thickness, is applied in two coats. The first coat is approxi-
mately 14 inch in thickness, mixed in the proportion stated
above, and rough scratched; the second coat is approximately
14 inch in thickness, mixed in the proportion of one part Port-
land cement to one and one-half parts of clean, sharp sand,
and brought to a finish with a steel trowel. The plaster should
be kept wet by daily sprinkling for at least a week after the
second coat is applied, in order to reduce cracking to a
minimum.

The ceiling and floor are insulated in a manner similar to
the wall. The cork boards should fit closely together at the
corners (see Fig. 11). The floor, if a ground floor, should be
dug down to such depth that, after the insulating material has
been applied, it will be level with other floors in the building.
Such a floor may be constructed as follows: After the ground
has been properly graded, cinders to the depth of about 4 inches
or more may be added. These are thoroughly packed and on
them is placed about 4 inches of concrete. On top of this the
cork boards are laid so as to join with the cork boards of the
walls. The floor is finished by adding about 4 inches of con-
crete on top of the cork and then about % inch of finishing
cement, as in laying any other cement floor.

4. Mineral Wool. — Mineral wool is made from the slag of
blast furnaces. It will absorb moisture; but aside from that,
it meets the requirements of an efficient insulating material.
It is now furnished in slabs as the most convenient form for
use. In this form it may be put on walls in the same manner
as cork slabs; but, not being waterproof, it is usually put on

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with a waterproof hot cement made from a mixture of pitch
and asphaltum. As in the case of cork, it is finished in a smooth
cement plaster.

5. Lith. — Lith is considered to be as satisfactory an insulat-
ing material as cork, except that it takes up moisture more
readily. It is cheaper than cork. The construction with lith
is the same as with cork."

6. Other Materials. — Other insulators, such as hair felt,
might be mentioned; but this has not become of much impor-
tance for creamery-storage insulation.

SYSTEMS OF REFRIGERATION

Two systems of refrigeration exist — the “Natural” and the
‘““Mechanical.”” The natural system uses ice as its source of
refrigeration; while the mechanical system removes the heat by
merchanical methods.

NATURAL REFRIGERATION

Methods. — In natural refrigeration, the ice used for cooling
purposes must be stored, requiring an ice house more or less
insulated. In using that ice for chilling stored products, the
refrigerator may be cooled by any one of three different methods.
The temperature may be lowered by the use of ice placed in
an ice bunker located in the refrigerator, or by connecting the
refrigerator with a contiguous insulated ice house, or by in-
stalling a tank above the refrigerator from which ice-cooled
brine is circulated through the refrigerator in a system of pipes.

1. [ce Bunker Method. — This is the oldest form of refrigera-
tion and is yet in most common use in the smaller creameries.
The ice is placed in a bunker overhead and usually at one end
of the refrigerator. The refrigerator is frequently built against
an outside wall through which a small refrigerator door admits
ice from outside to the ice bunker. By leaving this door open
during cool nights, the refrigerator may be kept in good condi-
tion without ice during a good portion of the year.

‘For mineral wool slabs and Lith metal lath should be used for holding the
plaster.

REFRIGERATION 59

The ice bunker should be so placed and constructed that it
will cause circulation of the air in the refrigerator. This is done
by placing a tight board screen on one side of the bunker and
slats or cleats on the opposite side (Fig. 12). The air will then
enter the ice bunker from above the board screen and come in
contact with the ice. The moisture from the air unites with
the water melting away from the ice and is carried away with
it; the air, which thus becomes dryer and chilled by the ice,
descends through the open side of the bunker. If both sides

Fic. 12. — Section showing perfect air circulation in an
ice bunker refrigerator.

were open, the air would descend from both sides and thus
result in conflicting currents which would check the circulation.

The bottom of the ice box on the inside is covered with gal-
vanized iron sheeting turned up on the walls of the box from
4 to 6 inches. From this galvanized pan a galvanized iron pipe
carries the water away. This water may be collected outside
of the refrigerator and, if the ice is clear, may be used for testing
and other laboratory purposes. The pipe carrying water from
the ice pan should be equipped with a trap to prevent com-
munication of air between the refrigerator and the outside.
The bottom of the ice box should be insulated on the outside
and the ends of the box tightly boarded up.

60 MANAGEMENT OF DAIRY PLANTS

2. Insulated Ice House Method. — By this method, the refrig-
erator is connected directly with the ice house. This plan, as
far as known, originated in Minnesota ! and in Canada.?

A. Advantages. — The principal claim made for this ice
house is its saving of labor, as the ice need not be handled after
once placed in the ice house. It is also more sanitary than the
old-style ice bunker, and the refrigerator connected with the
insulated ice house is always dry and well cooled. Further-
more, as the ice taken from it is always clean, none is lost through
having to cleanse it before using. The only disadvantage that
might be mentioned here is the original cost of construction.

B. Construction.* — For the construction of this system, it is
recommended that the ceiling in the ice-storage part should be
as high as possible — from 16 to 22 feet, while the refrigerator
room should be from 6% to 7% feet high. The walls between
the ice house and refrigerator need not be as heavily insulated
as the outside walls; but they should be as nearly air-tight as
possible, except near the floor and ceiling where openings should
be provided for circulation of air. The cold air will pass from
the ice-storage room into the refrigerator through the floor
vents, will gradually warm up and rise to the ceiling, and will
thence pass back into the ice-storage room again through air
flues, coming there in contact with the ice and depositing its
absorbed moisture. The air flues from the upper vents are
necessary in order to make the air pass over to the farther wall
and thus effect a complete circulation throughout the ice house.
To allow free circulation, the total area of all openings at the
floor should equal about 600 square inches, with the same total
for ceiling vents. These vents should be closed during winter
weather to keep the refrigerator from getting too cold.

The walls, ceiling, and floor of this ice house should be insu-
lated in the same manner as regular cold-storage rooms, not
less than 4 inches of cork or lith being used. It is recommended
that the floor of the ice room have a slope of 3/8 inches to the

! Bulletin 41, Minnesota Dairy and Food Department, 1912.
2 Report of Dairy Commissioner for the Dominion of Canada, 1906.
* Bulletin No. 41 of Minnesota Dairy and Food Department, 1912.

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62 MANAGEMENT OF DAIRY PLANTS

foot, leading to a cement tank set in the corner of the ice-storage
room to catch ice meltage. This meltage can be pumped thence
to the cream vats for cooling purposes. The tank should be
3 feet by 4 feet by 8 feet deep, or larger, and set flush with the
floor. It should have an overflow connected with the sewer
through a trap. Two 14-inch galvanized iron pipes should be
laid in asphalt and granulated cork 4 feet below the floor, con-
necting the tank with the cream vats through a pump. By one
pipe the cold water will be carried from the bottom of the ice-
meltage tank to the bottom of the cream vats, and by the other
pipe that water will be returned to the same tank from the
surface of the cream vats. If the water in the tank is not sufh-
cient to cool a large amount of cream, ice may be placed in this
tank instead of bringing it into the creamery.

A small window with six or seven layers of sash, giving five or
six intervening air spaces, should be placed next the ceiling of
the ice room to give light. Another similar window should be
placed in the refrigerator, about 5 or 6 feet above the floor.

The outside door to the ice house should be 32 by 7 feet.

C. Filling the Ice House. — While packing the ice, a working
space about the size of four cakes of ice should be left inside the
doorway. It is recommended that the ice be cut into oblong
cakes and be piled lengthwise and crosswise in alternate layers,
thereby binding together and preventing the ice from leaning
against the wall. When the ice room has been filled, the out-
side door should be closed and sealed with suitable insulation.

3. Gravity-Brine Method. — This method of refrigeration con-
sists of a system of continuous coils of pipe containing brine of
such strength that it will not freeze. Part of this system of
coils extends through a salt-and-ice tank above the refrigerator.
Here ice and salt are mixed in proper proportions to insure the
desired temperature for the brine passing through it., The
brine thus cooled descends by force of gravity through the
lower portion of the coil extending through the storage room.
There it takes up the excess heat from the room and is again
forced up through the cooling tank by the cooler and heavier
brine, thus establishing a complete circulation. The greater

REFRIGERATION 63

the difference between the temperature in the cooling tank and
the temperature of the refrigerator, the greater is the velocity
of circulation.

4. Common Ice House. — This is the kind of ice house used
with the ice bunker and with the gravity-brine methods of re-

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frigeration. It is not connected with the refrigerator and is
seldom insulated to the extent of the one used in the insulated
ice-house method. It is often constructed from one thickness
of boards; and when packing the ice, space is allowed for one
foot of sawdust to be packed between the ice and the wall.
Some ice houses are built with a double wall insulated with from
8 to 12 inches of shavings. If the walls are thus insulated, it
is advisable to have the floor also insulated; and for this pur-
pose no insulation is more satisfactory than cinders and cork.

64 MANAGEMENT OF DAIRY PLANTS

The ice should be packed as already described, and may be
covered with prairie hay.

Estimating Ice Storage. —In building for ice storage, it
is necessary to determine the space required which, in turn, is
dependent on the amount of ice likely to be needed during the
year. For these estimates there are more or less definite methods
of calculation.

t. Amount of Ice Required. — In determining the amount of
ice to store, we should consider the loss of ice due to melting in
the ice house, the loss of ice in the refrigerator due to conduction
of heat through walls, floor, ceiling, etc., the amount of ice
required for chilling the particular products kept in the refriger-
ator, and the amount of ice used in the factory for various
purposes. In the problems that follow, it is supposed that ice
will need to be used for refrigeration only about 6 months in the
year, on the average.

A. Loss from Shrinkage in Stored Ice. —In an ice-storage
house without artificial refrigeration, Siebel 1 estimated the
shrinkage from January to July to be 1/10 pound of ice every
24 hours for every square foot of wall surface; or, in round num-
bers, from 6 to to per cent of the ice stored during the 6 months
mentioned. In the average creamery ice-storage house, the
shrinking is usually estimated to be nearer 20 per cent; and this
latter rate is the factor used in the following calculations.

B. Loss from Imperfect Insulation of Refrigerator. — (See
also the general formula, p. 62.) In refrigerators constructed
in accor ance with Table I (p. 63), the average loss in refrigera-
tion per day is 3 B. T. U. for each square foot, for each degree
of difference in temperature between the outside of the refriger-
ator an its inside. This average of 3 B. T. U. may reasonably
be considered as the unit of loss in 24 hours from the average
creamery refrigerator. Consider that, in a refrigerator 10 feet
square by 8 feet high, the temperature within the refrigerator
is 40° F. and that outside of the refrigerator is 70° F. —a fair
average for the 6 months. Then area of walls, floor, and ceiling
is equal to 520 square feet.

! Siebel’s Compend. of Mechanical Refrigeration and Engineering, 1911, p. 207.

REFRIGERATION 65

The amount of ice melted due to heat that is being conducted
through walls, floor, and ceiling during a period of 6 months or
180 days is equal to

520 X 3(70 — 40)

X 180 = 29.66 tons.
284,000

C. Ice Required for Chilling Products Stored. — Different
products take up a different amount of refrigeration for each de-
gree that temperature is reduced. This depends on the specific
heat of the product. The specific heat of butter at 60° F. is
-53 B. T. U.;2 that of cream at the same temperature is .84.
Suppose the refrigerator is used for butter only, and that 600
pounds daily has to be reduced in temperature from 60° to 40° F.
Then

Daily heat removed from 600 pounds of butter =

600 X .53 X (60 — 40) = 6,360 B. T. U.

If the butter is packed in tubs or boxes, it will furthermore be
necessary to reduce the temperature of these containers to the
same extent. Suppose ash tubs of 60 pounds capacity are used,
that each tub weighs 1o pounds, and that the specific heat of
wet ash wood be .4.* Then

Daily heat removed from 10 tubs = 100 X 4. Bo T.U..X 2o
= 800 B. T. U.

Daily ice required for cooling butter and tubs = 6,360 + 800
142

= 50.42 pounds.

Total ice required for 6 months = 50.42 X 180 = 9,075.6
9,075.6
2.000

pounds; or, = 4.54 tons.

1 The specific heat of any substance is the amount of heat, expressed in B. T. U.,
which will be absorbed by 1 pound of that substance in raising its temperature
1° F.; conversely, it is the amount of heat, in B. T. U., which will be given off by
1 pound of that substance in lowering its temperature 1° F,

” Research Bul. 14, Iowa Agr. Expt. Sta., 1913.

3 Bulletin 110, U.S. Forestry Bureau, gives the specific heat of dry white ash as
327.

66 MANAGEMENT OF DAIRY PLANTS

D. Ice Used in the Factory. — In a creamery where only
butter is manufactured, ice is used in the factory only for cooling
the cream to churning temperature — in this instance, supposed
to be 50° F. Cream is usually cooled first with water to about
65° F. If the water is quite cool, it may be used to reduce
cream temperature to 60° F. or even lower.

In manufacturing 600 pounds of butter daily, we can estimate
the amount of cream handled daily to be about 1,800 pounds.
Then

Daily ice required to cool cream from 65° F. to 50° F. =

TEOR UN AIST 159.71 pounds.

142
Total ice required for 6 months = 159.71 X 180 = 28,747.8
pounds; or, ciara alg 14.37 tons.

)

In addition to this, a further loss — probably ro per cent —
is to be reckoned in for ice lost in handling, in cooling water
used for circulation, and in absorption of heat frem the atmos-
phere. Losses in refrigeration due to opening of doors and to
heat given off by persons, lights, etc., do undoubtedly occur;
but there seems no way of reducing them to definite calculation.
It should furthermore be borne in mind that ice is used for
cooling purposes during the entire year and that the creamery
during the winter months is handling about 50 per cent as much
product as during the summer season. Therefore

Total ice used for cooling cream for 1 year

10
= 14.37 X = -+- ee = 23.95 tons.

Total amount of ice used for the creamery during the year:

Loss due to conduction from refrigerator............ 29.66 tons
Ice required for chilling the product................ Aas
Ice required for cooling’cream, ete)... 322.62. Bi. s e 2205 ie

REFRIGERATION 67

Adding to this the 20 per cent loss of ice in the ice house, we
arrive at the total amount of ice that should be stored for a
plant of such size and operated under such conditions as speci-
fied.

5o.r5 = = 72.69 tons.

2. Space Required for Ice Storage. — The weight of 1 cubic
foot of water at 60° F. equals 62.355 pounds; the specific gravity
of ice is considered to be from .g17 to .g22, the average being
ge. -MCreLOre

Weight of 1 cubic foot of ice = 62.355 X .g2 = 57.37 pounds.

Space in cubic foot required to store 72.7 tons of ice
e237 2% 2,000

57°37

In addition to this, from ro to 20 per cent should be allowed
for spaces between ice-blocks and for sawdust insulation in the
ice house.

An ice house built in the form of a cube is most satisfactory.

Each dimension of this cube of ice, with insulation, is, with

= 2,534 cubic feet.

20 per cent allowance, equal to W/2,534 X 42° = 14.5 feet.

To this figure should be added the amount of overhead space
required for working purposes.

CHAPTER VI
MECHANICAL REFRIGERATION
GENERAL DISCUSSION

History of Mechanical Refrigeration. — The mechanical
system of refrigeration is of rather recent origin. In 1834,
Jacob Perkins of London invented an ice machine using volatile
liquid. In this machine ether was vaporized and expanded
under reduced pressure maintained by the suction of a pump,
the heat required for such vaporization being abstracted from
the substance to be cooled. The resulting vapor was com-
pressed by the same pump into a vessel cooled by water, where
it was liquified.

This machine contained all four of the essential features
present in all modern compression systems; namely, the evapo-
rator or expansion coil, the compressor, the condenser, and the
regulating valve between the condenser and the evaporator.
Yet his system was not generally adopted, and it was not until
1861 that an ice machine was successfully used for commercial
enterprises.

Principles Involved. — Mechanical refrigeration is based
upon the fact that a liquid, when converted into vapor, ab-
sorbs heat from surrounding bodies. Chemicals which at
boiling point are considerably below the temperature of the
surrounding air, which are reasonably cheap, and which can be
handled with the least danger to life and property, are therefore
used in the refrigeration process. The chemical complying most
fully with such requirements is ammonia, and it is the liquid
most frequently used for mechanical refrigeration. Other chem-
icals, such as carbonic acid and sulphuric dioxide, are used to a
limited extent.

Ammonia. —Ammonia is used in one of two forms, either as

68

MECHANICAL REFRIGERATION 69

“Anhydrous ammonia” or as ‘‘Aqua ammonia.”’ The former
is free from water and exists in both gaseous and liquid form;
the latter is in the form of a solution of which about 29 1/2 per
cent is anhydrous ammonia. The anhydrous ammonia is used
in refrigerating machines of the compression type; aqua am-
monia is used in refrigerating machines of the absorption type.

Pure anhydrous ammonia, under ordinary temperature and
atmospheric pressure, exists in the form of gas or vapor; but
under atmospheric pressure at a temperature of — 30° F., it be-
comes liquid. It will also liquefy at higher temperatures if the
pressure is sufficiently increased. In its liquid form it is color-
less, has a strong alkaline reaction, boils at — 29° F. under
atmospheric pressure, and its latent heat of vaporization is
cee B. 1, Us, Its specific gravity at 32° F. iso. 6364... One
pound of this liquid, after being vaporized and the vapor raised
to 32° F., will occupy a space of 21.017 cubic feet under atmos-
pheric pressure.

Ammonia attacks copper and brass but not iron or steel, and
this fact determines the metal from which compression ma-
chinery must be made. Ammonia decomposes at goo® F. if in
pure condition; but if it contains impurities, it may decompose
at comparatively low temperatures. Ammonia may contain
impurities which will not influence its stability; but if mixed
with another brand of ammonia containing a different kind of
impurities which alone would not have any influence on its
stability, such ammonia may deteriorate much more readily
owing to the fact that the impurities of one supplement the
impurities of the other and cause decomposition. This explains
the advisability of not mixing different brands of ammonia.

COMPRESSION SYSTEM

In this type of refrigeration, the ammonia operates in a
cycle: First, the liquid or inactive stage; second, the vaporizing
or actively refrigerating stage, taking place in the expansion

1 The latent heat of vaporization for any liquid is the total amount of heat, ex-

pressed in B. T. U., which is required to change 1 pound of that liquid at the boiling
point into vapor.

7° MANAGEMENT OF DAIRY PLANTS

coils; third, the liquefying stage, during which the vapor or gas
is again reduced to its liquid form in two successive steps —
compression and heat extraction or condensation. Being thus
returned to its original liquid form, the ammonia may be used
over and over again in successive cycles of refrigerating activity.

The machinery through which this cycle operates is com-
posed of four principal parts: First, the expansion coil; second,
the ammonia compressor; third, the condenser, and fourth, the
expansion or regulating valve.

Expansion Coil. — This is that part of the system where
refrigeration takes place. Through reduction in pressure, the
liquid ammonia is there changed into a gas, thus absorbing heat
from its surroundings and thereby effecting refrigeration.

This expansion coil may be located directly in the refriger-
ator and serve as the refrigerating coil, in which case it is called
the “Direct Expansion” method of cooling. On the other
hand, the expansion coils may be placed in a tank of brine
from which the brine in turn is circulated through refrigerating
coils located in the refrigerating room. This indirect method of
cooling is known as the ‘‘ Brine Method.”

1. Direct Expansion. — The system of direct expansion is
adapted especially for rooms that are to be cooled to an ex-
tremely low degree of heat and in places where the machine is
operated constantly. It cannot, therefore, be considered the
most ideal method for the smaller creamery or dairy.

2. Brine Method. — This is the system which is most suitable |
for the average creamery. The brine tank should be located
in the refrigerator in a position and with insulation similar to
that of the ice bunker described under the natural system of
refrigeration (Chapter V). The larger body of brine retains a
more constant temperature, and in a smaller dairy the com-
pressor may be operated only for a short time daily in order to
reduce the temperature of the brine and so maintain the neces-
sary refrigeration.

The brine, when thus cooled, may be circulated by the aid of
a pump through a system of coils extending through various
refrigerator rooms. ‘This brine carries back to the brine tank

*mo\sAs SulyeIOSIjoI JO syed ZutjIauUO0d Jo poy} — “SI “SI

= Bae Fae aS HOtH Be Sa eet
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RASA AHA AAAS

72 MANAGEMENT OF DAIRY PLANTS

the heat it has removed from these rooms; here, in turn, this
heat is taken up by the vaporizing ammonia in the expansion
coils. Ice-cream freezers and cooling tanks may be connected
with the brine circulation, thus saving the handling of ice for
cooling purposes and its consequent loss from meltage. It may
not be advisable, however, to connect the brine directly to the
cream ripeners as it is apt, in time, to cause the cooling coil of
the cream vat to leak. The more satisfactory way is to have a
separate cooling tank in which the water used for cooling the
cream is first cooled by the brine.

3. Brine-Tables.— The brine may be made from either
sodium chloride or calcium chloride. The latter is most com-
monly used, owing chiefly to the fact that it does not cause the
iron pipes and pumps to deteriorate as does the former. The
brine should be kept at such a strength that it will not freeze;
therefore, if lower temperatures are desired, the brine should be
of higher specific gravity. For readily determining what
strength of solution will give a desired result under a given
temperature, tables have been published.

The table on page 73 is that prepared by Van Schaack &
Sons of Chicago.

4. Piping Required for Each Method. —'The amount of
piping required for a refrigerator room depends primarily on the
temperature to be maintained in the room and the temperature
of the refrigerating medium. Siebel estimates that for direct
expansion one running foot of 2-inch pipe ! will take care of 10
cubic feet of space in rooms that are kept below freezing to a
temperature of 10° F.; that one running foot of 2-inch pipe will
take care of 40 cubic feet of space in rooms to be kept at or above
32° F. or thereabout. It is a general rule in practice to allow
from one and a half to two times as much surface for brine
circulation as for direct expansion.

Ammonia Compressor. — The ammonia compressor is a
machine which draws the ammonia gas from the expansion
coil into the compressor, whence it is forced into the condenser

1 The surface of one running foot of 2-inch pipe is equal to 1.44 feet of 14-inch
pipe, or to 1.8 feet of 1-inch pipe.

MECHANICAL REFRIGERATION | 73

EXBLE,

TABLE OF HicH Test CHLORIDE CaLcrum SoLuTIons

: ; Freezing
Chlor. of Calcium | Degrees Salometer | Sbecific | Per Cent Pea
lo r Gallon of Baumé 60° F. Gravity of Palpon
Solution Oo FF. 60° F. | Calcium hen
— I 4 1.007 +31.
— 2 8 O14 2. +30.
== 3 12 T3027 2 208
— 4 16 1.028 BI se ees
Y% pound 5 20 1035 tae +28.
=== 6 24 1.043 ne 27
a 7 28 1.051 6. pe5e5
= 8 32 1.058 Fle +24.
I = 9 306 1.006 7.9 aan
= IO 40 1.074 Q. +22).
— II 44 I.082 9.8 1-25.
— 12 48 1.090 TONS +20.
ee oe 12 2 1.098 FINS +19.
= 14 56 Lalo7 12.5 ae as
— 15 60 DntES 25 Seo Ws
2 et 16.5 62 ah ee) ES). aia
ox 17 64 133 15.5 aT kOns
a 18 68 1.142 TORS ce
= 19 72 5 ay Ble as ays
sO ies 20 80 I. 160 18.1 + 2.5
x 21 84 1.169 FOGLE °
7 22 88 1.179 20.2 as
5 - 23 Q2 1.188 Ba a
a 24 96 T2103 iy pee a |
ava 25 100 I. 208 22.9 ae
a 26 104 1.218 24 —17
= oF 108 1.229 25.5 eae
4 g: 29 116 1.250 24 —32
Aa ee 32 128 I. 283 29.5 rao
5 SA 138 I. 307 32.1

74 MANAGEMENT OF DAIRY PLANTS

Discharge
Valve

SF} A = SWE
Mes BUA
lnadicalor —¥ ma
Valve p
a
LC)
Veler Stivleé
ft WN [ Sa
4 VY) Z| [= 4
Graculatled

Cock hersubabive VPRYY
Bj,

. SAV
SNLY NL
SARIS
RN
SAN
Wess
SN ASAYS

SAX

Fic. 16, — York single-acting ammonia compressor.

MECHANICAL REFRIGERATION 75

and there condensed back to its liquid form. The compressor
takes care of the first factor in this liquefaction; namely, the
subjection of the ammonia gas to the pressure necessary for
liquefaction. The condenser takes care of the second factor;
namely, the removal of
heat and the resultant
condensation to liquid
form.

We distinguish be-
tween two forms of com-
pressors— the “Single-
Acting” and the
“Double-Acting.” The
single-acting compressor
is always of vertical con-
struction; the double-
acting is most commonly
horizontal, although a
few of them are of the
vertical type.

1. Single-Acting Com-
pressor. — Fig. 16 rep-
resents the compressor
cylinder of a single-act-
ing compressor. The
gas enters at the bottom
of the cylinder, passes
up through the suction
valve in the piston, and
by the up stroke of the
piston is compressed and
driven out through the
discharge valve in the
center of the safety head. The piston and the bottom of the
safety head, each being faced off square and coming in contact,
allow a complete discharge of the gas. The compressor of this
type is incased in a water jacket. The water keeps the com-

Fic. 17. — Vilter double-acting ammonia
compressor.

76 MANAGEMENT OF DAIRY PLANTS

pressor walls cool and thus removes a portion of the heat in
the ammonia.

2. Double-Acting Compressor. — Fig. 17 represents the com-
pressor cylinder of adouble-acting compressor. This cylinder has
both a suction and a discharge valve in each end of the cylinder,
and while the gas is being discharged from one end of the
cylinder the other end is being filled with gas at suction
pressure.

3. Advantages of Each Type of Compressor. — The principal
advantages and disadvantages of each type of compressor have
been considered by F. Newkirk,! as follows:

“The single-acting machine has a simpler stuffing box for the
reason that it is not subjected to high pressure as in case of the
double-acting machine. The double-acting machine has a deep
stuffing box which must be kept very tight in order to prevent
loss of ammonia. This causes much friction on the piston rod
and requires more oil. This, if not properly separated from the
ammonia before same enters the ammonia condenser, will be
carried along to the condenser and reduce the efficiency of
same. In case of the vertical machine, the piston does not wear
on one side due to its own weight; the valves are more readily
adjusted, so the clearance is reduced to the minimum. It is
evident that the machine of the least clearance is of the greatest
efficiency.

“The double-acting machine, if properly adjusted, does
nearly as much work in one cylinder as the single-acting does in
two cylinders. The machine is low down and therefore more
convenient to look after, and it has only about half as many
moving parts as has the vertical machine.”’

Ammonia Condenser. — This consists of a series of coils
kept constantly cooled by water applied as a bath or as a trick-
ling stream. Into these cooled coils the compressed ammonia
vapor is forced from the compressor, passing through an inter-
vening oil separator. As the ammonia vapor passes through
these coils, the cold water absorbs the excess heat from the
ammonia and the latter collapses and passes out of the con-

1 Creamery Journal, July 1, rort.

‘Jesuepuod vUCUUe StaYydsouye UY — "gi ‘oLg

78 MANAGEMENT OF DAIRY PLANTS

denser in liquid form, thus completing the second and final step
in liquefaction.

On its journey through the system, the ammonia has risen in
temperature owing to heat acquired in two places — the latent
heat of vaporization taken up in the expansion coils, and the
heat of compression that represents work done on the ammonia
by the compressor. Some of this total acquired heat is absorbed
by the water jacket of the compressor; the remainder passes
into the condenser and is there removed by the cold water.

The temperature of the gas is, therefore, higher in the com-
pressor and condenser coils than in the expansion coils. But
there is a definite relation between the pressure of the gas and
its temperature. At a pressure of 15 pounds, the ammonia gas
has a temperature of o° F., while at a pressure of 150 pounds it
has a temperature of 80° F. Consequently, a great disparity
between the temperature in the condenser coils and that in
the expansion coils means a corresponding disparity between
the high pressure in the condenser coils and the low pressure
(or back pressure) in the expansion coils. The less this dis-
parity, the more efficient is the working of the machine. Con-
sequently, the low or back pressure should be reasonably high,
since the capacity of the machine is governed by the density of
the gas. The high or condenser pressure should be as low as
possible, since it requires less power to pump against a low
pressure, and since the temperature of compression is decreased
with decreasing pressure. As the temperature of the water used
for cooling determines the pressure of the gas, the water used
for that purpose on compressor and condenser coils should be as
cold as it can be had.

The most common styles of condenser are the atmospheric
ammonia condenser and the double-pipe ammonia condenser.
The former is more economical and is usually placed on the roof.
The latter is used mostly where the condenser is placed inside.

Expansion Valve. — The expansion or regulating valve is
the valve between the receiver and the expansion coil. When
this valve is opened the liquid escapes into the expansion coil,
and thus the cycle is completed.

‘Josuspuod BruOWUe adid-afqnop y — ‘61 ‘OL

80 MANAGEMENT OF DAIRY PLANTS

Size of Machinery Required. — In determining the size of
machinery needed, an estimate should be made of the heat
units to be removed during a period of 24 hours. To this result
should be added at least 20 per cent for clearance ! and other
losses. The size of a compressor is usually designated in tons of
refrigeration per 24 hours, basing it on the heat units required
for melting one ton of ice from 32° F. to water of the same tem-
perature. A 4-ton compressor has, therefore, the capacity of
removing 2,000 X 142 X 4 = 1,136,000 B. T. U. of heat im 24
hours. If this amount of work is to be accomplished in one-
fourth the time, a machine of four times that capacity will be
required.

Cost of Producing Refrigeration by Compression. — The
relative amount of power required for operating an ammonia
compressor differs inversely with the size of the compressor.
Thus, a compressor of to tons capacity or less usually requires
two horse power or more per ton of refrigeration. A larger
machine will require proportionately less; while for large com-
pressors, the power required may be reduced to about one
horse power per ton of refrigeration. It is safe, however, to
figure on the size of the engine being one and a fourth times as
great as the theoretical power required to propel the compressor.
Bowen ? estimates the amount of steam consumed by the com-
mon creamery engine as 40 pounds per horse power per hour.
If a 6-ton compressor is operated for 24 hours, and if it requires
a 15-H. P. engine for operating, and if each pound of coal pro-
duces 6 pounds of steam, then

Amount of coal consumed in operating compressor 24 hours

40 X 24 X 15
ee Tere ee pounds.
Figuring coal at $5 per ton, the cost for coal per ton of refriger-
ation will amount to one dollar. In addition, there should be
added the cost of water used for boiler and for the ammonia
condenser, the cost of labor, of oil, waste, etc. The amount ol
water required for the ammonia condenser will amount to about

! Clearance is the dead space between the piston and the cylinder head.
2U.S. Bureau Animal Industry, Circular 209, 1913.

MECHANICAL REFRIGERATION 8I

1 1/2 gallons at 60° F. per minute per ton of refrigeration. The
amount of ammonia used should not exceed one twentieth of a
pound per ton of ice manufactured in an economically operated
plant.

Cost of Making Ice. — The cost per ton for manufacturing
ice is nearly double that for refrigeration per ton. This is due
to the fact that, in ice making, the water must first be cooled to
freezing point, and, after being frozen, the ice must be cooled
still lower until it reaches the temperature of the surrounding
brine.

It is often claimed that natural ice will yield a greater amount
of refrigeration than artificial ice. There should be absolutely
no difference if both are properly frozen. In artificial ice made
from raw water, the cake of ice often has a reddish or, in some
cases, a milky or cloudy core through the center. The former
is due to iron; the latter is due to carbonates and sulphates of
calcium and magnesia. The discoloration may be overcome to
some extent by agitating the water with air during the freezing
process.

ABSORPTION SYSTEM

General Principles. — This system of refrigeration is based
on the fact that water has the power of absorbing various
vapors having a low boiling point, and that such vapors are
again readily separated from the water by heating the liquid.

In reality, there is much similarity between the compression
system and the absorption system. Common to both are the
condenser and the expansion coils, including the brine tank and
the entire circulating system. In the absorption system there
is a pump, but no compressor. The generator, the ammonia
receiver, and the absorber are also important parts. In addi-
tion, we have the analyzer, the exchanger, the dehydrator, and
other parts of less importance which are added primarily to
make the system more complete in its operation.

Operation. — This system may be operated without any
great amount of steam, the only steam required being that used
for the pump and the exhaust steam for the generator.

“SUTYRUL JT [ROYAL OJ wa}sAG — *O% “OLY

MECHANICAL REFRIGERATION 83

The strong-aqua tank is charged with aqua ammonia con-
taining 29 1/2 per cent of anhydrous ammonia. The ammonia is
pumped from the strong-ammonia tank to the generator, where
it is heated and the anhydrous ammonia distilled off. This
ammonia gas enters the condenser where it is condensed, and
from there it enters the ammonia receiver as liquid ammonia.
From the receiver, the ammonia is admitted through the ex-
pansion valve to the brine cooler, where it is again converted
into a gas, taking up heat from the brine. From the brine
cooler, the gas enters the absorber to be reabsorbed by the
water. The absorber and the generator are so connected that
the water in the generator, from which the anhydrous ammonia
has been distilled, is again transferred to the absorber and
thus the cycle is completed.

The absorption system has not been adopted so generally as
the compression system, and is used for plants of large capacity
only. Plants of less than ro tons’ capacity have not been con-
structed on the absorption system.

CHAPTER VII
LABOR
ORGANIZING A STRONG WORKING FORCE

THE organization of a strong working force is most readily
accomplished by employing capable men, mentally as well as
physically, by properly training and educating the employees,
and by creating loyalty among them.

Hiring the Employees. — When employing men, employ
such as will eventually work up to more responsible positions.
The employee who is not seeking additional responsibility will
never prove satisfactory in any position. The man who is in
demand is the one who has capacity for work, who will not
shirk details, who is anxious to learn, and who is of a strong
moral character.

To secure better information about men who may be hired,
some business houses, and among them creameries, submit to
each applicant a blank to be filled out by himself. Form I repre-
sents a blank for that purpose used by an Iowa creamery.
Form II represents a blank that is mailed to the reference
furnished by the applicant. This application blank, together
with the references, is filed for future reference, usually under
the head of the department in which employment is sought.
Under the department they are filed alphabetically according
to the names of the applicants. It is convenient to have a
sheet in front of each department file on which is listed the
names of the applicants appearing to be most capable.

1. Employment of Personal Friends and Relatives. — Employ-
ment of personal friends and relatives may have some advan-
tages, but has many more disadvantages. Employees con-
nected with the management by friendship or family ties often

create a feeling of dissatisfaction among the other employees.
84

LABOR 85

FORM I

NOTE—Anewer all questions clearly In your own
“hand writing. We expect and especially request that
epplicante notity us promptly should he eccept of a
position through any other source.

Application for Position as Buttermaker

She ECS aay ace ad all I od El ek Sk es eee fe MO COR Ppa oer A Lea een eg

Blanca Pee oe ee cent cite eicree cabin ee eee Bo Se re anos CAMS) oe che Me eet ker ge oe bees
How many years experience as Buttermaker -..... Peed es EN BY hee aie tS Se See ee eee Ee TS Re a
What Systems (Whole Milk or Gathered Gas) ers Cee Ate is 20F o oies Se Soo ets: Seen Lhe cays eae Ae rae
By Whom Eapyed Sy Sa Pare 2S eee eR Meal oe RR eae mA ae OR eon eas She atbine BREE Eee Let ceeer secre se Paeeee we

sata SOROS Ce eco DES Soe besce Sob Ss oe oh a AS BSR SS eee che hens Sine es SS Seen

State what Separatoss you havevrins 225.5. t5sscesee css estes tose Bo dae Seana ese ca aeas tesa deeeeoe esus aawen eee eee
Have -you used Combined Chumns La dadoes cca eeses State :whiat (land) 2244-5 7s ses Peele sc G sl ae ake seen ane —

Do you thoroughly understand Babcock Testing of Milk and Cream ......-.--.. 022-222-2202 2 eee ene eee ee ee eee eee

Damien eee ee ements ct Eds Os ae ek Ly alos ate a Poot a ae
UM aloes: 4ir-sesi created 0 SN RATINGS Be ne ae Ae cee oo Pa ea ee Beart ta!
Sis poker aes P areies -oc SN OO Ret Cle oe Pen ae eae ee oe
Have you ever been Discharged............- Give Reasous.........-- EIS NOE gee Ceo Ne

Can you Respond ic lesguesiote (Gal 558 Ee SE aos ioed Se ae 6 BORE enb nae Sa nwn Rel as eros sknacestooncdse ce

MANAGEMENT OF DAIRY PLANTS

FORM IL

To

We have received from Mr........-.-.--+-

application for position as...........-.0---

He refers us to you, stating that he was in your employ as.......

-

Jictavcusccscecacsvconece WO GIVES HIS APC A4-s.ccee

ee

Would be obliged if you would furnish the information called for below regarding his record while with

you.

We will consider your reply as absolutely confidential and if occasion affords will be glad to reciprocate.

Yours truly,

QUESTIONS

eae
1. Is the applicant well-known to you, and how long bavg you
known him?

—
2. Are you connected with him by relationship, or otherwise; if so,
in what way? i :
a a en
3. A. Is he, or has he at any time been addicted to the use of liquor,
or given to gambling, immorality or other bad habits?
B. If so, please state what they are and to what extent?

4. Has he ever been suspected of fraud, dishonesty or dishonorable
conduct?

We ep
5. Has his general conduct been guch as to entitle him to the con-
fidence of his employers?

SS
6. Is he engaged or Interested in any business or undertaking at
present? \

os
7. Has he ever failed in business; if so, please give circumstances
and terms of settlement?

Se ee
8. If ever in your service, on what date did he enter and leave your

employ?

9. What position did he fill?

10. For what cause did he finally leave your employ?

A. While in your employ did he have the custody of moneys?
B. Were his accounts in satisfactory condition when he left?

12.

il.

A. Were his services satisfactory?
B. Have you reason to consider him.competent to fill the posi-
tion he Is applicant for?

13. How long and by whom was he employed prior to his service
with you?

Was he ever dismissed or suspended from any employment? If
so, why?

14.

15. How or by whom was be employed after leaving your service?

ANSWERS

A

B.

Entered Left

ye

i : 4
————<—<$<$$$_$———

A

B,

Picase make any general remarks on back of this sheet,

J wapeinaercle baie e'a a pn oie’ bes.c BUSINESS Or ChCHPANON ay 5 neem sincsic es aac ae emer

LABOR 87

The foreman or the superintendent is at times, even without
realizing it, inclined to favor such employees more than their
fellow workers and unless they are of exceptionally strong
character they will often believe that they can get along by
doing less work and perhaps even work of poorer quality and
are tempted to take advantage of this circumstance. At some
codperative creameries it is customary to employ personal
friends or relatives of the directors, but it is often found that
such employees return less in labor than they are paid
for.

Training and Educating the Employees. — The superin-
tendent or other person in charge of subordinate employees
should take an interest in them and in the way they perform
their work. If the employees do various kinds of work during
the day, then it is beneficial to have each keep a systematic
record of his day’s work. To illustrate, a young man who
started as a helper in a small creamery made a written outline
of his day’s work, even to the extent of marking the time he
took to perform his various duties. Thus his attention was
daily called to the quantity as well as to the quality of his own
work, and as a result he made rapid advances.

1. Encouraging Originality. — The management should en-
courage originality among its employees. Wherever the leader
of an establishment has developed his own originality and that
of the employees he often finds this to be a source of great
income to the employers. In order to promote originality the
employer should reimburse his employees for new ideas and
inventions in proportion to the value thereof to the firm.
Some large industrial concerns are offering valuable premiums
for useful ideas and inventions made by the employees. Such
inventions are usually along the particular line of work in
which the employee is engaged. The same policy along similar
lines is being adopted by manufacturers of dairy products. It
is deserving of even wider adoption, for it gives added pleasure
_ and dignity to labor and it stimulates the employee to more
effective work because he likes to work and not because he has
to. Originality is very important to consider in the organi-

88 MANAGEMENT OF DAIRY PLANTS

zation of a working force; it is often this originality which
determines the success or failure of an enterprise.

2. The Factory School. —'The factory school has come into
existence during recent years. To our knowledge the first
school of that kind was established by a large corporation of
Dayton, Ohio, in 1892. This company was organized in 1884.
Its business increased from year to year, but it found its organ-
ization to be weak; its employees had no heart in their work.
The management conceived the idea of establishing a factory
school to teach the employees about the business and to interest
and encourage them. The first school met in an old church
which the company purchased and had fitted up as a lecture
hall. The lectures were illustrated with pictures, a plan which
has been continued in the company’s schools ever since. On
July 8, 1912, the company reported that it had for educational
use Over 30,000 stereoptican slides and over 150,000 feet of
motion-picture film covering a variey of subjects. The school
long ago was removed from the old church building to a new
school hall erected at a cost of over $150,000 and with a
seating capacity of 800. This school is now divided into
about twenty separate divisions. ‘The company considers that
this school is responsible in a great measure for its remarkable
growth.

The first creamery schoolroom built in connection with a
private creamery was that of a large creamery of Omaha. It
was completed in torr. In this room the superintendent,
manager, and directors meet with the employees to discuss
value of system, methods of systematizing the work, etc. Here
the employees begin to learn the value of thinking for them-
selves and to express their ideas in language understood by
others.

Each subject taken up in a factory classroom before a group
of employees should be most exhaustively discussed by the
employees as well as by their employers and supervisors so that
before the discussion closes the subject is fully understood by
all. When all have a clear understanding of the work in general
there will be more harmony and better work will be done by

LABOR 89

the individual employees. Meeting of employees for educa-
tional purposes should be held weekly. Other meetings may be
held, such as for the education of the superintendents, salesmen,
etc.
It may be argued that such subjects as market requirements
and the science of butter making and ice cream making should
not be given as a general course of instruction to employees. It
has been found, however, that lectures of that nature are of
interest to the entire organization and particularly to the
manufacturing department, for it is very important that the
butter maker should know about the demands of the buyers; if
he has this knowledge he will be better able to satisfy their
demands.

3. Creating Loyalty among the Employees. —The employer
who is taking an active interest in the welfare of his employees
will invariably succeed in gaining their confidence and loyalty.
It is to the advantage of the business concern to have the em-
ployees feel keenly that they are part of the organization. It
is also important that there should exist the very best feeling
among the employees so that the work of the different depart-
ments may be carried on harmoniously. Social gatherings,
picnics, and entertainments of various kinds are becoming more
customary as factory functions. The employees thus become
better acquainted and warmer friends, and they become more
loyal to the company by which they are employed.

Organization of the Working Force. — It is not necessary
to consider the labor organization of a small factory where the
secretary and the butter maker do all the work, nor of a plant
which hires from one to three helpers. In both cases a man of
ordinary intelligence can readily organize such a small force
so that it will render the greatest amount of service.

1. Division of Responsibility. — But as the creamery industry
becomes more centralized, the factories become larger and the
organization of labor becomes a more complex problem. This
may be seen by a glance at the following chart which illustrates
the more common form of organization of labor in a large plant
for the manufacture of butter and ice cream.

go MANAGEMENT OF DAIRY PLANTS

Asst. butter makers
Butter maker Cream receiving dept.

: Helpers
Superintendent of

manufacturin :
8 Asst. ice cream makers

Ice cream maker
Helpers

Testers
Helpers

Shipping clerk
Superintendent of shipping and re- Receiving clerk

Chemist

Order clerk

: ceivin ;
Directors = Drivers
Barn employees
General : aS
Traveling solicitors
manager

Superintendent of field department Station operators

Route drivers

Traveling salesmen
City salesmen
Sales correspondents

Superintendent of sales department

Purchasing agent

Bookkeepers

Cashier

Collectors

Pay roll clerks

Clerks on cost records

Auditor

The general manager is held responsible to the directors and
the superintendents are held responsible to the general manager
for their respective departments. The superintendent of the
manufacturing department will in turn hold the butter maker
and ice cream maker responsible for their respective divisions.
The object is to hold each individual employee responsible for
the performance of a certain task. The organization thereby
becomes so permanent that even if the manager or superintend-

LABOR QI

ent is absent the work in the departments will be carried on
with the same degree of accuracy as if he were present.

The superintendent should maintain this perfection of or-
ganization and outline the work for his subordinates. He
should always know the details of the work allotted to
each individual employee in his department and the length
of time required for each one to complete his particular
task.

The superintendents should hire the employees for the
respective departments. Some managers prefer to hire the em-
ployees themselves. The objection to that system is that under
it the superintendent will not be held in as high esteem and
respect by his subordinates and his work may therefore suffer
in efficiency. The manager naturally hires the superintendents,
but he should give them full authority to hire the men for their
respective departments. However, if the superintendent is a
man of diplomacy and unselfishness, he will consult the manager
in reference to the man he is about to employ, as to qualifica-
tion, salary, etc. The superintendent of the manufacturing
department should likewise consult the butter maker or the ice
cream maker, for he should not place a man in their divisions
in whom they have no confidence.

The directors should keep in touch with their employees and
preferably call them by their given names. Their position
toward the employees is not that of giving orders but more
that of educators, as orders are best given by the immediate
superior of an employee. As educators, they will exercise
greater influence over their employees and they will build a
stronger organization.

Surety Bond for Employees. — An employee holding a re-
sponsible position in charge of money or valuable property
should give to his company a surety bond to the amount deter-
mined by the directors of the company; by this the employer is
insured against loss due to fraud or dishonesty of the employee.
Such a bond should be purchased through one of the leading
surety companies and usually the employer pays the annual
premium.

92 MANAGEMENT OF DAIRY PLANTS

PAYING FOR LABOR

Productive and Nonproductive Labor. — Productive labor
is the active manufacturing labor. In the creamery and ice
cream factory such labor is produced by the butter maker,
ice cream maker, and their subordinates and is charged
directly against the department in which they labor. The
superintendent of the manufacturing department will be con-
sidered under productive labor if he himself is engaged in the
work of manufacturing; if he is merely supervising the work in
the manufacturing department then his time will be considered
under the head of nonproductive labor. Nonproductive labor
includes the labor of clerks, bookkeepers, superintendents, etc.
It is noncreative labor, but it is required for making the organi-
zation more efficient. Such labor may be charged directly
against a definite department for such as are working for that
department exclusively, but usually the employees engaged in
nonproductive labor are working for more than one department
and their wages must therefore be proportioned among the
various departments. Such labor is often known as indirect
labor.

Payment for labor may be according to one of several sys-
tems; the day-wage system, the piecework system, and the
premium system.

The Day-Wage System. — This system provides for a def-
inite compensation per unit of time. It is the oldest of the
three systems mentioned, yet it has few advantages to its credit.
The employees, as a rule, are more particular and careful when
hired for day wages, as they are not so tempted to sacrifice
quality of work for speed. The disadvantages are mainly that
the employer must depend on the integrity and skill of the
individual workman and for that reason the standard of effi-
ciency for each employee is different and the manufacturer has
no fixed rate of cost per unit of labor. By making a difference
in the rate of wages between employees doing the same kind of
work dissatisfaction is created among the employees. This
system is entirely satisfactory where each employee has a def-

LABOR 93

inite amount of work outlined for the day and is responsible for
the completion of such work.

The Piecework System. — This system provides for a defi-
nite compensation per unit of labor. The manufacturer has the
advantage that he has a fixed rate of cost for labor and that
the same amount of work will be accomplished in less time
and therefore save in factory cost. The piecework system will
invariably decrease the cost of labor per unit. The only disad-
vantage to the manufacturer is that the employees are more
tempted to sacrifice quality for speed.

To the employee this system appeals more strongly than
the day-wage system. The industrious and skilled laborer re-
ceives his advance over the less ambitious and inexperienced.
Under this system the employees feel greater freedom and inde-
pendence, which tend to create satisfaction.

In deciding on a piece rate great caution is necessary, for
if the rate is too high and it is found necessary to reduce it
later dissatisfaction will always result among the employees.
A rate should not be fixed before the matter has been thoroughly
studied through a series of experiments.

The Premium and Percentage System. — This system pro-
vides for the payment of the entire salary or a part thereof on
some premium or percentage basis. It is customary in some
creameries to pay the butter maker a comparatively small
monthly wage and a certain per cent of the profit which will be
turned over to him annually or semiannually. When such agree-
ments are made with the butter maker the basis of paying for
butter fat should be fully understood and should be regulated by
the butter quotations of one of the leading butter markets. If
the butter maker is also responsible for the soliciting of cream
patrons, then he may be allowed a certain per cent on business
from new customers or on business increase, or he may receive a
definite fraction of a cent per pound of butter manufactured.
He may also receive a premium for quality. The percentage
system may be applied to all of the employees. A definite por-
tion of the annual profits might be set aside to be divided among
the employees in proportion to their earning capacity. The

04 MANAGEMENT OF DAIRY PLANTS

monthly wages are usually so adjusted that it would be fair to
use them as a basis for dividing the earnings belonging to the
employees.

Such work as butter wrapping usually comes under the head
of piecework, but in connection therewith the premium system
may be adopted to advantage by paying a certain rate for the
first thousand pounds, a slight increase for the second thousand,
still another increase for the third thousand, etc. By this
method the employees should produce still greater results than
by a regular piecework system.

Haulers are successfully employed on the percentage system.
Any increase in salary may be based on the accuracy of their
work regarding weighing and sampling; it may be based on an
increase in the amount of butter fat received on a route over
the previous year, or it may be paid on butter fat received from
new customers, or finally, it may be paid on the quality of
cream delivered by the driver, which encourages the hauler to
care properly for the cream while on the road and to instruct
properly the patrons in the matter of care of cream on the farm.

The premium and percentage method, if properly managed,
should prove a big success. It makes the employee feel as if he
had a financial interest in the business and as a rule the com-
pany receives from such an employee the best service he is able
to render.

Prompt Pay. — The employees are usually in need of the
money as soon as it has been earned and if they are paid
promptly it creates a better feeling toward the employer which
means better work and a financial gain to the company. If the
employees are paid monthly they should receive their wages
not later than on the first day of the following month. It is
more satisfactory to pay all employees at the close of each week.
Some business concerns are paying their employees on the
tenth, fifteenth, or twentieth of each month for work done
during the previous month. Such a method of withholding the
employees’ money can scarcely be considered businesslike and
there is no good reason therefor, as in a well-managed business
establishment the employees’ pay roll is completed at the close

LABOR 95

of the month. Therefore when such a system is employed it
either shows poor management or that the company is with-
holding the employees’ money for the sake of making use there-
for in their business, which can hardly be considered legitimate.

Time Keeping. — In creameries it is perhaps most satis-
factory for the superintendent to keep a card for each employee
working as a day laborer. The time clock is used in some of the
larger creameries, but it is more satisfactory if such a feeling
can be created among the employees that the time clock will be
unnecessary. The time clock, regardless of how useful it is,
may impress the employees as being an indication of mistrust
and as a result may destroy loyalty on the part of the em-
ployee.

Reducing the Cost of Labor. — It is not so important how
much per day or month a man is paid, but his labor cost per unit
and the quality of the work he produces are of utmost impor-
tance. One butter maker is easily worth $25 or $50 per month
more than another, but the manager will not know the difference
unless he keeps a record of the labor cost per unit and of the dif-
ference in quality of goods produced by the two butter makers.

1. Reducing Cost of Productive Labor. — In a well-managed
creamery the productive labor will not stand much reduction.
The careful superintendent adjusts as nearly as possible the
amount of labor to the amount of goods manufactured. It is
quite essential that the superintendent keep a record of the
wages paid by his department, figuring therefrom the cost per
unit manufactured.

FORM III

CREAMERY PRODUCTIVE LABOR Cost RECORD — BUTTER DEPARTMENT

: Lbs. Cost
Date Regular Extra Total butter | per lb. | Remarks
employees | employees cost mfg. hostiov

ee

96 MANAGEMENT OF DAIRY PLANTS

The information furnished by Form III keeps the super-
intendent properly informed daily. When the labor cost per
pound of butter increases he will make an effort to dispose of
some of the extra men. If other departments are operated by
the same firm he may be able to turn them over to other depart-
ments needing men at that particular time.

At the close of the month the average daily cost of regular
and extra employees is figured as well as the average amount of
butter manufactured for the month and the average cost of
labor per pound of butter manufactured. A comparison
should be made with similar reports for the corresponding
month of the previous year. By noting the rate of increase or
decrease in amount manufactured between corresponding
months it will be comparatively easy to determine as to the
amount of labor required for the following month.

2. Reducing Cost of Nonproductive Labor. — The cost of non-
productive labor should be carefully regulated and the work of
each employee whose labor is thus classified should be analyzed
and the profit to the company from the labor of the employee
in question should be determined as nearly as possible. Book-
keepers and certain clerks are indispensable, although their
value to the company is not readily determined. There are
other nonproductive employees in the office and around the
factory from whom a definite return is expected. Before en-
gaging an employee for doing nonproductive labor the following
points should be considered:

t. Will the labor of this employee show direct and immediate
result?

2. Will the company make any profit on such labor?

3. Is it possible to accomplish this work with the present
working force?

4. Is the nature of the work such that the employee may be
engaged on a percentage basis?

Distributing the Cost of Labor. — Productive labor is gener-
ally charged directly against the respective departments. The
nonproductive labor of an employee may be charged directly
if the entire time of that employee has been devoted to one

LABOR 97

department. The employee may work for more than one de-
partment, but the nature of his work may be such that a definite
amount of time is devoted to each department; thus his salary is
divided among the different departments for which he has
rendered service in proportion to the time devoted to each. The
work of some employees is of such a nature that a satisfactory
division of the cost of their labor is almost impossible. Con-
sider as an example the work of the bookkeeper, the cashier,
the order clerk, and the shipping clerk; they are working for
the different departments of the factory at the same time and
it is difficult to determine the amount of time devoted to each.

In the case of the order clerk it might be possible, but perhaps
not practical, to divide his time by counting the orders written
for each department and taking for granted that it requires the
same unit of time for writing an order for one department as for
the other.

Nonproductive labor may be divided among departments on
the basis of the amount of sales made by each department.
Consider for example that there are three departments — butter,
ice cream, and sweet cream. The sales of butter amount to
$10,000 for the month, ice cream to $1,000, and sweet cream to
$00. The cost of nonproductive labor for the month amounts
to $11, then the amount of this cost to be carried by each
department is in proportion to the total sales, as follows:

Butter department = $115 X ——— = $100.
11,500

1,000

Ice cream department = $115 X
I1,500

Sweet cream department = $115 X a $5.
II,500

Through a careful study of the various departments it is
soon learned that a direct proportion in accordance with sales
is not absolutely satisfactory, as it requires a greater amount
of nonproductive labor for one department than for the other
on the same volume of business. It may be found that the non-

98 MANAGEMENT OF DAIRY PLANTS

productive labor required for the manufacturing and marketing
of $2.00 worth of butter is equivalent to the labor required for
manufacturing and marketing $1.00 worth of ice cream and that
$1.00 worth of cream requires the same amount of nonproduc-
tive labor as $2.00 worth of ice cream. In that case the figures
by which to proportion the nonproductive labor in the above
problem are as follows:

10,000

Butter department pays $115 X = $82.14.

14,000

OO

Ice cream department pays $115 X bids $16.43.
14,000

]

Sweet cream department pays $115 X icici $16.43.
14,000

No definite rules can be offered by which to make the proper
distribution of nonproductive labor, as that is governed largely
by the nature of the business as well as by local conditions, but
the manager should make a thorough study of the problem and
place the cost as nearly as possible where it belongs. If he does
not do this the statements in reference to cost of the depart-
ments will be misleading.

When proportioning the cost of labor at the close of the
month a permanent record should be preserved giving the
monthly cost of direct and indirect or proportionate labor
(Form IV).

-

LABOR 99

FORM IV

CREAMERY PROPORTIONED YEARLY LABOR RECORD

ee

Buiter Dept. Ice Cream Dept. | Sweet Cream Deft.
; Pro por- : Propor- ‘ Pro por-
Direc : p Direct : p Direct ‘ p
tionate tionate tionate
Ri eee | ae ee IE eis ee Total
= SL
~ > =~ s <a = ~s
-d » = a = —~
SF ie Oe re ee eS | ee: oe oh na = &
S cS) Ss SS) id Sal as 5) S ~~ S S Ss CS)
BS AY Bw {AY NI BN AY NN QY SN gy

CHAPTER VIII
PURCHASE OF MILK AND CREAM
SYSTEM OF DEALING WITH THE PATRONS

Tue buyer of the raw material should be a good judge of
human nature. When calling on a patron or a prospective
patron it is advisable to start a conversation along lines which
are of interest to the producer. The condition of the farm
buildings, lawn, and fields, as well as the appearance of the
farmer himself, should interest the solicitor, and assist him in
determining what topic of conversation is likely to be of greatest .
interest to the person. The solicitor should have the highest
regard for the ideas of his fellow men, for even though they
may not coincide with his own, by approaching them on some
subject in which they are interested he is assured of a hear-
ing and it should then be possible for him, if he uses good judg-
ment, to present his own case in an acceptable manner.

Paying for Milk and Cream on Quality Basis. — It is evi-
dent that cream which is of good quality is worth more money
than that which is of poor quality. If butter is made from the
separate lots the butter made from the best cream will invariably
sell for the most money. Therefore the manager should, as
nearly as possible, pay for the cream according to what it is
worth if made into separate lots of butter. The creamery pay-
ing the same price for inferior as for good cream is encouraging
and paying a premium on carelessness which will tend to lower
the quality of raw material instead of improving it.

1. Grading the Cream. — Some creameries accept only what
is called first-grade cream, others receive first and second grades,
while a third will receive cream grading as first, second, and
third. No general classification of grades has been recognized

100

PURCHASE OF MILK AND CREAM IOI

as standard, as a standard which is practical for one state or
locality might not be at all practical elsewhere. But in the
leading dairy districts it is generally considered that cream
classified as first grade should be what is called sweet cream,
containing not to exceed 0.20 or 0.25 per cent acid and be free
from taint or foreign flavors. Second-grade cream is generally
understood to be cream of a higher acidity; it may even include
cream of a sharp acid flavor but should be free from undesirable
foreign flavors. Cream below second grade in quality should be
classified under the head of third grade.

At some creameries the acidity is the only factor on el
the quality is based, while other creameries have a more elabo-
rate method of cream judging, exemplified by the following
method adopted by the Iowa State College: flavor, 45; acidity,
25; richness, 20; body and cleanliness, ro.

A. Flavor. — Flavor is judged by tasting the cream and by
grading it in accordance with the quality of butter that nee be
made from it under ideal conditions.

B. Acidity. — Cream is scored perfect on acidity when con-
taining 0.2 of 1 per cent acid or less. For each o.1 of 1 per cent
acid in excess of this amount should be deducted three points
from the perfect score.

The acidity of the cream may be determined by a decinormal
alkali, using phenolphthalein as an indicator, or by an alkali
solution prepared from alkali tablets. It is often most conven-
ient to prepare the solution of such a strength that it will be
applicable for the rapid determination method. By this method
the solution is prepared by adding one, two, or three tablets
to each ounce of water. For taking the sample of milk or cream
to be tested, use is made of a dipper of the same size as a No.
ro cartridge. The same amount of the prepared solution is
added. If the mixture, after being thoroughly mixed, is pink
the milk or cream is as sweet as required. If the mixture is
white the milk or cream contains a higher degree of acidity
than is desired. If we adopt a standard of 1/10 per cent acidity
then a solution is prepared by adding one tablet to each ounce
of water; for a 2/10 per cent acidity standard two tablets are

IO2 MANAGEMENT OF DAIRY PLANTS

used; for a 3/10 per cent acidity standard three tablets are
used, etc.

C. Richness. — Cream testing 28 per cent of fat or above
will receive a perfect score on richness. One point will be de-
ducted for each per cent below 28 per cent.

D. Body. — The body should be smooth and uniform. It
may be injured by being partly churned, by being frozen, or
by being curdy. Cleanliness of the cream and container is
considered in this connection.

2. Market Value of Various Grades of Cream. — The market
values of the various grades of cream fluctuate in accordance
with market conditions as well as with local conditions. Ata
time when there is a scarcity of butter on the market a butter
made from a second-grade cream may sell for nearly as much
money as the butter made from cream of the highest quality.
When there is an oversupply of butter there is a wider range in
price between first and second grades and the second-grade
cream is then of less value as compared with cream of first
grade. Local conditions may afford opportunities for disposing
of the lower grades of butter at a comparatively high price.
Therefore it is impossible to establish any set rule to which all
creameries might be required to conform. By making a thor-
ough study of the local conditions in a definite locality and
considering them with the more general conditions it is usually
possible for the creamery manager to settle on some definite
basis by which to pay for cream of the various grades. When-
ever practicable it will be most satisfactory to make remittance
for the cream after the butter has been sold, and then remit for
each grade in proportion to the returns. The difference made
between cream of different grades varies from nothing to five
cents per pound of butter fat. Some creameries refuse to re-
ceive any milk or cream which will not grade as first. This
system is advisable wherever possible. It is generally conceded
that it is very seldom advisable to accept third-grade cream.

Eliminating Business Secrets. — There is no business con-
cern that is depended on for square dealing to a greater extent
than the creamery. ‘The producers deliver their milk and

PURCHASE OF MILK AND CREAM 103

cream usually without any definite knowledge of the amount
of butter fat it contains or the price it will bring. They depend
on the management of the creamery for a square deal. If the
manager allows any ground for suspicion it will eventually
result in a big loss in patronage. It is, therefore, of importance
that the creamery maintain the unlimited confidence of its
patrons. This is most readily accomplished by the manager’s
willingness to have the patrons become familiar with the
method of management so far as it interests them.

The most common cause for misunderstanding between
the patrons and the management of a creamery is found in
weighing and testing. The weighing should be done in the
presence of the patron, if possible, and the manager should
encourage his patrons to be present as often as possible when
the testing is done. If it is found impossible to have the patrons
witness the weighing and testing then it is advisable to encour-
age them to buy their own scales and hand testers. If attempt
in that direction also fails, it may be to the advantage of the
creamery to keep a few sets of spring balances and testers on
hand to lend to such patrons. A dissatisfied patron should
never be allowed to discontinue on a mere suspicion of dis-
honesty. It is usually possible for the scrupulous business
man, by methods similar to those mentioned, to convince his
patrons of the integrity of his firm.

Promptness in Dealing with the Patrons. — The manager
of a creamery as well as all of his subordinates should be prompt
in all matters pertaining to the business. The drivers collecting
milk or cream should call at each farm at definite, prearranged
days and hours. Neglect on the part of the driver in complying
with this requirement will invariably result in loss of patronage.
Checks for products received should also be delivered at a definite
time. If checks for milk or cream are sent through the mail
they should be mailed on a definite day so that the patrons will
always have the satisfaction of knowing when they may expect
to receive remittance.

The cash system of paying for cream makes promptness
in the matter of remittance a necessity. This system is there-

104 MANAGEMENT OF DAIRY PLANTS

fore a good educator for the manager who considers promptness
to be of secondary importance. In some localities the cash
system is attractive to the producers, but to the manufacturer
it has the disadvantages that it increases the cost of bookkeep-
ing, the cost of labor in the testing room, and it increases the
amount of capital required for carrying on the business. In
some territories it is unnecessary to pay cash for cream, provid-
ing the company has a satisfactory standing financially. A
codperative creamery usually pays once or twice monthly, but
the payments, regardless of when they are made, should always
be made promptly on a definite, prearranged day. Instead of
paying cash for cream it is usually possible to arrange with the
patrons for paying the day following delivery. By that system
the manufacturer will economize in labor, as the testing can all
be done at the same time. The same is true about making out
the checks and other records.

Follow-up System for Securing Patrons. — When the solici-
tor has become acquainted with a producer but has been unable
to buy his raw material, he should carry on a systematic cam-
paign until the producer eventually decides to sell him his
products.

In carrying on a campaign for patrons it should be the object
of the solicitor first to find out who are the leaders of the com-
munity, as it is to his interest to have these men fully under-
stand his proposition. A solicitor who has a good, fair, and
square proposition to make to producers will always be most
readily received by the more intelligent of the farmers and it is
that class of people that usually command leadership. There-
fore when the leaders take kindly to a proposition it is an indica-
tion of good progress. The solicitor should not, however, be
deceived and work with people who expect to receive such
personal advantages as will not be shared with the others who
later may become patrons.

1. Map of the Territory. — The buyer of the raw material
should have systematic and simple but comprehensive records
from which he can readily obtain desired information in refer-
ence to his territory. A map of the territory should be made

PURCHASE OF MILK AND CREAM 105

from information received from the solicitor. For that purpose
a blank divided into squares is convenient (Fig. 21), each
square representing a section. A creamery manager should
have so complete a control over the work in his territory that

|
ae

elt |
Peet
eee

Fic. 21. — Map of the territory.

he can produce maps of all routes showing location of patrons
on each route, of patrons delivering their own cream, and farm-
ers with whom the creamery is not yet dealing. The latter
may be marked with a prominent lead pencil mark which can
readily be removed when they become patrons. The manager
will, from a glance at such a map, have a fair understanding

106 MANAGEMENT OF DAIRY PLANTS

of the condition of his territory and know where the most vigor-
ous field work should be conducted.

2. Card Records. — Card records consisting of three different
files will be useful: File A, active patrons; File B, discontinued
patrons; and File C, prospective patrons. The cards of active
patrons may be filed alphabetically, divided under routes or
stations. These cards should be removed from one file to
another as they become patrons or discontinue. A card 4 inches
by 6 inches should be large enough. Form V will serve as an
illustration.

FORM V
CREAMERY FIELD RECORD

PUB cs. Neda tak at ci 4 eet on Nddress i ea oe «eee
ROUGE. fete ein alee eee INO OF COWS cake bis hin st eels histo ee
Dissorition or product:.ay be act hot ach Yee seta sine eae ee
Reason torot-selling toms ayer be oye oe ve waa ek een
Called cayhum dates wie fi. 4 nc cea RR RON Cree Gla eis b RN oe he ce
| TEL) A, OAR ree CR a SARE ea Remarks

RALPOLE WOAIbES (erat fr attain eee Mam ieaope ats

AGRE eyepiece ve. ase wen ae rebel Os

Bene Ue a ueliel «aver one Jel s 76 (elle te) eels) (we Mey 0] taka e Ls) eae Sileliele

Started to sell:to us: datey 32 von s..
iscontinileds date. vs! Wl we ee

‘@ fore) Bi (we Mee) isles) ele 6) e's ip ioe, fe! oe! be ie; 1s he) a la anie Na’ 61 e Jobin

By making a comparison between this card and the territory
map the manager is enabled to direct the field work from his
office desk. He can start a new man and furnish him with all
necessary information in reference to the parties whose patron-
age he is soliciting. If the solicitor receives a promise from one
of the prospective or discontinued patrons that he will be ready
to deliver his products at a certain time, then the party in charge
of the field work should keep a record of such a promise.
This can be done most readily by what is called a tickler, which
is merely a small card file that is intended to be kept on the
office desk. This file contains index cards for the twelve

PURCHASE OF MILK AND CREAM | 107

months, each with an index card for each day of the month.
Cards containing future dates are filed at the proper places, and
each morning before starting on the regular routine of work,
the cards filed under that particular day are given due atten-
tion.

3. Daily Record of Active and Discontinued Patrons. — It
is to the advantage of a creamery to keep a complete record
of active and of discontinued patrons. Some creameries keep
a separate record of each so that they may be informed imme-
diately when a patron discontinues. It is less difficult to have
him resume shipping if an effort to do so is made at once. The
following form may be used for that purpose.

FORM VI

Montuty Record or PATRONS — JULY

Bee eee ee

Day of Month
Name of Patron \|—

I 2 3 4 5 Oe t2Ors nar aioe
Wee UES ery nent, 30 34 23

SOUNMAMM. 9.6 25. 40 38

On this report are made daily entries of tests, by making
this entry for each shipment it becomes easy to locate errors
made in the testing room. As an example consider the record
of J. Jones (Form VI); it is quite possible that a mistake was
made on July sth and it is therefore the duty of the manager
to write Mr. Jones concerning it in order to have the matter
adjusted satisfactorily to the patron. Report (Form VI) is
furthermore of importance in the matter of determining the
frequency of delivery and may furthermore be used for check-
ing the quality of cream delivered by each patron by also
marking score or grade of each shipment or delivery.

1 Securing patrons by correspondence will be considered in chapter on “‘ Business
Correspondence.”

108 MANAGEMENT OF DAIRY PLANTS

SYSTEMS OF MILK AND CREAM PURCHASE
AND DELIVERY

Frequent delivery of the raw product to the creamery is
one of the principal prerequisites for the manufacture of a
desirable product. It has always been customary to make fre-
quent deliveries to a whole milk plant. There the milk is
usually delivered daily during the summer season and from
three to four days a week during the winter season. Such
frequent deliveries are made because the producers realize that
they will sustain a financial loss if the deliveries are less fre-
quent, as milk containing a high degree of acidity cannot be
properly skimmed. The older milk is also more variable in
quality and therefore less desirable as a feed for calves.

The attitude of the producer in reference to frequency of
delivery is somewhat different in the gathered cream territories.
This is brought about partly by the manufacturer who some-
times in his greed for more business informs producers that it is
unnecessary to make daily deliveries when selling cream. His
statement is partly true, inasmuch as the cream does not deteri-
orate as readily as does milk. But cream absorbs odors more
readily than milk, and because it has less bulk than milk cream
is often left in the kitchen or in the cellar, places where the
milk is very seldom kept, and it will therefore soon acquire
undesirable flavors. If the frequency of delivery had not been
lessened by the introduction of the hand separator, dairying as
a whole throughout the United States would have gained in
profit and prestige.

The system of organization of territory may for convenience
be considered under the heads of: The individual system, the
codperative system, the route system, the station system, the
local agent system, and the codperative selling system.

The Individual System of Delivery. — Under this system
the producer delivers his own milk or cream to the creamery
in person or ships it by rail.

1. Delivering of Cream in Person. — At many local cream-
eries the producers deliver their own milk and cream and for

PURCHASE OF MILK AND CREAM 10g

the local creamery there is possibly no more satisfactory sys-
tem. It has the advantage that full remittance is made without
deduction for hauling; it brings the producer in close touch
with the butter maker or manager and each learns to appreciate
the work and effort of the other. If the product delivered by a
patron is of poor quality the butter maker can discuss the
matter directly with him and make valuable suggestions as to
how such difficulties may be overcome.

The main criticisms that may be offered against this system
are: it may increase the cost per pound of butter fat delivered
by the route driver. This objection is naturally confined to
territories in which routes are also operated. The individual
system is not far-reaching; farmers living from five to six miles
from the creamery can be interested in this system only with
difficulty. The busy farmer finds delivery of cream a burden
and asa result he often starts to make butter on the farm; such
a patron is often slow to return. The time required for han-
dling a given amount of milk or cream at a creamery is some-
what increased by the individual system.

2. Producer Shipping Cream by Rail. —'The system of ship-
ping cream by rail has become rather popular during recent
years. By this system it is possible for the producer in a more
thinly settled district where a creamery cannot be operated
profitably to sell his butter fat at market price. Formerly such
farmers were compelled to sell their butter in the country store.
The system has met opposition, as it 1s claimed that it reduces
the patronage of the local creamery. It is hardly logical that
an up-to-date local creamery should experience much difficulty
on that account, as the local creamery has the advantage of
saving the shipping expenses and receives cream of better
quality.

3. Creamery System of Handling Individual Shipmenis. — A
creamery receiving individual railroad shipments should imme-
diately upon receipt of the first shipment from a producer write
a personal letter to that shipper. This letter should be writ-
ten in such a tone that it will encourage future shipments. It
should also contain a report of weight and test of cream received

I1o MANAGEMENT OF DAIRY PLANTS

and value of butter fat. It should explain in detail the cream-
ery’s method of paying, of sending reports, and of returning
empty cans, and furnish any other special information which
might be of value to the shipper.

A. General Letter of Information. — General letters of
information in reference to care of milk and cream, causes of
variation in test of milk and cream, should be mailed to the
patrons. Such a letter should be brief enough so the patrons
will take time to read it. It should cover merely the essential
points. Letters in reference to care of milk and cream might
present the following ideas: First, the value of cooling the milk
and cream immediately and before it is mixed with cream from
the previous milking, and of leaving it in fresh, cold water at a
place where the atmosphere is pure; second, the advantage of
skimming rich cream; third, care of cream separator and uten-
sils, discussing the value of using slacked lime or washing pow-
der in the dairy for cleaning purposes; fourth, the value of
keeping the barn and cows clean; fifth, the value of using a
sanitary milking pail, if a practical sanitary pail can be fur-
nished the customers addressed. Other points on the care of
milk and cream may be discussed in such a letter, but all
should be offered in the form of suggestions and not in the form
of rules and no suggestion should be offered unless the writer is
able to prove that it will be to the advantage of the producer
to follow it.

B. Shipping Tags and Seals. — Shipping tags and seals are
usually furnished by the creamery. A shipping tag should bear
the creamery firm name and address and blank lines to be filled
in by the shipper with his name, shipping station, and post
office. Some creameries have a rubber stamp made for each of
their shippers and stamp the tags with the name and address of
the patron. This tag will be used for the following shipment.
A new leaden seal is also dropped in the empty can and this is
used by the shipper, who has a seal press furnished by the
creamery, perhaps bearing the creamery name on one side and
the number on the other side.

Other forms of tags are used, such as brass tags. These are

‘ssaid yoyood 4saA SPP — “2% “OLY

HZIS LOVXd

ar ‘AVICd

ZA

©

112 MANAGEMENT OF DAIRY PLANTS

furnished by the creamery. The addresses of the creamery and
patron are pressed into the brass and in order that they may be
read easily the letters are filled with black paint. The brass
tag may be soldered onto the breast of the can or fastened to the
can with a wire loop about four inches in length and two inches
in width. The ends of this loop are riveted together. The cover
of the can is often fastened to the can with this loop. The ad-
vantage thereof is that the covers of the cans will not be ex-
changed; the disadvantage is that the can is more difficult to
clean when the cover is attached, especially if a can-washing
machine is used.

C. The Cream Can. — The cream can, before being returned,
should be properly marked. It should have the name of the
shipper painted on the breast, and below, in large letters, the
name of the shipping station. The weight of the empty can
with cover should be painted on the can, as that will facilitate
the work of the one who receives the cream at the creamery.
The creamery manager should insist on receiving the transpor-
tation company’s receipt for empty cans, then in case of loss of
cans the transportation company, even though it is not held
responsible, will make a greater effort toward locating them.

A large creamery with a separate receiving department may
keep a special record of the number and size of cans received
from each patron; the empty cans when returned are checked
against such a record (Form VII).

FORM VII

RECEIVING CLERK’S CAN RECORD

No. of cans
Name Address
ro-gal. size | 8-gal. size 5-gal. size
J. Johnson Boro I I
Ce Jones cn. Simpson 2

PURCHASE OF MILK AND CREAM 113

The bills received from the transportation company are also
checked against the receiving clerk’s can record.

The cream is next turned over to the cream department where
it is weighed and tested and a record thereof kept on the daily
cream receiving blank (Form VIII). The samples should be
tested in duplicate and retested if they do not check with pre-
vious tests of cream delivered by the particular patron.

The individual shippers usually furnish their own cans.
Some creameries furnish cans for their new patrons for trial
shipments, but demand that the producers later furnish their own
cans. A ledger entry is made of cans thus furnished the patrons
and if cans are kept longer than the time for which they were
promised as a loan, then the value of the cans is deducted from
the cream check of the patrons. This method of collecting for
cans should be fully understood by the patron at the time
when the can is turned over to him. Other creameries are
willing to loan cans to all of their patrons. This latter system,
however, encourages negligence on the part of the patrons in
taking care of the cans, and the loss sustained on account of lost
cans is usually heavy.

FORM VIII
Dany Cream REeceivinG RECORD
SuNSET CPEAMEPY
Sunset, La Pf Ed OSs Ae SR). EY SAE EL Se A eee EOD
Z LaA772e Se
fouls 720.3 eee ai aat et aa aol eo
_ x. Loree | Freerzexthe | 92 | 6/2 62| 16 a6| 3 | 123,
0 “ermphen | | 92|\ | 87| 2| | 354 5
Pose “Pie / PT C—™—~—~wSC I HV?)| BUG | Z12| GON] _HZSHEZ
a cee 0s Sk Si es a
SECTS See SE Re Se Pl ea ee
PSE ee Ee ES a De Se
See es ey Ee ot SS ee a
Reels NS 2S Sl Oe a
eS ee Be Ee
Sa (LE ee
BEARS 5 Pie SS SS Ee ee
SS

II4 MANAGEMENT OF DAIRY PLANTS

The Cooperative System of Delivery. — By this system
patrons conveniently located join in changing off in hauling
their products to the creamery. Such an association of patrons
is usually known as a club. This method of delivery has these
advantages over the individual system: First it reduces the
time required by each individual for hauling; second, more
distant producers can deliver their products at a profit, and
third, the work of receiving at the creamery is somewhat re-
duced. This system is practically the same as the individual
system and the same methods adopted for the individual sys-
tem apply to the codperative system.

Route System of Delivery. — The route system is the method
of delivery by which the milk or cream is collected by a person
(the driver) who receives (from the patrons) a definite compen-
sation for service rendered. The driver may be hired by the
patrons or by the creamery to which he delivers, but if he re-
ceives his salary from the creamery the total amount paid for
his services should be deducted from the patrons’ checks, in
proportion either to the amount of butter fat or to the pounds
of milk or cream delivered by each patron.

The following advantages may be mentioned for this sys-
tem: First, it increases the territory of the creamery; routes
are successfully operated to a distance of from twelve to fif-
teen miles from the creamery. In some districts this system
has developed to the extent that the original routes receive
cream from sub-routes which start where the original routes
discontinue and cover territory still farther distant from the
creamery; second, distant patrons are always pleased to be
relieved of hauling, especially during the summer season; third,
an able driver should be in a position to greatly increase the
patronage of the creamery; fourth, the cream collected on the
routes is usually of higher quality than that brought by individ-
uals, as it is as a rule collected at shorter and more uniform
intervals.

Disadvantages may be mentioned as follows: First, cost
of hauling; if the cost of hauling exceeds three cents per pound
ot butter fat in cream and five cents per pound of butter fat

PURCHASE OF MILK AND CREAM It5

in milk after the route has been well established, then the future
success of such a route may be considered rather questionable;
second, scarcity of capable haulers; third, increased length of
time during which the cream is in transit to the creamery; this
objection is practically eliminated if the cream receives proper
care by the hauler.

1. Residence of the Driver. —'The most convenient residence
for the driver collecting milk is at the end of the route of great-
est distance from the creamery. All the milk will be collected
on the way to the creamery and the skim milk will be delivered
to the patrons when making the return trip.

The driver collecting cream should be located elie to the
creamery so that, when starting on his route in the morning,
he can collect the cream produced along one road and when
returning to the creamery collect the cream along another road.
A driver’s travel from the creamery to his home, after complet-
ing his day’s work, represents nonproductive labor.

2. Collecting in Individual or in Common Cream Gathering
Cans. — ‘The cream may be collected in individual cans; the
weighing and sampling of the cream is then usually done at the
creamery. Or the driver may collect in common cream gather-
ing cans and weigh and sample the cream at the farm. The
cream from several patrons is thus mixed in the same
can.

The advantages of using individual cans are: First, elimina-
tion of losses due to inaccurate weighing and sampling; it is
usually difficult for one of less experience to secure an accu-
rate sample for testing, especially during the winter season
when some of the cream may be frozen; second, less cream is
lost to the patrons as the cream can all be removed from the
cream can at the creamery by applying warm water on the out-
side of the can. Heavy cream adhering to the can is removed
with difficulty on the farm where there is usually a scarcity of
warm water; third, it gives the butter maker better control of
the quality. He can grade the cream as he deems best. He
knows the defect of each individual’s cream and can talk intel-
ligently to the producer about how to improve it; fourth, it

116 MANAGEMENT OF DAIRY -PLANTS

makes it possible to make use of a less competent driver when
an able man cannot be secured.

Advantages in using the common cream gathering cans and
weighing and sampling the cream when receiving it at the farm
are:

First, patrons who prefer to do so may witness the weighing
and sampling of their cream. Such patrons may, however, be
satisfied by using the individual cans if the driver brings a
pair of scales and weighs the cream when he receives it. The
can may be marked with its tare weight so the net amount of
cream is readily determined. It may also be advisable at places
for the hauler to take the sample even though the individual
cans are used.

Second, the same amount of cream makes less of a load and’
occupies less space on the wagon.

Third, churning of the cream on the road is prevented by
filling the cans or by using cans equipped with float. This
advantage, as in the case of the second mentioned, is in part
secured for the individual can system by using a special indi-
vidual can which is equipped with float and so constructed that
two or more can be placed on top of each other in the wagon.

Fourth, when less cans are needed on the wagon less labor
will be required for keeping the cream cold while in transit.
This is true especially when the jacketed cream can is used.

3. Care of Cream while on the Route. — If the cream is mixed
by the driver, care should be taken to mix cream of same quality
together, and to use separate cans for each grade. If the cream
is bought on a quality basis, then some system should be
adopted for grading which can be operated intelligently by the
hauler, for the cream should be graded when it is received by
the driver.

If the regular steel milk cans are used for cream, in the sum-
mer they should be wrapped with burlap. This should be kept
wet. The bottom of the wagon should be covered with a wet
blanket, canvas, or several thicknesses of burlap. This should
be wet frequently by throwing a few pails of cold water over it.
Each pound of water that is converted into steam takes up heat.

PURCHASE OF MILK AND CREAM TE]

Tt has been demonstrated that not merely will cream cared for in
this manner remain without increase in temperature, but will
often reach the creamery cooler than when received from the
patrons.

A special can with a deep cover in which ice may be placed
has been used to advantage by several creameries. Others use a
small steel two-quart can with a tight-fitting cover. This
is filled with crushed ice and put into the cream can. The ice
is carried by the driver in an insulated wooden box.

4. Checking Butter Fat Losses of the Cream Route. — If in-
dividual cans are used, the cream from the routes will be han-
dled as by the individual system and the driver is not held
responsible for butter fat losses sustained from such patrons.
If the cream is weighed and sampled by the hauler, then he
should furnish a record of the amount of cream credited to each
patron (Form IX). The total amount of cream, according to
the hauler’s report, should equal the weight of the entire load as
weighed at the creamery. The individual samples, as well as
the composite sample of cream from the entire route, are tested
at the creamery, and the total amount of fat paid for according
to the driver’s report should be equal to the amount of fat re-
ceived at the creamery, figured from the creamery weight and
composite sample.

118 MANAGEMENT OF DAIRY PLANTS
FORM IX
DRIVER'S REPORT ROYAL CREAMERY CO.
ate tease. Cove Trae
0) ERAN OT ln ie dl Cee PT
NAME OF PATRON Battle No|Lbs of Creo Test Lbs. of Fot
AS Snuthy 1210 Cees ere 10.2
¥ Vaio a7_| ws | e25| 2
F Brownbiy \ 2 | m0\ 2o\| 10
Lt Zh wou\ so | 25\| ze
G Gude | we | 2o5| 20)| 72
of Monin | sa | goo | 3260 | we
0 P2ebso Le | 725 | 303 221
LG Smithy | naee\aro.| ee ae
hs, Se ae
PAY 381 | 125 as
I CL 0 3)
C_Yoress Se UL271L0L
ee i Ronse Cunha
eA Neorues/ /d2 4/0 74
Total 100.0

PURCHASE OF MILK AND CREAM IIg

FORM X

RouTE-CHECKING RECORD

Route No. 3
Amount Received Amt. paid for Overage Shortage
1 olf leg URS He EER ER SE Re (Ce! PSS ae, | neoenaeeae e
Cream| Test | Fat |Cream| Fat |Cream| Fat |Cream| Fat
March
f 303%). 30.5 |.92.4.| 363 | (OF-§ 9
3 340 | 29.0 | 98.6 341 | IOL.O I 2.4
5 S38 |\-2050:) 190.0 335 | 100.0 4 4.0
Total

The route-checking record (Form X) is kept up daily for the
purpose of checking the accuracy of the work done by the
drivers. It is unnecessary to have special printed blanks for
this purpose, a cheap book being satisfactory. A page should
be allowed for each route. This book should be left at a place
where the drivers have access to it, as they are usually as much
interested in having their work check as is the creamery
operator.

On examining the sample route-checking record (Form X),
it will be noted that there were some errors either in taking the
samples or in testing. ‘The person doing the testing should
always be certain that his own work is done correctly. To do
this he must make duplicate tests. If it is evident that the
driver is making mistakes in taking the samples, then he should
be so informed, and properly instructed so that future errors
will be avoided. If errors in weights of cream are noticed, it is
most likely due to inaccuracy of the scales, or failure to balance
the scales for each weighing.

It is advisable to have the names of patrons written on the
driver’s report at the office. The names should be written in
the order in which the hauler calls on the patrons. By this
method the names are written more plainly and fewer mistakes

120 MANAGEMENT OF DAIRY PLANTS

will occur. Furthermore this plan brings immediate informa-
tion to the office in reference to discontinued patrons.

Station System.—A cream station is a plant rented or
owned and operated by a creamery for the purpose of buying
and usualy pasteurizing cream collected from the surround-
ing territory, and then sending it to the creamery for manu-
facture. The station itself may receive cream from individual
patrons and from routes, and so far as the cream purchasing is
concerned this is managed in the same manner as in a small
creamery. A building 15 by 30 feet in size usually answers the
purpose, and the main equipment needed is a 4 to to horse-
power boiler, a 2 horse-power engine, a water pump, a steam
tester, and a cream ripener which may be used both as a cream
pasteurizer and as a cooler. For a skimming station one or
more separators should be added and the size of the boiler and
engine increased in proportion. |

The greatest advantages of the station are that the cream-
ery, through its agent (the station operator), can keep in close
touch with its more distant customers and that the quality of
the cream is improved by pasteurizing and properly cooling it
before it is shipped to the central plant. The main objection
to the station system is the cost of operation and the invest-
ment involved.

A station should receive cream from not less than 300 to 4oo
cows in order to keep the expense per pound of butter fat within
a reasonable limit. The expense may be somewhat reduced if
it is possible for the station operator to haul the cream from one
of the routes three days of the week and receive cream at the
station on the other three days. Some of the stations manufac-
ture butter enough to take care of local demand.

1. Station Reports. — Form XI is a report blank which may
be used by the stations in reporting to the central plant. It will
be noted that part of this blank is filled out at the central plant.
The statement is intended to give a complete record of the daily
cream receipts of the station. Losses sustained, due to improper
weighing or testing, and the disposition of the product reported
by this record are checked at the central plant.

PURCHASE OF MILK AND CREAM 121

FORM XI
STATION yd ee

|} Receneo Cece ar Staton «Loss on Gam--Far

Roure | CREAM [| BUTTER FAT! ae FAT i ee = es beer
s__| 6z¢_ | vez|z\ czo 30) veclo] viz] Cd
Zz. | 325 | _ sola| 324 |4_ szic| ~=—o| «Taiz
@ | a2 | walz|_eco lw vzic| | | aiz'
ad | ew ft otigl 20 Wh gelsl ls)

2 ee SS ee 7 eo ene
tom [15755 | gaa5lroz| | asd7| 2iz3l ds) | | | |
Heid from Last Shipme | a2 |30) yale |
Total 1624 | | a65\3| SUMMARY

Lt ae Bes MA srplO95 ies Crean__Z9 __ test /75 _6F
Held for Next Ship SE SE es
ME FE hess Recs LOGZ tos Crean__Z£65 109 3//8 pr
' ToTaL es jreze | | 4e5\6 |

“Spe 1), SO et A Creom____Sba
LOSS 3 GAIN ;

i eee ek A Signed Fat los

2. Shipping the Cream to the Central Plant. — Each can is
properly addressed and billed as explained on page 110, but in
addition one of the cans bears a tag of conspicuous color; on one
side may be written the address of the firm for whom the ship-
ment is intended, on the other side it carries the following
information:

ING) Eris SIE, wo sel ne on nee
Lbs. cream shipped
Test of cream

ee ee ne ee a ee oe ee ee ee a

The receiving department of the main plant is by this re-
port enabled to learn whether cream has been lost while in
transit or if there is a variation from weights or tests reported.
If variation is found it should be noted if there are any indica-
tions of loss while in transit, such as one of the cans being only
part full. If cream has been lost it is readily indicated by the
old cream line on the inside of the can and the seal is likely to be

122 MANAGEMENT OF DAIRY. PLANTS

broken or perhaps replaced with another seal not bearing the
proper stamp. If it is evident that the cans have been tampered
with, it is advisable to call the inspector of the transportation
company and request that he inspect the shipment before the
cream is removed from the cans. When it has been inspected,
it is handled in the usual manner and a claim is made out against
the transportation company for loss sustained. In presenting
this claim to the transportation company it should be explained
in detail how and when the shipment was received, where it
originated, by whom shipped, etc. ‘This letter should be
accompanied with original bill of lading or expense bill.

Local Agent System. — Under this system the central plant
employs a person (the cream buyer) whose duty it is to buy for,
and ship the cream to, the central plant.

The advantage of this system is that the creamery will ob-
tain more cream from a distant territory by having a local man
as buyer. The main disadvantage is the cost of collecting,
such a buyer usually receiving from one to three cents per
pound of butter fat for collecting. There may also be a de-
crease in quality of cream from such agents, due mainly to in-
capability and disinterest on the part of the buyer; he is paid for
collecting the cream often regardless of quality and frequently
he is even unable to decide as to quality. Decrease in quality
may also be due partly to the condition of the place where the
cream is kept after it has been collected, for it is not always
arranged with facility for cooling.

Cooperative Cream Selling System. — A codperative cream
selling organization is an association of producers formed for
the purpose of collecting and selling the cream produced by
its members. It eliminates the unnecessary expense of hauling
by competitive creameries sending teams over the same road.
It reduces the expense of soliciting by competitive creameries.
It increases the selling price of the cream by selling to the high-
est bidder. It promotes greater interest in dairying and as a
result the quality and quantity of the cream will be increased.

CHAPTER TX
PURCHASING EQUIPMENT AND SUPPLIES
THE BUYER

THE qualified buyer is the one who obtains the = ost value
for his money without defrauding the salesman of money which
is justly due him. A business transaction has been defined as
being an exchange of values. Therefore, if a permanent busi-
ness relationship is established between two firms, the business
transaction between them must be mutually beneficial.

The Buyer Should Know the Present Value of the Goods
He Is to Buy. — The unqualified buyer is ignorant of values.
He may realize his own ignorance and imagine that the salesman
is taking advantage thereof. As a result he may make an arbi-
trary offer which is perhaps even less than the cost of the goods
to the manufacturer. He is not willing to pay the price at
which the goods are offered by the salesman, regardless of how
fair such a price may be.

The salesman who is anxious to do business studies the char-
acter of the buyer. It is soon clear to him that he is dealing
with a man who is either ignorant as a buyer or perhaps a man
who is unwilling that the manufacturer or dealer should make a
fair profit. The latter class of men are not considered as desir-
able to do business with and some firms even refuse to sell them
goods. If the salesman considers that the buyer belongs to the
first class mentioned he may be inclined to ask a price high
enough so he can afford to reduce it as much as he thinks neces-
sary. The buyer in this case is placed at a disadvantage, and it
is quite likely that he will pay more than market value for the
goods he buys.

The successful buyer studies the goods he buys. He should
know the source of raw material from which they are manu-

123

124 MANAGEMENT OF DAIRY PLANTS

factured, the cost of such material, fluctuation in value thereof,
if any, cost of manufacturing, cost of selling, value of patent
rights, and the legitimate profit for the manufacturer and
dealer.

The general market value of an article is ascertained by writ-
ing to various firms handling that particular article. Informa-
tion thus obtained should be filed. For smaller firms a letter
file will be satisfactory and the letter itself may be filed for refer-
ence. For larger firms a card file will be more satisfactory. The
information may be filed alphabetically and for creameries the
file may be divided into two sections, the first dealing with
equipment and the second with supplies. For example, if let-
ters are received in reference to the cost of equipment the in-
formation may be filed under the general names of such equip-
ment as churns, vats, engines, testers, etc., and alphabetically
in reference to firm names.

The Buyer Should Know the Future Value of the Goods
He Is to Buy. — A buyer will know when to buy and how much
to buy if he has a fair conception of the future value of the
goods. Consider, for example, such an article as coal, which
fluctuates more or less in value. In order to determine the
advisability of buying several months’ supply at a time the
buyer should consider the principal factors which may affect
the future value of the coal. Such are general demand, labor
strikes, transportation, and local conditions. Under the head
of transportation should be considered both the ability of the
transportation company to give prompt service as well as dif-
ference in rate of transportation between smaller and larger
quantities. Some factories are so located that they can take
advantage of water rate at certain seasons of the year, while at
other times they must ship by rail. Under the head of local
conditions should be considered price charged by local dealers,
cost of drayage, amount of money available, interest on money,
storage facilities, loss of fuel value of coal, etc.

The Buyer Should Know the Quality and the Need of the
Goods He Buys. — He should be able to make a wise choice as
to quality and determine whether the article in question is

PURCHASING EQUIPMENT AND SUPPLIES 125

absolutely needed. Goods are often bought because they are
cheap and it is expected they will be needed later on. A few
mistakes of this nature will be sufficient to reduce the annual
dividend several per cent. In order that the buyer may know
what is needed it is well for him to keep a want book in which
to write down articles needed so that they may be ordered to-
gether with the next regular order.

HOW TO BUY

Contracting for a Year’s Supply. — Most creameries buy
supplies in small lots, placing orders for them with various
dealers. For that reason the dealers find it necessary to have
their traveling solicitors make frequent calls in order to be as-
sured of their share of the business. The cost of such calls is
naturally charged up against the cost of selling the goods and
the buyer has to pay the expenses. Many of such expenses
could be eliminated if creamery managers would estimate the
amount of supplies required for the coming year. This is read-
ily done, especially after a creamery has been operated for a
year or more, as its requirements will vary from month to month
much as they did during the previous year. A buyer should be
able to estimate to a fair degree of accuracy if the business will
show a general decrease or increase for the year. The inventory
record of supplies for the previous year will present a fair esti-
mate of the proportion of the supplies needed for each month of
the coming year. Therefore, whenever submitting an order to
dealers for bids they may be requested to submit bids under
various specified conditions. For example, a buyer might re-
quest that dealers submit bids on the entire order to be shipped
in one shipment at a definite stated time, also that they sub-
mit bids on the same order to be shipped in four separate ship-
ments, each shipment to consist of a definite stated quantity
which will naturally vary in accordance with the demand; as a
third bid he might request dealers to submit bids on monthly
shipments in amounts as stated by the purchaser.

In determining the size of shipment to take at each delivery
a buyer should consider the difference in cost, amount of money

126 MANAGEMENT OF DAIRY PLANTS

available, rate of interest, storage facilities, and cost of trans-
portation.

In submitting the order to the various dealers for quotations
it is convenient to have a blank for that purpose. A duplicate
should be kept in the office for reference. After the quotations
have been received and compared the successful bidder is noti-
fied that his quotation has been accepted. The quotations are
filed in a letter file. For convenience this file may be marked as
No. 1.

Promptness in Making Remittance for Goods Purchased.
— This is an important factor in securing the lowest rate from
the dealer. If the firm buying is in such financial circumstances
that it can pay cash, that will be most satisfactory to all con-
cerned, and by that method it will secure the lowest quotation.
A business firm should have a definite time, say the tenth of
each month, when to pay all bills, and it is business policy to
arrange for having all checks for goods purchased, not including
material purchases which are usually paid oftener, mailed
promptly on that date.

Cash Discount. — Some firms allow a special cash discount
on accounts paid within a time designated on the bill. Such
bills should always be paid promptly, as the discount is usually
large enough to be profitable to the buyer. When entering such
bills in the purchase journal, the labor of bookkeeping is reduced
by deducting the discount on the bills and entering the actual
amount paid.

RECORDS

Receiving Record. — The person who receives merchandise
purchased, whether he be a special receiving clerk or the butter
maker, should make an entry thereof in a book kept for that
purpose. This book is known as ‘“‘the receiving book.” This
record should state when goods were received, name of shipper,
kind of goods, amount, and condition in which goods were re-
ceived. In larger creameries the manager will often furnish the
receiving clerk with a memorandum of kind of goods purchased
and from whom purchased. On this memorandum, however,

PURCHASING EQUIPMENT AND SUPPLIES 527

he should not include the quantity ordered, as by receiving this
information the receiving clerk might neglect to check it when
received. If the goods are short the factory is notified at once.
If damaged in transportation the railroad inspector is noti-
fied and a claim is filed for amount of damage.

Filing of Invoices and Bills. — The invoice for goods ordered
is usually received before the goods arrive. Upon receipt
thereof the invoice is checked against the order filed in file
No. 1, and when the goods are received the invoice is checked
against the receiving book; the extensions are also checked and,
if found to be correct, the invoice is pinned to the order and
returned to file No. 1. These items should be filed in alpha-
betical order, according to firm names, and each firm’s invoices
should be filed in order of dates.

At the close of each month the various firms usually mail
bills. If not, bills should be called for. Upon receipt of the bill
it is checked against the invoices in file No. 1 and if found eor-
rect it is marked “O. K.,” pinned together with the various in-
voices, and filed alphabetically in a similar file marked ‘No. 2.”
It is now ready for payment and a check, together with
the bill, is mailed to the creditor. A receipted bill is returned
to the purchaser. This is pinned to the invoices and filed
for future reference. A similar file may be used, but it
should be marked, giving the period of time covered by the bills
it contains. A large creamery may use a separate file for each
month and this file is then marked with the name of the month
and the year. A smaller creamery may be able to file in one file
all its bills for an entire year; the file is then marked with that
year.

Supply Room Records. — In the smaller plants the butter
maker is in full charge of the supply room. It speaks well for a
butter maker if he keeps his supply room as it should be kept,
with shelves and cupboards around the walls for the various
articles, such as parchment papers, butter color, tub tins, etc.
with tubs, barrels, and boxes piled in systematic order. There
should be a place for everything and everything in its place. By
keeping the supply room in order less goods will spoil, less work

128 MANAGEMENT OF DAIRY PLANTS

will be required in taking the monthly inventories, and less room
will be required for holding the supplies.

1. Receiving Goods from Supply Storage Room. — The larger
creameries often have a special stock clerk who receives the
supplies from the receiving department, and places them in the
supply room. The various departments receive their supplies
from this stock clerk on written orders signed by the foreman of
the department.

Form XII may be considered as a convenient blank for such
orders.

FORM XII

CREAMERY ORDER FOR SUPPLIES

Please deliver to our department the following supplies.
4,000 butter wrappers.
Butter Mfg. Dept.,
(Signed) J. BROWN.

These blanks may be put up in pads about 4 inches by 5
inches in size. They may or may not be written in duplicate.

2. Monthly Inventory Record of Supplies. — The monthly
inventory record of supplies on hand is of value: First, for
determining the amount of supplies used during the month;
second, as a guide for placing orders for supplies; third; as a
check record on waste in supplies, and fourth, as a record in
case of fire loss.

Form XIII represents an inventory blank which may be
made to cover the entire year. This blank is self-explanatory.
The purchases are entered from the purchase journal. The
amount used during the month is equal to the amount on hand
on the morning of the first day of the month, plus purchases
made during the month, less amount on hand on the morning of
the first day of the following month,

PURCHASING EQUIPMENT AND SUPPLIES 129

FORM XIII

INVENTORY OF SUPPLIES

January February March
pene On hand | Purchased| Used On hand pide. Used ed] 0", 5 pitt Used
Goalicicecs- ai sae 30}$90.00] 25/$75.00} 25/$75.00

Butter tubs. . 150 39. 39.00 600] 156.00]500}130.00}250} 65.00

Butter boxes.

Butter
wrappers. .

Butter salt. .

In order to facilitate the work of taking the inventory a
record, such as Form XIV, will be of much value. This blank
is fastened to the shelves on which the supplies are kept. When-
ever the butter maker removes supplies an entry is made on
this record. In the case of a stock clerk the total amounts of
supplies delivered in accordance with his order blanks are
entered daily or weekly and at the close of the month these
records contain full information in reference to the amount of
supplies on hand. By that system one annual inventory count
of the supplies on hand is usually found to be sufficient.

130 MANAGEMENT OF DAIRY PLANTS

FORM XIV

KinD oF SupPLics

|

oare Receves
7 ae ee
:
c| Qurchad | | nae
‘
E
25
en ee een Re Ie):

CHA PIER OX
COST OF POWER

UntIL recently only steam power has been considered practi-
cal for the creamery. It is now recognized that the gasoline
engine and the electric motor may also be used to advantage
in our modern plants.

STEAM POWER

Fuel. — The power is produced from fuel. The value of the
fuel is measured by the heat units which its combustion will
generate. The combustible portion of the fuel is the part of it
which burns; other ingredients as ash remain and are without
fuel value, the ash varying from 2 to 36 per cent in different
fuels.

Coal is the most important fuel known. It is used as a fuel
in most dairy establishments. It has been estimated ! that on an
average one pound of coal is equal for steam-making purposes
to two pounds of dry peat, two and one fourth to two and one
half pounds of dry wood, and to three and one fourth to three
and three fourths pounds of wheat or barley straw. Table IIT
by the same author gives the chemical composition of several
typical kinds of solid fuels.

1Steam, its Generation and Use.

13i

132

Wood, per-
fectly dry. .

Wood, ordi-

Coal, an-

thracite....

Coal, semi-

bituminous

Coal, bitu-
minous,

Pittsburgh .

Coal, bitu-
minous,
Hocking

Valley, O...

Coal, bitu-
minous,

Illinois... ..

Brown coal,
Pacific

Lignite,
Pacific

MANAGEMENT OF DAIRY PLANTS

TABLE III

COMPOSITION OF FUELS

nwo ir
oom bs

eee | Hydro- , Nitro-
ture | Carbon | gen | Oxygen gen
fo) 50° 6.0 41.5 1.0
20.0 40 4.8 ag42 0.8
30.0 40.6 4.2 oie 7
52.0 84 1.0 fe)
16.0 36 5.0 38.0
a 86 1.0 1.6 0.5
1.0 84 4.2 2a 0.8
Ten 75 5.0 8.0 1.0
vie 67 4.8 10.0 [2
Ir.0 56 5.0 II.o I.0
16.8 50 3.8 #30 0.9
14.0 55 4.0 15.0 E:6

5.0

Heating Value of Fuel. — The amount of heat generated by
combustion of carbon, hydrogen and sulphur is as follows:
Carbon, 14,500 heat units per pound; hydrogen, 62,000 heat
units per pourid; sulphur, 4,000 heat units per pound.

Carbon and hydrogen are the only elements considered to

COST OF POWER 133

possess practical fuel value. The heating power of fuels con-
taining carbon and hydrogen is approximately expressed by the
formula:

h = 145 (C++ 4.28H) !

A manufacturer purchasing a quantity of fuel will do well
in having a sample thereof subjected to chemical analysis, and
the heat value is thus readily determined. Take as an illustra-
tion the analysis of Hocking Valley Coal, Table III, and the
heat value is as follows:

h = 145 (67 + 4.28 X 4.8) = 12,694 B. T. U. per pound.

Heat Required for Producing Steam. — Water at 212° F.
takes up 966 B. T. U. when converted into steam of the same
temperature. Therefore if one pound of coal produces 12,694
heat units then a pound of such coal will produce 12,694/966 or
13.14 pounds of steam of 212° F. from water of the same tem-
perature. The amount of heat thus required to produce a
pound of steam is known as the latent heat of vaporization.

In practice more heat is required for producing a pound of
steam, as the water that is converted into steam is usually at
a temperature much below 212° F. Possibly 60° F. will come
nearer to the temperature of the boiler feed water as used in
most creameries. Furthermore the steam in the boiler is heated
to a temperature exceeding that of 212° F. Consider that a
creamery is using boiler feed water at 60° F. and carrying a
steam-gauge pressure of 80 pounds, it will then require 1,153 heat
units for each pound of steam produced, or one pound of the
12,604

Losses of Heat When Producing Steam. — If there were no
losses to consider it would be comparatively easy to determine
the amount of fuel of a known composition required for produc-
ing a definite amount of steam. It will be impossible even for
the most careful engineer to reach the theoretical efficiency. It
should be possible, however, for many engineers to materially

above-mentioned coal will produce or 11 pounds steam.

1 Siebel’s Compend. of Mechanical Refrigeration and Engineering, 1911, p. 96.

134 MANAGEMENT OF DAIRY PLANTS

reduce many fuel losses in the boiler room and often throughout
the entire factory.

Creamery boiler losses in a small creamery are estimated by
Bowen ! as averaging about 50 per cent of the theoretical effi-
ciency. For a steam plant operated under most economical
conditions the following estimate is furnished:

Loss due to unconsumed particles of coal falling through grate...... 2%
Lossidie-to incomplete combustion (oi 5.6 fs ie a & as fare ee ee 2%
Loss due to heat being carried away in stack gases................ 23%
Racdianon ane Winer LOSSES. jie re wate ele elem Oke She xe eae se ae

Total boiler Tosses 26 oo. 53 Seas J eee 36%

Such losses will further reduce the amount of steam pro-
duced from a pound of coal, so instead of having 11 pounds of
steam produced this figure is reduced to

TrX a or 7.15 pounds of steam, which is being finally pro-
TOO

duced from a pound of coal when considering the second esti-
mate. The theoretical efficiency obtained from the coal in this
case is 65 per cent. Under the small creamery conditions where
we figure on a 50 per cent efficiency the amount of steam pro-

duced from a pound of coal is 11 X ee 5.5 pounds.
100

Losses of Heat When Converting It Into Mechanical
Work. — Heat is converted into power through the steam en-
gine. The amount of power produced is spoken of in terms of
horse power.~ One horse power corresponds to 33,000 foot
pounds 2 per minute; 778 foot pounds correspond to one British
thermal unit. The amount of heat therefore required to pro-
duce one horse-power hour is equal to

BBO OEP ais TAT,
778
It is estimated that a good engine will require from 15 to 30

1 Circular 209, B. A. I., 1913.
* A foot pound is the power required to raise one pound one foot per minute.

COST OF POWER 135

pounds of steam per horse-power hour. It is to be assumed that
the average creamery engine will be operated at a greater loss of
steam and it may be fair to estimate that it will require 4o
pounds of steam per horse-power hour. The heat required to
produce that amount of steam at 80 pounds gauge pressure
irom water of 66° F. is equal to 1,153 X 40 = 46,120 B. T. U.
The per cent of the heat converted into mechanical work is
equal to

2,545 X 100

46,120

Methods by Which Heat Losses Are Reduced. — The ex-
haust steam from the engine contains much heat. By saving at
least a part thereof, it will result in a reduction of amount of
fuel required. The exhaust steam may be used for heating the
boiler feed water and wash water, for pasteurization, for heating
the building, etc. The losses are furthermore reduced by proper
firing, by keeping the boiler clean, and by keeping boiler and
steam pipes properly insulated.

1. Value of Exhaust Steam for Heating the Feed Water. — It
has been stated that it requires 1,153 B. T. U. of heat for pro-
ducing a pound of steam, 80 pounds of gauge pressure, from
water at 60° F. It should be possible to heat the water by
exhaust steam to 200° F. before the water enters the boiler.
Water of 200° F. when converted into steam of 80 pounds
pressure will require only 1,153 — 140 = 1.013 B. T. U. The
saving of heat in this instance is

== §25. Der cent.

140 X 100
1.553

Table IV! gives the percentage of saving in fuel by pre-
heating the boiler feed water from various initial temperatures
to different final temperatures.

Table V1 gives the annual cash saving of fuel on a 4o
horse-power boiler by heating the feed water from various
initial temperatures to a final temperature of 200° F.

= 12.14 per cent.

1 Circular 209, B. A. I., ro13.

MANAGEMENT OF DAIRY PLANTS

130

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138 MANAGEMENT OF DAIRY PLANTS

Heating of feed water may be done by two methods — either
by exhaust steam or by chimney gasses. The heater used for
the latter is known as ‘‘Economizer.” It is the former method
which will be most practical for the average creamery. There
are two objects for heating the feed water: First, there is a sav-
ing in heat when heating the feed water by exhaust steam, and
second, the water is heated to such a temperature so that it
will not injure the boiler as will water of a low temperature.

When using water heaters, the best oil traps obtainable
should be used, as the oil, if entering the boiler, will mix with
the solids of the water and finally adhere to the sides of the
boiler, which will naturally lessen the efficiency of the boiler.
It is to be preferred that the steam pass through the heater
through a system of coils, thus eliminating the steam from the
water in the tank. Fig. 23: illustrates a plant with water
heating apparatus.

2. Firing. — The method employed in firing the coal may
involve big losses. The ability of being able to obtain the
greatest amount of heat from the fuel burned lies in the ability
of the fireman to supply the right amount of air to the fuel under
the right conditions. Only such an amount of oxygen should be
supplied as is necessary to combine with the combustible por-
tions of the coal. The coal should be added in small quantities
at a time; it should be spread evenly over the grate. The fire
should have a thickness of from three inches to six inches; it
should be clean and should leave no burned-out places or holes.

Proper installation of the boiler is of importance in order to
obtain the highest efficiency. It is estimated that it will require
from one third to one half square foot of grate surface for each
horse power of a horizontal tubular boiler. Complete plans and
specifications for installation of the boiler and for building the
chimney are furnished by the manufacturer of the boiler and the
installation should be made and retained in accordance there-
with.

3. Keeping Boiler Clean. — The efficiency of the boiler is
greatly reduced if the exterior of the tubes is covered with soot

1 Circular 209, B. A. I., 1913.

ct
ore

BINT BahwaS MOws NATLIG WILY

SIATWA ¥ITHD te

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WIAWA Cad CIVOG

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by OL ASNT

FAIA LSNVHKD

Spt ttt) pt th pp

SSIS

sak

I40 MANAGEMENT OF DAIRY PLANTS

or the interior of the boiler with scale. The exterior of the tubes
is readily cleaned and should be done daily. The formation of
scale on the inside of the boiler is more difficult to prevent. The
most common impurities in water causing formation of scales
are sulphates and chlorides of lime and magnesia and bicarbon-
ate of magnesia and lime; also iron silica and other ingredients
are found. It is recommended to use caustic soda in the propor-
tion of one fourth pound per horse power; the boiler is then
steamed for a day before cleaning. The scales become soft
and are readily removed. Soda ash or carbonate of soda will
decompose sulphates and chlorides of lime and magnesia.

4. Insulation of Boiler and Steam Pipes. — Losses of steam
from boiler, pipes, and engine due to radiation and leakage are
estimated variously by writers. Such losses may be estimated
for the average creamery at Io per cent of the steam produced.
This loss may be reduced by having boiler and steam pipes>
properly insulated and by preventing leakage from pipes and
valves.

Cost of Power When Operating a Steam Engine. — Con-
sider that 1 pound of coal produces 5.5 pounds of steam and
that the cost of such coal is $5.50 per ton of 2,000 pounds. If 40
pounds of steam are used for a horse power per hour then the

amount of coal required is = or 7.27 pounds. The cost of a
5.

horse power per hour is equivalent to.

1:27. 550

2,000

or 2 cents

GASOLINE FOR POWER

The gasoline engines have during recent years been installed
in several creameries. The principal advantages claimed for
them are:

1. Economical in cost of fuel and attendance.

2. Automatic in operation.

COST OF POWER I4I

3. For intermittent service — no expense when not in oper-
ation.

4. No water is used except for the cooling tank, and this
water may be used over and over again.

5. It is safe and easy to handle, and no danger from fire.
As disadvantages might be considered:

1. Subject to great wear and tear.

2. The original cost of a gasoline engine is greater than that
of a steam engine.

3. The strong odor from the exhaust. However, this may be
fairly well conducted from the building; nevertheless it is most
satisfactory that the gasoline engine is placed in a separate
room which can be thoroughly ventilated.

Cost of Operation. — A gasoline engine will consume about
one tenth of a gallon of gasoline per horse power per hour. If
the cost of gasoline is 24 cents per gallon then the cost per
horse-power hour is 2.4 cents.

KEROSENE FOR POWER

The kerosene engine may be operated either with kerosene
or gasoline. As advantages and disadvantages for this machine
the same might be mentioned as enumerated under the head of
gasoline engines. The odors from the kerosene engine are
somewhat stronger, the original cost about 25 per cent higher,
but the cost of operation with kerosene is much less.

Cost of Operation. — About one eighth of a gallon of kero-
sene is required for producing one horse-power hour. If the
cost of kerosene is 12 cents per gallon then the cost per horse-
power is 1.5 cent.

ELECTRIC POWER

Electric power is measured in kilowatts (K. W.). A watt is
1/746 of a horse power and a kilowatt is 1,000 watts or 1 1/3
horse power. A small amount of power is lost due to friction
in the bearings and to heating of wires, therefore a motor re-
ceiving a kilowatt power will transmit slightly less than that
amount.

I42 MANAGEMENT OF DAIRY PLANTS

Cost of Operation. — If the cost per kilowatt hour is 5 cents,
then the cost per horse power is 3 3/4 cents.

Power is often saved when using electric power by installing
smaller units, that is, using separate motors for the various
machines or departments and motors of the proper size. This
system prevents the use of a 15 to 25 horse-power engine for
yielding one or two horse power which is usually sufficient for
stirring the cream or for pumping water. The system of indi-
vidual motors furthermore reduces the amount of shafting and
as a result the amount of loss due to friction.

CHAPTER XI
PASTEURIZATION

PASTEURIZATION should be considered as one of the necessary
expenses in the modern factory of dairy products, for as long as
the inspection of individual dairies is impossible it will not be
safe to convert raw products obtained from such dairies into
finished products to be offered for sale unless they have been
subjected to pasteurization. Even though the dairy farm from
which the cream is delivered is under inspection, it is at times
possible that germs causing disease may also there gain entrance
into the milk unbeknown to the producer. It is therefore
generally recognized that if an absolutely safe product is pro-
duced it should be made from material which has been pasteur-
ized to a temperature of not less than 140° F. for twenty minutes
or longer or to a temperature of not less than 180° F. when ex-
posed to flash heat. Pasteurization also improves the immedi-
ate quality as well as the keeping quality of the butter and
causes a more uniform product to be produced.

A. COST, OF PASTEURIZATION

The expenses incurred by pasteurization may conveniently
be divided into three groups: 1, cost of steam required for
heating; 2, cost of cooling water; 3, cost of labor and equipment.

I. Cost of Steam Required for Heating. — Theoretically the
amount of heat obtained from a pound of steam at a definite
gauge pressure is a known quantity, but in practice it is not
possible to obtain a hundred per cent of the theoretical effi-
ciency. Losses sustained in transferring the heat to milk or
cream to be pasteurized are primarily due to radiation of heat
from the steam pipes and pasteurizer. It is therefore economy
to have the steam pipes leading from boiler to pasteurizer as
well as the pasteurizer itself properly insulated so as to reduce
such radiation to a minimum.

143

I44 MANAGEMENT OF DAIRY PLANTS

It has been the experience of the writer that under ordinary
creamery conditions when a steam-gauge pressure of from 40
to 80 pounds is maintained it is reasonably safe to figure that a
pound of steam will yield about goo B. T. U. of heat. From
this estimated heat value of steam the amount of steam re-
quired for pasteurization may be quite accurately determined.
As the difference in amount of heat required to raise a pound of
water one degree on different parts of the thermometer scale is
very slight, when considering the range of temperatures made
use of in pasteurization, it will be safe in this connection to
consider a B. T. U. as the amount of heat required to heat one
pound of water any one degree on the Fahrenheit thermometer
scale.

Example: How much steam is required to heat 10,000
pounds of milk from 60° F. to 185° F.?
10,000 X .941X (185 — 60)

goo

Answer: = 1,305.6 pounds of

steam.

1. Method by Which to Determine the Heating Value of Steam.
— More accurate determination of steam required for heating
may be obtained by determining the heating value of the
steam. This determination may be made as follows: Admit
live steam into a known amount of water held in an insulated
container; weigh the water after it has been heated to the de-
sired temperature — the increase in weight is due to amount of
steam condensed.

Example: 80 pounds of water are heated from 60° F. to 180°
F. The water has increased in weight ro pounds. How much
heat has been obtained from a pound of steam?

Answer: Let y stand for amount of latent heat obtained
from each pound of condensed steam used. ‘Then,

to [y+ (212 — 180) ] = 80 (180 — 60); y = 928 B. T. U.

The total amount of heat obtained from each pound of steam
used is equal to 928 + 32 = 960 B. T. U.

2. Weighing the Condensed Steam. — The amount of steam
required for doing a definite amount of work is determined in

Specific heat of milk.

PASTEURIZATION 145

the most practical manner by collecting the condensed steam
and weighing it. This is readily collected from such types of
pasteurizers as the continuous machines. It becomes more
difficult when a cream ripener is used as a pasteurizer. How-
ever, even then it can be determined with a reasonable degree of
accuracy. The condensed steam is secured through the cir-
culating water overflow pipe. The circulating tank for the vat
is first filled with water until it overflows. The agitator should
be in motion for some time before pasteurization begins so ‘the
coil becomes properly filled. The amount of circulating water
required may be determined once for all by weighing it into the
tank. After the circulating water has become constant the
steam may be admitted; however, the steam line should be
equipped with a drain valve and the condensed water already
in the pipe should be drained out and not be admitted into the
circulating water. The amount of steam required for pasteur-
ization is equal to the overflow minus the amount of the over-
flow due to expansion of the circulating water.

TABLE VI

DENSITIES AND SPECIFIC VOLUMES OF WATER !

Grams per | Cubic centi- Grams per | Cubic centi-
Temp. | cubic centi- | meters per Temp. | cubic centi- | meters per
meter gram meter gram

eo: iC: 0.999874 I .000127 55 0.98579 1.01442
5 0.99999 2 I .000008 60 0.98331 1.01697
10 0.999730 I .000265 65 0.98067 1.01871
rs 0.999143 1.000857 70 0.97790 1.02260
20 0.998252 1.001751 75 0.97495 1.02569
25 0.997098 1.002911 80 0.97191 1.02890
30 0.995705 1.004314 85 0.96876 1.03224
35 0.994098 I .005936 go 0.96550 1.03574
40 0.99 233 1.00773 95 0.96212 | 1.03938
45 0.99035 1.00974 100 0.95863 1.04315
50 0.98813 I

.OT201 |

) EE ER
1 This table by Thiessen, Schell, and Marek is taken from ‘‘ Mechanics and Heat,”
by Wm. S. Franklin and Barry MacNutt.

146 MANAGEMENT OF DAIRY PLANTS

Example: State amount of steam used for pasteurizing a
definite amount of cream in a ripener when the circulating
water weighs 428 pounds at 50° F. (10° C.). Final temperature
of circulating water being 158° F. (70° C.), and amount of over-
flow being equal to 236 pounds.

Answer:

The amount, by weight, of circulating water overflowing by
being heated from 50° F. to 158° F. is

428X 1.02200 — 1.000205

= 9.35 pounds.
1.02260

Amount of steam used for pasteurization is
236,— 9.35 = 226.65 pounds.

3. Difference in Amount of Steam Used for the Continuous or
Flash Method and the Holding Method of Pasteurization. — By
the continuous method of pasteurization the milk or cream
is heated to a higher temperature, about 180° F., and the con-
densed steam is also discharged at a higher temperature, usually
at from 200° F. to 210° F. When pasteurizing by the hold-
ing method the cream is heated to about 145° F. and the
condensed steam is discharged at a temperature of about
150° to 160° F. This saving in heat by the latter method is
somewhat reduced, due to the fact that a certain amount of
circulating water has to be heated most often from a tempera-
ture of about 50° F. to about 150° F. The additional amount
of steam required for heating the circulating water is reduced
per pound of butter fat as the amount of milk or cream in the
vat is increased. Therefore when pasteurizing in the vat the
steam required for pasteurization per pound of butter fat is
greater when the vat is only half full of cream than when it is
full. The following examples illustrate fairly well the amount
of steam required for pasteurization under practical conditions.

Example:

1. Determine amount of steam required per pound of butter
fat when pasteurizing 2,000 pounds of 30 per cent cream from
60° F. to 185° F. by the continuous method of pasteurization,

PASTEURIZATION I47

the condensed steam leaving the pasteurizer at 212° F., 900
B. T. U. of heat being obtained for each pound of steam used.

2. Determine amount of steam required per pound of butter
fat when pasteurizing same cream in a vat, heating it to 145° F.,
the condensed steam leaving at a temperature of 155° F., 500
pounds of circulating water being used, initial temperature of
this water being 50° F. and final temperature 160° F.

3. Determine amount of steam required per pound of butter
fat when 1,000 pounds of 30 per cent cream are pasteurized
under the same conditions as specified in 2.

Answer:
2000 X 0.8 2
(1) ROSH A oi 233.33 pounds of steam
goo
233.33

——~—— = 0.389 pound of steam per pound of butter fat.
2,000 X 0.30

2,000 X 0.84 X 85 + 500 X IIO

(2)
060-,\2he- 155)

206.69

= 206.69 pounds of steam.

—_———— = 0.344 pound of steam per pound butter fat.
2,000 X 0.30

(3) 1,000 X 0.84 X 85 -+ 500 X II0

= 1232.08 pounds of steam.
900 + (212 —155) : E

132.08 0.440 pound of steam per pound of butter fat.

I,000 X 0.30

II. Cost of Cooling. — The cost of cooling depends primarily
on the amount of water required to remove the quantity of
heat taken up by the milk or cream during the process of pas-
teurization. A small part of this heat, however, is removed
by evaporation. This latter factor is of greater importance
when using an open cooler, such as a tubular, while of less signif-
icance when cooling in a cream ripener.

The amount of water required for doing a certain amount of
cooling decreases in proportion to the number of heat units
taken up by each pound of water. Therefore the greatest
cooling efficiency is obtained when the difference is the greatest
between the temperature of the cooling water as it enters the

148 MANAGEMENT OF DAIRY PLANTS

cooler and the temperature of the same water as it leaves the
cooler. The amount of water required for cooling may differ
greatly in proportion to the amount of water admitted through
the cooler. If more water is admitted the cooling will be done
more rapidly but at a greater expense than when the water
flows through the cooler more slowly. It is evident that the
temperature of the cooling water greatly influences the cost as
well as the rapidity of cooling.

1. Efficiency of Coolers. — The tubular cooler may be consid-
ered to be of high efficiency. The author found that the cool-
ing water when a certain type of tubular cooler was used took
up 41.59 B. T. U. of heat per pound as against 12.58 B. T. U.’
when cooling with the vat, or it required 3.3 times as much
water for cooling with the vat as with the tubular cooler, when
cooling with water of 54° F. It was also observed that the
evaporation was slightly greater when using the tubular cooler;
however, that shall be left out of consideration in the follow-
ing.

2. Cost of Cooling-Water.— From experiments referred to,
the cost of cooling was figured on the basis of the cream con-
taining 30 per cent of butter fat. About 2,000 pounds of cream
were pasteurized at a time. The cost of the water was figured at
ten cents per thousand gallons. The cost per pound of butter
fat for cooling when using a tubular cooler was found to be
0.009 cent as against 0.021 cent when cooling in the vat.

3. The Regenerator. — The regenerator may be considered
as a saving device for the pasteurizing and cooling equipment.
It is an apparatus over which the cool and hot milk pass simul-
taneously, the cool milk taking up heat from the hot milk, thus
saving both in steam and cooling water. Bowen reduced the
cost of coal about 50 per cent and the cost of refrigeration ap-
proximately 60 per cent by installing a regenerator.

III. Cost of Labor and Equipment. — The cost of labor
varies somewhat with the different type of pasteurizer employed.
Thus a continuous pasteurizer requires more of a person’s
attention than is required when the cream ripener is used as a

1 Bul. 85, U. S. Dept. of Agriculture, 1914.

PASTEURIZATION 149

pasteurizer. Furthermore the former method involves a greater
expenditure and therefore more depreciation and interest on
investment. By the latter method practically no additional
machinery will be required.

Considering that a creamery is pasteurizing 2,000 pounds of
30 per cent cream for 300 days in the year and that for such
work is used a continuous pasteurizer and cooler of 2,000 pounds
per hour capacity costing $500, the cost for the year may be
summarized as follows:

Labor pasteurizing and cleaning, 400 hours at 3o cents...... $120
Depreciation Vi 26° cents. ..4. 0) 68 ae ss ee ee eee eee 100
Mnterest om ANVEStmien ty, 25.2). 8a hae SCG ae a Siwiaee tie we alent haat 25

OLE ry eh yok os iatava ta ede ee eats a $245

SMM Dice neel
2,000 X .30X 300

If the ripener is used for such work then the labor represents
about fifteen minutes daily or a total of 75 hours at 30 cents,
or $22.50. Carrying $50 annually of depreciation and interest,
then the cost per pound of butter fat is equal to 0.04 cent.

IV. Total Cost of Pasteurization. —

1. Cost of Pasteurization by Continuous Method. — It was
estimated, page 147, that when a 30 per cent cream is pasteur-
ized by the continuous method it will require 0.389 pound of
steam per pound of butter fat. Figuring that 5.5 pounds of
steam are produced from coal costing $5.50 per ton the cost
of pasteurizing per pound of fat is equal to

0.389 X 550

5.5 P..2,000

The expenses per pound of butter fat when pasteurizing by
the continuous method may be summarized as follows:

Cost per pound of butter fat = =©0,136 cents.

= 0.019 cent.

Gustiotetemus 4 face eluents eet se 0.019 cent
Cision COONNE wel athe oot i Ges wale we oe 0.009 “
Cost of labor and equipment........... 6.130)

I50 MANAGEMENT OF DAIRY PLANTS

2. Cost of Pasteurization by Vat Method. — Taking for granted
that the vat used for pasteurization is of proper size, the amount
of steam required per pound of butter fat when pasteurizing a
30 per cent cream has been estimated at 0.344 pound. The
value of this being equal to

O. X 550

OSHA 55° 0.017 cent.

5-5 X 2,000

The total expenses may be summarized as follows:
Cast GhStbame 0 Gis u oa y eee ee Ace ©.027 Cent
Gostiatcoohme eo0% ia yo ay ones erates G:021 °*
Cost of labor and equipment........... 0.040 “

MEER E NENTS CN geal i ivntiss 0.070

Bowen ! estimates the cost of pasteurizing one gallon of milk
at 0.313 cent and one gallon of cream at 0.634 cent. The
same investigator found that it requires approximately 17 per
cent more heat for flash pasteurization than for vat pasteuriza-
tion.

It is possible to reduce the expenses of pasteurization slightly
by utilizing exhaust steam instead of live steam as has been
considered in the above.

B. THE ECONOMIC EFFICIENCY OF PASTEURIZING
MACHINERY

The economic efficiency of pasteurizing machinery depends
on the amount of heat that in a definite time will be transmitted
to milk or cream in the heating chamber from steam or water
in the surrounding chamber, known as the steam chamber.
The amount of heat thus transmitted depends on: First, size
of heating surface; second, thickness of the heating wall; third,
difference in temperature on the two sides of heating wall, and
fourth, thermal conductivity of the metal from which the
heating wall is constructed.

1 Bul. 85, U. S. Dept. of Agriculture, ror4.

PASTEURIZATION Ist

I. Conductivity of the Heating Wall. — The amount of heat
that in a given time will pass through the heating wall of a
pasteurizer may be expressed by the following formula:

oe K X AS te) y T.

Q represents quantity of heat in B. T. U. conducted.

K represents the quantity of heat in B. T. U. conducted
through one square inch of a wall one inch thick per second
when the difference in temperature on the two sides of the wall
is't F.

A represents area, in square inches of heating surface.

ty represents temperature in Fahrenheit degrees in steam
chamber.

te represents temperature in Fahrenheit degrees in heating
chamber.

T represents time in seconds.

d represents thickness of wall in inches.

The heating wall of a pasteurizer should be constructed
from metal which is of high thermal conductivity. Copper
has been found very satisfactory for that purpose, its thermal
conductivity being 0.72. Only one metal, silver, is a better
conductor than copper, its thermal conductivity being 1.096,
but its use is prohibited on account of its cost. Aluminum is
next to copper in thermal conductivity, being 0.343, while tin is
only 0.152.

Taking for granted that copper will be used for the construc-
tion of the heating wall of the pasteurizer we know that 0.72
calorie 1 of heat will be conducted per second through one
square centimeter of a copper wall one centimeter in thickness
when the difference in temperature on the two sides of the wall
is one degree Centigrade.

The British thermal unit is a measure for heat which is mostly
used in practical work. As one pound is equal to 453.6 grams

then one B. T. U. is equal to 453.6 X ee = 252 calories.
180

1 One calorie is the amount of heat required to heat one gram of water one degree
Centigrade from 4° C. to 5° C.

152 MANAGEMENT OF DAIRY PLANTS

The amount of heat which will be conducted per second
through one square centimeter of copper one centimeter in
thickness when the difference in temperature on the two sides
of the copper wall is one degree Fahrenheit is equal to

100
0.72 X —— = 0.40 calorie.
180

The amount of heat in B. T. U. which in one second is
conducted through one square centimeter one centimeter thick

is equal to o-4° B. T. U. with a difference in temperature of one
252

degree Fahrenheit.
The value of K is equal to!

ie ¢ (2-54)" = 2.004 Bb; “Fo U,
252 2.54

Example:

Determine the amount of milk which should be pasteurized
per hour when using a pasteurizer of 1,400 square inches heat-
ing surface; thickness of copper, 0.05 inch. The temperature
in the steam chamber is 212° F., the average temperature of
milk in pasteurizer, 152° F. and the milk is heated from 60° F.
to 180° F.

Answer:

Qn 0.004 X 1,400 X 60

X 3,600 = 24,192,000 B. T. U.
0.05 |

Amount of milk to be pasteurized =
24,192,000
120 X .94

II. Factors Reducing the Efficiency of a Pasteurizer. —
From the above problem it is evident that the theoretical
efficiency is not obtained in practical work. About one per
cent of the theoretical efficiency is as much as may be expected
when using a pasteurizer of a continuous type. By this it is
not understood that ninety-nine per cent of the heat is lost, for

= 214,468 pounds.

' One inch is figured as being equal to 2.54 c. m.

PASTEURIZATION 153

‘the loss of heat is comparatively slight, but the time required
for doing the work is greatly increased. It is already under-
stood that the area of the heating surface, the thermal conduc-
tivity of the metal, the thickness of the metal, and the tempera-
tures applied are all factors which influence the efficiency of the
pasteurizer. Factors greatly affecting the conductivity of the
pasteurizer wall are the formation of a layer of water on the
outside of the heating cylinder and the burning on of milk
solids on the heating surface.

1. Layer of Water on Outside of Heating Surface. — The
layer of water on the outside of the heating surface is formed by
condensation of steam during the process of pasteurization. As
the thermal conductivity of water is only .oo124 the thermal
conductivity of copper is 581 times greater than that of water;
it is therefore economy to have the thickness of the layer of
water reduced to the minimum.

The Danish Experiment Station succeeded in increasing the
efficiency of the continuous pasteurizer materially by soldering
on the outside of the heating cylinder a series of rings at a
downward angle of 45°. These rings remove the water quickly,
the thickness of the layer of water was reduced, and the eco-
nomic efficiency of the machine increased about 50 per cent
(Fig. 28.) ?

2. Burning of Milk Solids on Heating Surface. — Burned-on
milk is extremely poor in conductivity. It is therefore of much
importance that all particles of burned-on milk are properly
removed after each time the machine has been used. This is
done most readily by filling the machine with water and washing
powder immediately after pasteurization. By leaving the
dasher revolving from ten to fifteen minutes it is quite easy to
remove with a brush all milk particles adhering to the heating
surface. A knife or any kind of metal should never be used for
scraping the surface, as such tools will cause rough places and
when the milk strikes such it will readily burn on. If any
amount of milk has burned on to the pasteurizer slacked lime
and sal soda mixed in equal proportions will prove of greater

1 Bul. 43, Danish Experiment Station, 1899.

es enicandaeatas

roreenaeamrpenncteser

10n

ith the Danish Experiment Stat

izer W
Improvements.

Fic. 24. — Pasteur

PASTEURIZATION 155

efficiency than washing powder, but this should not be used
unless necessary, as it has a dissolving effect on the tin. The
following are the most significant causes for milk burning on
to the heating surface.

A. Too Thin Metal. — As the copper wall becomes extremely
thin the heat is conducted so readily through the wall that the
heating surface becomes too hot. The albumin when striking
this surface is coagulated and burns on. The increase in the
thickness of the heating wall will represent a comparatively
slight decrease in efficiency. This decrease, however, is in-
significant as compared to that caused by burned-on milk and
as copper is so efficient as a thermal conductor it is advisable
to have a copper wall of not less than one-twentieth of an inch
in thickness. Copper of such thickness will not cause the milk
to burn on readily and the pasteurizer, furthermore, becomes
of sufficient durability.

B. Too High Heat in Steam Chamber. — The heat in the
steam chamber should not exceed 214° F. The higher the heat
the greater the danger of burning on. The amount of heat in
the steam chamber of pasteurizer (Fig. 28) is controlled by
steam trap A. Through this trap all water condensed in the
pasteurizer escapes. The higher this water column extends
above the bottom of the pasteurizer the greater the steam pres-
sure and temperature in the steam chamber. Steam should
never be allowed to escape through this trap, as this will repre-
sent a loss of heat and indicate that the pasteurizer is operated
above its capacity.

C. Too High Pasteurizing Temperature.—It is natural
that the heating surface has to be kept at a much higher degree
of heat when the high pasteurizing temperatures are employed,
thus causing more of the milk to burn on. It is often noticeable
that a ring of burned-on milk is formed around on the upper
part of the heating surface where the milk has reached its
highest temperature.

D. Too Hot Steam Coming in Contact with the Warm
Milk. — The steam when entering the pasteurizer, if of high
pressure, is considerably above 214° F. and it is most important

156 MANAGEMENT OF DAIRY PLANTS

that such steam enters the pasteurizer at a point close to the
inlet of the cold milk.

E. Milk Moving too Slowly Over the Heating Surface. — If
the milk is moving rapidly over the heating surface there is no
part of the milk solids that will remain long enough in touch
with the heating surface to burn on. It is therefore essential
that the heating surface is smooth; rough places either due
to imperfect metal or to burned-on particles retard the speed
of small parts of milk and therefore at such places more or
less burned-on milk solids will be found. Higher speed of the
agitator may prevent the milk particles from burning on.

The Danish Experiment Station ! (Fig. 28) placed horizontal
plates on the agitator of a pasteurizer of the continuous type.
This caused the milk to move over the heating surface at a
higher rate of speed and asa result less milk solids burned on to
the heating wall. The horizontal plates on the dasher further-
more assured uniform heating of all particles of milk pasteurized
by preventing milk just entering the pasteurizer from splashing,
whereby some of the cold milk might be discharged with the
milk properly pasteurized. More particles of the milk will
come in direct contact with the heating surface of the pasteur-
izer and the economic efficiency of the machine is thereby in-
creased.

III. Purchasing Equipment for Pasteurization.

1. Pasteurizer. — When purchasing a pasteurizer the buyer
should request that the manufacturer furnish a guaranty as to
its economic efficiency. If a machine is represented to be of
1,000 pounds capacity per hour the temperature of pasteuriza-
tion should be considered, as it takes about twice as long to
pasteurize a given amount from 60° F. to 185° F. as is required
to pasteurize the same amount from 60° F. to 145° F. The
pasteurizer should be constructed from material of sufficient
strength and the heating surface should be smooth.

2. Cooler. — The cooler should be of a size sufficient for cool-
ing the milk or cream to within 2° to 4° F. of the temperature of
the water. If a tubular cooler is used the tubes should be con-

1 Bulletin 43, Danish Experiment Station, 1899.

PASTEURIZATION 157

nected with metal strips which insures a more complete spread-
ing of the milk or cream.

3. Steam Boiler. — It is important that the boiler is of suffi-
cient size. The capacity of a boiler is rated by the amount of
water it is able to evaporate. A horse power is equivalent to the
evaporation of 34 1/2 pounds of water per hour at 212° F. If
milk is pasteurized to a temperature of 145° F. from initial
temperature of 60° F. then it will require approximately one
horse power for every 400 pounds of milk pasteurized per hour
or it will require approximately one horse power for 300 pounds
of milk per hour if it is heated to 180° or 185° F. It is advisable
to provide for surplus boiler capacity, as forcing the boiler
results in excessive fuel requirements.

CHAPTER XII
COST OF WATER

Where the water is pumped in the creamery it is scarcely
realized that water costs money. In that instance it will also be
unnecessary from the stand point of profit and loss to deter-
mine the cost of the water for a small plant, as that will be in-
cluded under the total cost of fuel, labor, supplies, depreciation,
etc. If the water is purchased from the city the item of expense
is apparent, and first, then, the creamery manager begins to
make an effort to reduce the cost thereof and in doing so it is
essential to know what the water is used for. This is most
readily determined by having separate meters on the water
pipes leading to the different departments. Water may be used
to advantage in great quantities in the creamery, but it should
not be wasted.

A. POWER REQUIRED FOR PUMPING WATER

The amount of power required to elevate water varies directly
with the quantity and with the height to which it is to be ele-
vated. Therefore it requires twice as much power to elevate
100 pounds 20 feet per minute as is required to elevate 50 pounds
20 feet per minute, and it requires twice as much power to
elevate 100 pounds of water 4o feet as is required to elevate the
same amount of water 20 feet.

The theoretical power required for pumping water is calcu-
lated in terms of horse power from the following formula:

_ gX 8.35 X (a+ f)

32,000 7

¥

1 One horse power is 33,000 foot pounds per minute.
158

COST OF WATER 159

When Y represents horse power required
g represents gallons of water per minute
h represents height of elevation, measured from the
surface of water in well to the highest point to which the water
is raised.
f represents the friction head in the water pipes.

Example:

Determine the theoretical horse power required to pump
12,000 gallons of water per hour through a 4-inch pipe 200 feet
long, the water being raised r00 feet.

Answer:

The friction head 'is 1.22 X 2.3 = 2.8 for a pipe roo feet long.
For a pipe 200 feet long f = 2.8K 2 = 5.6

2000 X S35 X, (100 4-5-6)

ee ASE = 5.24 H. P.

As the efficiency of small pumps usually ranges from 60 to 45
the theoretical horse power should be doubled when applying
it to practical work. For large pumps a higher efficiency is
obtained.

The following table gives the friction loss in pounds pressure
per square inch for each roo feet of length in different size clean
iron pipes discharging given quantities of water per minute.
This friction loss is greatly increased by bends or irregularities
in the pipe.

To find ‘‘friction head”’ in feet multiply figures by 2.3

1 Table VII.

160

MANAGEMENT OF DAIRY PLANTS

TABLE VII!

Gal. per
minute % : 1% 1% ; 24% :
Sueh l MICe) vanah pache l 2 OE| Caye 3 inch | 4 inch
Benet 208 0.84 Q:3t OPT O ls Sai ef ee lees ae ee
‘Ro ee 1320 2° 0 Lies 0.47 O-T20 sas | Satta
1 ee ee 28.7 6.98 2.38 0.97 OG. 2002. 0] Be A
1 ea a 50.4) |) 22.30 4.07 1.66 O42 1 245. 08,4) 4.5
rage 78.8 |.19:00 | 6.40 2162 0.64 0. 2T OS EO: |) 16.27
pcs ea 27 260. al nS B05 C208 foo) A
ae 27.60.) £240. |" 5205 12280 ces ll toe
Aree AS .G0:°) 163270 | [O.52 E SOON | Gs ce ©. 20, )) aaa
Baty kl cueteyautl oe 5 bike 20.20 8.15 BORN (se See oe
IDE chon We RS ke tebe 24.90 | 10.00 2.44 0.81 0.35 0.09
iG ewe eee Sash Coeente 56). 10> | 22.40 a2 1.80 | 0.74 | fOmee
POO ae el verwied [leis eas Ale SRN 39.00 9.46 4226 bee 0.33
vie ata iam |iaces 6 a ie gees on! eepeaacuy | Tuc acsieaee 14.90 | 4.89 1.09 | ,osag
BR HAG al hey analy rental CARER tered relat oe 35.20 7.00 2.85 0.69 ©
dwt eee Oe Ate MERION Fara eee (lie 28.30") 0.46 3.85 0.94
oo. oe raat Wy HAMS a Tan eRe ORR] (eek noi AE Scae ne 27.50 | 52.47 5102 Tas
BIO Ne tsacel| ne sete: cil iey eoctavas ML Rak age ota ok gia) ae SH ERT tans 19.56 ya A. 1.89
OLS reel (seer Sarl eter Nea Ne eet cat ec au ar eset OP Melamed 28.06 | II. 20 2.66
IGT Oe oa ei esatene fl ttn era een) alas Geer Hime teme ea ii|l ie asta ef a mabe 15:20) Sas
NS ENN oath hs Silber Lo eM Aha arene Manca crepe mete. aaa aN aa 19.50 | gs
list aa Vea neeesle hr ant ed Pane SBA (WN peye ie, | Me Rina | Weeerek Att bins th 25.00 6.01
ON eee esse Sst eee cage ae Reel ter Me ae a tes ante Wretched ere 30.80 7.43
GOGO ce Niet, AOA ieee sicy Hae Me et IL Red aan nT cree ce amet ee 9.54
7/2. CAA BAIS INE PPL ER | ett CIGAR | MAR Mee | Ih ee taka eect, Gat MS seni Wh ELS 3 14.32

Size of pipes, inside diameter

B. WATER PUMPS

The most important pumps to be considered by the creamery
manager are the piston or plunger pump, the rotary and the
centrifugal pump. The air lift may also be considered in this
connection.

1 Kidder, Architects’ and Builders’ Pocketbook, 1912.

COST OF WATER 161

I. The Piston or Plunger Pump. — The piston or plunger
pump is most commonly used in the creamery. This may be
belt driven or it may be operated with steam direct. The for-
mer method is the most economical providing the pump is large
enough, and that a supply tank of sufficient size is provided so
that all the pumping is done while the engine is being operated
for other purposes. It would not be profitable to operate a
large engine merely for the purpose of pumping water. Then
it would be more advisable to install a pump driven by steam
direct.

II. The Rotary Pump. — The rotary and the centrifugal
pumps may be used for shallow wells. For small lifts of 4 to
5 feet they are considered to have a higher efficiency than the
piston pumps, but for higher lifts their efficiency is less and they
will not be practical for lifting water to exceed 15 to 20
feem

II. The Air Lift. — The air lift consists of a well tubing,
inside of it is a small pipe through which compressed air is
blown. The compressed air lifts the column of water. By this
system water may be lifted 130 feet above its lower level. It is
said to be of greatest efficiency when the depth at which the
discharge tube stands under water in the well is one and a half
times the height of the discharge pipe above the water. By re-
ducing the proportion of the pipe below the water surface the
efficiency is gradually decreased and the system cannot be
operated if the portion above the water is increased to one and a
half times the size of the pipe below the water surface.t It
is claimed 2 that the cost of raising 1,000 gallons of water by the
air lift, including fuel, labor, oil, interest on cost of well, boiler,
compressor, foundations, pipes, real estate, erection, taxes, and
15 per cent for depreciation runs from one-fifth to two and one-
half cents according to size of plant, height of lift, and other
local conditions.

1 Siebel’s Compend. of Mechanical Refrigeration and Engineering, tort.
2 Reported by Kidder in Architects’ and Builders’ Pocketbook, 19012.

162 MANAGEMENT OF DAIRY PLANTS

C. ECONOMY IN PUMPING WATER AT THE
CREAMERY

It is not considered advisable for a creamery to buy water
from the city if permanently located, as the city water is usually
warmer than water drawn directly from a well. It will also be
more expensive. The lowest rate for water used for creamery
purposes that has come to the observation of the author is
5 cents per 1,000 gallons. Most cities will charge ro cents or even
more. Some of the smaller towns that have comparatively
expensive waterworks and labor are not able to pump water as
economically as the creamery.

CHAPTER XIII

RENT, DEPRECIATION, INTEREST, AND
INSURANCE

A. RENT

WHERE the creamery building is owned by the creamery
company it is often customery not to charge rent but to charge
interest on the investment, and insurance and depreciation
on the building. There is a good reason, however, for charging
rent, as the investment of money in real estate should be con-
sidered as a separate investment and a detailed record should
be kept thereof the same as of money invested in the busi-
ness. Therefore a special ledger account should be kept of
the building. The rent is entered monthly to the credit of
this account, and insurance, depreciation, and the current rate
of interest on the investment are entered on the debit side of
the ledger. The current rate of rent should be charged for
the property. From this record it will be evident whether or
not the investment in real estate is profitable. Perhaps it
might pay to sell the property and then lease it from the pur-
chaser or possibly other property might be rented and be even
more suitable for the business. Such factors are determined
by studying local conditions.

If more than one department is operated in the same building
the rent should be divided among the departments in propor-
tion to the amount of space and the value of the space occupied
by each. The value of the space should be determined on the
basis of what the income from it would be if it were leased to
others. If the building were located in the retail district of a
city it would soon be discovered that the front part, or perhaps
the entire first floor, would net more money if leased for retail

163

164 MANAGEMENT OF DAIRY PLANTS

purposes and not used for manufacturing. Often the office is
located in the most desirable part of the building. If the proper
rent were charged for the office room it might impress the
creamery owner that the office would be of just as much service
to the company if located in a part of the building less service-
able for factory purposes.

B. DEPRECIATION

The depreciation deducted for wear and tear of machinery,
equipment and building should be great enough to cover the
natural decrease in value of the property. The average life
of the various kinds of machinery and equipment should be
determined and the rate of depreciation estimated in propor-
tion thereto. The amount depreciated should always be such
that the book value of the property is equivalent to the real
value thereof. |

The life of a creamery boiler and engine is about fifteen years.
Suppose the original cost of the boiler and engine were $500,
then the monthly depreciation of the boiler and engine would be

500
aaa $2.78
A churn if properly cared for should last for five years. In
some of the larger plants it may not last for more than three
years. The life of a milk can, including both wear and loss, is
about three years, and of ice-cream containers and tubs from
three to four years.

The building, if built from hard-burned brick, cement blocks,
or similar material, should last for forty years or more, if a
frame structure, twenty years will be the life thereof. If the
location is favorable it is often possible that the value of the
ground on which the building stands will increase in proportion
to the depreciation in the value of the building. It is safe, how-
ever, to be conservative and not place fictitious values on any
of the property. Such items as good will, advertising, etc., if
considered as a financial asset of the company should be liberally
depreciated, as such assets are not always marketable.

RENT, DEPRECIATION, INTEREST, AND INSURANCE 165

Repairs may or may not be charged against permanent
improvements and then depreciated. Smaller repairs may
conveniently be considered under the head of current expenses
and charged against the expenses for the month or year when the
repairs were made. Other repairs are of such a nature that
they would naturally be added to the value of the permanent
property and in the future stand for their share of depreciation.

The manager who usually buys the supplies for the creamery
is seldom authorized to purchase machinery or permanent
equipment except by the approval of the board of directors;
thus the company guards against any unnecessary increase of
its investment.

C. INTEREST

The codperative creamery association when organizing often
borrows the money required for building, equipment, and operat-
ing expenses. The interest and part of the principal is paid
annually and is charged directly against the general expenses
of the creamery. After several years, when the entire principal
has been paid, the creamery is owned by the organization and
the paying of interest ceases. No more loans should be made,
as the amount accumulated to cover depreciation of the prop-
erty or what is often known as sinking fund should remain in
the treasury and should be sufficient for replacing worn-out
machinery with new.

The joint-stock company will continue to pay interest on
stock held by its stockholders. Such interest, as well as interest
on money borrowed, is charged directly against the general
expenses. ‘The current interest on money invested in any
proprietary creamery should be considered as a general expense
and the manufacturing department will pay its share thereof.

D. INSURANCE

Insurance as defined by Webster is a contract whereby, for
a stipulated consideration called a premium, one party under-
takes to indemnify the other against loss by certain risks. The
party agreeing to make the compensation is called the insurer

166 MANAGEMENT OF DAIRY PLANTS

or the underwriter, the other party to the contract is called the
insured, the written contract is called the policy, and the event
insured against, the risk.

I. Fire Insurance. — Fire insurance is a contract whereby
the insurer indemnifies the insured against fire risk. This form
of insurance should be carried at all times and in such amounts
that not merely the building, machinery, and equipment are
insured to their full value, but the stock of merchandise on
hand should also be fully covered. If the business transacted
is of such a nature that the stock of merchandise carried on
hand is of much higher value at one season than at another,
then it is usually advisable to add additional insurance to apply
only for the season while the stock is of greatest value.

It is the duty of the insured to give immediate notice in
writing of fire loss to the insurance company and within 60 days
after date of fire render an itemized statement of losses sus-
tained to the insurance company, this statement to be signed
and sworn to by the insured.

II. Employer’s Liability Insurance. — Employer’s liability
insurance is a contract whereby the insurer indemnifies the
insured against liability for accidents to employees. While
such accidents are seldom heard of in the smaller plants they
are rather frequent in larger manufacturing establishments.

III. Fidelity Insurance. — Fidelity insurance is a contract
which protects the employer against loss by the fraud or dis-
honesty of his employees. This contract is usually known as a
bond. It is to be recommended that any employee handling
any of the company’s money furnish a bond issued by some
reliable fidelity insurance company. The company for which
the employee works should pay the premiums on such bonds.

In addition to the above forms of insurance there are many
others such as steam-boiler insurance, plate-glass insurance,
credit insurance, etc.

IV. Insurance Records. — The manager should have some
convenient method by which to know the amount of insurance
carried on the different lines of property, and the date when the
contracts expire. Form XV may answer for that purpose.

RENT, DEPRECIATION, INTEREST, AND INSURANCE

167
FORM XV
INSURANCE RECORD
Property Insured Expiration
Agent EE TE OE ES aes ee Bee
Building | Machinery | Fixtures | Stock Date Year
©. Smith... 5,000 2,000 Jan.25 | /1975
C,. jones... 3 3,000 Feb. 28 | 1017
Total

All of the above-mentioned expenses enter into the cost
of manufacturing of products. In addition to these there are
other miscellaneous items not mentioned in the foregoing.

CHAPTER XIV

THE BUTTER OVERRUN AND THE RELATION BE-
TWEEN CHEMICAL COMPOSITION OF BUTTER
AND OVERRUN

THE BUTTER OVERRUN

The Actual Butter Overrun. — By this is understood the
difference between amount of butter obtained and the amount
of fat contained in the milk or cream used for the manufacture
thereof. This definition is the most practical and fair to all
concerned; it is with this meaning that the term overrun is used
in this book.

The Final Butter Overrun. — By this is understood the dif-
ference between amount of butter sold and amount of fat pur-
chased for the manufacture thereof. This butter fat may be
purchased locally or through receiving stations.

This definition for overrun may be quite practical to the
creamery manager, but unfair to the butter maker unless the
latter is in full charge of cream purchasing, butter making and
selling, as the loss of fat in any department where the cream is
being handled from the time it is purchased until it is manu-
factured into butter reduces the overrun. The advantage to
the manager of determining the overrun in accordance with
this definition is primarily that the overrun suggests to him a
profit or loss; he is usually clear as to the amount of overrun he
should obtain for making a profit. |

The Chemical Butter Overrun. — This is the difference
between the amount of butter obtained and the amount of
butter fat contained in the butter. In accordance with this
definition the overrun is equal to ingredients other than the
butter fat of which the butter is composed, and the overrun
might thus be determined from chemical analysis of the butter.

168

THE BUTTER OVERRUN 169

Per Cent Butter Overrun. — By per cent butter overrun
is understood the amount of butter made in excess of each
hundred pounds of butter fat used therefor. If 120 pounds of
butter are produced from too pounds of butter fat, the overrun is
20 per cent. Therefore if y stands for per cent overrun, b for
pounds of butter obtained from f pounds of butter fat then

b eS Tie eae ABIES 100
100 f
Example: 1,800 pounds of cream containing 30 per cent of
butter fat produce 630 pounds of butter. Determine per cent
of butter overrun.
Answer:

— SULLA
Ean ST OD ese a ace cent

The above formula may also be written as follows:

y = I00 (-- 1)

Thus the per cent of overrun from the foregoing example is de-
termined as follows:

630 | 6
¥.=100 ( reese ae :) = 16 2/3 per cent

The Financial Value of the Overrun. — The manufacturers
of butter consider that the overrun or even a part thereof is
sufficient to pay for manufacturing expenses and dividends on
the investment. It is therefore evident that the matter of
overrun is of vital importance to the creamery manager. He
knows the manufacturing cost per pound of butter, and if he
also knows the value of the overrun based on each pound of
butter manufactured, or on each pound of butter fat used in
manufacturing, then he will be fairly well informed as to the
extent of his profit or loss. The exact value of the overrun
per pound of butter or of butter fat, when the overrun and
the selling price of butter are known, is determined as follows:

If y represents the value of overrun per pound of butter,
z the value of overrun per pound of butter fat, d the market

170 MANAGEMENT OF DAIRY PLANTS

value of the butter, and g the per cent of overrun obtained,
then

§
=d
y OS asi
PEE IY oes
100

Example: The overrun is 20 per cent on butter sold for 30
cents per pound; determine the value of the overrun per pound
of butter and per pound of butter fat.

Vy = 30° X 20/190 ="5 cents.
Zz = 30 X' 20/160 ="6 cents.

Tables Nos. VIII and IX illustrate the effect which the in-
crease or decrease of per cent of overrun and the market value
of the butter have on the value of the overrun per pound of
butter and per pound of butter fat.

RELATION BETWEEN CHEMICAL COMPOSITION
OF BUTTER AND OVERRUN

Composition of Butter. — The composition of normal Ameri-
can butter in accordance with the analysis made by the De-
partment of Agriculture, Washington, D. C., of 695 samples
is as follows:

Per cent
Bete sry Vme eso ke 82.41
Diemstare assets 13.90
nS | a aces aed RNC ee 28
EB UIs Rg aC) ee a es 1.18
Pata tena pam tone 100.00

Butter Fat Content of Butter.— The butter fat is the
principal ingredient both in regard to amount and to its com-
mercial value. An increase in fat content of butter means a
corresponding decrease in butter overrun and vice versa. An
increase in fat content of the butter increases the cost of the
butter to the manufacturer.

1 Bul. 149, B. A. I.

THE BUTTER OVERRUN 270

Moisture Content of Butter.— The moisture is second
in importance because it is present in comparatively large
amounts and the per cent thereof is readily increased or re-
duced, and the overrun thereby correspondingly increased
or reduced. Moisture is an essential ingredient, inasmuch as it
adds pliability to the butter. However, the body of the butter
becomes short and injured if the moisture content is increased
to above the amount which is normally held in the butter.
Normal butter, in accordance with the Federal standards,
should contain less than 16 per cent of moisture.

The average moisture content of the butter cannot be con-
sidered uniform through the year, even if the butter is manu-
factured under uniform conditions, because the chemical com-
position of the butter fat is influenced by various factors.
Butter containing a high per cent of softer fats will contain
more moisture than butter containing less of such fats. This
explains the tendency of the butter to take up more moisture
during the spring of the year than during the winter season.

TABLE VIII

TABLE GIVING VALUE OF OVERRUN PER POUND OF BUTTER AND PER POUND
oF BUTTER FAT WHEN MARKET VALUE OF BUTTER IS 30 CENTS PER

POUND —
Per cent Market value Value of overrun Value of overrun
overrun of butter per pound butter per pound butter fat

Cents Cents Cents

15 3° 3-913 4.5

16 30 4.138 4.8

17 30 4-359 ae

18 30 4.576 5-4

19 30 4.790 5

20 30 5.000 6.0

21 30 5. 207 6.3

22 30 5-410 6.6

23 30 5.610 6.9

24 30 5.807 we

25 30 6.000 ime

172 MANAGEMENT OF DAIRY PLANTS

TABLE IX

TABLE GivinGc VALUE OF OVERRUN PER PounpD oF BUTTER AND PER Pounp
oF BuTTER FAT WHEN A 20 PER CENT OVERRUN IS OBTAINED

Per cent Market value Value of overrun Value of overrun
overrun of butter per pound buiter per pound butter fat
Cents Cents Cents
20 os 4.167 ne,
20 26 Ai333 Bie
20 27 4.500 5-4
20 28 4.667 5-6
20 29 4.833 5.3
20 30 5.000 6.0
20 at 5 roe 6.2
20 32 5-333 6.4
20 33 5-500 6.6
20 34 5.667 6.8
20 35 5.833 7-0
20 36 6.000 ree
20 37 6.167 rie
20 38 0.933 7.6
20 39 6.500 vie)
20 40 6.667 8.0
20 4I 6.833 eee
20 42 7.000 8.4
20 43 Vie hoy | 8.6
20 44 7-333 8.8
20 45 7-500 9.9
20 46 7.666 9.2
20 47 7.833 9.4
20 48 8.000 9.6
20 49 8.167 9.8
20 50 5.333 ifemre)
20 52 8.667 10.4
20 54 Q .000 10.8
20 56 9.333 II.2
20 58 9.666 11.6
20 60 10.000 P20
20 62 10.333 12.4

THE BUTTER OVERRUN 173

TABLE [X—Continued

Per cent Market value Value of overrun Value of overrun
overrun of butter per pound butter per pound butter fat
Cents Cents Cents

20 64 10.666 12.5

20 66 II .000 13.2

20 68 15333 13.6

20 70 11.666 14.0

20 2 12.000 14.4

20 74 P2.333 14.8

20 76 12.666 ES

20 78 13.000 15.6

20 80 £21833 16.0

1. Moisture Control. —It is possible for the butter maker,
by careful study of conditions, to regulate the moisture content
so it may remain nearly constant regardless of the composition
of the butter fat. The principal factors to be considered in
this connection and factors which are under control of the
butter maker are presented in bulletin No 76, Iowa Experiment
Station, as follows:

“Churning in a warm room and raising the temperature
of the cream and wash water cause the butter to become softer
and unite into lumps, in which condition it holds and retains
moisture to a greater extent than when butter is firmer.

“An increase in the size of granules due to over-churning
increases the moisture content gradually and only to a small
extent. By churning into lumps, the moisture content of butter
is increased greatly.

“The moisture content of butter can be regulated by con-
trolling the temperatures, the amount of wash water, and
degree of churning in the wash water.

“The richer the cream is at the time of churning, the more
moisture the butter obtained will contain, providing all other
conditions are alike.

174 MANAGEMENT OF DAIRY PLANTS

“The degree of ripeness has very little if any influence upon
the moisture content of butter.

“When all other conditions are the same, butter from pas-
teurized cream contains about 1 1/2 per cent less moisture than
that made from raw cream.

“Tf it were possible to keep all conditions alike the fullness
of churn will have no influence on the moisture content of
butter.”

In accordance with results obtained by the Indiana Experi-
ment Station! the acidity of cream, method of salting, and
amount of salt used do not materially influence the moisture
content of the finished butter, but large churnings yield butter
with a higher per cent moisture than small churnings, and
working butter in water regardless of temperature increases the
moisture content of butter.

Moisture tests should be made from each churning so that
the butter maker may learn to control the moisture content of
his butter. Such tests are also of importance so that he may
know whether or not he is making a legal butter. It will be
taken for granted that butter makers and creamery managers
are fully familiar with the use of the moisture test.

Salt Content of Butter. — The salt content of butter may
vary from 1 to 5 per cent. Thus it becomes evident that the
salt content influences the overrun materially. Salt is added to
butter primarily because the consumers demand it. The salt
content should be uniform: First, because it influences the
uniformity of the flavor, and second, the profit obtained
by the manufacturer from added salt should remain con-
stant.

The markets influence the amount of salt that may be added
to the butter. Enough salt should be added to satisfy the
consumers and no more. The European markets demand a
lower salt content than the markets in the United States.
The Eastern markets in the United States demand from 1 1/2 to
2 1/2 per cent salt and would not be satisfied with butter con-

1 Bulletin 160, 1912, by Hunziker, Mills, and Spitzer,

THE BUTTER OVERRUN 175

taining from 3 to 5 per cent salt, which is often preferred in the
Western markets.

1. Amount of Salt that May be Dissolved in Butter. —'The
amount of salt that may be dissolved in butter depends upon
the moisture content of the butter, as the fat has no power as a
salt solvent. Well-worked butter will contain brine of as much
as 16.78 per cent sodium chloride. Suppose the butter con-
tains 15.5 per cent of moisture, then the amount of salt con-
tained in the solution in such butter is 2.6 per cent. Any
amount contained in excess of that will be left in the butter as
undissolved salt. If the proportion of undissolved salt becomes
too high, the butter appears gritty. It is possible that butter
containing only 2.5 per cent of salt may appear gritty. This
may be due either to a low water content of the butter or to
insufficient working.

2. Unsalted Butter. — Unsalted butter is manufactured from
ripened cream, no salt being added to the butter. This is
often incorrectly called sweet butter, which term rightfully
belongs only to such butter as is made from unripened cream
and without the addition of salt. The moisture and casein
content of unsalted butter is practically the same as that of
salted butter while fresh, but as the butter becomes older the
salted butter has a tendency to lose more in moisture content
than the corresponding unsalted butter. The greater difference
between the composition of the two kinds of butter, however,
is the lack of salt in one and a corresponding increase in fat
which brings about a corresponding decrease in the overrun.
Unsalted butter is therefore of greater value per pound to the
manufacturer than salted butter. The corresponding value of
unsalted butter may be determined as follows:

Let s represent per cent of salt contained in salted butter,
p, price per pound of salted butter, and y, price per pound of
unsalted butter.

Then
100

Y= 2

Too Ss
1 Bulletin 80, by McKay and Larsen, Iowa Experiment Station, 1904.

176 MANAGEMENT OF DAIRY PLANTS

Example: What should be charged for unsalted butter when
butter containing 3 per cent of salt is sold for 30 cents per
pound?

Answer:

y = 30X = 30.93 cents per pound.

160-3

If allowance is made for cost of salt in the salted butter and
the additional shrinkage in moisture of the same butter, then
the difference between the value of salted and unsalted butter
will be slightly decreased.

3. Salt Control. — The loss of salt during the working proc-
ess is a factor which is usually given but very little attention.
The butter when worked should be of such a consistency that
it will most readily retain the salt. By the careful butter maker
the loss of salt may be reduced to less than 5 per cent. How-
ever, most operators will lose more. If one ounce of salt were
added to each pound of unsalted butter and if all this salt were
retained, then too pounds of unsalted butter would produce
106.25 pounds of salted butter. The salt content of this butter

6.25 X 100
106.25

It is most convenient in practical work to use the amount of
butter fat in the churn as a basis for the amount of salt to add.
The per cent of salt which should thus be obtained in the
finished butter if no salt were lost during the process of working
is determined as follows:

Let y represent the per cent of salt the finished butter
should contain.

a represent the amount of salt in ounces added to each
pound of butter fat.

m represent the per cent moisture, casein, and ash contained
in the finished butter. This figure is reasonably well known
by the butter maker.

f represent the per cent of fat contained in the finished
butter,

figured in per cent would be equal to = 5.88 per cent.

THE BUTTER OVERRUN 577

Then,
f=yX a
a
16
SN ats ae — 200
100 —m
y~EY
Example:

A sample of salted butter contains 15.5 per cent of moisture
and 1.5 per cent of casein and ash; if .6 ounce were added for
each pound of butter fat how much salt in per cent would be
contained in the finished butter if no loss of salt occurred?

Answer:

(P5.5 0.5)

.6

y = 100— = 3 per cent of salt.

Suppose a sample of butter which had been salted in the
proportion of .6 ounce of salt per pound of butter fat was
found to contain 81 per cent fat, 15 1/2 moisture, 1 1/2 casein
and ash, then the per cent of salt retained in the butter would
be equal to

160 (85 15.51 2.5)
ae
For determining the amount of salt to add per pound of

butter fat to obtain a definite per cent of salt in the finished
butter the following formula may be used:

16
I0oo —m

vy

X 100 = 65.84 per cent.

a=
Saul |

Example:
How much salt should be added per pound of butter fat to
obtain 4 per cent in the finished product when m = 106 per cent?

178 MANAGEMENT OF DAIRY PLANTS

Answer:

16
a= ——————- = .8 ounce.
100 — 16

4

The amount of salt to add for every hundred pounds of fat
may be quite accurately determined in accordance with the
following simple formula, if the fat content of the finished but-
ter is reasonable constant.

I0O

Per cent salt desired in butter X Par cant AE ee
Example:
How much salt should be added per hundred pounds of
butter fat to obtain 4 per cent in the finished product when the
fat content of the finished butter is 80 per cent?

Answer:

4X “a= 5 pounds of salt.
80

It is essential that the butter maker tests each churning for
salt in order to gain control over the salt content of the butter.
Many operators have not become familiar with the operation of
the salt test. For that reason, the following system of testing
for salt is outlined.1

4. The Salt Test.— For determining the salt content in
butter the following reagents and glassware will be required:

A silver nitrate solution

A potassium chromate solution or indicator
One 500 c. c. flask

One 250 c. c. graduate

One 50 c. c. burette

One 25 c. c: pipette

One 2 ounce drop bottle for indicator

Two beakers or cups

A. The Silver Nitrate Solution. — The silver nitrate solu-
tion if held for any great length of time will gradually undergo

1 This system is a modification of the official method of testing for salt in butter.

THE BUTTER OVERRUN 179

chemical changes and be reduced in strength. Such changes
take place very readily if exposed to light. It is therefore
necessary for the operator to prepare his own solutions, which
should be prepared in rather small quantities. Chemically pure
silver nitrate, AgNO3, should be used. This may for the sake
of convenience be weighed into small gelatin capsules, each
capsule containing 2.906 grams. If chemical balances are not
available a druggist might be able to do such weighing; if not,
the capsules of silver nitrate might be supplied by a manu-
facturing chemist. The capsule is closed and wrapped with tin-
foil to exclude the light. Such capsules have been kept in a
dark, dry place for several months in perfect condition, although
it is recommended that the silver nitrate be put up in small
brown bottles if to be kept to exceed two months.

Preparing the Silver Nitrate Solution. — A gelatin capsule is
placed in the flask and from 200 to 300 ¢. c. of distilled water
heated to within a few degrees of boiling are added. The flask
is shaken with a gentle rotary motion until the capsule with its
contents has been dissolved. The flask is then wrapped with
brown paper in order to exclude the light and it is left in a dark
place until the temperature of its contents is the same as that
of the room. The flask is then filled to the 500 c. c. mark with
distilled water (condensed steam) of room temperature. The
solution is kept in a place where light is excluded.

B. The Potassium Chromate Solution. —Ten grams _ of
potassium chromate are dissolved in go c. c. of distilled water.

C. Manipulation of the Test.—A representative sample
from the butter to be tested is secured. The beaker containing
the butter is placed in warm water until the butter which is
being constantly stirred is of the consistency of a sirup, when it
is transferred to ice water and stirred with a spatula until the
butter congeals. Ten grams of this sample are weighed into a
beaker. To this is added about 25 c. c. of hot distilled water.
After the butter has been thoroughly dissolved the contents
of the beaker are transferred to the 250 c. c. graduate. The
beaker is rinsed several times with distilled water which is
transferred to the graduate, using about 25 c. c. of water at a

180 MANAGEMENT OF DAIRY PLANTS

time. The graduate is finally filled with cold distilled water to
the 250 c. c. mark, the butter fat to be above the mark; it is
closed with a cork stopper and shaken gently a couple of times
to insure that the contents of the graduate are thoroughly mixed.

From the brine solution thus prepared 25 c. c. are taken
with the pipette. The solution should be of nearly room tem-
perature, yet for all practical purposes from ro to 20 degrees of
variation will not affect the results. The sample taken with the
pipette is transferred to a beaker. Six drops of the potassium
chromate indicator are added and from the burette is added
silver nitrate solution until the color changes to a reddish or
brownish tint. The reading is taken from the burette of the
number of c. c. of silver nitrate required.

The silver nitrate solution has been prepared to such a
‘ strength that it will require 5 c. c. of it for each per cent of salt.
Therefore if it required 15 c. c. of the solution to produce the
brownish color, the butter contains 3 per cent of salt.

No. c. c. of silver nitrate solution required

5

= per cent of salt

in butter.

Curd Content of Butter. — The curd of the butter, however
important to the butter maker in the production of high flavor,
is not considered by the manager to be a factor of great impor-
tance in butter overrun. The curd content of the butter cannot
be changed to any great extent without injuring the quality of
the butter. A butter of a high curd content will usually pos-
sess poor keeping qualities.

CHAPTER XV

MECHANICAL LOSSES AND THEIR INFLUENCE ON
BUTTER OVERRUN

MECHANICAL losses are such as occur during the various
Stages of the manufacturing process and in the testing of milk
and cream. Mechanical losses are not absolutely avoidable,
yet many of such losses may often be materially reduced.

LOSSES THAT OCCUR DURING THE
MANUFACTURING PROCESS

Fat Losses in Skim Milk.— The loss of butter fat in the skim
milk is a factor of importance to creameries receiving whole
milk. In accordance with Danish experiments,: the aver-
age loss of fat in skim milk based on a series of experiments
with three different types of factory cream separators amounts
to about .o7 per cent. It will probably be close to the actual
loss if it is estimated at .1 per cent for the American creameries.

Washburn, Dahlberg, Sorensen, and M. P. Mortensen 2
found that 1.64 per cent of the total fat received at the factory
was lost in the skim milk.

For ascertaining the amount of fat lost in the skim milk, the
amount of skim milk obtained is not conveniently determined
by weighing, but it may readily be calculated. For that pur-
pose let m represent pounds of whole milk to be skimmed, s,
pounds of skim milk, c, pounds of cream obtained, p, the per
cent of fat contained in the whole milk, p;, the per cent of
fat contained in the cream, and a, the per cent of fat in the
skim milk.

1 Beretning No. 70 fra den Kgl. Veterinaer og Landbohojskoles Laboratorium
for landokonomiske Forsog, 1010.
2 Bulletin 177, Minnesota, 1918.

181

182 MANAGEMENT OF DAIRY PLANTS

The value of s is then determined as follows:

m Xp = (m—s) pi+s Xa or
. = m (Pip)
pi—a

Or pounds skim milk obtained = pounds whole milk X
per cent fat in cream — per cent fat in whole milk

per cent fat in cream — per cent fat in skim milk

This formula becomes practical, inasmuch as the weight of
the whole milk skimmed is always known, and the test of the
cream and skim milk obtained as well as the test of the whole
milk are known figures.

As the weight of the cream in a whole milk plant is usually
determined with difficulty, the above formula may also be of
value in determining the amount of cream obtained from the
milk as c= m-—s. Or without figuring the amount of skim
milk, the amount of cream may be determined from the fol-
lowing formula:

= Mpa)
Pi

Or pounds cream obtained = pounds whole milk X
per cent fat in whole milk —per cent fat in skim milk

per cent fat in cream — per cent fat in skim milk

Example I. — Determine the amount of fat contained in the
skim milk obtained from skimming 30,000 pounds of milk
testing 3.6 per cent of fat when the cream obtained tests 33.6
per cent of fat and the skim milk .1 per cent of fat.

Answer:

« = 30,000 (33.6 — 3.6)

6205-5
26,865.67 X .oor = 26.87 pounds of butter fat.

= 26,865.67 pounds.

Example II. — Determine the overrun obtained in a cream-
ery for a day when they received 20,000 pounds of 4 per cent

MECHANICAL LOSSES 183

milk from which was produced 35 per cent cream. The loss of
butter fat in skim milk was .t per cent. The cream was made
into butter containing 80 per cent of butter fat.
Answer:
i 20,000 (4 28)

= 2,224.96 pounds.

fae 1234.90 p

The amount of butter fat used for making the butter is the
amount contained in the cream or

2234.06 X .35 = 782.236 pounds.

The overrun is determined on amount of butter fat pur-
chased as whole milk. This overrun is therefore equal to

82.236 —
(782.236 X 100/80 —20,000 X 4/100) ee ee
20,000 — 4/100
Had no butter fat been lost in the skim milk then the over-
run obtained would have been equal to

100 — 80
——— 1OO).GL 25 fer Cent;
80

Therefore the overrun due to the loss of .1 of a per cent fat
in the skim milk has been reduced 2.776 per cent. It will be
noted from Table X that this reduction in overrun is decreased
slightly as the fat content of the butter increases. It is in-
creased as the fat content of the whole milk is decreased
(Table XI), and is decreased as the richness of cream decreases
(Table XII).

184 MANAGEMENT OF DAIRY PLANTS

TABLE X

TABLE ILLUSTRATING HOW THE FAT CONTENT OF THE RESULTING BUTTER
INFLUENCES THE REDUCTION IN PER CENT OF OVERRUN WHEN .I OF
I PER CENT FAT IS LOST IN THE SKIM MILK

Per cent Per cent
Per cent| Per cent | Per cent | Per cent pee véibicten

fat in | fatlost | fatim | fatin | Percent | pag no loss | in overrun

whole | in skim cream | butter OVATUR |. apeueved in \ due tele
milk | milk | obtained skim milk | in skim milk

4 I 35 80 22.224 25.000 2076

4 I 35 81 20.725 23.457 2.932

4 vs 35 82 IQ. 234 21.951 2. Ty

4 I a5 83 17.807 20.482 2.075

4 I 35 84 16.406 19.048 2.642

4 I 35 85 TS 2035 17.647 22625

4 I 35 go 8.644 EL SaID 2.467

TABLE XI

TABLE ILLUSTRATING HOW THE FAT CONTENT OF THE WHOLE MILK IN-
FLUENCES THE REDUCTION IN OVERRUN WHEN .1 OF I PER CENT FAT IS
LOST IN THE SkIM MILK

Per cent Per cent
Per cent} Per cent | Per cent | pey cent . overrun reduction
fatin | fatlost | fat in fat in Per cent had no loss | in overrun
whole |in skim | cream hatter OVETUT: | Speedin: | cdece tae
milk milk | obtained skim milk |\in skim milk
4 be 35 80 22.224 25 2.776
a5 a 35 80 21.774 25 3.226
a =i 35 80 21.179 25 2 oe

MECHANICAL LOSSES 185

TABLE XII

TABLE ILLUSTRATING HOW THE FAT CONTENT OF RESULTING CREAM IN-
FLUENCES THE REDUCTION IN OVERRUN WHEN .I OF I PER CENT FAT IS
LOST IN THE SKM MILK

Per cent Per cent
overrun reduction
had no loss | in overrun

Per cent| Per cent | Per cent | poy cent
fat in \fat lost in| fat in fat in Per cent

whole ski Me een |. butter overrun | occurred in | due to loss
milk milk | obtained skim milk |\in skim milk
4 I 4o 80 22.180 25 2.820
4 I 35 80 22.224 25 2.776
4 I 30 80 22.283 25 B77
4 I 25 80 22.365 25 2.035
4 x 20 80 22.487 25 2.513

Fat Losses in Buttermilk. — The loss of fat in buttermilk
will affect the overrun to a less degree than the loss of butter
fat in skim milk, because the proportion of buttermilk is small
as compared with the proportion of skim milk. The average
per cent of fat lost in the buttermilk during a series of ex-
periments carried on by the Iowa Experiment Station 1 under
ordinary factory conditions was .168 per cent from sour cream
pasteurized while sweet. The loss from churning the same
kind of cream raw was .198 per cent. Sour cream pasteurized
by flash heat produced a loss of .207 per cent. The same kind
of cream churned raw produced a loss of .152 per cent. Sour
cream pasteurized by the holding method or vat method
caused a loss of .225 per cent while the same kind of cream
churned raw produced a loss of only .o98 per cent.

In accordance with Minnesota experiments 2 the buttermilk
retained 0.93 per cent of the total fat received when handling
whole milk.

1 Bul. 156, lowa Experiment Station, 1018.
2 Bulletin 177, Minnesota Ex. St., 1918.

186 MANAGEMENT OF DAIRY PLANTS

The amount of fat lost in the buttermilk is readily determined,
as the weight of the cream churned is a known quantity and the
weight of the butter obtained is also known. The weight of the
buttermilk in which the loss occurs is the difference between the
weight of the cream churned and the weight of unsalted butter
obtained.

Example. Determine the amount of butter fat lost in the
buttermilk from churning 2,000 pounds of cream when 700
pounds of butter containing 3 per cent of salt is obtained, and
the buttermilk contains .2 per cent of fat.

Answer: (2,000 — 700 X .97) .002 = 2.642 pounds.

A formula similar to that used for determining fat loss in
skim milk is also applicable in this connection. The following
formula may be used when unsalted butter is concerned:

» = LF =P)
P—f

In the foregoing b is to represent pounds of buttermilk ob-
tained, f, per cent of fat in the buttermilk, and F, the per cent
of fat in the butter. These factors are not absolutely correct in
practical applications, as the water used for washing the butter
may have a slight influence on the moisture content of the but-
ter; however, not to such an extent that it will be of importance
for the creamery manager to consider.

It will be noticed from Table XIII that the loss of .1 per cent
of fat in the buttermilk reduces the overrun .2 per cent when the
fat content of cream used is 35 per cent and of the butter manu-
factured 80 per cent. This factor decreases slightly as the fat
content of the butter increases and it increases as the fat con-
tent of the cream decreases (Table XIV).

Miscellaneous Manufacturing Losses. — Such losses occur
in transferring cream: from the receiving cans to vats, from
vats to churns, and in handling cream or butter. They should
not normally exceed .2 of one per cent of butter fat received. In
accordance with Minnesota experiments! about one-half
of one per cent of the total fat received was lost in vats, pipes,

1 Bulletin 177, Minnesota Ex. St., 1918.

MECHANICAL LOSSES 187

etc., where handling whole milk. In handling small amounts
and by transferring for pasteurization these losses may be
slightly increased; however, not at any time in excess of .5 per
cent. A loss of .2 per cent will reduce the overrun .25 per cent
when considering that the fat content of the butter is 80 per
cent. If the fat content of butter becomes less, this loss will
slightly increase the loss in overrun and vice versa.

TABLE XIII

TABLE ILLUSTRATING HOW THE Fat CoNTENT OF RESULTING BUTTER
INFLUENCES THE REDUCTION IN OVERRUN WHEN .I OF I PER CENT FAT
IS LOST IN BUTTERMILK

Per cent
Per cent | Dey cent | Per cent ae eee reduction
fat lost in fat in | fatin Per cent overrun had no | +) oneryun
DUE. scams | butter overrun loss occurred in | aye to loss
milk bultermilk in buttermilk
I 35 80 24.800 25.000 2
I 35 85 17.450 17.647 197
I 35 go 10.917 Da, Tt 194
TABLE XIV

TABLE ILLUSTRATING HOW THE FAT CONTENT OF CREAM INFLUENCES THE
REDUCTION IN OVERRUN WHEN .I OF I PER CENT FAT Is LOST IN BUTTER-

MILK f
Per cent
Per cent | pey cent | Per cent Se reduction
fat lost in fat in | fat in Per cent overrun had NO | in overrun
a ee ee ey overrun loss occurred in | ane to loss
milk | buttermilk in buttermilk
I 40 80 24.8425 25 -1575
I an 80 24.8000 25 - 2000
I 30 80 24-7400 25 2600
I 25 80 24.6560 25 3440
I 20 80 24.5300 25 4700

188 MANAGEMENT OF: DAIRY PLANTS

The following example will illustrate how miscellaneous
losses may be determined.

Example:

2,000 pounds of 30 per cent cream were purchased. From
this were manufactured 740 pounds of butter containing 80 per
cent of butter fat and 3 per cent of salt. The buttermilk con-
tained .2 per cent of fat. Determine miscellaneous losses.

Answer:

Amount of fat lost in buttermilk is equal to (2,000 — 740
X .97) X .co2 = 2.5644 pounds.

Amount of butter fat lost due to miscellaneous losses is equal
to

(2,000 X .30 — 2.5644) — 740 X .80 = 5.4356 pounds.
5-4356 X I00

= .9050 per cent.
2000 X .30

LOSSES DUE TO INACCURACY IN WEIGHING
AND TESTING

Losses Due to Inaccuracy in Weighing. — It should hardly
be necessary to consider such losses; nevertheless they fre-
quently occur, and the manager should be ready to guard
against them. Often the receiving scales on which the milk or
cream is weighed are not as sensitive as they should be. This
may be due to the buying of poor scales or the scales may not be
kept clean and in working order. Scales on which cream is
weighed should always be sensitive to one-fourth of a pound.
It is possible to save ten dollars on the first cost by buying
second-grade scales, but it is also possible for such scales to lose
several hundred dollars annually to the creamery. Poor
scales are too expensive at any price, but when good scales have
been purchased it is the duty of the manager to see to it that
they are always kept in good working order. The scales should
be balanced several times daily and once or twice daily they
should be tested with a standard weight. A fifty-pound stand-
ard weight is very satisfactory for that purpose.

MECHANICAL LOSSES 189

Losses Due to Inaccuracy in Testing. — The testing de-
partment is perhaps the department which experiences greater
difficulty than any other department in giving satisfaction. It
should also be realized by the managers that great losses may
occur in that department unless properly checked. Form XVI
may serve as a convenient factory report for checking, not
merely the losses due to testing and weighing, but other me-
~ chanical losses as well.

FORM XVI
CHURN RECORD

Vat | Lbs. | Lbs. | Vat | Lbs. fat| Lbs. fat} Butter | Over | ,_, |Mois- .
no.| cream | starter | test | vat test \ind. test | churned| run Fat ture Casein | Salt | Ash

The principal reasons for errors in the testing department
are inaccurate glassware, inaccurate measure or weight of
sample, improper care of samples, and improper method of
reading the tests and general carelessness on the part of the
operator.

1. Inaccurate Glassware. — All glassware should be properly
calibrated before it is brought into service. Several states
have laws making it a criminal offense to use inaccurate glass-
ware for testing. Even without such laws it should be to the
interest of all creamery operators to assure themselves of the
accuracy of the glassware they are using. It was found by the

190 MANAGEMENT OF DAIRY PLANTS

Indiana Station ! that 21 4/10 per cent of the cream-test bottles
used in Indiana creameries were incorrect; the maximum error
was Io per cent.

2. Inaccurate Measure or Weight of Sample. — Incorrect
measure or weight of samples may be due to an inaccurate
pipette, or to balances that are not sensitive, or to carelessness
on the part of the operator.

When the sample is measured, as is done when testing milk,
the pipette used should be calibrated and if found correct
it is evident that it will measure out the correct amount, if the
pipette is also kept properly cleaned. The weights should be
tested against standard weights. It is often convenient to
have a standard 9 gram or 18 gram weight. This weight is not
used for any other purpose than that of testing the weights
which are in daily use. The state dairy commissioners are
usually willing to test weights for operators in their respective
states.

Balances should be sensitive to one centigram. If the bal-
ances are not sensitive it usually results in too high tests and a
loss to the creamery. To keep balances sensitive they should
be properly cleaned and kept in a dry place, preferably in a
special case provided therefor. A balance constructed for
carrying several bottles at each weighing is less sensitive than
one constructed for carrying only one or two bottles.

The operator when weighing out samples of cream should
not sacrifice accuracy for speed. It is considered that an ex-
perienced operator can test from 200 to 300 cream samples
daily and do accurate work.

3. Improper Care of Samples. — A composite cream sample
should never be considered accurate unless cream from which
the sample is prepared is very thin. A composite sample taken
from cans containing cream varying greatly in fat content will
naturally be far from correct, as the sampler used will discharge
less of the richer than of the thinner cream. Furthermore, if
the sampler is not thoroughly cleaned each time when it is
brought from the rich to the thin cream, it is quite possible that

1 Bul. 145, Indiana Agr. Experiment Station, rgr1o.

MECHANICAL LOSSES Ig!

rich cream remaining in the tube will be discharged together
with part of the thinner sample. The safest system to adopt is
that of taking a sample from each can of cream, testing it
separately, and cleaning the sampler in warm water for each
sample taken. But if it is found convenient to take only one
sample from two or more cans of cream, then the cream should
first be thoroughly mixed in a receiving vat or can.

By daily testing the manager is enabled to check the mechan-
ical losses daily and thus save money for the creamery. It
has been the experience of the practical manager that the
cream samples usually increase in per cent of fat by age. The
Indiana Experiment Station has found that exposure of
samples for two weeks to the receiving-room temperature in
summer caused sufficient evaporation to raise the test 3.5 per
cent even in bottles with a tight seal. When samples were kept
in loosely sealed bottles there was a rise of 1 per cent in the test
of the samples kept in the refrigerator and 4.5 per cent in the
test of the samples kept on the receiving platform. In open
bottles the test of the samples in the refrigerator rose 3.5 per
cent, and that of the samples on the receiving platform in-
creased 10.5 per cent.

Table XV' illustrates the financial loss sustained by a
creamery taking composite samples under the above-stated con-
ditions. These calculations are based on the creamery receiv-
ing 20,000 pounds of fat per month. The loss of fat is figured
on 39 1/2 per cent cream; the price of fat is calculated at 25
cents per pound.

1 Bul. 145, Indiana Agr. Experiment Station, 1910.

192 MANAGEMENT OF DAIRY PLANTS

TABLE XV
Increase in
Fat, Ad. composite Pounds fat | Creamery
Place of storage per single test paid too lost,
cent test per cent much dollars
Ice Box

Tight seal 20n5 none none none
Loose seal 40.5 1.0 506 126.50
Open bottle 43.0 205 1,772 443.00
Receiving Platform 39.5
Tight seal 43.0 RS 1,772 443.00
Loose seal 44.0 fois 2,278 569.50
Open bottle 50.0 10.5 5,316 1,329.00

a

4. Improper Method of Reading the Test.—In order to
comply with the Babcock system of testing the tests should
be read at a temperature at which the melted butter fat has
a specific gravity of .o. This temperature varies somewhat
with the composition of-the butter fat, but is not far from
120° F., a temperature ranging from 120° F. to 140° F. is
usually recommended. The Jowa Experiment Station has
obtained satisfactory results when reading the tests at a tem-
perature of 130° F. For the purpose of obtaining a definite
temperature the test bottles should be placed in a water bath
at 130° F. for about fifteen minutes before the reading is taken.

In accordance with experiments conducted by Webster
and Gray! the average increase in reading a 39.8 per cent
cream test when the temperature is raised from 110° F. to
140° F, is 0.5 per cent (Table XVI).

1 Bul. No. 58, B. A. I., 1904.

MECHANICAL LOSSES 193

TABLE XVI

INFLUENCE OF TEMPERATURE ON READING OF TEST

140° to 130° lo 120° to 140° to
Style of bottle G30 ‘Re-| 720" Ro aro" RP: 750" UPs
Per Cent | Per Cent | Per Cent, | Per Cent
4077) Ineh,) 6 BLANT. ad)... 2 Ox O.7 0.05 0.25
Sania doubled) 305 oa. 42 7 x
50%), 6 inch, @8 gram... ..... .2 12 .O 4
5079, 6 inch, 18 gram... ...* 2 2 12 6

Babcock recommends that a milk test should be read from
the top of the meniscus to the bottom of the fat column. D. E.
Bailey, lowa Experiment Station ! found that the Babcock test
for milk when read from the top of the upper meniscus to the
bottom of the lower meniscus gave results which were higher
than those obtained by the gravimetric (Roese-Gottlieb)
method. On the average of 190 comparisons the difference
amounted to 0.06 per cent. Webster and Gray ? recommend
reading a cream test as follows:

1. See that line between fat and water is straight, and read
from bottom to extreme top of fat column.

2. Read the depth of meniscus and deduct four-fifths of it
from previous reading. A careful operator can estimate this.

3. Add o.2 per cent to the result.

4. For 9 gram sample, double reading before adding o.2
per cent,

5. Read at a temperature close to 120° F.

6. If bottles are placed in bath to regulate temperature,
allow them to stand for fifteen minutes before reading.

Farrington and Woll ? recommend that the reading of a cream
sample be taken from the bottom of the fat column to the bot-
tom of the meniscus and that the reading be taken at 140° F.

1 Journal of Dairy Science, Vol. II, No. 5, September, roro.

2 Bul. 58, B. A. I., 1904.
3 Testing Milk and Its Products, 1910.

Ig4 MANAGEMENT OF DAIRY PLANTS

The Indiana Experiment Station! suggests that one-third
of the meniscus be included, and readings taken in this way,
checked with the gravimetric fat estimation. It further
recommends that glymol colored with alkanet root be added

Fic. 25. — Reading
a butter-fat test.

immediately after the last centrifuging.
Glymol, being lighter than the butter fat,
will float on top; the meniscus is formed
from the glymol and the line between the
fat column and the glymol is straight, so
the reading can be taken with greater de-
gree of accuracy.

Professor C. H. Eckles first conceived the
idea of leveling the fat column when testing
cream. He recommended the addition of
amyl alcohol colored with fuchsine. As al-
cohol is a fat solvent, Farrington recom-
mended the saturation of the alcohol with
fat before using it. As it is also poisonous
and the odors therefrom injurious to health,
glymol should be recommended for labora-
tory and for commercial work.

The author has obtained satisfactory re-
sults when reading the fat column of a
cream test from d to b (Fig. 25), the reading
taken at 130° F. It is most satisfactory,
however, to level the fat column, as that
overcomes all disagreements in reference to
the reading.

It cannot be too strongly emphasized that
great care should be taken in reading the
cream test. With the glassware used for
the Babcock system it is practically impos-
sible to read closer than to one-fourth of

one per cent and by being a little careless the test is readily
overread or underread one per cent. One per cent overreading
on a 30 per cent cream, from which butter containing 80 per

1 Bul. 145, Indiana Experiment Station, 1910.

MECHANICAL LOSSES 195

cent fat is manufactured will reduce the overrun about 4.03
per cent.

The total mechanical losses are summarized by Washburn !
as follows: ‘‘The creamery receiving cream lost about 1.4 per
cent of the total butter fat received during the process of manu-
facture and saved about 98.6 per cent. The creamery receiv-
ing milk lost about 3.17 per cent of the butter fat during the
process of manufacture and saved about 96.83 per cent.

PER CENT OVERRUN WHICH MAY BE
LEGALLY OBTAINED

This is determined primarily by the state and Federal butter
standards. A moisture standard of 16 per cent and a fat stand-
ard of 80 per cent may under normal conditions be considered
identical, as butter containing 16 per cent moisture, 2.8 per
cent salt, and 1.2 per cent casein also contains 80 per cent of
butter fat. More casein may be incorporated, but incorpora-
tion of a high per cent of casein decreases the keeping qualities
of the butter. A limited number of markets would accept butter
containing a higher per cent of salt, but the manufacturer
who makes an attempt to use salt as an adulterant has lost
all regard for quality and is sacrificing his business when
he makes such attempt. Salt is added to the butter for
the sake of aiding it in flavor and not for the sake of
adulterating it.

It is evident that under a mere moisture standard the un-
scrupulous manufacturer might adulterate his butter with
casein and salt and in that way obtain a high per cent of over-
run and yet manufacture an article of butter which the law
would recognize as legal. If the butter standard is based
on the fat content of the butter then it becomes compara-
tively easy to estimate a possible theoretical overrun. The
following calculations are based on an 80 per cent butter-fat
standard. |

1 Bulletin 177, Minnesota Ex. St., 1918.

196 MANAGEMENT OF DAIRY PLANTS

A butter containing 80 per cent butter fat should, if no losses
occur, produce

(100 — 80) 100

3 Or, 25 per cent overrun.
O

Considering that a creamery receives gathered cream con-
taining 35 per cent of butter fat, from which is manufactured
butter containing 80 per cent of butter fat, the reduction in
overrun due to .2 per cent loss in the buttermilk is equal to
.4 per cent!on the overrun. Miscellaneous losses figured at .2
per cent will reduce the overrun .25 per cent. Considering
these two losses, we might expect a theoretical legal overrun of
25 —(.4-+ .25) = 24.35 per cent. ;

This overrun is higher than could be expected in general
practice, even though no avoidable loss would occur, as it is
well known that it is impossible to produce butter which al-
ways would contain even 80 per cent of butter fat. It is
furthermore recognized that two or more samples may
be taken from butter of the same churning, but packed in
different containers, and even from the same container and
yet differ in excess of one-half of one per cent in fat content.
It is therefore only fair to consider that if we have an 80 per
cent fat standard, the butter, in accordance with our method of
analysis, should contain about 81 per cent of fat. This will
reduce the overrun 1.54 per cent, which, subtracted from 24.35
per cent, leaves an overrun of 22.81 per cent for gathered cream
butter. If whole milk were received and the loss of butter fat
in the skim milk amounted to .1 per cent, then the overrun
would still be decreased to the amount of 2.73 per cent, or the
overrun would in that case be 20.08 per cent.

Losses Due to Butter Shrinkage. — In the foregoing discus-
sion no reference has been made to shrinkage of butter from
churn to dealer; this shrinkage varies in accordance with
workmanship of the butter, the time of holding, and the tem-
perature at which it has been held. A creamery allowing 8

1 Table XIII.

MECHANICAL LOSSES IQ7

ounces of overweight on 63 pounds of fresh butter containing
80 per cent of butter fat is losing about one per cent on the
overrun. Hibbard and Hobson ! estimate that a tub of butter
loses two-fifths of a pound of moisture on the way to market.
Guthrie 2 reports a shrinkage of 0.29 per cent on too tubs of
butter held in cold storage for 134 days at 0° to-10° F.

1 Bulletin 270, Wisconsin, 1916.
2 Journal of Dairy Science, Vol. I, No. 2, 1917.

CHAPTER XVI
COST OF MANUFACTURING BUTTER

THE items to be considered in determining the cost of manu-
facturing butter have been discussed in the foregoing chapters,
and may be briefly summarized as follows:

Labor, direct and indirect.

Coal and power.

Ice and refrigeration.

Water.

Butter tubs, boxes, liners, and wrappers.

Salt, color, washing powder, and miscellaneous supplies.
Rent.

Interest on investment.
Insurance.

Taxes.

Depreciation.

Repairs.

It is only by exhaustive study of each factor which adds to the
manufacturing cost that a manager will be able to reduce such
cost to the minimum.

The size of the creamery is one of the primary factors that |
influence the cost of manufacturing. If the receipt of raw
material is small the cost of manufacturing a pound of butter
will naturally be high due to fixed expenses which cannot be
reduced. Wright! found that the cost of manufacturing a
pound of butter in the Iowa creameries was as follows:

118th Annual Report, 1904, of the lowa State Dairy Commissioner.
198

COST OF MANUFACTURING BUTTER

Creamery making
Creamery making
Creamery making
Creamery making
Creamery making
Creamery making

40,000 pounds
50,000 pounds
60,000 pounds
70,000 pounds
80,000 pounds
go0,000 pounds to

125,000 pounds
Creamery making 150,000 pounds
~ Creamery making 175,000 pounds

Creamery making
and above

200,000 pounds

cost of making is 4
cost of making i2 3.4
cost of making is 3.0
cost of making is 2.88
cost of making is 2.66

cost of making is 2.00
cost of making is 1.85

cost of making is 1.65

cost of making is 1.44

199

cents

“cc

“

“ec

Hibbard and Hobson '! found the cost of making a pound of
butter in Wisconsin to be 2.33 cents (Table XVII). Macklin 2
found this expense to be somewhat higher for Kansas (Table

XVII).
TABLE, XVIE
Wuo Grts THE Money?
Cents Per cent
PRPEARIEES eae U PS Ane CaN anehly Ou 'te Sarclone ied 2.9 \ 3.33 67.97
Regimes tee eg: hint. ke es NE ee 1.50 4.3
SO TAMINET Ave eas fer Sl ost ah ek WP tg 262 6.7
[STE oa a a ll Oe Rn ng aR ea ee OI wr, Way eM Cha .80 2.3
=) TEST OES ee ot a te AA Ie Dee i 18 as;
SOE Re 4 Ue IW kau ne ae «2 oO. 7
Receiver |
JLT Ses Oe CR rE a SR a OLS A See a ae Leas 5.0
Broker J
PPM As Need ain ae | fe 1.00 2.9
[hi RNTLS2e i ae To Be Be CS, 25 1 ee woe 9.9
San 100.0

These expenses from the Iowa report appear to be rather low
and it is likely that some of the expenses, perhaps such as in-

' Bulletin 270, Wisconsin, 1916.

2 Bulletin 217, Kansas, 1917.

MANAGEMENT OF DAIRY PLANTS

200

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COST OF MANUFACTURING BUTTER 201

surance, interest, and depreciation, were, at least in part, left
out of consideration. In accordance with estimate No. ie
page 3, of this book, the cost per pound of butter for manufac-
turing in a creamery manufacturing 67,200 pounds annually
amounts to 4.70 cents. For creamery No. 2, manufacturing
134,000 pounds of butter annually, the cost of manufacturing
is reduced to 3.08 cents per pound of butter. It is difficult
even in the best managed creameries to reduce the average
cost of manufacturing to less than from 2 to 3 cents per pound
if all expenses are accounted for. During the summer season
the cost of manufacturing will naturally be comparatively low,
but in the small creamery it will increase nearly in proportion
to the decrease in output. The larger plants are able to manu-
facture butter at a low cost during the summer season, but
it is equally true that some of the large plants are operating
under so heavy expense during the winter season that in reality
their advantage in the cost of manufacturing becomes insignif-
icant. Such conditions, however, when they occur are due to
lack of management.

The cost of manufacturing could often be reduced by re-
ducing the general expenses, as are enumerated above.

Labor usually constitutes the big item of expense. It is not
possible to make a statement as to what the cost of labor per
pound of butter should be. This cost depends primarily on the
size of the creamery. It is possible to increase the cost of labor
per pound of butter materially and at the same time greatly
increase the general profits to the creamery. It never pays to
engage a cheap man as butter maker, for although by so doing
the cost per pound of butter manufactured will be reduced, the
general profits will usually be reduced because the man who is
willing to work cheaply is a man without experience or without
even ordinary ability. Labor and how the cost thereof may be
reduced are discussed in Chapter VII.

For the purpose of guarding against unnecessary expenses
it is advisable that a daily cost record be kept (Form XVII).
Such a record contains information that is most essential to
the manager.

FORM XVII
aes COST RECORD AND eCCer REPORT

REMARKS

Sell-
a
2

Cost
b. at

ie

Butter

ota
‘ost of

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202

CHAPTER XVII

PROFITS OBTAINED FROM THE MANUFACTURE OF
ICE CREAM

Tue general factors influencing the profits obtained from the
manufacture of ice cream may be enumerated under the heads
of A, cost of material; B, yield of ice cream obtained; and C,
general expenses.

A. COST OF MATERIAL

That the cost of material used for the manufacture of ice
cream is a factor of importance is illustrated by the following
formulas. Each formula represents the amount of material
required for manufacturing ten gallons of ice cream. For the
one formula a high-grade material is used, while for the other
a material of lower quality is used.

FormMuLa No. 1 !

42 lbs. 20 per cent cream at 50 cents per jared cb 5 oo) ic 4 eee ea $4.20
ios) SURAT 0 CONES) reetci aioli h= 4 Focten Se esi aih oe aie nara Re as 48
4 oz. vanilla at $8.00 per gallon... 1... 6-82. -- 0s eee tree eens 25
4 oz. gelatin at 45 cents per pound. .........---- ++ sees eres ay

: Total cost Of Inaterials 6.6 sl eke de ents ays $5.04

Cost of material for one gallon ice cream... ...-..-+++ ++ ee eres 504

ForMULA No. 2

44 lbs. 16 per cent process cream at 40 cents per Ib; butter fat.< .... $2.81
G Mesa sear AUC CeNtS 00. Gauci e seaman ned nda AEA a Snes ase s .48
4 oz. vanilla at $3.00 per recl aR aeGee Wye Sen joe ere Ree oe .09
4 oz. gelatin at 15 cents per FOUN Mri a) cime ye cet eis ye oe 04
Ce eUn CMAP ARADAL yng eae eee hae ae ne eee et .06

Total cost of material. ........--.-+seeee: $3.48

Cost of material for one gallon ice cream... .-- 1+ +e seer eer eeeees .348

1 Figures are based on prewar conditions.

203

204 MANAGEMENT OF DAIRY PLANTS

It will be noted from the foregoing formulas that the dif-
ference in the cost of the cream made a difference of 15.6 cents
per gallon of the finished product. The difference in cost of
vanilla made a difference of 1.6 cents per gallon of ice cream.
The cost of gelatin does not affect: the final cost to a great ex-
tent, as it is comparatively cheap, and if the cheaper grades are
used it will require greater quantities in order to accomplish
the same result.

I. Cream. — The cream is the most important ingredient
of ice cream. By reducing the richness of cream from 20 to
Ig per cent in formula No. 1, the cost of the ice cream was
reduced 2.1 cents per gallon. The reduction would in reality
be a trifle less, as a decrease in fat content of the original cream
would slightly decrease the yield of icecream. It is evident that
the uniformity of the fat content of the original cream is essen-
tial not merely for the purpose of producing an ice cream of
uniform quality, but also for the purpose of controlling the cost
of the finished product.

The richness of the cream should be determined by testing it
for butter fat and if not of proper richness it should be standard-
ized. It is often taken for granted that cream skimmed with
the same centrifugal separator is of uniform richness and that
testing and standardizing of such cream is unnecessary. This
does not coincide with modern teaching, as it has been found
that cream produced by the same separator may readily vary as
much as 5 per cent in fat content fron one skimming to another,
even though the cream screw may be left unchanged.

1. Standardization of Cream. — By standardization of cream
the manufacturer is not merely controlling the cost of cream
required, but is furthermore in a position to manufacture a
uniform product which is essential to the successful marketing
thereof.

A. Reducing the Richness of Cream with Skim Milk. — In
that instance the cream to be standardized contains the entire
amount of fat which the standardized cream will contain.
Therefore the number of pounds of original cream multiplied by
the number representing the test of same divided by the num-

PROFITS FROM MANUFACTURE OF ICE CREAM 205

ber representing the desired richness gives the amount of
standardized cream produced.

Example 1:

Reduce the richness of 80 pounds of 30 per cent cream to
20 per cent by addition of skim milk.

80 X 30/20 = 120 pounds of 20 per cent cream.
120 — 80 = 4o pounds of skim milk required.

When a given amount of standardized cream is desired, using
skim milk for reducing, then the pounds of original cream used
are equal to the number representing pounds of standardized
cream multiplied by the number representing the richness of
the standardized cream, dividing the product by the figure
representing the richness of the original cream.

Example 2:

Prepare 300 pounds of 20 per cent cream from 30 per cent
cream and skim milk.

300 X 20/30 = 200 pounds of 30 per cent cream required.
300 — 200 = roo pounds of skim milk required.

B. Reducing the Richness of Cream with Whole Milk. — The
following method by Pearson is easy and accurate for deter-
mining the quantity of milk or thin cream that must be added to
a rich cream to produce a cream of required richness or fat
content:

Draw a square and write at the two left-hand corners the
percentages of fat in the fluids to be mixed, and in the center
place the required percentage. At the upper right-hand cor-
ner put the number which represents the difference between
the two numbers standing in line with it, 7. e., the number in
the center and the one at the lower left-hand corner. At the
lower right-hand corner put the number that represents the
difference between the two numbers in line with it. Now let
the upper right-hand number refer to the upper left and the
lower right-hand to the lower left, then the two right-hand
numbers show the relative quantities of the fluids represented
at the left-hand corners that must be combined to give a fluid
of the desired standard which is represented in the center.

206 } MANAGEMENT OF DAIRY PLANTS

Example 3:
Prepare 260 pounds of cream containing 25 per cent fat from
4 per cent milk and 30 per cent cream.

30. 21 parts of 30 per cent
cream
26
4 5 parts of 4 per cent
milk

21 :
260 X oe OMG pounds of 30 per cent cream required.
2

260 X = = 50 pounds of 4 per cent milk required,
P

Example 4:
Prepare 25 per cent cream from 231 pounds of 35 per cent
cream and 4 per cent milk.

BS hal) llth ta, ok) 2e perteo. 5) Denim
cream
25
4, 0 AE re parte of 4 per came
milk

231 X = 341 pounds of 25 per cent cream.
21

34I — 231 = 110 pounds of 4 per cent milk required or 341 X
Io . .
—— = 110 pounds of 4 per cent milk required.
31

PROFITS FROM MANUFACTURE OF ICE CREAM 207

The following method by the author ' is also easy and quick
for the operator to use:

Let C, represent amount of original cream.
C2 represent amount of standardized cream.
M represent amount of milk.
t represent test of milk.
t, represent test of original cream.
tp represent test of standardized cream.
.If the value of C; is given, but the value of C2 is unknown,
then
Co X te = Ci XK tit (C2 —Ci) t or
Gt
C= Ci X FsG
This may be expressed as follows: “‘When a definite amount
of original cream is to be standardized with milk of known rich-
ness then the amount of standardized cream is equal to the
figure representing pounds of original cream used multiplied by
figure representing the difference between test of original cream
and test of milk, this product divided by figure representing
the difference between test of standardized cream and test of
milk.”
Example 5:
Prepare 20 per cent cream from 100 pounds of 30 per cent
cream and 4 per cent milk.

C, = 100% 24 = 162 1/2 pounds of 20 per cent cream
20—4
162 1/2 —100 =62 1/2 pounds of 4 per cent milk to be used
for standardizing.
If the value of Cy, is given the value of C; unknown, then
from the same equation we have the following:

Gt
This may be expressed as follows: ‘‘When a definite amount
of standardized cream is desired then the amount of original

1 Creamery Journal, June 1, 1911.

208 MANAGEMENT OF DAIRY PLANTS

cream required is equal to figure representing the pounds of
standardized cream multiplied by figure representing the differ-
ence between test of standardized and test of milk, this product
to be divided by figure representing the difference between test
of original cream and test of milk.

Example 6:

Prepare 100 pounds of 20 per cent cream from 30 per cent
cream and 4 per cent milk.

Cy = 100 X “2 —4 = 61 7/13 pounds of 30 per cent cream.
2 haat

100 — 61 7/13 = 38 6/13 pounds of 4 per cent milk.

To illustrate the similarity between the two methods suppose
Example 6 had been figured by the method of Pearson; the
formula would have been as follows:

20—4

(07-4) 4 (38-- 20)

Example 5 by that method would be solved as follows:
ae: (20 — 4) +(30 — 20)

20—4

For the purpose of facilitating the work of the ice cream de-
partment standardization tables may be used to advantage.

The same rules and formulas as apply for standardization
of cream may also be used for standardization of milk.

2. Homogenization of Cream. — By homogenization cream
is subjected to energetic mechanical treatment. The Gaulin —
system is the oldest and possibly the best known in the United
States.

The cream enters the machine at a high temperature. It
is forced through fine metal capillary tubes and against a conical
agate-valve disk at a pressure of from 2,000 pounds to 3,000
pounds per square inch. The fat globules in cream thus treated
are broken up to such an extent that they are removed with
difficulty with a cream separator if the homogenization is
properly done.

For butter making this treatment is of no advantage but

c=! 200 OX

PROFITS FROM MANUFACTURE OF ICE CREAM 209

of disadvantage, for the reason that homogenized cream cannot
be churned.

A. Its Value in Ice Cream Making. — In ice cream making
this treatment of the cream has the advantages that the cream
acquires a firmer and smoother body so that a 20 per cent
homogenized cream will produce an ice cream of a similar
consistency as ice cream made from a richer cream. Ice cream
made from homogenized cream possesses better keeping quali-
ties and will yield more services per gallon than that made
from cream which has not been so treated. It is furthermore
entirely free from butter particles which are so readily formed
in untreated cream during the process of freezing.

Since the introduction of the homogenizer it has been learned
_ that by heating skim milk to a high temperature and then add-
ing melted butter in definite quantities and homogenizing, it is
possible to produce a cream which in appearance is identical
with normal cream. This system has the disadvantages: First,
that it discourages the production of sweet cream, which
means much to the dairy states, as it is well known that the
ice cream manufacturer is recognized to be the principal edu-
cator for quality; second, it discriminates against the smaller
ice cream manufacturer, as he cannot afford to install a homog-
enizer and is therefore compelled to buy more expensive cream;
and third, if butter from sour cream is used then it becomes
nothing less than a renovating process.

The production of artificial cream in places where dairying
is not well enough developed should not be discouraged, for if
the cream has to be shipped a great distance it is more economi-
cal and fully as sanitary to produce the cream from butter made
from sweet cream, from a practically sterilized milk powder, and
from sterilized water.

B. Cost of Homogenization. — The machine after it has
been started requires but little attention. One man’s time
while the homogenizer is operated is sufficient. In addition to
that the main cost is the cost of power and the interest on the
investment. A homogenizer of sixty gallons’ capacity per hour
requires 3 horse power. By installing a larger homogenizer

210 MANAGEMENT OF DAIRY PLANTS

some reduction will be made in the cost of power, as a machine
of a capacity of 200 gallons per hour only requires 6 horse power.

3. Storing of Cream. — As the demand for ice cream is gov-
erned largely by weather conditions and local events, the ice
cream manufacturer sustains annually much loss on cream, for
if he has too big a supply on hand under ordinary conditions he
is usually compelled to sell it to the butter manufacturer at a
loss. At other times, when the demand for a short time is above
normal, it may even be impossible to secure a sufficient supply.
The storing of cream for from one week to ten days will to a
great extent eliminate such difficulties.

A. Preparation of Cream for Storage. — The cream should be
cared for immediately upon arrival at the factory. If left on
the creamery floor without attention it will soon become unfit
for ice cream making. Cream used for the manufacture of
ice cream should not contain above .2 per cent of acid. It
should be free from undesirable flavors. If the cream is re-
ceived during a period of several hours it should be placed in a
tank of ice water as soon as received, or better, in a cooling vat.
When the cream has all been collected it is standardized to so:
desired richness and then pasteurized.

The method of pasteurization most satisfactory for cream
for ice cream making is that of heating the cream to a temper-
ature of from 140° to 145° F. and holding it at that temperature
from twenty to twenty-five minutes. From the pasteurizer the
cream is cooled to within a few degrees of freezing. It is then
put away in cans into a brine tank or a cold-storage room
which is held at a temperature of a few degress below freezing.
The cream is stirred frequently until it has reached the freezing
point, when it is left until enough of the cream has frozen to
form ice on the side of the can to a thickness of from a half to
one inch. The cans may now be packed in crushed ice or placed
in a cold-storage room at 32° F. and kept in that condition until
used. All cream used for ice cream making should be treated
in this manner and held for not less than twenty-four hours at
32° F. before used. By so doing the body is improved and the
yield increased.

PROFITS FROM MANUFACTURE OF ICE CREAM 2i1t

The cans containing the cream held for storage should be
sealed. This is done very satisfactorily by placing a parchment
paper over the top of the can, then placing a tight-fitting cover
on the can. The parchment paper will fit in between the cover
and the collar of the can and act as a seal.

B. Length of Time for Storage. — The length of time that
cream may be safely stored is not satisfactorily known. The
cream may retain its fresh flavor for from three to four weeks if
the cans are properly sterilized and sealed and if the cream is
kept at a temperature of 32° F. It has been found, however,
that when the cream has been held over ten days or two weeks
the bacteria are apt to increase at a high rate. It is not known
what effect this increase will have on the wholesomeness of
the product.

II. Flavoring Materials. —

1. Sugar. — Sugar is one of the important ingredients in ice
cream. The most common sugar used is fine granulated cane
sugar. Beet sugar is used by several manufacturers and is sold
for a fraction of a cent less per pound. There is a difference in
opinion as to the relative value of the two; however, it is most
generally considered that the difference is insignificant.

2. Flavoring Extracts. — Extracts become of much im-
portance for the reason that vanilla ice cream constitutes from
75 to go per cent of the ice cream manufactured and for vanilla
ice cream an extract is the only practical flavoring to use. Of
other extracts used by the ice cream factories, might be men-
tioned lemon, orange, almond, pistachio, peppermint, rose, etc.
It is most satisfactory to use berries, fruits, and nuts direct as
flavoring, and extracts should not be used unless in case of neces-
sity. .

‘A. Vanilla Extract. — Vanilla extract is prepared from the
fully matured, unripe cured fruit of the perennial climbing vine,
vanilla planifolia. Several varieties of vanilla beans are on the
market. The difference in the delicacy of flavor determines the
difference in value between the various kinds of beans. In
market value the Mexican bean ranks highest and sells at from

1 Bulletin 134, lowa Experiment Station, 1912.

212 MANAGEMENT OF DAIRY PLANTS

$8 to $30 per pound. The Bourbon bean ranks second, selling
at from $5 to $14 per pound, the South American bean sells at
from $4 to $6 per pound. The cheapest of the various varieties
is the Tahiti bean, which sells at from $1.75 to $2.25 per pound.?

The flavoring material contained in the vanilla bean is
slightly soluble in water, but readily soluble in alcohol. For
that reason a weak alcohol is used for extracting the flavoring
material from the beans.

The United States standard defines vanilla extract as being
the flavoring extract prepared from the vanilla bean, with or
without sugar or glycerin and contains in too c. c. the soluble
matter from not less than 1o grams of the vanilla bean.

According to this standard the United States official method
for manufacturing vanilla extract is as follows:

“Mix 650 c. c. of alcohol with 350 c. c. of water. Macerate
100 grams of vanilla beans, which have been previously cut
into small pieces and bruised in a mortar, in 500 c. c. of the
mixture for twelve hours; then drain off the liquid and set aside.
Transfer the vanilla to a mortar, beat it with 200 grams of
sugar into a uniform powder, then pack it in a percolator and
pour upon it the reserved liquid. When this has disappeared
from the surface, continue percolation by gradually pouring on
sufficient menstruum to make 1,000 c. c. of extract.”

Material cost of preparing one gallon of vanilla in accordance
with the: United States official method is as follows, figuring
that the extract is manufactured from a Mexican vanilla bean
at $10 per pound:

Oso cc; alcoholat.7o. cents per liter... 225..0s ade, tiles $0.46
200 stams sugar at G cents per poutid..) 204.35 dae ea 0.03
TOO/PFaNIS Vanilla ORAM b/s e's cL eh Mice Reh be ome ee eee 2.21
Material cost. of 1,000\c, c. vanilla extract); $4.61 eee $2.70

t gallon = 3,785 c. c.
Material cost of 1 gallon = $10.22.

' Flavoring extracts by R. A. Kuever.

PROFITS FROM MANUFACTURE OF ICE CREAM 213

Suppose Tahiti beans at $2 per pound are substituted for the
Mexican vanilla bean, the material cost of a gallon of vanilla
extract will then be reduced to $3.53.

An extract resembling vanilla extract and often sold for
vanilla extract is manufactured synthetically and its cost of
production is much less than the cheapest true vanilla extract
manufactured. Therefore, in purchasing vanilla extract,
the writing on the label of the bottle should be carefully read
and at times a sample of the goods might be sent to the State
Experiment Station for analysis.

The extract made from the Tahiti bean is of a lighter color
than that manufactured from other beans and is therefore
readily distinguished unless artificially colored.

Although it may appear to be profitable for the ice cream
manufacturer to manufacture his own vanilla extract, it has
been found by many who have attempted to do so in a small
way that they have not been successful in producing an extract
equal to the commercial product.

B. Lemon Extract. — Lemon extract, in accordance with
the United States standard, is the flavoring extract prepared
from oil of lemon or from lemon peel, or both, and contains not
less than 5 per cent by volume of oil of lemon.

Oil of lemon is the volatile oil obtained by expression or
alcoholic solution from the fresh peel of the lemon, has an opti-
cal rotation ! of not less than + 60° in a t00 mm. tube and con-
tains not less than 4 per cent by weight of citral.

The direction for preparing a tincture of lemon peel is as
follows:

500 grams lemon peel from the fresh fruit in thin shavings
and cut in narrow shreds.

Alcohol of sufficient quantity to make 1,000 ¢. ¢.

““Macerate the lemon peel in a stoppered, wide-mouthed
container in a moderately warm place with 1,000 c. c. of alcohol
during forty-eight hours with frequent agitation; then filter
through purified cotton, and when the liquor has drained off

125° C,

214 MANAGEMENT OF DAIRY PLANTS

completely gradually pour on enough alcohol to make 1,000
c. c. of tincture and filter.”’

As noted above, a lemon extract may readily be prepared by
any manufacturer. The most expensive material used for the
preparation of a lemon extract is the alcohol, therefore the
manufacturers of extract often prepare cheap terpeneless ex-
tracts. It requires at least 80 per cent by volume of alcohol
for a lemon extract containing 5 per cent of lemon oil. Deodo-
rized or purified alcohol is to be preferred.

Lemon is not a popular flavor for ice cream, but is used for
nearly all water ices and lactos; however, for the manufacture
of these, we depend mainly on the juices of the fruit.

Orange extract is prepared in a similar manner as lemon
extract.

C. Detection of Artificial Extracts. — The ice cream maker
is seldom capable of making chemical analyses, but there are a
few simple tests by which the maker may obtain a fair idea as to
the purity of some of the more common extracts.

If normal acetate of lead solution is added to a sample of
vanilla extract a heavy precipitate is formed if the extract is
pure. If the extract remains clear, or if only a mere cloudiness
is formed, it is conclusive evidence that the extract is artificial.

Lemon and orange extracts are readily tested by placing a
small sample in a test tube; if by adding an equal amount of
water a heavy precipitate is formed, then it is an indication
that the extract is of good quality. The heavier the precipitate
the better the extract.

The following method by Mitchell is for determination of oil
in a lemon or orange extract: “‘ Transfer by a pipette 20 c. c. of
the extract to a Babcock milk bottle, add 1 c. c. of dilute hy-
drochloric acid (1 : 1); add 25 to 28 c. c. of water previously
warmed to 60° C.; mix, and stand in water at 60° for five min-
utes; centrifuge for five minutes; fill with warm water to bring
the oil into the graduated neck of the flask, and repeat the whirl-
ing for two minutes; stand in water at 60° for a few minutes, and
read the per cent of oil by volume. Where the oil of lemon is
present in amounts over 2 per cent, add to the percentage of oil

PROFITS FROM MANUFACTURE OF ICE CREAM 215

found o.4 per cent to correct for the oil retained in solution.
Where less than 2 per cent and more than 1 per cent is present,
add 0.3 per cent for correction.”

3. Fruit and Berries. — Most fruits and berries possess dis-
tinctive flavors which are desirable in the manufacture of ice
creams and ices. It is very seldom possible to prepare from
such fruits or berries an extract sufficiently concentrated to be
of much value when used in small quantities. For that reason
most fruit extracts obtained on the market are manufactured
from artificial fruit essences made up of compound ethers so as
to imitate the various fruit flavors.

The ice cream manufacturer who is giving due consideration
to quality does not use imitation extracts but prefers to use the
pure fruit. This may be used either in the form of fruit juice or
as crushed fruit, but as fruits and berries are seasonal it be-
comes necessary to preserve such fruits and berries for which a
permanent demand has been created. It has been found ! that
ordinary methods of sterilizing fruit juices by heat may be
successfully applied to but a limited number of the special
fruits, such as the black raspberry, blackberry, black currant,
sour cherry, and peach. Im the case of juices of the straw-
berry, red raspberry, red currant, pineapple, and the citrus
fruits as well as apple cider, sterilization by heat causes loss
in flavor, and where kept after heat sterilization the juices of
these fruits tend to lose in color or flavor, or both.

A. Preparation of Strawberries for Storage. — Strawberries
which are of great importance as flavoring for ice cream may be
sterilized without injury to color but with marked injury to the
fresh fruit flavor. A cooked strawberry flavor develops. Straw-
berries may be prepared for storing as follows:

A perfectly fresh berry of a fine and pronounced flavor
should be selected. The berries should be rinsed with cold
water and mashed through a fine hair sieve. The juice, which
may be collected in a milk can or an ice cream can, is weighed
and an equal amount of sugar by weight is added. The mix-
ture of berry juice and sugar is stirred thoroughly at frequent

1 Bul. 241, U. S. Dep. of Agriculture, 1915.

216 MANAGEMENT OF DAIRY PLANTS

intervals while it is left at ordinary room temperature from
twenty-four to forty-eight hours. The object is to have the
sugar thoroughly dissolved. When the sugar has thus been
dissolved the fruit should be cooled, which is most readily done
by packing the can or cans containing the fruit in crushed ice.
The fruit should be held thus until it has reached a temperature
of about 35° F. It is then ready to be packed for storage. It
may be put into earthen containers or it may be packed in
larger containers such as barrels. It should not be packed in
larger containers than can be emptied within two or three
weeks’ time unless good cold storage facilities are available.

If barrels are used these should be thoroughly cleaned and
sterilized and then paraffined on the inside. When the barrel
is full of fruit it is headed up and sealed with paraffin wax.
It should be held at a temperature of 50° F. or lower, if possi-
ble.

The importance of watching the fruit closely while it is being
stored should not be overlooked. If there is any which shows
the slightest indication of fermentation it should be used imme-
diately or sterilized.

The cost of the fruit prepared in accordance with the fore-
going direction is as follows, in accordance with results obtained
by the author: 1

1 crate of strawberries producing 16 lbs. juice, cost....... $2.00
fo be esugat ai GPCeRea ys Pit. heat aks . sere! Meee lo RUS IE oe .96
Iban Boe Se oreo pete ee rae Nal Chae ee a Ser ae Seed on, 25

otalicosttor goulbsmciruyy. 7.5 on eicioee ewe ee $3.21

A fruit sirup thus prepared has a specific gravity of 1.32. The
weight of one gallon of sirup = 8.35 X 1.32 = 11 pounds.

32 + I1 = 2.91 gallons prepared from one crate of berries.
Cost per gallon = 3.21-+ 2.91 = $1.10.

The yield of fruit juice obtained in the above experiment was
80 per cent. Gore ? obtained yields from strawberries ranging
from 63 to 88.06 per cent.

‘From experiments conducted 1014.
2 Bulletin 241, U. S. Department of Agriculture, tots.

PROFITS FROM MANUFACTURE OF ICE CREAM 217

Berries and fruits of various kinds may be prepared by a
method similar to that outlined for the preparation of straw-
berries.

B. Preparation of Cherries for Storage. — Cherry sirup has
been prepared most successfully by the author by heating the
cherries to about 185° F. before crushing. After crushing, the
juice is kept at 185° F. for thirty minutes, sugar is then
added in equal proportions, and the sirup is allowed to cool.
The following gives the cost of cherry sirup in accordance with
results obtained by the author:

t bushel of cherries produces 29 Ibs. juice, cost........... $3.00
Sasa Surat at OV Cents o. arcu) bus uo ahivelc als dee ue 1.74
LATO Toss 5 aria A oe Re a I or ee a ae 50

OLA Cost tor GSuNS, SINUP s..¢ os ste. ne yee tse $5.24

Specific gravity of sirup 1.3.
58 lbs. sirup = 5.375 gallons.
Cost per gallon of cherry sirup, 97.5 cents.

4. Chocolate. — Chocolate and similar flavoring material
which needs to be prepared before it is added to ice cream
should always be kept on hand in the form of a sirup. This
sirup may be prepared when there is less regular work in the
factory and no time is lost when the ice cream maker is busy.

A chocolate sirip may be prepared from a simple sirup and
chocolate or cocoa. The principal difference between chocolate
and cocoa is that the chocolate contains all of the oil from the
bean. The cocoa bean contains close to 50 per cent of oil; this
latter is of no value as a flavor-producing material and it is not
particularly desirable mixed with cream, which already contains
a high per cent of fat. Cocoa is the same as chocolate, except
that part of the oil has been removed from the cocoa bean, and
cocoa therefore contains less fat and more flavoring material.
If one and a half pounds of chocolate are used for ten gallons
of ice cream, the same result will be secured using about one
pound of cocoa.

218 MANAGEMENT OF DAIRY PLANTS

A. Chocolate Sirup.— Chocolate sirup is prepared by
dissolving cocoa or chocolate in simple sirup. The mixture is
brought to a boil and when the chocolate or cocoa is dissolved
the sirup is cooled and transferred to sterilized jugs or jars.
Cocoa may be added to the sirup in the proportion of one pound
of cocoa to three or four pounds of simple sirup.

B. Simple Sirup. — Simple sirup is prepared by adding
twelve pounds of sugar to eight pounds of water. This is
boiled until it has a specific gravity of about 1.32 at 60° F.
Such a sirup contains about 66 per cent of sugar. The weight
of one gallon of simple sirup thus prepared is eleven pounds.
The cost of such a sirup, figuring sugar at six cents per pound, is
about forty-four cents per gallon.

III. Fillers. — Fillers are comparatively cheap, and from
the standpoint of cost the manager should not be so interested
as from the standpoint of quality. It was found ! that by using
four ounces of a certain kind of gelatin for ten gallons of ice
cream the bacteria count increased 565,000 germs per c. c. due
to the organisms contained in the gelatin while a gelatin of
higher quality was practically sterile.

B. YIELD OF ICE CREAM

The amount of ice cream obtained in excess of amount of
mix used is called the overrun. The overrun may be figured
from volume or from weight.

I. Overrun Figured from Volume. — The overrun figured
from volume is determined by the following formula:

(Gallons ice cream produced — gallons mix used) too _
gallons of mix used i

cent overrun.

Example:

too pounds of mix, of a specific gravity of 1.07, produces
20 gallons of ice cream. Figure overrun.

1 Bulletin 134, lowa Experiment Station, 1912.

PROFITS FROM MANUFACTURE OF ICE CREAM 219

=o = 11.19 gallons mix.
S35 0%. 1.07 ihe
ONE as 78.73 per cent overrun.
II.19

The weight per gallon of the finished ice cream is in this
instance five pounds. The greater the overrun the lighter the
finished product will be. It is possible to obtain a considerable
higher overrun than that indicated in this problem, but if the
overrun becomes too great the body of the ice cream becomes
too light and fluffy. The weight of the finished ice cream should
not be less than five pounds per gallon.

II. Overrun Figured from Weight. — The overrun may also
be figured from weight in accordance with the following
formula:

(Weight per gal. of mix —weight per gal. of ice cream) 100 _
weight per gal. of ice cream ee
per cent overrun

Applying this to problem above we have
(8.35 X 1.07—5) 100
5

The ice cream maker should check his work from time to
time during the day’s run. This is most readily done by weigh-
ing a container of ice cream, thus determining the weight per
gallon.

III. Figuring Overrun from Amount of Mix or Amount
of Cream Used. — In the above formulas the overrun has been
calculated from amount of mix. This is very satisfactory when
the same formula is being used at all times. Some manufac-
turers prefer to figure the overrun from amount of cream used
which may be considered to be equally satisfactory. For
plain ice cream a hundred per cent overrun on amount of cream
used may usually be considered equal to about eighty per cent
overrun when figuring from amount of mix used; this, however,
depends on formula used,

= 78.69 per cent overrun.

220 MANAGEMENT OF DAIRY PLANTS

IV. Factors Influencing Yield of Ice Cream Obtained. —
The principal factors influencing the yield of ice cream obtained
are: First, condition and treatment of cream used; second, tem-
perature of ice cream when drawn from freezer; third, tempera-
ture of circulating brine; fourth, size of batch frozen; fifth,
speed of agitator.!

1. Condition and Treatment of Cream Used. — The value of
aging the cream has been formerly discussed. Rich cream pro-
duces: a higher yield than thinner cream. Cream of a high
temperature is likely to churn during the freezing process and
the yield is, as a result thereof, decreased. Homogenized
cream produces less yield than does cream which has not been
so treated unless frozen longer than untreated cream.?

2. Temperature of Ice Cream When Drawn from Freezer. —
The temperature at which the ice cream returns the greatest
yield is usually from 27° F. to 28° F. This, however, may vary
slightly due to the condition of the cream used.

3. Temperature of Circulating Brine. — A brine of low tem-
perature causes the ice cream to freeze before a sufficient
amount of air has been incorporated. If the brine is too warm
the freezing takes too long and it may result in partly churning
the cream. A brine of a temperature from 8° F. to 14° F. is
most desirable; the lower temperature is most satisfactory for a
cream of lower viscosity. A cream of higher viscosity, such as
homogenized cream, should be frozen with a brine of the higher
temperature so as to allow longer time for the incorporation
of air.

4. Size of Batch Frozen. — The larger the batch up to a cer-
tain limit the greater the yield will be. The smaller batch
freezes too soon before a sufficient amount of air has been
incorporated.

5. Speed of Agitator. — The freezer should be operated very
slowly until it reaches the point of freezing which varies from
28° F. to 29° F.* It should be the object to reach that point

1 Bulletin 180, Iowa Experiment Station, 1918.
2 Bulletin 180, Iowa Experiment Station, 1918.
8 Bulletin 155, by Washburn, Vermont Exp. Station, roro.

PROFITS FROM MANUFACTURE OF ICE CREAM 221

before the fat globules begin to coalesce, for if not the cream is
less suitable for whipping. The speed may then be increased to
advantage.

V. Losses Which Influence the General Yield. — Losses
of various kinds are usually found to be more frequent in the ice
cream factory than in the creamery. It is only by the closest
attention of the manager to the details of the work in the fac-
tory that such losses will be reduced to the minimum. The
most significant of such losses are due: First, to inaccurate ice
cream molds and containers; second, to molding of hard ice
cream, and third, to retailing of ice cream.

1. Ice Cream Molds and Containers. — The ice cream brick
molds and containers should be tested as to accuracy of size
before they are placed in service. This is most conveniently
done by weighing the amount of water which they hold. A
5-gallon container if of proper size will hold exactly 8.35 X 5
= 41.75 pounds of water.

2. Molding of Ice Cream.— The molding of ice cream
should be done directly from the freezer or before the cream has
been thoroughly hardened; if not, the loss is increased. The
loss sustained due to molding of hard ice cream may readily
reduce the quantity of ice cream from ro to 20 per cent.

3. Retailing Ice Cream. — The retailing of ice cream will
always result in a quantity loss. This may be due partly to
giving the retail customers too big measure or to the trans-
ferring of hard ice cream from one container to another. If
ice cream is sold at retail it is most satisfactory to mold it in the
form of a brick of a quart size direct from the freezer.

C. GENERAL EXPENSES IN MANUFACTURING
ICE CREAM

The general expenses in the manufacture of ice cream are
much similar to the general expenses in the creamery and will
be discussed here in so far as they differ.

The cost of material used for ten gallons of vanilla ice cream
has previously been figured at $5.04. This does not include

222 MANAGEMENT OF DAIRY PLANTS

such other expenses as labor, salt, ice, power, interest, insurance,
etc.
FORM XVIII

Ice CREAM MANUFACTURING Report SHowinc Cost oF MATERIAL USED PER GALLON OF
Ick CREAM MANUFACTURED

KIND OF | Lbs. | Lbs. | Ozs. | Lads. Am’t |Over- | Total yes
ICE CREAM] cream] sugar] vanilla} gelatin mfd.| run | cost gal

TOTAL

DATE SIGNED

I. Cost of Labor. — Some small creameries are so situated
that they need a helper during the summer season, but on ac-
count of lack of business there is less than a day’s work for each
of the men. Such a creamery may during the summer season
manufacture ice cream for its town at practically no extra ex-
pense for labor. The amount of labor which is due to be paid
for the ice cream department should, however, be figured as
paid from there and the labor transferred to the ice cream
department should be credited to the butter department.
Some smaller ice cream plants find that labor is a big item.
Some figure the cost of labor for manufacturing as high as ro
cents per gallon of ice cream manufactured.

1. The Wholesale Plant. — The amount and cost of labor
required in a factory manufacturing 600 gallons of ice cream
daily may be estimated as follows:

PROFITS FROM MANUFACTURE OF ICE CREAM 223

Mo: SO ee ee $ 250.00
1 ice cream maker, $100 per month..........-..-++- 150.06 -
2 helpers at $70 per month....-.-.-.--++e+eeeeeeees 180.00
bee AE a ys boi panie oe J Be beer a Oe artes ee 90.00
1 man for handling sweet cream......--------+++++55 g0.00
t bookkeeper... - 5-20-22 recs r cree ccc r re reracenrence 100.00
mer ANI Boe oh nt Savills vic ae de neler rte Aaa 90.00
g shipping clerk.....00------ 2222 errr rene cerncencas 90.00
2 drivers for wholesale at $90 per month..........--- 180.00
Total cost per month. ......-------+-+eeeeeeeee 1,220.00
Total cost per day.... 2-5 ---- seer sccccrncceees 40.06
Cost per gallon manufactured........-----+---++ 00.0078

It is not entirely fair to charge all of the above expenses
against manufacturing, as part of the manager’s and book-
keeper’s salaries and the entire salary of the order clerk and
drivers should be charged against the selling expenses. In a
factory of the above size the manager will take entire charge of
seliing. Therefore the cost of $0.0678 per gallon should be under-
stood to be the cost of labor for manufacturing and selling,
except the traveling expenses for the solicitor which are not
included.

>. The Retail Plant. — The cost of manufacturing and selling
at retail is greatly increased due to extra cost of labor, cost of
delivery and bookkeeping, and shrinkage of ice cream. There-
fore in making the retail prices such factors should be consid-
ered.

II. Cost of Power. — The cost of power may be determined
on the basis that a ro-gallon batch freezer will require about 2
horse power. An ice crusher will require from 3 to 5 horse
power.

III. Cost of Ice and Salt. — The cost of ice and salt for
freezing, for hardening, repacking in the hardening tank, and
repacking for shipment amounted to 7 1/2 cents ger gallon for
the entire year’s business in a factory where an average of 500
gallons were manufactured daily during the summer season.
The ice was figured at a cost of $3 per ton and the salt at $7 per

224 - MANAGEMENT OF DAIRY PLANTS

ton. At this particular ice cream factory the hardening tanks
were kept in a large open room without refrigeration. The
ice cream was repacked twice daily in the hardening tanks.
This expense might be reduced materially by keeping the hard-
ening tanks in a refrigerator room. In one ice cream factory
where that system of hardening was introduced it was found
that the ice cream kept in most excellent condition by repack-
ing only once daily. Some are using brine instead of ice and
salt for the hardening tanks. ‘This will tend to reduce the cost .
somewhat. The dry hardening rooms are the most sanitary
and for larger plants the most economical, but for a very small
plant that system would prove to be rather expensive. It is
economy to use brine direct from the cold storage system for
freezing the ice cream wherever such brine is available.

IV. Cost Due to Loss of Ice Cream Containers and Tubs.
The loss of ice cream containers and tubs may be a big item
unless systematic records are kept of outgoing containers.
The ice cream manufacturer should select some individual
color or some method of painting his tubs so that they will not
resemble those of his competitors. By this individuality the
packers will be generally known and will usually be returned to
the proper factory. The tubs should furthermore bear the firm
name and address. They should be numbered so that it may
be possible to keep record of the individual containers. It is
convenient to use letters for designating the size of containers.
A might thus be used for ro-gallon packers, B for 5-gallon
packers, C for 3-gallon packers, etc. In accordance with that
system the 1o-gallon packers would be numbered Az, A2, A3,
etc.; 5-gallon packers would be numbered B1, B2, B3, etc.

When a shipment of ice cream is sent out a tag should be
attached to the tub bearing the name and address of the cus-
tomer (Form XIX).

Part of this tag bearing the name and address of the customer,
the number of packer, and the date shipped is torn off from the
original tag and filed on a board, properly numbered. When-
ever the containers are returned the original tags are com-
pared with corresponding stubs and destroyed. Some manu-

PROFITS FROM MANUFACTURE OF ICE CREAM 224

facturers have a special ledger for keeping records of outgoing
and incoming containers, but that method requires more labor
and is less satisfactory. If proper records are kept of the con-
tainers, then it may be safely estimated that the containers and
tubs, if of good quality, will serve for three years or more.

FORM XIX

Ick CREAM SHIPPING TAG

No,./5...
DAIRY DEPARTMENT ea

we Yof 7 V9. |

Phone

CHAPTER XVIII
MARKETING OF DAIRY PRODUCTS
A. SALESMANSHIP

THE selling of goods may be defined as an exchange of values;
the act of selling is known as a business transaction. In order
that a business transaction may lead to a permanent business
relationship the transaction should be of mutual benefit to the
parties concer-ed. The one who buys the goods must feel
satisfied that he obtained as good value for his money as could
be obtained anywhere. The one who sells the goods should
likewise be satisfied with the transaction. If either of the two
parties attempts to take advantage of the other the result will be
that business relationship between the two will sooner or later
be discontinued.

I. The Salesman. — The one who sells goods is known as the
salesman. The art of selling goods becomes more important as
competition becomes stronger and as business becomes more
centralized. The salesman of to-day is therefore a man who
must meet many requirements.

1. He Should be Honest, be of Good Moral Character, and of a
Strong but Pleasing Personality. — He should cultivate taste
for good company, for a man’s character is often judged by that
of his associates, and the modern business man is won most
readily by that salesman who is of a strong character and per-
sonality. After he has won the confidence of the buyer a sales-
man is often tempted to sell a bigger order of goods than would
be profitable for the purchaser to buy, but the salesman should
look after the interest of his customers the same as he is looking
after the interest of the firm by which he is employed. When-
ever necessary he will make suggestions in reference to the size
of orders which can be handled to best advantage by the pur-

226

MARKETING OF DAIRY PRODUCTS 227

chaser. He should present the goods just as they are, not
making any statements without authority from his house or
statements which his firm is unable to back up.

>. He Should Cultivate Acquaintance with His Customers
and Always be Glad to See Them. — A salesman who is afraid of
meeting his customers after he has called on them a few times
does not understand the secret of gaining their friendship.
Such friendship can be gained only by salesmen who are in
sympathy with, and have respect for, the people with whom
they are dealing. The salesman should therefore be ready to
observe the good qualities of his customer but slow in observing
the qualities less desirable. A salesman’s opportunity to be of
help to his customers should be considered as a privilege, as it
will result in mutual friendship, which is the strongest asset a
salesman can possess.

3. He Should Know the Goods He Sells and Have Confidence
in the House He Represents. — The man who sells a dairy prod-
uct should know how such a product is manufactured, and if
he is without technical knowledge then he should first work for
some time in a dairy establishment. Even though he may have
a fair technical knowledge he should spend a few days in the
factory which manufactures the goods he is to sell. It is just
as essential for a salesman to be in possession of such knowledge
as it is for the attorney who is to conduct a case based on tech-
nical principles.

It is not merely the general principles of manufacturing,
common to all establishments making the same line of goods,
that should be studied, but especially such phases of the work
in which the factory he represents excels the others. Particu-
lar attention should be given to sanitation, quality of raw
material used, scientific principles involved in manufacturing,
and quality and appearance of the finished product.

Experience thus obtained enables the representative to pre-
sent properly the merits of the goods he sells. It also gives him
enthusiasm and confidence in his firm. It isa difficult task for
any one to sell an unknown product even at an average price;
it is comparatively easy to sell a product at an advance in price

228 MANAGEMENT OF DAIRY PLANTS

if the salesman is fully aware of the superiority of that product.
The fact that the factory is so equipped with machinery and
supplied with raw material that it can meet the demand at all
times of the year is also a big factor in developing confidence on
the part of the one who sells the goods.

4. He Should Familiarize Himself with the Quality of Goods
Sold by His Competitors and with Their Methods of Selling. —
This is entirely for the purpose of self-education and not for
the direct purpose of taking undue advantage of such knowl-
edge. A salesman should hold his competitors in high esteem.
He should never speak of them when he sells goods, for if he
does it is an indication that he is afraid of them and it makes
him weaker in the eyes of the prospective customer.

5. He Should Have Self-Confidence. —'The one who lacks
self-confidence will never be able to talk convincingly. Self-
confidence should not be confused with self-conceit, for that is a
very undesirable quality to possess.

6. He Should be a Judge of Human Nature. — The people he
is to deal with are of different temperaments. They have
different ideas, they do business in a different manner. It is
therefore essential that the salesman first study the individual-
ity of the person he expects to approach. The nature and the
volume of his business have much to do in shaping the business
man. The man who conducts a large retail grocery business in
a large city is a busier man and requires different approach
than the one conducting a grocery business in a small town.

Before approaching a person the salesman should have made
a fair analysis of him and of his business. The approach is a
very important part of the salesman’s work. His manner of
approach creates in the prospective buyer a like or a dislike,
and unless he is able to make a favorable impression his chances
for interesting the prospect are very poor. In order to appeal
favorably he should be polite; he should not inconvenience the
one he expects to do business with, but if he finds that he is
busy it would possibly be advisable to call later. A salesman is
at a disadvantage when trying to interest a person who for the
time being has urgent business to attend to. The salesman in

MARKETING OF DAIRY PRODUCTS 229

presenting his selling talk should be brief but convincing. He
should watch the one he is talking to in order to observe the
interest he takes in his arguments. He will thus be able to de-
termine which points he needs to dwell upon and which he
should pass lightly over. The financial interest of the mer-
chant should always be kept in the background for a selling
talk, for if it is not apparent to the merchant that he will gain
something by handling that brand of goods then it is unlikely
that he will become interested. The salesman should know
when to talk and when to let the other person talk. Some
buyers prefer to do most of the talking themselves while others
will quietly listen to the arguments of the one who has the
goods to sell. He should also know when it is the proper time
to withdraw.

7. He Should be Persistent. — Because a few attempts fail
that should not cause discouragement, but should call for re-
newed energy. He should take advantage of each failure as
well as of each success by reviewing each selling talk, singling
out the mistakes as well as the strong points of the talk. A
permanent record should be kept of such analysis; a card file or
a loose-leaf book is convenient for such information. A card or
a leaf for each customer may be filed with information about
former impressions, former conversations, and other facts of
value. Such a report should be fully studied before calling on
the person later. Such information is most conveniently filed
geographically and alphabetically.

The salesman should furthermore keep a permanent daily
record of the number of calls made, number of selling talks, and
number of sales made. This should be summarized monthly.
The purpose of this is for increased efficiency.

Il. The Manager in His Relation to the Salesman. —

t. He Should be Able to Impart Enthusiasm to the Salesman.
__ This cannot be accomplished unless the manager himself
has enthusiasm. Before the salesman starts to work the
manager should take charge of him for the purpose of stirring
his enthusiasm to the greatest extent. A manager should never
send out a salesman before that has been done, for without

230 MANAGEMENT OF DAIRY PLANTS

enthusiasm the salesman will fail to present a forceful selling
talk.

2. He Should Stand Back of His Salesman. — The quality
of goods delivered should be the same as that represented by .
the salesman and it should be uniform and remain so. The
practice of starting a new customer, supplying him with fancy
goods for a short time, and then gradually reducing the quality,
should be discouraged. A manager of such ideals cannot expect
his salesmen to continue to retain business or remain enthu-
siastic or to maintain loyalty and respect for his firm, all of which
are necessary for success.

A creamery is at times during the winter season short of
butter for its regular customers. If it is marketing its butter
under a certain brand which has been advertised in a way to
lead the consumer or dealer to think that butter sold under
that brand is manufactured by the creamery, then it would be
inconsistent and unfair to the purchaser for that creamery to
buy butter from other factories and sell it under its own brand.
Such a procedure would make the purchaser feel that he had
not been fairly treated, and it would furthermore lower the
value of a trade-mark which had perhaps cost much to adver-
tise and establish. When such a shortage occurs it would
be more satisfactory if the creamery had a second established
brand to be used more or less during the entire season. This
brand of butter would be sold to merchants with the dis-
tinct understanding that some of it or perhaps all of it is not
manufactured in the home institution. By being careful about
the quality of such goods and by properly advertising same,
the merchants may be willing to sell the two brands during the
winter season. The disadvantages of that system will be more
than overcome by the consequent assurance which the pur-
chaser will have of the manufacturer’s honesty.

It is usually understood between the salesman and the buyer
what size and kind of package is to be used as well as what
time the shipment is to be made. Is is of greatest importance
that such agreements are complied with, inasmuch as dairy
products are perishable and must be kept under refrigera-

MARKETING OF DAIRY PRODUCTS 231

tion. The dealer always prefers a package of such size as will
be most convenient for the refrigerator, and as he prefers to
handle fresh goods he will naturally expect the goods to arrive
at definite times.

The invoice, together with the bill of lading, should also be
sent by the first mail leaving after the shipment has been made.
Some factories put the invoice in an envolope in the package,
but it is safest and more in accordance with business custom to
send it through the mail. As butter fluctuates in value it is of
importance that the dealer receives the invoice so that he may
know the value of the goods before he sells them.

3. He Should be in Close Touch with His Salesman and His
Customers. — He should receive daily reports from his salesman
and should write him daily. He should always write encour-
aging letters and not find fault with the salesman, for there is
nothing which will have a more depressing effect on a salesman
than an unkind letter from the home office. If the manager
has no helpful information or some word of encouragement to
send his salesman, then it is advisable to save the time and
expense of writing. The manager can well afford to keep in
close touch with his customers and it should be well worth his
while to write to them at times, if only for the sake of thanking
them for their business or perhaps at times advising them
when the salesman will call. Copies of such letters should be
forwarded to the salesman.

B. METHODS OF MARKETING

The method of marketing should be determined: First, by
the nature of the business. A market milk plant will naturally
dispose of its products locally; the same is true to some extent
if the product to be sold is ice cream. Soft cheese is also a prod-
uct which is too perishable to be shipped great distances,
whereas cheese, properly ripened and of a firm body, and butter
may be shipped to any part of the globe. Second, by the loca-
tion of the manufacturing establishment. A creamery located
in the country lacks transportation facilities for marketing in

232 MANAGEMENT OF DAIRY PLANTS

smaller quantities and can usually market greater quantities
to best advantage. A creamery located close to a railway sta-
tion may be able to market its output in smaller lots to advan-
tage. Third, by the quantity of finished products to be sold and
the prices obtained from the various sources. Some small
creameries have been able to turn their entire output over to
large dealers, obtaining as much therefore as could be obtained
through a market of a more local character, and thus saving the
cost of establishing a special market which would necessitate
the keeping of additional records and increase losses due to bad
accounts. Fourth, by the business experience of the manager.
If he has no experience in marketing, in keeping a systematic
set of records, or in collecting accounts, then the simplest
method of selling the product may be the most profitable.

I. Selling Direct to the Consumer.— This system of market-
ing is practiced to only a limited extent as it is a more cumber-
some method of establishing a market; the cost of selling is
higher and the credit risk becomes greater. Moreover, the
manufacturer as a rule is a poor retail salesman and lacks the
connection with the consumers which has been established by a
regular retail dealer such as the grocer. The retail business
cannot be eliminated entirely. The milk and cream patrons
deliver the raw product at the creamery and often take butter,
cheese, or ice cream as part payment. In some towns it may
seem advisable to cater more or less to retail customers, espe-
cially if ice cream is manufactured. The market milk plant will
naturally dispose of the greater amount of its output to the
consumer direct.

II. Marketing Through Retail Establishments. — The re-
tailer is dealing with the consumer direct. It is his business
to cater to the wants of the consumer and he becomes a special-
ist along that line. A retailer, such as the grocer, handles
numerous lines of goods and will usually make deliveries to the
consumers at frequent intervals. He will therefore be able to
sell at retail and deliver such products as butter and cheese at
less cost than can the factory operator. Ice cream, due to its
perishability, is usually marketed from the factory direct to the

MARKETING OF DAIRY PRODUCTS 233

consumer but at a high marketing cost. Milk and sweet cream
are delivered from the central milk plant to the consumer at a
reasonable cost as they are delivered to regular customers at
regular intervals, and routes for economic distribution of such
products are readily established.

1. Selling to Local Retailers. —'The local market claims
several advantages: First, it saves in transportation expenses
and thereby either reduces the cost to the consumers or in-
creases the profits of the local dealers. Second, it educates the
people to demand a product of higher quality, as a perishable
product usually appeals most favorably to our sense of taste
while it is fresh, and often creamery butter sold in a town will
take the place of farm butter which is commonly of inferior
quality. Third, the consumers’ demand for better quality re-
sults in no call for the poorer grades of farm butter. The cream
which was formerly converted into farm butter will be sold
to the creamery, giving the farmer a more satisfactory return
and enabling the creamery to reduce its operating expenses per
pound of butter manufactured. Fourth, it is of advertising
value to the creamery to have its products sold by all local
dealers.

If the creamery is located in a city it is often most satis-
factory to establish regular routes and have a wagon call and
deliver goods to retail dealers at regular intervals. Such a sys-
tem is very satisfactory when handling butter and cheese. The
same wagon might also deliver eggs if they are handled by the
firm. This wagon driver becomes a salesman for his firm, and
soliciting of new trade and keeping customers pleased are, to a
certain extent, left to him. The manager should always keep
himself posted on the condition of the business on each route.
It is convenient for him to have a map of the city in his office on
which the routes are shown. All dealers may be indicated on
the map by colored pins or pegs. Prospective customers may
be indicated by black pegs, active customers by white-colored
pegs, etc. It may be advisable also to have colors indicating
the nature of the business of the retailer so as to know whether
he operates a grocery, a confectionery, or a drug store. After

234 MANAGEMENT OF DAIRY PLANTS

the driver has completed his day’s work and returns to the
creamery he should report to the manager and consult with
him in reference to the business for the following day.

The drivers may be employed under different agreements.
Some are employed as day laborers, but it is perhaps most com-
mon to employ them at a small monthly salary with an addi-
tional premium based on their sales. The cost of selling butter
and cheese by this system can be estimated at from a half cent
to one cent per pound, including both salary of driver and cost
of maintaining delivery outfit and paying depreciation and
interest on the investment.

Cream, milk, and ice cream are disposed of differently. Reg-
ular delivery routes are established for the delivery of milk and
cream if sold at retail. The driver may or may not act as a
solicitor. Some prefer to send an experienced salesman out
from the office for the purpose of soliciting and organizing the
routes and the driver is then merely delivering the products in
accordance with his route list prepared for him.

2. Selling to Retailers More Distantly Located. — A campaign
for such sales may be carried on in two different ways. First,
the salesman may solicit all or part of the merchants in a cer-
tain town, and second, the salesman may select only one mer-
chant out of a number, and offer him exclusive agency for the
goods. The first method is most satisfactory in the home town,
where it is comparatively easy and inexpensive to keep in touch
with the various dealers. It is far more difficult and more
expensive to keep in touch with the dealers in more distant
towns, and for that reason the second method may there have
some advantages.

The principal advantages in giving a merchant in an outside
town exclusive agency are: First, the buyer takes greater in-
terest in handling the goods. It will be to his advantage to
handle a line not handled by his competitor if the goods are of
high quality. It will therefore be easier to secure a customer
under such conditions and he will remain more loyal to the
company. Second, the retailer will be willing to advertise the
goods and the manufacturer thus saves that expense. It will be

MARKETING OF DAIRY PRODUCTS 235

the object of the retailer to increase the sale of such goods to
the fullest extent, as he considers that he is advertising his own
goods when advertising a line on which he holds exclusive
agency.

The disadvantage of this system is that one merchant in a
town will not sell as much as would be sold if several were
handling a line. If the sentiment among several dealers is
favorable to handling a particular line of goods then the ex-
clusive agency plan will not be the most desirable. It is seldom
advisable to give exclusive agency to only one merchant in a
large city, because it is usually possible to select dealers in
different parts of the city so located that one does not interfere
with the business of the other.

Ill. Marketing Through the Commission and Wholesale
House. —

1. The Commission Merchant. — The commission merchant
does not buy goods from the manufacturer, but receives them on
consignment and acts as an agent for the manufacturer and
charges a fixed per cent for his commission. The usual rate of
commission charged for selling butter is 5 per cent of the selling
price. The commission merchant sells to the retailer direct,
but also to the wholesaler. The commission merchant serves
mostly the smaller manufacturers, and this system of marketing
butter and cheese has been rather generally adopted. The sys-
tem has not proven entirely satisfactory, however, as it has often
led to misunderstanding between the manufacturer and the
dealer. Therefore many dealers are now buying the products
outright from the manufacturers and they thus become wholesale
buyers.

>. The Broker. — The broker is a dealer who, like the com-
mission merchant, does not purchase the goods which he
handles. He usually represents the purchaser, although he
often represents the seller. He has no warehouse and as a rule
maintains only an office. He sells mostly in car lots and usually
direct to the jobbers or wholesalers.

3. The Wholesale Dealer or J obber. — The wholesaler buys
the goods outright from the manufacturer, commission mer-

236 MANAGEMENT OF DAIRY PLANTS

chant, or broker and sells to the retailer. As already stated, the
creameries and cheese factories sell more of their products out-
right at wholesale than on consignment.

IV. Marketing Through a Cooperative Selling Agency. —
A coéperative selling agency may be organized by manufacturers
for the purpose of marketing their own products. The cost of
operating the agency is borne by all its members in proportion
to the amount of money obtained for goods sold through the
association. Several codperative selling agencies have been
organized in the United States for the marketing of cheese, and
in Europe many associations have also been organized for the
marketing of butter. This has not, up to the present time, been
regarded with favor in the United States, although Minnesota
reports some work along that line.

Theoretically the codperative selling agency should be en-
couraged, for it reduces the number of middlemen. ‘The first
difficulty that such organizations experience is lack of capital and
for that reason the patrons of the creamery become discouraged,
as their money is not forthcoming as soon as expected. This
delay may be further increased, because the agency, when
starting, has not as ready an outlet for its goods as the older
and better established firms; therefore the new agency is
often compelled to allow butter to accumulate in the warehouse.
Such conditions will prevail until it is able to establish a satis-
factory outlet for its goods; for that reason such an institution
may not always, during the early part of its existence, be in a
position to return a satisfactory price to the manufacturers.

The success of the codperative selling agency depends much
oh the ability of its manager and directors. As the board of
directors is elected, it may be criticized as lacking in stability
when conparing it with an old-established and well-managed
business concern. If a capable manager were secured with the
understanding that he would remain permanently if he pro-
duced results and if the board of directors were also elected with
the view of efficiency, then a codperative selling agency should
be a profitable investment to all interested.

The codperative retail milk distributing association is an

MARKETING OF DAIRY PRODUCTS 237

organization of milk producers organized for the purpose of
selling and distributing the milk produced from their own
herds. This may become a prominent organization in the near
future. Under the old milk distributing system a number of
small dealers deliver milk in the same city; frequently several
of them will deliver through the same streets. Much unnecessary
time and labor would be saved if the producers or small dealers
would deliver their milk to a central plant from which it could
be distributed throughout the city by one set of wagons. This
system would furthermore have the advantage that the milk
could be pasteurized before delivery and that an expert in
charge of such a plant could guard against receiving of milk
which was not suitable for human consumption. As a result
the market milk of the city would often be much improved.

The municipal market milk plant is a plant owned and oper-
ated by the city for the purpose of buying the milk at whole-
sale from the producers and selling and distributing same among
the consumers of the city. This plant has, the same as the for-
mer, been organized for the purpose of eliminating unnecessary
expenses. It may be considered to be a valuable institution
for a city where the producers are not inclined to codperate.

C. OFFICE RECORDS

I. Record of Active, Prospective, and Discontinued Cus-
tomers.—Records of out-of-town business are most readily
kept by using a map of the territory and a card file. Differ-
ently colored pegs or pins may be used to indicate customers
on the map, the same as outlined for city sales. The card files
may be divided into active customers, prospective customers,
and discontinued customers. These may again be subdivided
geographically according to counties, towns, or any other
system of division. The geographic divisions may come in
alphabetical or numerical order, and finally the individuals
or firms may be filed alphabetically under each geographical
division.

For example, if the record of a certain territory is filed
according to towns, then the main division of the file would

235 MANAGEMENT OF DAIRY PLANTS

be arranged with town names coming alphabetically. If Alta
were the first town coming in the order stated, Boone the sec-
ond, Colo the third, etc., then the names of the customers
(active, prospective, or discontinued) would follow alphabet-
ically after the town index. The territory might conveniently
be divided into sub-territories known by numbers instead of by
names. If such a division is adopted then the cards will follow
in numerical order.

The card files are kept for the purpose of furnishing brief
information about correspondence, agreements, or other facts
to which it is desirable to refer without having to read through
a mass of correspondence and records. A firm may write a
circular letter to prospective customers. A notation thereof is
made on a card; no answer may be received, and a second cir-
cular letter is written, which is again noted, etc. A notation is
also made if a reply is obtained. Further reference may be
made to any particular letter which is of special importance, etc.
This card, in short, contains a brief summary of what the com-
pany knows about a certain firm or individual.

FORM XxX

REPORT CARD ON PROSPECTIVE CUSTOMERS

Financial Standing
Special MEpOne oi. ey. Cee, spilt ee arn
Circular letter No.4 Dates: oo e.s ein 8
Circular lettem No, Date reins 2 shiek
Reply to circular letter
INGO, 3s PUDDLE ys aed ec dasaretets
FOOMECIIE Cee eure hata cent as aL ana

A letter should be written or preferably a personal call
should be made immediately after it has been discovered that a
customer has discontinued to buy goods. The longer two

MARKETING OF DAIRY PRODUCTS 239

firms do business together the more intimate their business
relationship should be, and it will therefore become more diffi-
cult to retain the customer the longer he continues in his busi-
ness relationship with the other firm.

II. Sales Records. — No goods should be delivered for
sale from the factory stock room or refrigerator unless a proper
record is made thereof. An order should be made out before
the goods are delivered. (Form XXI.) Such an order is usually
written in the office. It is made out in triplicate and on three
colors of paper. The original, which may be on white paper, is
kept in the office. The second sheet may be of pink color and the
third sheet yellow. Both the second and third sheets are turned
over to the purchaser, who presents to the stock clerk the
second slip as his order for the goods. No goods should be
delivered on the third slip, as this is merely intended as a mem-
orandum to be kept by the purchaser. If order blanks are
used they should be numbered consecutively in triplicate by
the printer, the three constituting a set bearing the same num-
ber. This is done so that possible errors may more readily be
found.

FORM XXI
SALES TICKET
Sold to
M
Weight Articles Price Amount
BUTTER
CHEESE
MILK
CREAM

Received the Above

N. B. If cash is paid at creamery it must be written across the face.

‘spoob jo ydioce1 Uodn fyduscud APPU SE2|UN WID|D MOljD BM |IIM SZOUDJSLUNDIID OU 4spun {ig ‘“sUOI4D yoo4409 AAlinyidoUD m=

240

=. ee
ees
eee oy paddiug usu, <p oe eee A poddiug espyaund jo 2409 u44D UO,] UO a|qofiod

QD S]|Iq WEI) PUD y\IPJ ‘W049 22] } SWUAL:

quieg Buiddius

2240 ISA

VIL MT PIOS
“v261 BIW —suu whey = DUT &N 9H 00 AWGWNVIYD IWAOU
AOIOANT

xXx Wdadod

aS
SSS

FORM XXIII

COUNTRY DEPARTMENT

“STATEMENT =»

In Accoun? with

LeISe
rowne OF arr Pocitic Ave.

Bolonce os per lost Stofemera eet eh LE

L404

a SN

242 MANAGEMENT OF DAIRY PLANTS

While the purchaser in the home town usually receives the
sales slip as a memorandum, this is replaced by the common
form of invoice (Form XXII), when goods are shipped to out-
of-town customers. Bills (Form XXIII) are mailed to the
customer monthly or as often as collections are made.

Patrons buying butter from the creamery are usually fur-
nished with a special order blank (Form XXIV). This is made
out by the patron in duplicate unless it is made out with a
stub which is retained by the patron as a memorandum. One
is presented to the creamery while the duplicate is retained by
the patron as a memorandum.

FORM XXIV

PATRONS’ SALES TICKET

2 ee Cola, Towa;. .. 2.5 TOs.
NO ties

FARMERS’ CO-OPERATIVE CREAMERY,
Ra cite ihicaat lbs. Butter :

Please deliver to bearer and charge to my account:
AY Acpeaeetae ede ve Ibs. Cheese :

ROS te hiae oie lbs. Butter
He as qts. Ice Cream : 4s hcoiias oP SRST Heese

pea ante ees: gts. Ice Cream
SOG Bedi Ahn ele Name of Pair ons coc wissen. 8)» fae
Date AG cine ee V OAROSS 5d. ant ode d on edie ile A

Commission sales may cause some difficulty to the account-
ant from the fact that remittance is made later and there is
usually some shrinkage in weight from the time the butter
leaves the creamery until it is sold. The price is also likely
to change. The author has found it most satisfactory to make
a sale slip for such shipment the same as for butter sold locally,
figuring actual weight the day of shipping and calculating
the value on the same basis as that of butter sold to local
merchants. At the same time this entry is made on the sales
record, another entry is made in a book ruled similar to
Form XXV.

MARKETING OF DAIRY PRODUCTS 243

FORM XXV

RECORD OF CONSIGNMENTS

Received

sams be remittance| Amount

Date | butter | Value | for Ibs sold for || Lbs

o > A

shipped butter butter MRT butter pct
Total

Entry is made on Form XXV when remittance has been re-
ceived. This record is of value to the creamery, also, for the
purpose of checking gain or loss sustained by disposing of the
butter on a commission basis.

Goods delivered in the city by drivers should be checked
out when loaded on to the wagon. The amount returned is
checked back and returned to stock. The difference between
the amount taken out and that returned should be accounted
for by the driver as sales. The driver, who acts as salesman
records the sale in duplicate on a sales slip (Form XA). Be
keeps the original while the duplicate is turned over to the
purchaser. The sales ticket should be signed by the pur-
chaser if the goods are charged. The word Cash should be
written across the face of it if the driver receives cash for what

244 MANAGEMENT OF DAIRY FLANTS

he sells. The driver upon his return to the creamery will turn
in cash, charge sales tickets, or goods to the amount delivered
to him.

Milk and cream sold at retail are often sold for tickets, the
driver carrying a supply of tickets with him. The customers
may pay cash for such tickets or they may be charged. A
record is kept in the office of the tickets turned over to the
driver and he is held responsible for them, and is required to
return money, tickets, or charge-sales slip with signature of
the purchaser.

Ice cream is ordered through the office and delivery made
in accordance with such order. It facilitates delivery, re-
duces the cost, and is more satisfactory to the customers if
deliveries are rnade at definite times known to the customers.
A route sheet (Form XXVI) is furnished each driver before
starting on his route in order that he may avoid making unnec-
essary drives. This sheet also has blank spaces for signatures
of the customers.

FORM XXVI

Route SHEET

Signature of
Name - Address Goods purchased

purchaser
A. Jones 27 Ash St. 3 qt. van. A. Jones
P. Simons 4th and Clay I qt. ice cream P. Simons
A. Johanson 203 Burnside rt gal. chocolate A. Johanson

J. Smith Driver.

CHAPTER XIX
COST OF MARKETING DAIRY PRODUCTS

THE principal factors affecting the cost of marketing a
commodity are, according to Professor L. D. H. Weld,} as
follows:

First, Perishability, overcome in the case of some com-
modities by the possibilities of cold storage.

Second, Shrinkage in transit, storage, preparation for market
etc.

Third, Regularity or irregularity of production throughout
the year.

Fourth, Possibility of grading into definite and widely ac-
cepted market classes or grades.

Fifth, Volume in which commodity is handled.

Sixth, The relation between the bulk of a commodity and its
intrinsic value, on which depends the importance of transporta-
tion as a factor in the cost of marketing.

1 The Marketing of Butter. Address before the Marketing Conference, Chicago,
October 29, 1914.

245

240 MANAGEMENT OF DAIRY PLANTS

A. COST OF MARKETING BUTTER

Creamery butter is generally sold on the markets according
to quality under the following grades. “Higher scoring lots,
Extras, Extra Firsts, Firsts, and Seconds.’’ A comparison is
presented in Table XIX ' of the official creamery-butter grades
of different wholesale trade organizations.

TABLE XIX

CoMPARISON OF THE OFFICIAL CREAMERY BUTTER GRADES OF DIFFERENT
WHOLESALE TRADE ORGANIZATIONS

Scores Required for Different Grades *

iar Boston|Chicago|Elgin|New York ? Philadel- San F fis
phia ClscO
SECA Cotes Aided ements teal Gat ieee
Bertras et th xorg 34-03: (93+). 2 g1+ 93+
Pgtra Pirst Gti el oc OPO 20nd li iese oe go 3 go-92
BESO StS ous oa ae 87-92! 87-91 | ....| 88-91 87-89 87-89
Gees: 3. Se 80-86| 80-90 | ....| 83-87 80-88 80-89
fh oe a 75-85| 75-89 | ....| 76-82 75-89 70-76

* The plus sign (-++) indicates that higher scores are included.

‘U.S. Dep. of Agriculture, Bul. 682, 1918.

2 At the discretion of a “‘ Butter Committee’ the scores required for various grades
in the New York market are subject to change.

2 Prime firsts.

COST OF MARKETING DAIRY PRODUCTS 247

The price of butter is regulated by supply and demand.
Butter is marketed on a comparatively small margin. Ac-
cording to Weld the Minnesota creameries receive a net price
of about two cents less than the New York quotation. The
commission of 5 per cent for selling, plus the freight to New
York, will amount to between two and three cents per pound
for Minnesota and Iowa creameries. Adding this to the net
price obtained by the creamery gives the wholesale price of the
butter in New York which, in this case, means that the Min-
nesota butter is sold in New York at a fraction of a cent above
New York quotations. The cost of marketing Kansas butter
is explained by Macklin,’ (Table XVII) and the cost of mar-
keting Wisconsin butter is presented by Hibbard and Hobson
in Table XVII.

Due to the fact that butter is handled on a small mar-
gin, it becomes more difficult for the smaller creameries to
eliminate the middleman or commission merchant. The larger
creameries most often find it to their advantage to establish
their own special markets. Some have a special marketing
department, the butter being turned over to that department
from the factory at a definite price. The marketing department
here also stands as the middleman between the factory and the
retail dealer, and all expenses in connection with selling are
charged against that department.

The retail price of butter varies in different cities. The
charges for handling a pound of butter range from about
three cents to seven cents. Five cents may be considered
an average. This is a reasonable margin for handling butter,
as it has to be held under refrigeration and delivered to the
consumer.

The amount paid by retailers and consumers above highest
New York quotations for Extras is presented by Warber 2
in Table XX. The same investigator also found that branded
butter allows a greater margin than butter which is not branded
(Table XXI). By this is not necessarily understood that

‘ Bulletin No. 216, Kansas Experiment Station, 1917.
2U.S. Dep. of Agriculture, Bul. 682, 1918.

248 MANAGEMENT OF DAIRY PLANTS

branded butter yields a greater profit to the dealer, although
it is generally considered that it does, but there are additional
expenses connected with the branding of butter, such as special
packages, advertising, etc., all of which will naturally increase
the margin.

COST OF MARKETING DAIRY PRODUCTS 249

TABLE XX

A COMPARISON OF PRICES AT WHICH DIFFERENT GRADES OF BUTTER AND
BUTTER SUBSTITUTES WERE SOLD IN NEW YorK, PHILADELPHIA,
Cuicaco, ST. PAUL, AND MINNEAPOLIS

[Prices are expressed in margins of differences between highest New York
quotations for Extras and the prices actually paid by retailers and
consumers]

New York Philadelphia

Average price Average price

paid above or paid above or

Number Average|Number hin i Aterage

Kind or grade below N.Y. : ;
of lots re margin| of lots joe margin
in- of in- of
spected profit | spected profit
By re- \By con- By re-| by con-
tailer | sumer tailer | sumer
Cents | Cents | Cents Cents | Cents | Cents
Extras HAs Seon CeCe 54 3.8 Orr RED 25 54 T.2 6.6
Of ea 80 2.6| 6.6 | 4.3 35 3.7/8.8 6.1
Seconds ads Ae sis 28 1.0] 3.9 | 3.8 24 ‘4\ 23-1 5:0
Special brands. . . . 23 LEA 2kO- 0.5 34 14.2] 23.6 | 6.9
Wnielasseds. Ao... 8 Be dbsa 146 9 3.81 9.3 | 7.1
sEGtAals) tera 0. 193 SOO eee |) Ae 137 Te 2h eb EeO\ 51050
Process oc fois. 5 |— 4-4 Be i Aly nae SP pene Spy, (aera
Oleomargarine. .. . 12 |—12.6'—6.7 | 5.8 4 |—11.5|—6.9! 6.1
Chicago Minneapolis and St.Paul
RUGS. 2 cease 2's 14 Pipl ao. pace 37 oa GK | Bez
Firsts... . 159 ZW (Rien a ea ee oe Ce eg Se A
BOEING go! ate roy I= gl avo Nh 3:3 Fe Mlle ci 2 | Mie ey Ca
Unclassed...... -. Dy al See eS Mere an) Re ae Bg 19) aan Boe
otels Gast 213 |+ .0o5| 3.0 | 3.0 365 |—1.14] 4.12 | 4.86

es Fe | | 6 ff EE
| ee, a. | fl | | |

Peoregss 2 78 cc kes 4 |— 7.1 Nett ieee 2 |I— 6.9] —1.9 5
Oleomargarine. ... 56-12-88) neva | oes 26 |—14.4]—8.9 | 5.

250 MANAGEMENT OF DAIRY PLANTS

TABLE XXI

COMPARISON OF QUALITY (AVERAGE SCORE) AND AVERAGE RETAIL PRICE OF
BRANDED AND UNBRANDED BUTTER

[Retail prices expressed in margins between prices paid and local quotations
for Extras]

Branded lots Unbranded lots
bh Number |Average| Price |Number|Average| Price
of lois | score \margin| of lots | score |\margin
Cents Cents
Mew. Varro 298 cs ube te ie ies os Ae A Oa 122 89.8 | 8.83
Pinladel pinta, .t..5 508 ook S90. 1390.83) 1126 21 90.7 | 9702
Boo ER AC ee ere ge 161 89.6 6.1 68 88.7 | 4.7

St. Paul and Minneapolis...| 230 | 89.3 | 5.18 a9 89.7 | 5.06

The production of American butter is not uniform in quantity
during the year, for that reason it becomes necessary to store
some of the butter that is produced at the time when the
production is the largest. About three-quarters of the hold-
ings in the cold storage warehouses are stored during the
months of June and July. Bell and Franklin: (Fig. 26) -
found that the cold storage ware houses contained the most
butter in September, after which it was reduced until it con-
tained the least in May.

It has become possible by storing butter to stabilize the
prices somewhat, moreover, it provides a supply in the season
when the production is below the demand. Storing of butter
will naturally increase the cost of marketing as it involves
special expenses such as storage charges, interest on the invest-
ment, insurance, and shrinkage.

‘U.S. Dep. of Agriculture, Bul. 709, 1918.

COST OF MARKETING DAIRY PRODUCTS 251
GGL, BPTORrLGE FOLDIFEs
OF
GRE A WER Y BUTT BR

Compiled from the reports of the associated warehouses.
Based on the average holdings of the years
1907 to 1916 inclusive.

1 ie aeckcsea er a i rs Ok On oC
SESSA Rap ee ieee iC as Mea Rag
ck S88 2 8 8-278) 8 2. S's dent
100 : 100
’ || ae
: || ae
: in ..
P ||| ae
“ aan.
: aeeed
RERRESD ,

MANAGEMENT OF DAIRY PLANTS

Fic. 27. — Public weigh-house, Alkmar, Holland,

COST OF MARKETING DAIRY PRODUCTS 253

B. COST OF MARKETING CHEESE

It is thought that the middleman can be traced further back
in the marketing of cheese than in the marketing of any other
dairy product. It was through the efforts of the middlemen
that Holland cheese became a noted food product in all parts
of the world centuries ago. A Dane, Otto Lemwigh, wrote in
1791! that in Holland cheese was considered as one of their
most important products of commerce and that it was being
sold at fabulous prices in all parts of the world. The public
weigh-house used for weighing the cheese sold on the market at
Alkmaar, Holland, was built in 1582. The Alkmaar cheese
market in Holland is one of the oldest and to-day the most
important cheese market in that country. It is held weekly
each Friday forenoon. The cheese is brought in by farmers
and manufacturers and is spread out on the big market square.
The cheese dealers appear and the buying begins. The cheese
is bought mostly by dealers who remove it to their warehouses
from which it is shipped to all parts of the world.

The cheese industry in this country has been confined to a
comparatively small territory. Wisconsin claims at present to
be manufacturing close to 50 per cent of the total amount
produced in the United States.2 In accordance with Taylor,
Schoenfeld, and Wehrwein* there were in 1912 eight dairy
boards in Wisconsin. Part of the Wisconsin cheese is offered for
sale on the board, but the greater portion of the cheese manufac-
tured in the United States is sold on contracts which are more
or less binding. Often the dealers find it necessary to keep a
number of traveling men in the field buying up the cheese from
the manufacturers, a limited amount of cheese being sold on
a commission basis.

Cheese is generally handled by three middlemen and the
transportation company. The cost of marketing Wisconsin
cheese is as follows: The dealer charges from 3/4 to 1 1/2 cents

1 Professor Bernhard Boeggild in ‘‘Maelkeribruget” i Fremmede Lande, 1897.
2 Wisconsin Bulletin 251, by Hibbard and Hobson, rors.
3 Wisconsin Bulletin 231, 1913.

254 MANAGEMENT OF DAIRY PLANTS

per pound, the wholesale grocer from 1/4 to 3 cents and the re-
tail grocers from 3 to 5 cents per pound, and the transportation
company obtains from 1/4 to 2 1/2 cents per pound.

Hibbard and Hobson ? estimate that the farmer receives about
half of the money paid by consumers for cheese. The other half
of the consumers’ price is divided among the middlemen, the
retailer getting about as much as the others. The amount of
money obtained by the middlemen should not be considered
entirely as profit. The various operations in the dealers’ ware-
house cannot be carried on for less than 1/4 cent per pound.
The dealer pays the freight, paraffins the cheese, which costs
about 1/8 cent per pound, puts it into the car to be shipped, pays
office expenses, insurance; interest, etc., and storage if the
cheese has to be stored, which usually costs 1/8 cent per pound
for a month or less and from 3/8 to 1/2 cent per pound for three
months and up to six months. The dealers estimate that they
should realize on the average 5/8 cent on all the cheese they sell
(direct and stored) to come out even.

The expense of storing more or less of the cheese cannot
be eliminated, as the proportion of cheese made to that sold
in each month of the year varies greatly. Figs. 28 and 2g ! illus-
trate the difference between production and shipments from
Wisconsin during the year 1911. This situation necessitates
the storing of at least part of the cheese manufactured.

C. COST OF MARKETING ICE. CREAM

Ice cream is usually sold by the manufacturer direct to the
retailer. The costs of marketing are therefore quite readily
determined, as the middlemen are practically eliminated.

I. Cost of Shipping. — The distance for shipping ice cream
is rather limited because the product is perishable and the cost
of transportation heavy. A shipping distance of 200 miles may
well be considered as the limit, for if shipped any greater dis-
tance the cost and the inconvenience of repacking is involved,
and the cost of transportation is increased to such an extent

' Bulletin 231, Wisconsin Experiment Station, 1913.

AN39 Yad © 4N39 u3d

NOV.

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SEPT.

MAY JUNE JULY AUG.
Fic. 28

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256 MANAGEMENT OF DAIRY PLANTS

that it will not be possible to sell it in competition with the ice
cream produced in factories closer by.

The following is the rate of charges made by an express
company on five gallons of ice cream on its lines through the
state of Iowa in 1916. To these figures should be added 10 or
15 cents for the return of the empty container.

Cents
Upite4o mules. e904 ae ts 3 40
From,.4r toso miles; coe sens... 44
Prom sr to Gomes Gis Ges 48
From 6x to So mes © wi, nfs os 52
From 61 to:go miles. .\............ 56
Fomor tO, RTO mes. uh. 2) 5 60
From 1r1-to r2o miles, . 0.2. 68
From 't2r to 1g0'miles. 3. ......: 79
From 141 to 150 miles.2.. 2... 2. 76
From 5240-200 millesin 0. 84
From 201 to 240 miles.......... Q2

II. Cost of City Delivery. — The cost of city delivery is
governed largely by local conditions. Great losses have been
sustained by ice cream manufacturers due to an inferior system
of city deliveries. Often the city is not properly divided among
the various drivers. At times the clerk who makes out the
delivery sheet (Form XXVI) is not sufficiently familiar with the
city so that he can make out the shortest routing. Some con-
cerns have no definite time for making deliveries, but deliver
whenever they have an order and thus several wagons from the
same factory may cover the same territory.

Manufacturers engaged in the retail ice cream business
usually confine sales to not less than a quart, and the amount
ordered is generally delivered by the manufacturer. The cost of
making each delivery, including the return of the empty con-
tainer, often amounts to from to cents to 15 cents. This ad-
ditional cost should be added to the price of the first quart,
as the following scale of prices will illustrate: 1 quart, 60 cents;
2 quarts, $1.00; 3 quarts, $1.40; 4 quarts, $1.80.

COST OF MARKETING DAIRY PRODUCTS 257

III. Cost of Re-icing. — The system of re-icing ice cream for
the retail dealers was started by some of the larger manufac-
turers about 1904. The object was to systematize thoroughly
the method of delivery. A wagon loaded with ice cream,
crushed ice, and salt would call at the dealers once or twice
daily, delivering ice cream and re-icing cream which was still
on hand at the retailer’s store. The arguments in favor of this
system were, first, the customers would take a larger quantity of
ice cream at a time, and as a result special deliveries would be
eliminated; second, it would tend to create greater satisfaction
among the retail dealers, as they would not have to sustain any
loss due to melted ice cream, and to them there was no expense
for re-icing. These advantages were soon lost sight of when
comparing them with the numerous disadvantages to the
manufacturer. First, the retail dealers were willing that the
manufacturers should re-ice their cream, but they also de-
manded that they furnish them with an ice cream cabinet large
enough so they could take care of a greater quantity of ice cream
— the manufacturers complied with their request; second,
some of the smaller dealers would not take ice cream each time
when the delivery wagon appeared, but they were always ready
to have their ice cream re-iced; the manufacturer had to treat
the small dealer the same as the larger dealers. Third, the cost
of such a delivery was greatly increased, as it required a heavy
team and two men to do the same amount of delivering as was
formerly done by a light one-horse delivery and one man.
There are places where re-icing may be done to advantage.
It has been the general experience, however, that it is a system
which is better not introduced unless extra charges are made.
It was found by most who tried it that such a business did not
return a very satisfactory profit. Some have perhaps correctly
considered that this system has resulted in discrimination
against the larger purchasers. This is true, inasmuch as the
manufacturer operating on this system is often spending on the
purchaser of smaller quantities the profit which he makes from
the heavier purchaser. This objection does not hold true, how-
ever, if the manufacturer charges extra for re-icing.

258 MANAGEMENT OF DAIRY PLANTS

IV. Overhead Expenses. — The overhead sales expenses
differ greatly 1 in the various ice cream plants and it is impos-
sible to give any figure which would be fair to all. The overhead
expenses in the ice cream plant should be carefully looked after
perhaps more so in the ice cream plant than in any other dairy
establishment.

D. COST OF MARKETING MILK AND CREAM

I. Selling Milk and Cream at Retail. — By retail sales is
understood sales made directly to the consumers. The principal
factors to consider in determining the selling value of milk are:

Purchase cost of milk

Processing and bottling cost

Distributing cost

Loss due to shrinkage and Lae at the milk plant

Loss on surplus milk

Loss on bad accounts

Office expenses

Advertising

Interest on investment

Depreciation

Miscellaneous expenses

The cost of these various items differ greatly in the various
milk plants. Such differences may be due to greater or less
ability on the part of the manager, size of the city, size of the
plant, the relation of investment to size of business, etc.

1. Purchase Cost of Milk.— By purchase cost of milk is
understood the cost of milk to the distributor, including the
transportation cost to the distributing plant. This cost may
fluctuate with the butter market. Some dealers pay the same
price during the entire year, while it is perhaps the most com-
mon practice for the distributor to have a yearly contract with
the producer whereby the latter obtains a price for the year
which will change at certain predetermined intervals, so the
price paid will to some extent conform to the current butter
market.

COST OF MARKETING DAIRY PRODUCTS 259

2. Processing and Bottling Cost. — This includes cost of put-
ting the milk in shape for marketing, such as clarifying, pas-
teurizing, cooling, bottling, etc. This cost has been variously
estimated at from 0.3 cent to 1.0 cent per quart.

The labor cost in filling and capping the bottles (Table XXII)?
is determined for 107 plants in six cities and shows that 839
bottles were capped per man per hour; the labor cost per
hundred bottles being 2.4 cents; varying from 0.9 to 8.0 cent.

TABLE XXII

LaBor Cost FoR FILLING AND CAPPING Mitk BotrrLes

Pein ed 30 ee 81a ie he SS ee

No. bottles
City No. plants | Labor costs | Variation | per man
per hour
Cents Cents

Philadelphia.......... 25 1.8 org to’ 5.3 1,086
MGW ORR sinc 5:5 ae dad 3 ar h.O 10,423 964
Pittshnbe so. so, 2. hs 8 2:2 1.5 to. 6.3 037
Ra eamOES sc. seis ss 2s. 16 2k 1.3 to'6:.7 739
oS 32 a4 1.9 to 8.0 725
MVashingtGn, 24. 6... 23 Sind 1.8 105.5 Sat

Beppe, Wes ee See

The value of most modern and up-to-date machinery as well
as the most efficient operation of such machinery is illustrated
by Table XXIII.2 This table furthermore emphasizes the fact
that the efficiency of the operators as well as the proper num-

1 Milk plant letter No. 20, Dept. of Agriculture, B. A. I., October, 1915.

According to figures in Table XXII the average costs in Boston and Washington
were considerably higher than in the other cities, but in the latter city a larger
proportion of the smaller and less efficient plants were taken into consideration
while in the former city 26 of the plants supplying data were capping by hand,
with an average labor cost of 4.5 cents per 100 bottles, varying from 2.1 cents to
8.0 cents. Higher wages were also reported in that city than in some of the others,
thus making the labor cost high in proportion to the number of bottles filled per
man per hour. In Philadelphia, New York, and Baltimore a larger proportion of
the plants considered were using automatic machines than in the other cities.

2 Milk plant letter No. 20, Dep. of Agriculture, B. A. I. October, rots.

260 MANAGEMENT OF DAIRY PLANTS

ber of employees engaged at the work materially influences
the economic efficiency.

TABLE XXIII

TABLE SHOWING TIME REQUIRED FOR FILLING AND CAPPING

Bottles filled and
capped per man
per hour

Bottles filled and

Type of machine
capped per hour

1. Large, automatic machine, filling
and capping a full case at a time | 1,933 to 8,622 966 to 2,155

2. Rotary type filler and capper...... 1,350 to 2,446 587 to 1,040
3 Machine filler and capper) 72. .4/0). 750 to 7,760 375 to 1,552
4

Pol hun CARMINA to Misch et sigite we 350 to 5,000 238 to 1,066

3. Distributing Cost. — This includes such items as salary
of driver and collector, upkeep of horses and wagons, barn ex-
penses, and overhead expenses connected with distribution.
This expense has been variously estimated at from 2.0 to 4.0
cents per quart.

4. Loss Due to Shrinkage and Waste at the Milk Plant. — The
Department of Agriculture 1 obtained estimates from 41 dealers
on such losses. These estimates included all losses in handling
milk from the time it was shipped and varied from 0.5 to 4 per
cent and averaged 2.15 per cent of the amount handled by each
dealer.

Such losses may be due to leaky cans, inaccuracy in weight or
measure, careless handling of milk, insufficient draining of cans,
leaky apparatus, losses at the filler, loss from not removing all
the milk from the pasteurizer, pipes, pumps, tanks, or other
apparatus, evaporation and mechanical loss during the process
of clarification, pasteurization, or other processes.

5. Loss on Surplus Milk. — As the demand for sweet milk
and cream is not uniform from day to day, and as there is also

1 Milk plant letter No. 9, Department of Agriculture, B. A. I., November, 1914.

COST OF MARKETING DAIRY PRODUCTS 261

slight variation in the daily production of milk, it is evident
that it is necessary for market milk establishments to handle
a small amount in excess of what can be disposed of at retail.
This excess is usually converted into other products, such as
butter, cream for ice cream making, or cheese. As there is
a good demand for special makes of soft cheese, this has often
been made from the surplus milk, and some plants have suc-
ceeded in entirely eliminating this particular loss. Prominent
milk dealers of Boston estimate the loss due to surplus milk and
shrinkage at 0.37 cent per quart.!

6. Loss on Bad Accounts. — More accounts are lost when
dealing with the consumer direct than when selling to a dealer.
Customers leave and neglect to pay and some accounts are so
small that it will not pay to collect. To overcome this loss in
some places tickets are sold on a cash basis. This system has
succeeded in many instances, but has also some failures to its
credit. It reduces the bad accounts, but may also have a
tendency to reduce the number of customers.

7. Overhead Expenses. — Overhead expenses such as office
expenses, insurance, depreciation, advertising, etc., differ
greatly in different plants, due to variation in the cost of plant
and equipment, office system, efficiency of organization, etc.

8. Total Cost of Marketing. —'The datum available on total
cost is very limited at this time and it varies greatly in different
plants. A dairy school conducting a 500-quart milk route
twelve miles in length in the middle Western states reports the
cost at 3.51 cents per quart; deliveries were reported not to be
made more than three houses from the main route. The milk
was not pasteurized.

Milk dealers of Boston report the cost of marketing in that
city as follows: ?

' Hoard’s Dairyman.
2 Hoard’s Dairyman, July 19, 1912. ,

262 MANAGEMENT OF DAIRY PLANTS

CouNtTRY EXPENSES

Per
quart
Transportation, labor, ice, cans and stopples, can washing
ane iniscellancous ems. 4's.50.nh ska Oks oe earn ee $.0102
City EXPENSES
Pasteurizing, washing, and bottling, glass jars, etc........ .0103
Salaries of drivers, helpers, foremen, and salesmen........ .O127
Teams expense includes horses, wagons, and harnesses... . . .0070
Miscellaneous expense, includes bookkeeping, stationery,
advertising matter, car fares, telephone calls, and bad
21s aS, De Mei aia Sk dG a DAML Ga ee a ee ep ae oe .0038
Totalcity experisest 55 tend cores ine ci kioxese $0338
Total expenses, city and country 6.002 25 os ses ee .0440
To this must be added shrinkage and loss in carrying sur-
POVUTS ae tc ei cece hep lee i OO Ses .0037
Geran £Gtdl osselan. fare ey Lek eye ee ant ee eae .0477
The average price paid in the country, middle zone, from
October 1, 1911, to October 1, 1912, is, per quart..... .0390
Net cost, per quart milk, delivered to customer, family trade $ .0867

Percentages of total cost per quart of wholesale and retail
from eighty milk distributing plants in Massachusetts are
presented in Table XXIV by Cance.!_ The actual total expenses
of milk distribution by the same dealers are presented in Fig.
30 and Fig. 31. Local conditions greatly influence the cost of
marketing milk, which is illustrated by Table XXV. This
table was prepared from information furnished by the United
States Bureau of Markets of milk prices in various markets of
the United States for November, 1918. The Bureau report is
based on reports made to the Bureau of Markets by city health
officials, milk dealers, and officers of milk producers’ associa-
tions,

? Bulletin 173, Mass. Experiment Station, 1917.

ACTUAL ToTaL LxPENSE OF MILK
DISTRIBUTION PER QUART

SL § MN WW

COST OF MARKETING DAIRY PRODUCTS

PERCENTAGES OF TOTAL Costs prR Quart
BY SIZE OF TOTAL BUSINESS

Delivery MMB Processing @ZZ2 Overheod CD

Delivery gmp Processing gz Overheod cy

263

Fic. 31

FIG. 30

264 MANAGEMENT OF DAIRY PLANTS

TABLE XXIV

PERCENTAGES OF TOTAL CosT PER QUART OF WHOLESALE AND RETAIL
Mik (E1cuty PLANTS), BY SIZE OR CHARACTER OF BUSINESS

r LE Ill ‘mg
Under 500- 1,001— Over
500 1,000 2,000 2,000 All Average
quarts quarts quarts quarts retail

Number of es-

tablishments 247 20 10 3 20
Total cost... .| $0.0204 | $0.0164 |$0.0182 |$0.0293 |$0.0293 | $0.0218

Per cents, 100 TOO 100 100 100 100
Processing ex-

PENSE? =... .4.. $0.0065 | $0.0046 |$o.0045 |$0.0067 |$0.0090 | $0.0064

Per cent. <4 31.8 28.1 2A 7 26.9 30a 29.3
Delivery ex-

FIGHSE eae $o.0114 | $0.0089 |$o.0105 |$0.0135 |$0.0160 |f$o.o1r214

Percent. 55.0 lege itp | 54.2 54.6 cay
Overhead ex-

Dense ee ee. $0.0025 | $0.0029 |$0.0032 |$o0.0047 |$0.0043 |$0.00322

Percent. 12,8 neha T7A0 18.9 14.7 15.0
Investment

Per plant...| $566 $3,325 | $5,279 | $20,504 | $2,277
Per 1,000

quarts milk
Sralele Ak Gee $4 30] $12 84 $9 51 | $19 30 | $22 61

TABLE XXV
TABLE SHOWING Cost oF HANDLING MILK IN AMERICAN CITIES

Prices per

Markets for which quart paid to

reports were obtained Esra i ef

F. O. B. city

Cents
ios Angeles; Calis oor)... g.1
San Diego, Cal)... 2:0... 2. . 10.3
ienver Coll. ahs. < sia syc.e os
Rartiord Conn.) «2 6 oce0: [0.5
Wilmington, Del......... 9.8
Washington). Ce .4....'. TOS
(ACTON Ge ee ee ee 12.5
Peeiand ae Mile acca) 5 Fe) con: 7.9
Indianapolis, Ind......... ros
Des Moines, Iowa........ 7.8
Dubuque, Iowa.......... Foo
meses (ity. Kathe... 4. Sag
eepene Wane oe Sou 7.0
Mew Orleans, Ta. oi.) cc"... 0.5
Baltimore, Mad): 22s... 10.5
Springfield, Mass......... 9.75
Merrit. Mich. cs lk. +. 7.0
Minneapolis, Minn........ Sy
Kansas City, Mov. 6/8. 9.0
Feuibec. MTOM he. 's) sy eee es
Lincoln: Webi... sa... ee, 8.2
Omaha Neb. wots ee 2.0
New Mork ‘Citys. 0.) Q.1
Wspeville; NwiCo.e. 2.3. 8.8
Oklahoma City, Okla...... a5
Cimemnati, Ohio... 03s... .. 925
Columbus, Ohio; ..,...... 8.6
Portland, Ore. oes cad 8.3
Pinladelphia, Pai... .... =... 9.1
Providence. a Pie. oo) Q.7
ious: PalleeS, Do tty. me
Nashville, Tenn...) 2. ..': 9.0
AL uae (ALY 50) 2:5. <u, 0,0 yan
PRTCMITIONG WA sss Ties 10.0
Spokane, Wash........... 7.0
Milwaukee, Wis.......... 8.7

Prices charged
by dealer per

quart of milk
delivered to
consumers

Cost for han-
dling and dis-
tributing one
quart of milk
including
dealers’ profit

o>
~

“I

nv

hNIaNOana AA A

Nx MH Lh TN
maMandsnanmnsa

“J (Oe GN ON Gaia Cr in say

Pd ore eeu» Gar “God

~J) Oe Sh he

SHOR OH MAONKNAUN BO O

VI

265

Per cent of

retail price

paid to the
producers for
milk delivered
F.O. B. city

Amana am ¢C
Ca ©) ai

Un
om ns

SIO MR OHWON ON DO ON

ST
SOIAINMONMONWADOODC OAD dS

266 MANAGEMENT OF DAIRY PLANTS

9. Relation of Retail Price to Quantity Sold. — It is consid-
ered by milk dealers that one retail wagon should distribute
at least 200 quarts daily in order to be operated at a
profit. Daily sales of 250 quarts per wagon is considered as
a fair average business per driver for a well-established milk
plant.

The size of bottles used and the amount delivered to each
consumer are important factors in determining the marketing
cost. The value of the product handled is still another factor
of importance. It is considered that it costs about the same
to handle and market one quart of milk and one quart of
cream; the profit should therefore be the same in dollars and
cents on the same quantity. It is a fact, however, that where
there is a loss in handling cream it amounts to more money than
the loss incurred in handling the same amount of milk. It also
costs a fraction more to deliver a quart of cream than a quart
of milk, as the cream customers are usually more scattered
than the milk customers and they receive cream in smaller
quantities. There should always be a greater margin on the
smaller quantity, as the factory labor, office labor, and cost
of delivery is the same for a pint of milk as it is for a
quart.

The cost of making a delivery of milk and cream should be
closely determined and the price charged should be in accord-
ance therewith. The following schedule was adopted by one
plant in 1916 as a reasonable charge for the various sized deliv-
eries. This schedule might, however, not be suitable to other
market milk establishments working under different conditions,
but it illustrates the system usually adopted by most milk dis-
tributors:

1 gallon ainbulles wie eens. sea oe $ .28
T quart milk in quart bottles ss. \04):.ck/s). ee’ .08
aR SEINE IMMUUKO St oes genic je hee Le bw one eark ah Ta .05
1 gallon 20 per cent cream in quart bottles... 1.20
1 Quart 20 fier Cent cream |. oe aks ak oll etmals 35
TUpise 20 Per Cent Crean)... acc =e ae . 20

ia pint 20-per cent cream... is pack ties ees « arg

COST OF MARKETING DAIRY PRODUCTS 267

II. Selling Sweet Cream and Milk at Wholesale. — As the
commercial ice cream business is increasing at a rapid rate, and
as the population of the cities is increasing, the demand for
sweet cream for ice cream making and for retail purposes is
becoming greater and is also more difficult to meet. It is there-
fore possible for creameries to establish markets for sweet
.cream and obtain more money therefor than can be obtained
by making the cream into butter.

The creameries of the middle West have experienced no
difficulty during recent years in obtaining for sweet cream a
price of 10 cents or more above highest New York quotations for
extras F. O. B. their shipping station. Under such conditions, if
the quotation of the New York market for extras were 30 cents
and sweet cream were sold at 4o cents per pound butter fat and if
the cream were made into butter and sold at 30 cents per pound
then one pound fat made into butter would be worth 30 X

£22 te: .
— = 36.6 cents. Considering that the cost of preparing the
100

cream for marketing it at wholesale is equal to the cost of manu-
facturing it into butter then a gain of 3.4 cents has been made
by marketing the product in the form of cream.

If sweet cream under the same conditions were sold at 50
cents per pound butter fat as against 4o cents per pound of
butter then a pound of fat made into butter would be worth

40 X 22 = 48.8 cents, or a gain of only 1.2 cents would be ob-
tained by selling sweet cream. It is fair to assume that the cost
of pasteurization and cooling of the sweet cream to be sold
will about equal the cost of manufacturing the butter, as
sweet cream should be cooled to within a few degrees of freez-
ing before it is shipped. The method of preparing sweet cream
for market is the same as that for preparing sweet cream for
ice cream making.

This method of disposing of the butter fat is particularly
advantageous to the codperative creamery. The producers
are willing to furnish sweet cream to the creamery if they are

208 MANAGEMENT OF DAIRY PLANTS

paid for the extra labor involved. The creameries selling
sweet cream seldom experience much difficulty in improving the
quality. Even what is bought as sour cream will be much im-
proved. Therefore, we may consider this system as being of
much educational value to the creamery and to the pro-
ducers.

A creamery located in a city may find it profitable to sell milk
and cream to big consumers and dealers, such as hotels, res-
taurants, bakeries, etc. A route for such business was estab-
lished in a medium-sized city in the middle West, 1915, on
which the daily output was as follows:

Sold Purchase Gross

for cost profit ©
$ $ $

ron; gals: anilikevat 2orcemis.. fol dee t ers bie's e 32220 24.22 7.98
Poca torn: at KCeINiS,. ou hon uae aati 2 10.88 4.95 5.03
re pes uMilkat ee Gents. bl vet aie ee 65 23 .42
eo gals. creamivdt 7O.CENES «i. .a-Aeats ase e 22.40 on.20 1.08
AA ais. cream ae 20 CONES Ni 4 wee Abas 13,20 7.33 5.87
5 qts. whipping cream at 60 cents...... 2100 83 2299
4 pts. whipping cream at 35 cents...... 1.40 29 1.07
4 half pts. whipping cream at 20 cents. . .80 16 64
Ee Qs. WAChONe dito CeNES teeth cosge re ¢ .80 .38 .42
SiPals, ac. Tati Uk RO VCCMES A: Cet ahae Jc. .48 .06 .42
Sats. "B.. mlk-at s\ Cents Soa <n ete gonaia sx s .40 04 36
Total amount of daily sales.......... $86 . 21 $59.85 $26. 36

The purchase cost of the milk was on an average $1.75 per
hundred pounds delivered at the creamery or market milk
plant and the cream about 4o cents per pound of butter fat.
The plain cream as sold in the city contained 20 per cent of
butter fat and the whipping cream 30 per cent of butter fat.
The cost of lactone was about the same as for whole milk and for
buttermilk about two cents per gallon.

The proportion of daily expenses to be charged against this
route was approximately as follows, not including delivery.

COST OF MARKETING DAIRY PRODUCTS 269

Factory Costs

ESOT ti TACUGEY, SIUVONIGE Jc) a5,. .2c gee Gadi ay oe $ 6.97
Interest on investment, insurance, and depreciation...... 1.40
TOWEL HOES IACI ALET gon oie en oe uel ot td 2.67

Miscellaneous expenses, such as loss on surplus milk and
cream, loss on bad accounts, stationery, advertising,

Ua ete Ser oe RO Ase, Mec esse RUE Aaa etee see ets 2:07
$13.71
Cost or DELIVERY
PPCM EM TACMAL LY, SALATIVGS Wr ch.) eters Gai Si tbseahae one ee Baten aH $ 60.00
PIB PSeS MEEUh ANGNCATE | © iso Sone ae a. oe Yes ofa 36.00
Shoeing and repairs, including painting of wagon........ 15.00
PRE RESU AMC CE EECIA LION 0h, scdls tals. Se ae har epee 16.00
Miontiiy: Costs.) Snes, 8 $127.00
Datky costes Sosy ey eee Ne ak $ 4.23
Tota llaily?Gaste 315 csp nett emt. Tees $17.94

Daily net profit en route = 26.36 —17.94 = $8.42.

By studying the above report it is readily discovered that
32 gallons of cream were handled at a loss; 161 gallons of milk
were handled at a rather small margin, but it is supposed that
these were all sold in cans and were therefore handled with less
labor and with less loss. A creamery or a market milk establish-
ment should have a daily report giving complete information
about the day’s sales. It should preferably be so ruled that
the purchase cost and the gross profit can be figured in the
office before it reaches the manager’s desk.

MANAGEMENT OF DAIRY PLANTS

270

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CHAPTER XX
PREPARING THE BUTTER FOR MARKET
A. BUTTER PACKAGES

A Foop offered for sale should possess quality, it should be
put up in a neat and attractive package, and it should be of full
weight or measure. The quality may not at all times be under
absolute control of the manufacturer, as it is largely dependent
on the quality of raw material received; but the appearance and
weight, however, are under absolute control of the manufac-
turer. It is a recognized fact that in order to receive prizes at a
butter show the package of butter should reach the judges in
perfect condition. Therefore the package is usually wrapped in
burlap or heavy paper or both. The same appearance of neat-
ness and carefulness which in this case influences the butter
judge at a butter show will, to just as great an extent, influence
the butter buyer and the consumer. The author knows of a
creamery where the manager required that each box of prints
be wrapped with heavy paper before shipping. During the
summer season the paper would have some insulating value,
but the greater value derived from this method lay in the good
condition in which this butter arrived at the dealer’s store.
Some of the merchants were even placing this clean box on the
counter as an advertisement for the butter. In some places the
ordinary plain butter boxes are returned by the city buyers.
Although this saves money to the manufacturer, yet the sys-
tem should not be encouraged, as the boxes when returned are
never clean and even if they are washed their appearance will
never be that of a new box. Butter put up in these boxes will
suffer in prestige with the dealer. During the summer season
butter which cannot be shipped in refrigerator cars should be
shipped in refrigerator boxes (Fig. 32).

272

PREPARING THE BUTTER FOR MARKET 273

I. The Butter Tub. — The butter tub is the most common
form of package for American butter. The 60 or 63 pound
tub is generally used, although tubs are manufactured of the
following sizes, 50 pound, 40 pound, 30 pound, 25 pound, 20
pound, and to pound. The larger tubs are held together by
five wooden hoops. If the hoops are broken, they should be re-
placed before the butter is marketed. The cover is fastened to
the tub with four tins placed at an equal distance from each

Fic. 32. — A refrigerator butter Fic. 33.— A butter tub
carrier. paraffiner.

other. Clasps should not be used, as they have a cheapening
effect on the package. The standard butter tub is manufac-
tured from dry ash wood; spruce is also used, but only for:
special markets. Although spruce is neater in appearance, it is
objected to because it is more expensive and more readily
soiled, and if the tub has not been properly prepared, it will
impart more of a woody flavor to the butter.

The tub is prepared as follows: the hoops are first tightened
and the tub is washed thoroughly both outside and inside with
hot water and washing powder. It is then soaked for about
two hours so as to prevent leaking. After soaking it is rinsed

274 MANAGEMENT OF DAIRY PLANTS

with cold water to remove any sediment which might adhere to
it from the water used for soaking. It is now placed over a
steam jet for a thorough steaming, immediately after which it
is paraffined. For that purpose a paraffiner fitted up with a
special steam jet is most convenient.

The liner is next placed in the tub in such a manner that the
top thereof will, when folded over the butter, overlap from
one-half to one inch. If the tub is not paraffined it should be
soaked from eighteen to twenty-four hours in cold water and
then rinsed. A couple of pounds of dry salt should be put into
it and the tub rolled for the purpose of having an even layer of
salt adhere to the inside. The liner is then placed and the
butter should be packed before the tub becomes dry or else
the salt will fall to the bottom. The salt is added for the pur-
pose of preventing the formation of mold and to facilitate
taking the butter from the tub. The surface of the tub after the
butter has been packed should be free from holes and should be
covered with a cloth circle and with a sprinkle of salt on top.
The cover before being placed on the tub should be thoroughly
washed and dried.

The paraffining of the butter tub is of advantage, first because
it prevents formation of mold, and second because it reduces
shrinkage of butter. Mold may readily be prevented without
special treatment of the tub. The main factors to consider are
that the tubs and liners are stored in a clean and dry place and
that the refrigerator is kept dry and free from mold. If liners
have been exposed to mold spores they should be boiled in a
concentrated salt solution. Rogers! found the shrinkage from
butter packed in tubs, not paraffined, to be .95 of one per cent.
This loss was reduced to .17 of one per cent when the tubs had
been paraffined.

II. The Australian Butter Box. — The Australian butter
box derives its name from the country where it was originally
adopted as the standard package. The size of it, inside measure,
is 12 X 12 X 12 inches and it holds fifty-six pounds of butter.
It is usually made of white spruce. The sides, top, and bot-

1 Circular 130, B. A. I., Department of Agriculture, 1908.

PREPARING THE BUTTER FOR MARKET 275

tom are made of one piece. This package is used for special
orders, particularly for butter shipped to foreign countries.
These boxes are prepared for packing in the same manner as the
tubs, but the side liners are long enough so that when folded on
top they cover the entire surface.

III. Special Square Box. — Special square boxes for solid
packed butter are used primarily for butter shipped to the
Pacific coast markets. These are made in various sizes as
determined by the size of the cutter used. The block of butter
when removed from the box should be of such a size that the
least amount of butter has to be reprinted. These boxes are
used extensively for storage when the butter has to be printed
after the storage season.

IV. Earthen Jars. — Earthern jars are used extensively in
certain cities for local trade. These have the advantage over
many other small packages in that the butter packed in them
is less exposed to contamination. There is less shrinkage, and
butter packed in them is usually preferred by the housekeeper.
These jars are covered with a parchment circle bearing the
trade-mark of the manufacturer. The objections to the earthen
jar are that they require more labor in the factory, and that
they give greater inconvenience in delivering to the dealers.
These objections are lessened by the fact that there is practi-
cally no loss of moisture with the jars and the cost of the pack-
age is less than if cartons were used, as the empty jars are re-
turned.

V. The Bradley Butter Box. — The Bradley butter box is
made from spruce with tin bands forming the rim at top and
bottom. ‘These boxes are manufactured in sizes from half
pound to ten pounds. The boxes for shipment are packed in
crates of various sizes.

VI. The Gem Fiber Butter Package. — The Gem fiber
butter package is a fiber box lined with parchment. It is much
similar in shape to the Bradley box and is packed in crates of
various sizes.

VII. The Butter Barrel. — The butter barrel is known
particularly on the Pacific coast where it is used as a container

276 MANAGEMENT OF DAIRY PLANTS

for print butter sold in Alaska. These barrels are of three sizes,
full barrels holding 180 pounds in two-pound prints, half barrels
holding 96 pounds in two-pound prints, and quarter barrels
holding 48 pounds in two-pound prints.

These butter barrels are mostly made of spruce. They
have iron hoops. The barrel is prepared similar to the butter
tub. It is first washed in hot water and washing powder, then
soaked for twelve hours, steamed and paraffined. The barrel
is then lined with cheesecloth which is so folded on the bottom
and on the side that the cloth forms a bag in which the butter is
packed. After the prints, wrapped in parchment, have been
packed in the barrel, the cheesecloth is folded on top and
tied with a string in a similar manner as that of tying a bag.
The barrel is now filled with a concentrated solution of salt
brine. This is prepared by adding 35 parts of salt to 100 parts
of water at ordinary temperature. This is churned for about
thirty minutes. The brine thus prepared will contain about
26 per cent salt. After the barrel is partly filled with brine it is
headed up and is then completely filled with brine.

Butter thus packed is often held for a year or more before it
is placed on the table and often left without refrigeration. The

brine preserves the butter reasonably well. Butter made for
~ that purpose should be from high-grade cream, churned at a low
degree of acidity, and should contain a low per cent of protein.

VIII. Butter Tins. — Butter packed in tins is also marketed
on the Pacific coast and sold primarily in Alaska and in the
tropical countries. The print wrapped in parchment is placed
in a loosely fitting tin. On top of the butter is placed a small
square piece of wood large enough so it practically covers the
end of the print. The cover is now placed on the tin and fas-
tened in a crimping machine. It is then soldered. This is most
readily done by having a felt pad saturated with soldering
liquid and a bath with molten solder. The part to be soldered is
rubbed on the felt pad and the tin is then dipped in soldering
metal. The wood on top of the butter prevents the hot metal
from touching the butter during soldering. The cover of the
tin has two small holes, through one of them the tin is filled

PREPARING THE BUTTER FOR MARKET 277

with a concentrated brine, after which these holes are also sol-
dered and the package is tested for leakage. It is advisable that
the tins be lacquered both on the inside and outside.

IX. The Danish Firkin. — The butter package most popular
on the English market is the Danish firkin holding 110 pounds
of butter. The firkin is made of beech wood. These firkins
are prepared similar to the American tub and lined with parch-
ment paper. The butter is solid packed in the firkin.

X. Butter Print Boxes. — The most common boxes used
for prints are of a fifty-pound size made from spruce, poplar,
or cottonwood. The inside measure of these boxes is usually
13 X 13 X 91/2 inches. A flat box of 54 pound size has a dimen-
sion of 23 1/4 X 141/2 51/4. The latter box is of a neater
appearance, but the principal objection is that a greater surface
is exposed. to the atmosphere and the butter which is to be
shipped without refrigeration during the summer season is
more exposed to the heat. For local trade and for short ship-
ments a fiber box is very satisfactory and it is cheaper than the
wooden box.

B. PACKING THE BUTTER

I. Solid Packed Butter. — Butter when packed should
have enough overweight so it will be of full weight at the time
when it reaches the consumer or dealer. A sixty-pound tub of
butter, if the butter is of good body, should not shrink to ex-
ceed eight ounces in four weeks if kept in a properly cooled re-
frigerator. If kept at a comparatively high temperature the
loss will be greater. If the manager finds that more than eight
ounces are deducted for shrinkage by the dealer then the matter
should be investigated and the shrinkage may be found to be
due to leaky butter, to overheated refrigerator at the creamery,
to being overheated while in transit or at the store of the dealer,
or to inaccurate weighing either at the creamery or by the
dealer. The prepared empty tub with liners should be weighed
on a scale that is sensitive to one-half ounce. The weight of the
tub is marked on the hoop of the tub in reasonably small figures
written with a pencil. The net weight of the butter should be

278 MANAGEMENT OF DAIRY PLANTS

stamped below the upper hoops and if eight ounces are allowed
for overweight and if the net weight is 62 pounds and 8 ounces,
then it is stamped 62 pounds. It is advisable to have all tubs
contain the same amount of butter by weight, as by that system
the work of taking inventories is facilitated.

II. Print Butter.— Butter prints should be perfect and
square in form; butter should not be printed when it is in such a
soft condition that the corners of the prints will be rounded.
Holes due to imperfect packing should be filled, as their pres-
ence does not merely advertise poor workmanship, but will also
lessen the keeping qualities of the butter. The usual size of the
prints are, one-pound size, 4 5/8 X 21/2 X 21/2; half pound
size, 4 5/8 XK 21/2 11/4. There are various other sizes, but
those mentioned are the most common.

When printing butter it is advisable to weigh each print be-
fore it is wrapped, as the butter printer, regardless of how care-
fully it is adjusted, will not print all of the prints the same size,
as the weight of the print depends on the condition of the butter
both as to body and packing as well as on the adjustment of the
butter printer. Ifa butter print is too small a sufficient amount
of butter should be added to the print before it is wrapped. If
a print is too heavy the overweight should be removed with a
sharp paddle. Scales used for that purpose should be sensitive
to ten grains. When starting to print a churning of butter the
printer may need readjustment. The empty box for the prints
with liners should be weighed and the weight marked with
small figures on the box. The weight of the butter wrappers
should be known; the weight of the prints without wrappers for
a fifty-pound box should be a trifle over fifty pounds ; four
ounces are considered to be sufficient overweight on a fifty-
pound box of print butter. Suppose the weight of the box with
liners is five pounds, the butter wrappers five ounces, then the
gross weight of the butter should be 5 + 5/16 + 50 1/4 =55 9/16
pounds.

1. The Single Mold. — This is the oldest form of printer
known. The disadvantage of this method of printing lies
primarily in the imperfect shape of the print, the greater loss of

PREPARING THE BUTTER FOR MARKET 279

moisture in printing, and in the amount of labor required. The
shape of the prints, if made by this kind of a mold, will depend
upon the condition of the butter; hard butter may be printed
into nice shaped prints, but softer butter will always produce a
print which is far from perfect in shape.

This printer requires readjustment when changing to butter
of different body or of different firmness. By leaving the printer
without readjustment it may affect the weight of the prints to
the extent of from one to two pounds on fifty pounds of butter.

The cost of printing butter by this system depends naturally
on cost of local labor. Two experienced men or women, one
printing and the other wrapping, can in ten hours print and
wrap from 4,000 to 5,000 prints.

2. The Wire Cutter. — The butter for this form of printer is
packed in larger molds or boxes while in a pliable condition.
The butter is then placed in a refrigerator for hardening and it is
thereafter cut into prints with the wire cutters. Printers
representing this method are the Friday, the Challenge, the
Jumbo, etc.

This latter method of printing may be considered as the best
and most economical. The prints are square and perfect. The
butter is packed when in such a condition that the minimum
amount of moisture is lost. The wire cutters cause the least
possible loss of moisture, and the prints, because the butter is
more uniformly packed, will be more uniform in weight. The
labor is somewhat reduced, as two men can produce more work
by this system.

III. Wrapping the Butter Prints. — In order to protect
the butter a special wax paper is often used over the parchment
wrapper. The parchment wrapper itself does not afford much
protection from the absorption of flavors, but the wax paper
does and is of much value in that respect. When properly
wrapped around butter the wax paper forms practically an
air-tight covering which also prevents the moisture from
leaking out and penetrating the carton which is so common
when only the parchment wrapper and the carton are used.

The butter carton has come into prominence during recent

280 MANAGEMENT OF DAIRY PLANTS

years. This is due primarily to the fact that it adds in appear-
ance of the package, which is a big factor in selling the goods.
It also makes a package which is more easily handled by the
dealer. It reduces shrinkage and prevents absorption from
articles which otherwise might spoil the flavor of the butter. To
afford the greatest amount of protection and to remain in a
clean and attractive condition such cartons should be paraffined
on both sides.

The amount of labor required for wrapping the prints with |
the second wrapper and placing them in the cartons is equal to
about two-thirds of the amount of labor required for printing
and wrapping, differing with the different styles of cartons used.

IV. Butter Printing in Large Factories. — In larger fac-
tories the cost of printing, wrapping, and placing the butter in
cartons may be materially reduced by the installation of more
expensive machinery for printing, wrapping, and placing the
butter in cartons.

CHAPTER XXI
ADVERTISING DAIRY PRODUCTS

ADVERTISING is everywhere recognized as a valuable business
force. It offers an efficient, economical way of reaching the
public, educating it to the merits of a commodity, stimulating,
redirecting, or creating buying desires and finally developing
and effecting sales. It is used in every field of industry and
trade and for many unique purposes outside of these fields. It
is employed for every phase of the marketing task, from dis-
arming public criticism or creating good will to securing orders.
How generally advertising is recognized for its usefulness may
be gathered from the fact that something like a billion dollars is
annually invested in it by the business men of the United States
alone.

Advertising may be employed in the creamery business as
well as in any other. There is nothing in the nature of the
manufacture and distribution of dairy products to make adver-
tising impracticable or unprofitable. On the contrary, some of
the outstanding successes in advertising are in this field. Sev-
eral brands of condensed milk have gained national reputation
and captured national markets with the aid of advertising.
Several brands of butter are familiar to housewives in a large
portion of the United States because of advertising and many
brands have gained sectional prominence. One selling cam-
paign, in which advertising played a large part, increased butter
sales from 450,000 pounds to 7,000,000 pounds in five years.
Several brands of cheese have been established in wide favor
through advertising, while many special advertised brands of
ice cream command the markets in various cities and their
adjoining territories.

In the creamery business, advertising serves several purposes,
all of which have to do with marketing either directly or in-

281

282 MANAGEMENT OF DAIRY PLANTS

directly. Some creameries may not find it desirable to use
advertising for all of their purposes; some may prefer to sell
their entire output on the commission market, and therefore
they may not need advertising to aid them in marketing. But
such concerns may find advertising valuable for gaining new
patrons or holding the old, for example, and maintaining good
will

THE PURPOSES OF ADVERTISING

I. Advertising to Aid Promotion. — When a creamery busi-
ness is in the organization stage, or is being enlarged, or for any
other reason needs promotion, advertising may be used to put the
business properly before the people who are to be interested as
stockholders, or patrons. It may be used to create a favorable
community attitude and secure the confidence of business
men, bankers, and farmers. It may be used to enlarge the
list of patrons in new or old territory. It must not be under-
stood that advertising can take the place of effective personal
solicitation in these matters, but it can pave the way for per-
sonal work and support it.

More or less advertising space may be advantageously bought
for these purposes. Local newspapers will, as a matter of news
and also of community pride and welfare, give considerable
space to the promotion of a sound creamery proposition, but

‘they should not be expected to donate all the space that may be
required to promote the business phases of the project, because
advertising space is the most important commodity they have
to sell. Moreover, their codperation will be more thorough if
they are made to feel that benefits are mutual.

Promotion advertising ought to be written conservatively;
it should be hopeful or optimistic, but not over-enthusiastic nor
too generous in its promises of returns. It should keep well
within what may be accomplished and seek to establish confi-
dence.

II. Advertising for Prestige and Good Will. — Prestige
and good will are not secured ordinarily except through years of
satisfactory dealing with the public. Yet they may be devel-

ADVERTISING DAIRY PRODUCTS 283

oped rapidly by advertising. Through advertising, a business
may be made familiar to the trade or to consumers in months
where otherwise it might take years. If the good points of a
creamery business, its fair dealing and the excellence of its but-
ter, cheese, or ice cream are again and again put before buyers
in an interesting, skillful way, they will soon come to believe
what they read and the result will be strong prestige and a
valuable good will. Too often a creamery goes on year after
year doing business honestly and manufacturing a high-class
product without its constituents realizing it or thinking very
much about it, because it doesn’t advertise these facts and thus
emphasize them. The result is that its prestige and good will
grow slowly. Advertising to build good will must be done
skillfully and it must, of course, have back of it honest methods
and a high-quality product.

III. Advertising to Establish a Trade-Mark. — If a cream-
ery can make the people in its trade territory think not merely
of “butter ” when they think of buying butter, but of its special
brand of butter, it has accomplished something that counts
much toward success. This close association of a trade name
and product cannot be established in any other way as quickly
or as effectively as through advertising. It may be possible,
of course, to bring it about through many years of selling with-
out sepcial advertising, but no business can afford to wait long
enough to do it in that way. By constantly associating the
product and the trade name in newspapers, on billboards, on
window cards, in circulars and booklets, the two are fixed to-
gether in the minds of buyers in very quick time. This result
¥s worth much to the manufacturer and will of itself justify
the investment of money in advertising.

IV. Advertising to Educate. — The education of the public
as to the value of a particular creamery commodity is necessary
to interest them in buying that commodity. That is true
whether it is butter, which they have long been accustomed to
buying, or whether it is specially prepared market milk or ice
cream, which are not so well known to them. It takes a good
deal of persuasion to stir people out of an old, deep rut of buying.

284 MANAGEMENT OF DAIRY PLANTS

That is especially true of dairy products. For example, to most
folks butter is merely butter and milk is merely milk and ice
cream is merely ice cream. They cannot be induced to buy skill-
fully prepared products, insured as to wholesomeness and high
food value, without first having been educated to believe that it
is worth while to buy such products and pay more for them than
for ordinary butter, milk, orice cream. If the public are to buy
high-quality butter, they must be told how high-quality butter
is made, how its flavor is secured, how it is packed and pro-
tected against contamination, how it excels in food value, and
how it provides certain elements for human growth and health.
Not until they understand these things can the public be dis-
criminating.

If a creamery plans to manufacture and sell ice cream, it
must in many communities create a new demand for it; it must
convince many housewives that ice cream when properly made
is not merely a confection, but a substantial food, and that they
are not indulging in a luxury in buying it and serving it, but
that they are making an economical addition to the bill of fare.

If a creamery takes up cheese production, it likewise has an
educational task on its hands to make its constituency under-
stand that cheese is one of the most economical of foods as well
as one of the most appetizing. The patrons of most creameries
do not know this and consequently cannot be expected to buy
enough cheese to make its manufacture profitable without first
being educated to the buying point.

This education is best accomplished through advertising.
Of course, it might be carried on through personal salesman-
ship, or by letting folks find out the value of these products for
themselves, but the one method would be too expensive and the
other too slow. Advertising has well been termed “the natural
and effective business missionary.”’ It furnishes a way of
educating the public quickly and at comparatively small ex-
pense. Nowhere are its services more needed to-day than in the
dairy business generally, where so many conditions and cir-
cumstances have conspired against its proper growth and
expansion.

SPEND YOUR MONEY WISELY

When You Buy Food Divide $10.00
As Follows for Best Results:

Milk and Its Products (Butter, Ice Cream and Cheese) $4.40
$1.70

Bread and Ceréals $1.30 i Pint ping Columbip University end othe

The average American family’s food expeaditures

$1.20

60 cents

[inom] 50 cents Wf you wil we MORE MILK, BUTTER, ICE CREAM AND
fruita and less

—mare vegetables and meat and fiel,

You will have better health--be more
30 cents efficient--and save money.

Eivfoiettonis Daca vrion NATIONAL DAIRY COUNCI: -Chica¢ jWedpenurs mnuee?: nan
AS r z Pe osteo mat ey on es wee PUL bt Ah EES aes

: bien
HN

Man om Need imi es wal te Semply
te Wrste far busther infor

00D COMPARISONS

(en EERE RD
These Lines Show the Amounts of Actual Food Secured When One
Dollar Is Spent for Any of the Following Foods at Prices Named

Milk at 15c a quart — = — The cheapest food

Butter at 75c a pound

. Cheese at 50c a pound

Beans (canned) at 15c a pound

Ham at 40c a pound

Ice Cream at 50c a quart

Beef Steak at 35c a pound REMEMBER

Peas (canned) at 15c a pound

There is an additional food substance found

4 =f ae 3 tn milk. butter, ice cream and cheese that pro
Eggs at 60c a dozen motes growth which is not found in any other

s foods except eggs and certsin lesves. It is the

«os . - presence of this vital food substance in MILK,
Whitefish or Codfieh at DF | BUTTER. ICE CREAM and CHEESE which

H sears pleces these foods in s class by themselves, as

Hy * j FOODS ABSOLUTELY NECESSARY for
H Chicken'at'35c a pound the growth of the child and the health of the

Feekee 17ed) ot 1Sc 0 pound

[paloueicioxssdaawizarion| | NALLONAL DAIRY COUNCIL Chicago IL] yepzars Wisner
ene LEAS NIN Wed\atv prepared Un Vern yan Celualiir, akneatgie = des cuppls vine bas ute om Pi hides, Sth en

Fic. 35. — Advertising the food value of dairy products.

285

286 MANAGEMENT OF DAIRY PLANTS

V. Advertising to Back Up the Selling Force. — Every
well-managed business seeks to give the fullest support and
codperation to its selling force, whether it be its own salesmen
and solicitors or jobbers or retailers who handle the goods.
Advertising provides an effective and economical means for
providing that support and codperation. It may be sent out
ahead of the salesman or the retailer to prepare the way for him.
If a creamery takes up the manufacture of cheese, advertising
may be used to inform the retail merchant concerning its plans
and products. Then when its salesman calls on the merchant
he finds he is saved from putting a lot of valuable time into
simple explanations because the advertising has taken care of
that; he needs to concern himself only with the real business of a
salesman and get the order. Likewise, advertising may be used
to acquaint the buying public with the product and arouse its
desire for it, thereby saving the retail merchant much valuable
time in making explanations to introduce the new product.
Advertising will do this preliminary educational work much
more economically than the salesman or merchant can. More-
over, both a selling force and retail distributors will work more
enthusiastically for a product that is being promoted skillfully
through advertising.

Advertising for Direct Sales. — Some lines of business which
distribute direct to customers find advertising a satisfactory
means of bringing about sales. Frequently a creamery is so
situated that it is best for it to build up direct distribution. It
may not economically maintain a soliciting force to make house-
to-house calls and it must then rely upon advertising to reach
the public. Then advertising must combine many of the pur-
poses heretofore named; it must be educational, it must help to
establish a trade-mark, it must help to create good will, it must
present selling arguments and stimulate action.

VI. ‘* Policy ’? Advertising. — “Policy” advertising is a
name given to advertising bought not so much for the direct
object of increasing business as to secure or maintain the good
will of influential individuals or groups. It includes much of the
advertising in society programs, menus, hotel registers, and like

ADVERTISING DAIRY PRODUCTS 287

mediums. Usually it is sound business not to advertise except
when there is reason to believe it will bring returns, yet often
“policy ” advertising seems unavoidable. It should be reduced
to a minimum. Many times it is better policy to make gifts
outright and maintain advertising on a sales-promotion-getting
basis.

ESSENTIALS IN CREAMERY ADVERTISING

Before a creamery can make satisfactory use of advertising,
its business must meet several requirements. It must have a
product worth advertising and which lends itself to advertising;
that product should be put up in distinctive and convenient
packages, if possible, bearing a trade-mark or brand name;
there must be a definite appropriation for advertising; there
must be a complete selling and advertising plan, worked out to
the last step by which the product reaches the consumer; the
advertising must be in charge of some one who will give it
intelligent attention; and finally, honest goods, honest methods,
and thorough service.

I. The Product. — Successful advertising demands first of
all a product that lends itself to advertising. The product
must have quality, of course, but it must have something more
than that; it must also have individuality. That is, it must be
different from the common run of such products.

If the product is ‘“‘just butter,” for example, no different from
the great mass of ordinary creamery butter, than advertising is
not likely to aid very much in marketing it; that kind of butter
is probably best sold on the commission market. It lacks good
talking points and advertising must have talking points. It
isn’t worth the extra price that advertising should get for it.
But if a creamery manufactures butter of uniform high quality,
into which an efficient butter maker has put enough brains,
skill, and individuality to make it different, then advertising
will help to find a special market for it at special prices.

II. The Package. — In dairy manufacturing, the package be-
comes so closely a part of the product itself that it is usually

288 MANAGEMENT OF DAIRY PLANTS

dealt with from the manufacturing standpoint. It is used
because it must be used; a container is necessary. It is generally
made as cheaply as it can be made and still serve its purpose,
which is to insure the delivery of the product to the consumer
in convenient form and quantity and without loss of quality
or danger of contamination. Its cost is usually charged in the
cost of manufacture.

Yet the package may be more than a mere container; it may
also be a valuable aid to selling and one of the important factors
in advertising. When properly designed and used, the package
does not merely supply a necessity; it also furnishes an oppor-
tunity—an opportunity to give the goods additional favorable
publicity. At the time of buying, the package is the one thing
that strikes the eye of the buyer. It needs, therefore, to be
considered from the selling and advertising standpoint as well
as from the manufacturing standpoint.

If the package is to be something of an advertisement in it-
self, it must fulfill certain requirements: First, it must have
attention value. Through its design and color and the printed
matter on it, it should strike the eye of the consumer and get
his notice when he buys it or when he sees it on display; the
product will then mean more to him and he will be more likely
to ask for it another time. Too many creamery packages fail to
make any impression because they are commonplace and do
not stand out; they are not different. Second, it must have
interest value. After a package has secured attention, it must
arouse favorable interest; the consumer must also like it.
The package must be attractive; it must please the eye
through its good design, through its well-arranged printed
matter, through proper use of colors; its appearance must
be in harmony with the product, suggesting a clean, whole-
some, good-tasting product. ‘Third, it must have individual-
ity. A package should be designed and printed so that it
will not be mistaken for any other. It should identify the
product it contains so that the consumer who likes it will be able
to remember it easily and make certain that some other prod-
uct will not be pushed off on to him, A great majority of

ADVERTISING DAIRY PRODUCTS 289

creamery packages are too much alike. Fourth, it should carry
the trade-mark. At every opportunity the trade-mark or trade
name should be used in advertising a product. There is no
better opportunity than in such close association with the prod-
uct as is possible on the creamery package.

A trade-mark serves two fundamental purposes. It identi-
fies a product or distinguishes it from similar products of other
manufacturers and it provides the purchaser with an easy way
of recollecting it when he again needs that kind of a product.
Both of these purposes must be attained by every manufac-
turer to establish a permanent market for his goods and they
‘cannot be attained readily without a trade-mark. In addition,
the trade-mark serves a third important purpose: it gives con-
tinuity and repetitious value to advertising. When the trade-
mark is used in every advertisement, in a more or less con-
spicuous way, it links each advertisement with every other and
makes them a unit; when it is not used, each advertisement
stands alone and gets very little aid from advertisements that
have gone before.

To fulfill its purposes, a trade name should meet certain re-
quirements. First, it must be distinctive or different. Then it
will be more readily remembered and be less likely to be con-
fused with other trade-marks. Second, it must be legible and
easily read or taken in by the eye. Words or geometrical figures
that are worked into intricate designs are often so difficult to
see clearly that no effort is made to remember them. Third, it
must be brief or simple. If a word or words, the briefer the
better for conveniently storing it in the memory and recalling
it. Ifa figure, the less there is to it the better for the same
reason. Fourth, if it is a word or words, it should have a pleas-
ing sound and be easily spoken. Fifth, it should be suggestive
of the product and be readily understood. Sixth, it should be
applicable, if possible, to all the products of the creamery. If
one trade-mark is used for all products, then the advertising
done for each will help all the others; the good reputation of one
will be extended to the others, which is highly desirable. Sev-
enth, it should be valid. It should be possible to defend the

290 MANAGEMENT OF DAIRY PLANTS

trade-mark chosen against all infringement. That may not be
so important to the smaller creamery with merely local trade,
but it is highly important to the larger concern. Eighth, it
should be permanent. It costs too much to establish a trade-
mark to abandon it for a new one.

Trade-marks are made up mainly of materials which have

Fic. 36. — A well designed trade mark.

been classified in four groups: Pictures, words, syllables, or dis-
connected groups of letters.

Careful tests indicate that pictures rank first as to the ease
with which they are recognized and the accuracy with which
they are recalled; forms second, words third, and syllables
fourth. While pictures have this advantage in tests, yet they
are not satisfactorily reproduced in all advertising matter and
on all packages. Moreover, their satisfactory reproduction

ADVERTISING DAIRY PRODUCTS 291

involves greater expense in art work and printing. Names or
words are perhaps most widely used because they lend them-
selves nicely to many uses; moreover, experience shows that
they are readily established in public favor within a short time.

A trade-mark may be established in either one of two ways,
by registration or by adoption and use. Registration is the
most certain way to guarantee exclusive right to a trade-mark
and registration is quite easily secured through application to
the United States Patent Office (provided it is to be used in
interstate trade). By adopting a trade-mark and using it
continuously exclusive right thereto may be established, but
the task of defending that right is more difficult than in the case
of a registered trade-mark.?

If it is proposed to make extensive use of a trade-mark or
trade name, a legal specialist on this subject should be consulted
about the name or design to make sure that it can be properly
protected. In place of such special advice, this general state-
ment as to trade-marks’ validity may be of assistance:

“Generally speaking, a trade-mark to be valid must not
be the name of a person, name of a place, descriptive of the
goods or of the quality of the goods, or old in the class into
which the goods fall on which the mark is to be used, according
to the arbitrary classification of the Patent Office.” —W. A.
Knight, trade-mark specialist in Judicious Advertising, Dec.,
FOUL.

In recent years there has been a marked trend toward the
coined or invented word or trade name. They are more likely
to be valid, they are usually strong in attention value, and if
they are suggestive they are excellent. Sometimes, however,
they are not very easily remembered.

III. A Definite Appropriation. — Advertising is best carried
on if a definite sum of money is set aside for a year, or a selling
season or a campaign. That is true whether a business can
afford to invest only $200 a year in advertising or $20,000.
Moreover, it is best to prepare a budget which divides the

1 Complete information on trade-mark registration will be furnished on request
by the United States Patent Office in Washington; the fee for registration is $10.

292 MANAGEMENT OF DAIRY PLANTS

appropriation among the different kinds of advertising to be
used. Without a definite appropriation, advertising is likely to
go on in a haphazard way, without continued purpose, without
enthusiasm. Without an appropriation, the man in charge of
the advertising cannot be certain that he can afford to do this
or that thing. With an appropriation for a year, advertising
may be planned for a year; each step may be taken with satis-
faction because money has been set aside for it, and when the
total appropriation is kept in mind it is easily determined
whether a particular advertising outlay is reasonable or not.

The amount of money that should be set aside for advertising
by any creamery business can be best determined by the mana-
ger after a careful study of the special circumstances and trade
conditions of his business. Even then he cannot be very cer-
tain as to the percentage of his gross sales he should set aside for
advertising until he has tried out an annual appropriation or
two, and studied the results of his advertising expenditure.

A few general principles may guide in determining an approp-
riation. Advertising should always pay for itself and in addition
return a profit, either through increased sales, more economical
selling or strengthened good will or some other valuable thing,
and the appropriation should not be so large that such a return
is not reasonably probable. A new business requires a larger
percentage of gross sales for advertising than an old-established
business. If it is intended to increase production and secure
larger sales in old territory or new, the appropriation must be
larger than if it is intended merely to hold an established trade.
If competition is keen, the appropriation percentage will have
to be larger than if there is no competition. Generally, it is best
to appropriate conservatively until experience proves what is a
sound basis of appropriation for a particular business.

The appropriation set aside for a year’s advertising is usually
a certain percentage of the gross sales of the preceding year.
Creameries doing a wholesale business appropriate all the way
from o.1 of one per cent of their gross sales to 1 per cent. Cream-
eries doing a retail business necessarily appropriate a larger
percentage, often as much as 5 per cent of gross sales.

ADVERTISING DAIRY PRODUCTS 293

It is convenient to keep a special account for advertising
rather than charge expenditures for this purpose to the general
expense account.

IV. A Definite Plan. — As important as an appropriation is
a plan for the year’s or season’s advertising. There should first
be an objective. It is essential to make a careful study of the
marketing problems of the business to learn how advertising
may help to deal with them. Perhaps the trade needs to be
educated as to quality; or, maybe a trade name or brand needs to
be popularized; or, possibly it needs to be interested in a prod-
uct it has not used extensively previously. Then these needs
should become the aims of the year’s advertising. Next there
should be a determination of the general arguments or appeals
that are to be made through advertising to accomplish these
objectives. Then it is important that there be a careful study
of the buying public to which the arguments or appeals are
to be presented so that they may be presented most effectively.
Who are the people for whom the advertisements are to be
written; what are their financial circumstances; what are their
prejudices and likes; what and how do they think — these and
other questions like them must be asked and answered. Fol-
lowing that, the plan must determine what advertising mediums
shall be used — newspapers, circular letters, exhibits, street-car
cards, billboards, booklets, etc., and how much of the appro-
priation shall be devoted to each. Finally, the advertisements
and the letters and the signs, etc., must be prepared to fit the
plan, and they should be prepared well in advance of their use
so that they may be carefully written and revised, put into type,
and perhaps again revised in proof. In the best managed cam-
paigns every item of advertising is prepared and approved be-
fore a single item is published.

That sort of planning demands much thought and hard work,
but it pays. It puts brains and energy into advertising. It
lifts advertising out of uncertainty into certainty. To plan is
always the intelligent thing to do. Without planning adver-
tising is bound to be unintelligent, and unprofitable as
well.

294 MANAGEMENT OF DAIRY PLANTS

V. An Advertising Manager. — Ifa business is to make use
of advertising, some one connected with that business ought to
assume the duties of an advertising manager. In the smaller
creamery those duties are likely to fall upon a man who is
already overloaded with work, but even that man should find
some time to give special thought and attention to advertising,
if the business is to make use of advertising. He will find not a
little pleasure in it. He should put a good book or two on ad-
vertising on his own shelves and borrow what his public library
has to offer him; he should read some magazine that deals with
advertising and marketing problems; he should study good
advertisements, not only of other concerns in his line of busi-
ness, but in other lines, and through his study discover what it
is that makes their advertising effective; he should file examples
of advertising that are likely to be helpful to him so that when
he writes his own advertising he may have the help of good
models. He should interest himself in the local advertising club,
if there is one, and cultivate the acquaintance of men in the
newspaper and business fields who are experienced in adver-
tising. Circumstances may not permit the part-time adver-
tising manager to do all of these things, but he should do as
many as possible. After all, the success of a business depends
very largely on its selling end, and advertising is an important
factor in selling.

MEDIUMS FOR CREAMERY ADVERTISING

I. Newspapers and Magazines. — In any campaign to pro-
mote creamery product sales, the largest part of the appro-
priation is likely to be invested in space in newspapers and other
publications. Through them it is possible to reach the buying
public quickly, conveniently, and economically. Frequently,
a well-established newspaper in a smaller city will go into 75 per
cent of the homes of the city. In one such middle Western city
the one daily newspaper enters 3,500 out of 4,000 homes. It
sells its space at 50 cents an inch (having also a large outside
circulation). For $5, a selling message can be sent into those

ADVERTISING DAIRY PRODUCTS 295

3,500 homes at much less cost then through any other medium.
Granting that this space may not be as effective as a circular
letter, for example, the advantage in lower cost is still heavily
in favor of the newspaper space. For that reason, from 65 to 75
per cent of the total expenditures for advertising in the United
States is for newspaper and magazine space.

The value of any newspaper or magazine in advertising
creamery business depends upon several things:

First, it depends upon the way in which the circulation fits
the creamery’s trade territory. If a creamery has the problem
of reaching the people of its home city, then that local news-
paper with the largest list of home subscribers is likely to be
most effective, even though the others may have a greater total
of subscribers in the city and outside. If the problem is to in-
crease ice cream sales in half a dozen nearby towns and cities,
then best results are likely to be secured by selecting a news-
paper of good local circulation in each of the towns. Some one
newspaper of general circulation may have many subscribers
in each of the six towns, but it likely has also a considerable
circulation in twenty or thirty other towns which has little
value to the ice cream manufacturer; the money he puts into
that circulation outside of his trade territory is largely wasted.
Newspapers and magazines of interstate or national circulation
are not valuable to the creamery with a business that is more or
less localized.

Second, the advertising value of a newspaper depends upon
whether it reaches the kind of people a creamery wants to reach.
To promote the sales of high-quality butter a newspaper with a
smaller but select list of subscribers may bring better returns
than a newspaper with a larger list which includes a big per-
centage of people who are not prospective customers. That
newspaper in a community which reaches the housewives is
likely to be best for creamery and other food products.

Third, the advertising value of a newspaper depends upon
whether it regularly carries much high-class advertising. If
one publication carries more business announcements in its
advertising columns than another, it is quite certain that house-

296 MANAGEMENT OF DAIRY PLANTS

wives will read its advertising columns more thoroughly and its
space value is correspondingly larger.

The price of advertising space in newspapers varies directly
according to circulation. In publications of smaller circulation
it is sold by the column inch, which is a space one column wide
and one inch deep. In publications of larger circulations it is
sold by the agate line, of which it takes fourteen to make a
column inch. There is no uniform basis for prices, although the
charge for space in publications of larger circulations may often
be approximated by figuring it at one-third of a cent per agate
line per thousand of circulation. Weekly newspapers of from
1,000 to 2,500 circulation have rates ranging from 15 to 20 cents
per inch, and of from 2,500 to 4,000, from 17 1/2 to 25 cents;
sometimes there is an additional charge of 5 or 6 cents per inch
for composition. Dailies charge all the way from one-seventh of
a cent to one-fourth of a cent per agate line per thousand circu-
lation. Cost of illustration and other special features is borne
by the advertiser.

II. Signs and Billboards. — These forms of advertising fit
well into many creamery sales campaigns. They do not per-
mit of the presentation of much argumentative or educational
matter, but they are especially effective in giving emphasis and
repetition to trade-marks or trade names. When attractively
designed and printed or painted and well placed, they catch
the eye of large numbers. Attractive smaller signs placed in
retail stores where creamery products are for sale get the
attention of the customer right at the time that he is in a buy-
ing mood and are valuable for that reason. Signs and bill-
boards are used in nearly all extensive advertising campaigns.
The preparation of attractive show cards or signs is quite ex-
pensive, however, and for that reason they are not always
available for smaller concerns. This objection may be met in
part by purchasing stock cards from large lithographing and
printing houses on condition of the right to exclusive use of
them in a limited territory. Show cards are usually accepted
and used by the retail dealer handling a product as a desirable
codperation of the manufacturer in promoting sales. Billboard

ADVERTISING DAIRY PRODUCTS 207

space is usually best purchased through local or general bill-
board or outdoor advertising companies which assume full
responsibility for painting or posting and upkeep. Electric
signs are very attractive, but the expense of erecting and
maintaining them is large.

III. Street Railway Cards. — Where city trade is sought for
creamery products, the street-car card is valuable. From 80 to
go per cent of all adults in a city ride in its street cars and they
therefore have almost a perfect circulation. They are quite
certain to be seen by all who ride, if they are well designed and
printed; they are read with little effort at a time when there is
leisure for reading them; every card has a fair chance to be read,
and finally, they are usually the last advertisement seen by a
shopper bound cityward on a buying expedition. They are
especially valuable for emphasizing and repeating the trade
name and the main selling points of an article. Street-car space
is usually controlled by some large company that operates
independently of the street railway company. Most of the car
space in the United States and Canada is controlled by a single
corporation. Through the controlling corporation attractive
cards may be bought at a moderate price. The rates are fairly
uniform and range from 4o to 50 cents per 11 X 21 card per
month.

IV. Circular Letters and Mailing Cards. — For an intimate
presentation of a product to prospective customers, circular
letters serve a purpose that no other medium can serve. That
is especially true if the letters are well written and skillfully
printed and carefully mailed. They are not suitable for general
or indiscriminate circulation. To send letters to all the house-
wives of a trade territory would be too expensive for most prod-
ucts. But when through newspaper or magazine advertising,
or through the codperation of retail dealers or salesmen or
satisfied customers, special lists of interested persons are se-
cured, they may be circularized to advantage and at reasonable
cost. General advertising brings the prospects, while the special
advertising of the letter goes far toward convincing them.
Through modern letter printing and addressing machines

20908 MANAGEMENT OF DAIRY PLANTS

letters that have every semblance of being specially written to
each individual are now prepared at moderate cost. Letter
printing shops are found in most cities. Costs will vary with
the quality of the work, approximating 2 or 3 cents per letter
where a thousand or more are ordered, not including postage.
Cheap, unattractive circular letters are rarely a good invest-
ment. Mailing cards printed on attractive paper, sometimes
in colors and with illustrations, are useful in calling attention to
special propositions. They have good attention value and may
be given deep interest value also.

V. Booklets. — These serve much the same purpose as the
circular letter. They are for “follow-up” use mainly and per-
mit a more complete presentation of the merits of a product
than is possible in other mediums. A booklet for a creamery
business may well deal with the processes of manufacture in a
popular way with emphasis on quality of materials, food values,
and care in making and handling the product. Illustrations
are of especial value in a booklet, especially those that tell a
story that is to the point. Booklets are circulated in much the
same way as letters and to much the same lists. They may
also be distributed in the package or through retail dealers.
Costs vary greatly with the character of the book and its
make-up, but there is possible a booklet for every business, well
within the limits of its advertising appropriation.

VI. Novelties. — This heading includes many special forms
of advertising, such as calenders, blotters, special display cards,
gift articles, and the like. Their value varies. The calendar, if
attractive enough, may prove to be an all-the-year reminder in
office or home. Blotters, if sent regularly once or twice a month
and each attractively printed with a newsy message of business
interest, are a good reminder to have on a customer’s desk.
Gift novelties, like penholders, pencils, fans, drinking cups,
canes, etc., carrying the business name of the donor, have
some value, but not always a value equal to their cost. They
are usually distributed under circumstances that make the
distribution wasteful. If novelty advertising is purchased, it
ought to be carefully purchased and as carefully distributed.

, ADVERTISING DAIRY PRODUCTS 299

VII. Exhibits and Demonstrations. — Food products are
often excellently advertised through exhibits and demonstra-
tions, particularly at pure food shows and in retail grocery
stores. Such advertising, however, must always be linked up
with other advertising and it is quite likely to be expensive.
Smaller creameries are not likely to find it profitable to adopt
this medium, except when special circumstances favor it. Ex-
hibits and demonstrations take much time and usually require
special men and women employees to set them up and conduct
them.

VIII. Programs, Directories, etc. — Programs and direct-
ory advertising is of uncertain value. There ought to be a special
reason for buying advertising space in such publications; most
frequently that reason is “policy.”” However, there is likely to
be profit in theater program advertising of ice cream, which is
usually in demand at the close of a performance, and perhaps
of other dairy products. Theater curtains have similar value —
probably even more, because they are more certain to get atten-
tion.

IX. The Creamery Itself. — Although the creamery itself is
primarily a manufacturing plant, it is also its own best adver-
tisement. If it is well located, attractively built, neatly kept, it
will get attention from many passers-by, arouse their interest,
and help to convince them of the merit of the creamery’s prod-
ucts. As far as practicable, a creamery should keep a welcome
sign out and even hold open house from time to time when
visitors will be given special attention and perhaps a sampling
of some new product or some old product made differently.
Also, the manager of the plant will not find it amiss if on proper
occasion he discusses pure food, or conservation, from his busi-
ness standpoint, before public or semi-public gatherings.

PLANNING AND WRITING THE ADVERTISEMENT

Because three-fourths of the advertising prepared for a
creamery business is likely to be prepared for a newspaper or
other publication, the planning and writing of advertising will

300 MANAGEMENT OF DAIRY PLANTS

be discussed from that standpoint. However, what is said
specifically from that standpoint may be applied generally to
other forms of advertising.

I. Fundamental Considerations. — An advertisement, if it
is a real advertisement, is written to secure favorable action
upon some proposition of the advertiser, usually to induce a pur-
chase — to sell something. It is essential that this be always
kept in mind by the writer of advertisements.

It follows, then, that the writer of an advertisement must
have a definite objective, the selling of a commodity, and a
thorough understanding of that objective or commodity; also,
he must understand how men and women may best be appealed
to and influenced, and finally, he needs to know something
about the advertising tools by which they may be influenced.

II. Understand the Commodity. — It may seem superfluous
to advise a creamery man to understand his product thoroughly
before he undertakes to write an advertisement to sell it, yet
this is true: It is one thing for him to understand it for himself
and another to understand it so that he may make its merits
clear to others. We often know things that we cannot readily
explain. The writer of butter advertising, for example, should
think over the merits of his butter, discover how and why it is
different from and better than the common run of butter, and
then write out brief, pointed statements covering these facts.
Then he will know his butter definitely, not indefinitely; he will
have a clear, not a hazy, understanding of it; he will have his
talking and selling points — the material out of which an adver-
tisement may be “built.”

III. Understand the Buying Public. — A good salesman
never approaches a prospective customer without first learning
all he can about him. A good “ad” writer likewise seeks to
know as much as he can about the people to whom his adver-
tisement is addressed, for his is a selling task also. What are
their likes and dislikes? What are their circumstances, finan-
cially and otherwise? What emphasis do they put on quality
or on price? What is their interest in considerations of food
and health? Through these and many other questions create a

ADVERTISING DAIRY PRODUCTS 301

picture in the mind’s eye of the people for whom the advertise-
ment is intended and ability to reach them will be increased. A
good deal of psychology is involved in this step. In fact, ad-
vertising, like other kinds of salesmanship, has much to do with
psychology and successful salesmen are good psychologists,
either consciously or unconsciously.

IV. Essential Steps in Advertising Appeal. — A successful
advertisement accomplishes four things in reaching and influenc-
ing the buying public: It gets attention; it arouses interest; it
convinces, and it secures action. In other words, it makes
people look, like, learn, and buy. The ad writer needs to keep
these essentials in mind when he plans and writes his advertise-
ment and to strive definitely to make it effective with respect
to all of them.

Attention, depends (a) upon the extent to which counter-
attractions are eliminated or lessened — the less other advertis-
ing competes with an advertisement and the more it is set off
by itself, the more likely it is to get attention; (6) upon con-
trast, which is secured by making an advertisement different
from those around it — most ad writers learn what other adver-
tisers are doing and then do something else; (c) upon the impres-
sion it makes on the eye and then on the feelings; (d) upon the
readiness with which it is understood in a single glance.

Interest, which must develop out of attention if the adver-
tisement is to do more than merely catch the eye for an instant,
depends (a) upon the appearance of the advertisement and its
surroundings — it must be inviting to the reader; (b) upon the
promptness with which it may be understood — the reader
should be able to gather quickly its most important message;
(c) upon the way in which the reader is set to thinking about
the things advertised— there must be a quick suggestion
that the advertisement is worth his while for some reason or
other.

Conviction depends upon successful appeal to reason or to
desire.

Action is secured through direct or indirect suggestion or
demand,

302 MANAGEMENT OF DAIRY PLANTS

V. The Materials and Tools of Advertising. — To “build”’
an advertisement and give it these four essentials qualities, the
ad writer uses space, type and borders, illustrations and lan-
guage. They may be called the materials and tools of adver-
tising.

All four ‘‘materials and tools’? are employed as follows to
give attention value to an advertisement:

Space. 1. By using as large space as the appropriation per-
mits. Large space gets attention because it is large; it lessens
the counter-attraction of other advertisements; it permits of
larger headlines, display type and illustrations, and better
typographical effects. Experience shows that it is more prof-
itable to use a given amount of space for a few large advertise-
ments than many small ones. However, the value of frequency
must not be overlooked.

2. By securing space in the best positions. This is more im-
portant with smaller advertisements. Nearness to live reading
matter of the right kind is essential; space in the upper half of a
page is usually better than in the lower half.

3. By varying the form of space used to secure contrast.
When most advertisements are square or nearly square, the
long, single column advertisement has marked attention value.
An oval or circle effect likewise secures contrast.

4. By providing plenty of white space within the advertise-
ment itself; an open arrangement is desirable, and a crowded
space undesirable.

s. By putting important head or key lines into type that is
large and which is easily read (display). All capitals are not as
legible as capitals and small letters (caps and lower case).
Headline type measuring 1/10 to 1/20 of the height of the ad-
vertisement is considered effective. Avoid the use of too many
lines of large type (over display), for all emphasis is no empha-
sis, but merely confusion.

6. By selecting borders that catch the eye by setting off the
advertisement and making it different, but which do not attract
too much attention to themselves. Usually large advertisers
design special borders and have them engraved.

ADVERTISING DAIRY PRODUCTS 303

». By using illustrations that are different and which may be
understood readily and which print clearly. Illustrations have
large attention value.

8. By introducing unusual arrangements and forms of type
and illustrations, ovals, circles, triangles, etc. But retain
simplicity.

Interest value is given to an advertisement by the skillful use
of type and border, illustrations and language, as follows:

Type and Borders. 1. By making the typography (use of
type and borders) pleasing. Type and border should harmon-
‘ye with each other and type should harmonize with the subject-
matter of the advertisement —for food products suggesting
daintiness and purity. Adhere to simplicity, avoid overcrowd-
ing and involved designs and backgrounds. Keep plenty of
white space within the ad. Maintain balance and symmetry.
In short, make the appearance of the advertisement inviting to
the eye and interest will follow.

2. By using legible type that the eye may read with least
effort. Interest will not develop when reading is difficult.

3. By using illustrations which are clear, which are in good
taste, which really illustrate and which present a story that is
readily understood. Let them show processes and portray ar-
guments and stir human desires. Such illustrations give great
interest value, save many words, and furnish short cuts to
understanding.

4. By use of headlines that carry the important, vital fact of
the advertisement’s story —its best news. Headlines are first
to be read; their impression must be favorable; they must
deepen attention into interest. Headlines must be brief, lively,
interesting, not more than four or five words, and be taken in
readily by the eye in a single glance.

5. By use of appeals and arguments in the body of the
advertisement that are clear cut, straight to the point, and
full of news about the product, making the reader think
favorably of it. But what is written should be as brief as
possible.

6. By making the advertisements timely and thus linking

304 MANAGEMENT OF DAIRY PLANTS

them up with other things already in the popular mind or in
popular favor.

Words. — Conviction and action are secured through the use
of words almost wholly:

1. By carefully planned appeal to the reason. The argu-
ments in favor of the product should be carefully listed and
arranged and then expressed forcibly and briefly, keeping in
mind the reader, his way of thinking and his motives of action.

2. By skillful play upon desires and feelings through lan-
guage, suggesting appetizing tastes, pleasing flavors, and
healthful effects of good products. The reading of the adver-
tisement should leave the readers with a desire for the product
and an inclination to go buy.

3. By definitely suggesting or commanding action. After
interest and conviction have been secured, the ad writer may in
so many words say do this or do that.

Type is made in an endless number of styles, but most com-
posing rooms have only a limited variety. This is no handicap,
however, providing the few are desirable from the standpoint of
good taste, legibility, and attractiveness. ‘Type sizes vary
according to the “point” system, a point being equivalent to
one seventy-second part of an inch (approximately). The sizes
are named according to the measurement of points between the
topmost part of a capital letter and the lowest part of such a
letter as ‘‘g,”’ for example. If that measurement is 12 points,
the type size is “‘12 point.”’ The smallest size in common use is
6 point; the largest, 72 point. Type lines are measured on the
same basis, but with the pica, which equals 12 points, as the
unit. Newspaper columns commonly measure 13 picas wide,
although at present there is a trend toward a standard 12 1/2
pica column. Type is said to be “leaded” when thin metal
strips (leads) are inserted between lines to make more white
space and increase legibility. In the body matter of advertis-
ing, 14 point, 12 point, ro point, 8 point, and 6 point are most
commonly used, especially the first three. On the average,
matter set in 14 point will run about 1o words to the square
inch, set solid (without leads); 12 point, solid, 14 words and

ADVERTISING DAIRY PRODUCTS 305

leaded, 11 words; 10 point, solid, 20 words, and leaded, 16
words. It is convenient to have in a scrapbook samples of the
various sizes and styles of type that are available in the news-
paper composing rooms that handle the advertising prepared.

Illustrations for newspaper use are of two kinds, half tones
and zinc etchings, both made by photographic processes. Half
tones are most often made from photographs, from water-color
drawings (wash drawings) in black, brown, or white. They may
also be made from oil paintings and direct from smaller objects
themselves. A half tone may be identified by the many small
dots and squares which change the solid black or white surfaces
into “tones ”’ of black or white. These dots are introduced in
the engraving process by photographing the original through
a screen of fine lines, ranging from 65 per inch to 200 per inch.
The screen is varied for different printing uses, and is coarse for
rough uneven paper and fine for smoothly surfaced paper.
Half tones are designated according to the screen used; for
printing on newspapers printed on an ordinary print paper
from stereotyped plates, 65 or sometimes 8o line or screen is
most satisfactory; for newspapers printed direct from type and
engravings on smoother paper, as fine as roo line may be used;
for booklets and catalogs as fine as 120 or 133 line may be used.
Photographic copy for half tones should be clear and sharp.
An engraving may be made larger or smaller than the original
copy, to fit the advertising space desired.

Zinc etchings are made from pen and ink line drawings. They
contain no dots, not being made through a screen. They will
print well on any kind of paper and in any kind of a press. They
present only one difficulty, the expense of getting good original
drawings.

Language is the main reliance of advertising and the ad
writer must know both what to say and how to say it. To
know what to say he needs to understand his product; to know
how to say it he needs to know the people to whom he is writing
his advertisement and how words may be used to interest and
. convince them.

What to say will depend a good deal upon the kind of an

306 MANAGEMENT OF DAIRY PLANTS

appeal that is to be made in the advertisement, whether to the
reason (“‘reason why ”’ advertisement) or to the feelings (“hu-
man interest ” advertisement). For a ‘‘reason why ” advertise-
ment, hard facts as to quality, food values, process of manufac-
ture, price, and the like are needed. For the “human interest ”
advertisement, such features of the product as its pleasing taste,
its cleanliness, its healthfulness, its sweet odors, its appetizing
appearance, its agreeable associations in use, and so on make
the best material. For most advertisements some of each kind
of facts or material will be required, for most advertisements
combine ‘“‘reason why” and human interest. Always the
limits of the space available in advertising must be kept in mind
and the facts or material subjected to what the newspaper man
calls the “boiling down” process to eliminate everything that
is not absolutely essential and helpful. :

How to present the talking points will depend in a measure
upon the kind of people who are to be reached by the advertise-
ment. What is written for women must be set forth in terms
that they best understand and which catch their interest; it
needs to be expressed in words that are familiar in women’s
activities. Likewise, what is written for men, or for rural
people or for city people, needs to be expressed in terms that
suit. But certain rules apply to all advertisement writings:
Be brief, because the reader hasn’t time for long discussion and
the advertisement hasn’t space for it. Be clear, because what is
written will be read‘more or less hurriedly and must be corre-
spondingly easy to understand. Be simple; avoid big words
and high-sounding phrases; plain, everyday words are best;
steer clear of the over-use of adjectives. Be forceful when it is
essential to hammer home facts; straight talk from the shoulder
is most effective. Be interesting; put life into every sentence.
Make sentences short and paragraphs likewise; avoid every
impression of long-windedness. Be fair and moderate in state-
ment; do not claim too much, for people are suspicious of
wholesale claims. Be honest; that is always the best policy.

VI. Writing the Advertisement. — Every writer of adver-
tisement works out his own plan of procedure sooner or later,

ADVERTISING DAIRY PRODUCTS 307

so what is offered here is merely suggestive. However, it is sub-
stantially the plan followed by one successful ad writer.

1, Fix a purpose for the advertisement. Don’t set out with
merely a hazy notion of what is to be accomplished; have a
clear-cut understanding on that score, or else the advertisement
is not likely to interest or convince any one. Whether it is to
sell something at once, or create good will for a product, or to
educate the public to its merits, or something else, determine
the purpose definitely.

2. Determine the mode of appeal. Settle whether it is to be
to redson, to human interest or to both. Your ad writing will
be done more or less aimlessly unless you take this step.

3. Select your talking points. Make a list of all the points
that may be urged in making your appeal. Study them care-
fully to make sure that they are worth while; cut out all that are
weak; combine some; rearrange them in order, according to
interest or importance, or logical sequence.

4. Determine how much space is to be used. Unless the ad
writer knows whether he is to have 6 inches double column
space or 5 inches single column or a half page, he cannot prepare
his copy correctly.

5. Outline this space on paper and locate the typographical
features of the advertisement. If an illustration is to be used,
sketch its exact outlines in the available space, or better, paste a
proof of it on the location that is best. Sketch out a location for
the trade-mark or trade name. Determine how much space the
headline should occupy and where. Then outline the space
that the body or text of the advertisement is to occupy and
estimate how many words of matter can be put into that space.
Your complete sketch should give you a good idea of what your
advertisement will look like in print.

6. Write the copy to fit the space. Sometimes the headlines
may be written first, sometimes last. Choose the newsiest or
most important feature of your talking points, or the feature
with most attention-getting power, for your key line. Put ic
into the fewest possible number of words. Write it and rewrite
it to make sure that it is effective. Write the text of the adver-

308 MANAGEMENT OF DAIRY PLANTS

tisement from the list of talking points prepared earlier. Then
study the result carefully, make careful criticisms, estimate its
probable effect on the reader, and then rewrite. Two or three
rewritings are none too many for a worth-while advertisement.
This writing and rewriting should, of course, be done on sepa-
rate sheets of paper; the final result may be numbered to indi-
cate its location in the outline of the advertisement.

7. Secure the codperation of the printer to get into type the
kind of an advertisement you have planned. The printer can
help make or mar the ad writer’s work. Arrange for proofs so
that you may be assured that the advertisement you planned is
really worked out in type. Better pay extra for the privilege
of tearing down and rebuilding than to have an unsatisfactory
advertisement go into circulation.

VII. An Advertising Scrapbook. — Such a book, filled with
clippings of advertising material, will prove invaluable to the
ad writer. It should contain examples of different uses of
typography to get attention and interest, of different methods
of using illustrations, of effective key lines, of well-written
arguments or descriptions or other appeals, of various type
faces and type sizes, short articles bearing on advertising,
clipped from trade or advertising journals, and such other
matter as may prove useful.

CHAPTER XXII
BUSINESS CORRESPONDENCE

BusINEss is annually transacted between firms and _ indi-
viduals who have never come in personal contact with each
other. They have become acquainted and started a business
relation with each other entirely through correspondence. A
business house writes frequently to its customers and may
possibly write from twenty to a hundred letters for each time
its representatives have the opportunity of calling in person.
It is therefore evident that the letter is one of the big factors in
business. It is of as great importance, or even greater, that a
business letter be considered as a credit to the institution where
it originated as that a call be made by the proper representative.
The latter will make only a short call and should the impression
he made be unfavorable, the effect therefrom may gradually die
away and be forgotten. The letter, however, becomes the
property of the one to whom it was addressed and if it creates an
unfavorable impression it reflects on the firm even more force-
fully and will continue to convey the same impression at least
as long as it remains in the possession of its recipient. Such a
letter may not merely prevent an immediate sale, but sales for
a period of years.

A. THE APPEARANCE OF LETTER

I. Stationery. — The stationery selected by a firm should at
least not be out of harmony with the business of the company.
A dairy firm should select paper of good quality. It cannot any
more afford to write letters on poor, cheap-appearing stationery
than it can afford to send its salesman out in cheap and shabby
clothing.

3°09

310 MANAGEMENT OF DAIRY PLANTS

The color of stationery should be given attention. A white
color is always safe; other colors should be selected with cau-
tion. A dealer in whole milk, cream, or butter would prefer
a color significant of a product that is rich and of high quality.
A cream color might be a very suggestive color for a dairyman
to select. However, a cream color should not be confused with
an orange color or even a lemon color; it should be more deli-
cate. Unless a satisfactory color can be obtained it would seem
safer to stay by the white.

Business stationery should bear the name and full address of
the firm or individual. Other information which may properly
be used in a letterhead includes the names of firm officers,
telephone numbers, cable address, and capital stock of the firm.
Manufacturers often add an illustration of the plant. ‘This is
usually for the purpose of impressing the recipient with the
magnitude of their business and thereby also make the impres-
sion of reliability. A building should never be used for the
letterhead by a firm occupying only a small part thereof unless
the building bears the name of the firm using it. The space on
side margins of the paper should not be used for printed matter.
Engraved or lithographic stationery is to be preferred to printed.
But if printed stationery is used it should be of high class. A
letterhead should never be used for second sheet, but a blank
sheet of the same size and of the same paper stock as the first
sheet.

II. Color of Ink. — Black is the safest color to use; however,
other colors such as blue, green, etc., are used more or less.
Blue was formerly much favored for typewritten letters, but
black ink is gradually taking the place of all others. Various
colored inks, even red, have been used by writers of letters for
signatures, but also for that purpose the black ink is most
satisfactory.

III. The Envelope.— The envelope should be of same
paper stock as the letter paper. It should have the return
address in the upper left-hand corner. The address should be
plainly and neatly written. This is of particular importance
when the letter is written to an individual or to a smaller firm

BUSINESS CORRESPONDENCE 3it

where the owner or manager opens the letters himself. The
size of the regular commercial envelope is about 3 3/4 inches X
6 1/2 inches.

The open-faced envelope is used quite extensively for mailing
bills, thereby saving the labor of addressing the envelope. It
may be very useful for such purposes even though many are
opposed to receiving a letter, the outside appearance of which
indicates that a bill is contained within. This is particularly
true in reference to individuals and it is the safer policy not to
adopt the open-faced envelope for other purposes than for
mailing statements and bills to firms. The open-faced en-
velope is not well suited for business correspondence, as it
necessitates the folding of the paper in a very inconvenient
and inattractive way. Moreover, as the outside appearance is
against such a letter, it will not receive as hearty a welcome as
will a letter appearing in more attractive clothing.

IV. Proper Proportioning of Letter on Sheet. — The letter
should be so written that it is properly proportioned on the sheet;
that is, the white margin at the bottom should be practically
the same as the white margin at the top or a little wider. Like-
wise, the margin at the two sides of the letter should be the same
and the right-hand margin should be made as regular as pos-
sible. The body of the letter should also be divided into short
paragraphs, as that makes the letter more readable and more
pleasing to the eye.

V. Folding the Letter. — In folding the letter two folds are
considered, the long and the short fold, to conform with the
size of envelope used. The long fold is used for the long en-
velope and the short fold for the short or regular size com-
mercial envelope. When using the long fold the sheet is folded
twice, the upper part of the letter overlapping; the letter thus
folded will open most conveniently to the one who reads it.
When adopting the short fold the first fold is made from the
bottom of the sheet leaving a top margin of about one inch.
This is for the purpose of having the name of the firm in plain
view of the reader before the sheet has been fully unfolded, but
it also makes the unfolding of the letter easier to the one who

312 MANAGEMENT OF DAIRY PLANTS

opens the mail. The second and third folds should be made
about equal and should be neatly done.

VI. Letter Mailed to the Consumer. — A dairy carrying on
a retail business will often send letters to individual homes in the
city. Such letters may be sent merely for advertising purposes,
but the lady of the house will usually receive them and the ap-
pearance of the letter should therefore be such that it will appeal
to her. A letter written on business stationery would not re-
ceive her attention. If such letters are written on high-grade
stationery similar to that used for social correspondence they
will be more appreciated. Such stationery may be absolutely
plain. If desirable to have the return address on the envelope
then it may be placed in the upper left-hand corner of the front
or preferably on the back of the envelope. The type should be
small and the printing most neatly done.

B.OPAR FS OF (A LETTER
A business letter is made up of the following parts:

The Heading.

The Introduction.

The Salutation.

The Body of the Letter.
The Complimentary Close.
The Signature.

I. The Heading. — The heading is first to be considered
and includes the name of the place from which the letter was
sent and the date of writing. If necessary the street and room
number may also be given. The heading is placed at the upper
right-hand corner immediately below the letterhead. Some
place it nearer the center. In a social letter it is often reserved
until last.

II. The Introduction. — The introduction or inside address
is composed of the name of the person or firm to whom the
letter is written, street number, city and state. It is placed at
the beginning of the communication or, if in the social form, at

BUSINESS CORRESPONDENCE - 313
the lower left-hand corner of the sheet and then includes only
name and address. The latter style may be considered as the
stronger. The reader is able to get into the subject-matter of
the letter without any loss of time, which appeals to the busy
man.

A business letter intended for a business firm should always
be addressed to the firm itself and not to an individual member
or to some employee of the firm. When it is addressed to an
individual it becomes a personal letter and if the person to
whom it is addressed is absent for some time the letter may
be left until he returns, whereas it would receive prompt atten-
tion if addressed to the firm. If the writer desires that his let-
ter be brought to the attention of some certain person of the
firm, then the inside address may call for the attention of that
particular person as follows:

The ——- Creamery Co.,
720 Ave.
Attention of Mr. J. C. Smith.

III. The Salutation. — The salutation depends much upon
the subject-matter of the letter, the rank of the person to whom
it is written, and the acquaintance of the parties concerned. If
writing to individuals, a business letter starts with “ Dear oi abs
or “Dear Madam” and with ‘‘Gentlemen”’ if writing to a firm.
The form, “ My Dear Sir,” is often used in business and may be
considered very good, however, the former is the safer to use.
All words in the salutation may be capitalized. Some writers,
however, capitalize only the first word. The salutation is
followed by a colon.

The more personal form of salutation, as in “Mr. Brown” or
“Dear Mr. Brown,” appeals to many people. It makes the
reader of the letter feel as if there is a more intimate relation
between him and the writer and that form is often preferable,
especially so if the two persons are acquainted.

IV. The Body of the Letter. — The body of the letter may
begin upon the same line as the salutation or, as is most fre-
quently done, on the next line below. The body of the letter is

314 > MANAGEMENT OF DAIRY PLANTS

that part which contains the real thought and substance. It is
only that business letter which is full of good thoughts and ideas
that is worth while writing. The other kind may just as well
not be written, for it gains no friends, creates no new business,
and may even be a business loser. It is well, especially for the
beginner, to study each letter before delivering it to the mail.
Single out the strong parts of the letter as well as the weak
parts and the entirely superfluous parts. Such analysis may
often reveal the fact that the letter is of no value and should be
rewritten.

A letter which answers the purpose for which it is intended
must present the thought which the writer wants to convey in
such a way that the reader takes an interest therein and feels
that the writer is telling something that is of value to know.
It is therefore to the writer’s interest first to make clear to him-
self how best to present his subject so that it will appeal to the
reader and appear of interest to him.

The very first sentence of the letter should arouse interest,
but often the beginning of a letter is the weaker part. It should
never begin with “‘I”’ or “we ”’ as “‘ We are pleased to inform you
that we will be in a position to manufacture all kinds of fancy
ice creams beginning May 1st and we most earnestly solicit.
your patronage, etc.’’ This information might be of some inter-
est to a party owning a financial interest in this particular ice
cream factory, but not to a customer and even less to the one
who has never purchased ice cream from that factory. The
writer should endeavor to place himself in the background
and the one addressed in the foreground. It would appeal
more to a woman if it could be shown to her that this letter
were written entirely for her benefit. A letter such as the fol-
lowing comes nearer meeting this requirement.

“Dear Madam: You always desire to have for your parties
an ice cream which is somewhat different from that served by
your neighbors. If you consider that we can assist you in this
matter then we should be glad to have you call us over the
phone at any time. We are just equipping our factory for

BUSINESS CORRESPONDENCE 315

taking care of special orders and shall endeavor to keep the
quality of our product up to your expectation.”

A letter is often started as follows: ‘‘We have your favor of
the fifth inst., etc.,” or “Relying to your favor of August 6th,
etc.”” Such may be satisfactory for a certain kind of corre-
spondence when it serves as a connecting link between this and
a letter just received, but for a selling letter such a beginning is
rather weak. The letter becomes stronger if beginning at once
with the subject-matter; at the close of the letter the statement
may be made, ‘‘This is in reply to your favor of August 6th.”

A letter should be simple and clear so the meaning thereof
is readily understood by the reader. Long words should be
avoided, short Anglo-Saxon words are always the most em-
phatic. Technical words and terms should never be used unless
a technical subject is treated and the letter is written to some
one who is technically trained.

Good tact and judgment are essentials in business corre-
spondence. A letter that answers its purpose should always
make the reader feel somewhat more friendly toward the writer
or the firm from which it came. A letter which cannot accom-
plish that is either of no value or it may prove to be injurious.
The following letter is one of the latter type.

“Dear Sir: We have your favor of recent date asking for a
subscription for the erection of your new lodge hall.

“We hardly consider that we should be called upon by your
members for a donation, as the members of our firm all belong
to the Greenview Lodge and help to pay for the upkeep of same;
however, we like to see you meet with success and inclose here-
with ten dollars as our donation.

“Yours truly ”

The writer of the above letter should first have decided in his
own mind as to whether or not the cause was a worthy one,
whether or not he could afford to make a donation, and possibly
also the advertising value of such a donation. If he decided to
make the donation he should endeavor to go on record as a

316 MANAGEMENT OF DAIRY PLANTS

willing and cheerful giver instead of critizicing the organiza-
tion for calling for support. As the letter now reads the re-
ceivers of the donation are made to feel that they would rather
have been without his support. The letter might have been
written in such a spirit that it would have been appreciated
as much as the donation it contained, and the friendly feeling
thus created be of much value even from a business point of
view.

More objectionable, however, are letters that contain sar-
casm or unfriendly remarks. At times a correspondent will
receive such a letter and will possibly take pleasure in using
similar terms for reply, but if these matters are given due con-
sideration it is readily understood that such a letter is always
injurious to a business concern as well as to an individual.
It is therefore a safe policy for any correspondent to keep letters
written in an angry mood on his desk until the following day.
They should then be reread and analyzed and should be re-
written if they will not tend toward creating a more friendly
feeling between the writer and the addressee. It should al-
ways be borne in mind that there is nothing which will humil-
iate the writer of a sarcastic letter more than to receive a kind
and friendly letter in return.

The volume of business and character of business done by
the firm to whom the letter is addressed and even more the
individuality of the one who acts on the letter, if such is known,
should be important guides for the writer. It at times appeals
to the reader if his name is embodied in the letter, as ‘‘We be-
lieve you are aware, Mr. Smith, that our firm appreciates your
business very much, etc.’”’ The busy man wants a short letter
full of facts and information. The one who receives but few
letters will often take time to read a long letter and enjoy it.
It is the safest policy, however, to make a business letter brief
without sacrificing any of the essentials.

Often a direct question is asked in a letter. It is convenient
to the writer to receive the reply to the question on the same
letter and a request should be made when closing the letter
asking a reply be made on the back of the letter.

BUSINESS CORRESPONDENCE aly

V. The Complimentary Close. — The complimentary close
mostly adopted by the American business men is either ‘‘ Yours
truly ” or ‘Yours respectfully.”” The first word of the compli-
mentary close should be capitalized and it should be written on
the line below the last one of the body of the letter.

VI. The Signature. — The signature should be written
plainly so it may readily be read. It should preferably be
written in black ink.

C. THE FORM LETTER

The form letter is often used by the creamery manager for the
purpose of furnishing general information to patrons or custom-
ers. It is commonly used to acknowledge receipt of a ship-
ment from a’new patron. Such a letter will also furnish infor-
mation in reference to the company’s system of paying and
other information as may be desired by the patron. Many
general questions are asked which may be answered to greater
or less extent through form letters.

For selling goods or purchasing cream the form letter has
been an important factor. A series of letters is prepared, one
supposed to follow the other at proper intervals. Such letters
should be prepared systematically, gradually bringing the
receiver up to the point when his desire to do business with the
firm becomes strong enough so it leads him to action. When-
ever a reply has been received to one of the letters the form
letter has answered its purpose and a personal letter should
follow.

When using the form letter it is taken for granted that the
same desires exist in the minds of all and that the same argu-
ments will appeal to all alike. A form letter that sells and buys
goods must contain good arguments presented in an interesting
way. When writing a form letter it is well to have several
written and to test them out by mailing a certain number of
each and noting the per cent of replies obtained from each.

A form letter should not merely contain strong arguments,
but it should also be neatly written and properly signed so it

318 MANAGEMENT OF DAIRY PLANTS

will not have the appearance of a form letter, for it is the per-
sonal touch given to a letter that makes it valuable and of
interest to the one who reads it.

Records of form letters are most readily kept on cards filed
away in alphabetical order in a special file. When a reply has
been received to one of the form letters the corresponding card
will be removed to another file and should this person later be-
come a customer the card will be filed among the cards of ac-
tive customers.

D. FILING OF CORRESPONDENCE

A creamery handling a comparatively small amount of mail
may conveniently use a small filing case in which the corre-
spondence is filed alphabetically. This system, however, be-
comes impossible in a larger business, and the vertical drawer
files then become the most useful. The letters are filed away in
folders of standard size, 9 3/8 X 11 7/8 inches with 3/4 inch
projecting tabs. The letters may be filed in alphabetical order,
geographically, or numerically. The alphabetical order may be
considered as being the simplest. This is, however, less con-
venient for some of the other departments, such as the sales
and credit departments, for which the geographical system of
filing has its advantages. The letter folders may be filed in
numerical order, but if that system is employed then an index
reference card file will be required. The cards of such a file are
placed alphabetically or geographically and refer to number of
folder.

Business correspondence should be transferred about once a
year. For transfer files cheap vertical files may be used and the
correspondence should be filed away in them so as to correspond
to the general system of the office.

CHAPTER XXIII
CREDITS AND COLLECTIONS
A. THE CREDIT MAN

Tue concern selling goods on the credit system to other
concerns or to individuals should be in a position to form an
opinion of, or to obtain reliable information as to, the responsi-
bility of the purchasers in question. — Such information is
supplied to the sales department by the credit man. It matters
not whether the firm has a separately established credit de-
partment, the credit man may be the creamery manager who,
as in a small plant, may also be the butter maker, but a credit
man must necessarily be there. If he is omitted, the business
concern must in safety confine its sales only to cash sales.

The ability of the man who is to pass on credits is a big factor
in the successful operation of any large business. In general
business is based upon credit; only few concerns can pay cash
for all purchases. Therefore a credit man who can safely allow
credit to 99 per cent of the people entitled thereto will be of
greater value to his firm than the one who is allowing credit to
only g5 per cent.

The credit man should have a knowledge of the general finan-
cial conditions and of the factors affecting such conditions.
If a labor strike is started in a certain locality he should be able
to determine the effect of such a strike on the responsibility of
firms in that locality with which he may be doing business.
Depression will always follow a crop failure, therefore in a dis-
trict where a crop failure has been experienced it may be advis-
able to take special precautions and decrease the amount of
credit allowed, whereas more liberal credit may be allowed in
sections where the crops have been exceptionally good.

Full information should be obtained in reference to the

a'9

320 MANAGEMENT OF DAIRY PLANTS

financial responsibility of all prospective customers before the
salesman makes any attempt to sell them goods. The retail
merchant should carefully watch the changing about of people
in his community and should investigate the responsibility of
newcomers without delay.

B. FACTS UPON WHICH THE CREDIT MAN
BASES HIS JUDGMENT

I. Commercial Agencies’ Reports. — The Bradstreet and
Dun agencies are considered the most important sources from
which to receive credit information. For a stipulated sub-
scription fee a firm can secure the reports which come in book
form. These give the ratings of all established business firms
and the amount of capital stock that would serve as a fair
estimate for credit. They furthermore give their ratings as
first, second, and third class. A firm obtaining a first rating
should be a good risk if the credit is based on the stated amount
of capital stock. The one obtaining a second rating is supposed
to be of less responsibility, is often known to be slow at paying
bills. The one obtaining a third rating cannot as a rule be con-
sidered to be a subject deserving of extensive credit.

In addition to this report these agencies are also at all times
ready to furnish confidential information to their subscribers
concerning more recently established firms not reported in their
regular report or about firms reported but on which a more
complete report may be desired. For such confidential reports
or for part of them a small charge is made.

Local credit interchange bureaus are found in nearly all
cities and are known by various names. Such are often asso-
ciated with a national association. These organizations are all
formed for the purpose of interchanging credit inforniation. If
a member of such an association desires to obtain information
with reference to a certain firm, then he merely turns in a re-
quest for information to the bureau and usually within a day’s
time a report is furnished to the inquiring member as well as to
the members who furnished the information. This report

CREDITS AND COLLECTIONS 321

usually states the number of merchants furnishing the infor-
mation, amount due to such merchants, amount past due, etc.
In addition thereto is also furnished opinions of members in ref-
erence to whether the firm in question is considered to be prompt
pay, medium pay, slow pay, poor pay, or if buying on cash basis.

Members of credit bureaus at times agree not to force a col-
lection from a firm which is financially embarrassed but to re-
port the condition of such a firm immediately to the secretary of
the bureau who in that capacity acts as a representative of all
members doing business with said firm. Members interested
send a certified statement to the secretary, who will collect the
money or as much thereof as possible, which amount is pro-
rated among such creditors.

The Credit Men’s Association is an organization found in
nearly all cities. The membership is usually composed of one
representative from each wholesale house of the city. This
organization may or may not be associated with a national
association. The members meet at more or less frequent inter-
vals for the purpose of exchanging information in regard to
their experience with various creditors.

Retail Men’s Credit Associations are found in nearly all
cities and in most towns and may or may not be associated with
national organizations. The members of these associations are
the retail merchants or their representatives. They organize
for the purpose of obtaining reliable credit information; some
such associations also collect accounts for their members, and
some publish a book once a year with a key to each individual’s
rating.

There are a number of other sources through which credit
information may be obtained. Some private concerns furnish
information and often the bankers are referred to for credit
information. The latter, however, are often opposed to fur-'
nishing such and whenever they do it is done as a matter of
accommodation.

II. The Firm’s Own Records. — Records of the firm’s for-
mer dealings with the merchant who applies for credit offer
another important. source of information. It will not be safe,

322 MANAGEMENT OF DAIRY PLANTS

however, for a firm to allow such a record to be the only source
of information upon which to determine his worthiness for
credit, if such information is not recent.

III. Reports of Other Merchants. — This information is
obtained by securing from the applicant the names of other
firms from which he is buying goods. The credit man after
obtaining such information writes to the credit men of these
firms for their opinion in regard to the responsibility of the party
in question.

IV. Financial Statement of Firm Represented by the
Applicant. — Any firm or individual asking for extensive credit
should be willing to present a financial statement. Such state-
ment should be signed by the proper official or party in order
that it may be of real value. This statement is one of the more
valuable parts of the credit information, as it sets forth the
financial condition of the concern. Such a signed statement
when received is filed together with other credit information in
reference to the applicant.

V. Financial Responsibility of the Individuals of the
Firm. — If a corporation, this may not be of much value, as the
liability of the individual is limited. It is, however, of much
value when it concerns a copartnership, as in such any one of
the partners can be held liable to the full extent of the indebted-
ness.

VI. Character of the Individuals that Own and Operate
the Firm’s Business. — An honest man with limited means is
always a better credit risk than one who is dishonest, even
though the latter may be in possession of unlimited means. The
one who is honest and in possession of sufficient determination
and a strong moral character will always be able to demand
the limit of credit, whereas the one who lacks either of these
qualifications will be considered with a certain degree of sus-
picion.

VII. Business Experience and Ability of the Applicant. —
The person or persons responsible for the outcome of the busi-
ness should have experience in that particular business. If
such persons have been successful previously in a similar line of

CREDITS AND COLLECTIONS 323

business it is reasonable to suppose that they should again be
able to meet with success. It is also well to note if those re-
sponsible for the business give it their personal attention and if
they looked pleased or worried. A business manager who looks
worried should be watched carefully if credit is extended to
him.

VIII. Appearance of the Business. — A creamery doing
business with retail firms should have representatives call on
the retailers at various times. When making such calls the
representative should be able to make a fair report to the credit
man of the firm in reference to the appearance of the business.
Such a report should furnish the following information:

Amount of stock kept in the retail store. If there has been an
increase or a decrease since the former time when the represent-
ative called. The kind of stock kept, whether or not it is com-
posed of staple or unstaple articles. The retail dealer who is
dealing in such goods as can readily be turned into cash is al-
ways a safer man for credit than the one who is handling prod-
ucts of a less staple nature.

The amount of business transacted should also be considered,
as well as whether such business is done on a credit or cash
basis. If on credit it is well to consider the responsibility of the
class of people to whom credit is extended as well as the fre-
quency and method of making collections.

C. OFFICE RECORDS OF CREDIT INFORMATION

I. Filing of Credit Information. — Credit information ob-
tained through various sources should be so filed that it may be
available when needed. It is most convenient to have a letter
folder for each person or firm on which credit information has
been secured and all information obtained is filed in this folder.
The folders may be filed geographically and alphabetically as
in the system recommended for filing under salesmanship. The
geographical system of filing is most serviceable, as it thereby
becomes more convenient for the salesman when looking up
information as to the responsibility of merchants in a certain

324 MANAGEMENT OF DAIRY PLANTS

territory. It is also possible that a certain territory may suffer,
due to crop failures, labor strikes, or similar causes. It there-
fore becomes necessary for the credit man to make a thorough
study and investigation of the firms so affected, and then the
geographical system becomes the most useful as well as the
safest.

II. Credit Information for the Salesman. — The salesman
should always be supplied with the most recent credit informa-
tion about his customers. Such is most conveniently kept by
him on cards filed away in a suitable, compact case. It may be
convenient for him to divide his territory into different sec-
tions each having a separate file and thus making it unnec-
essary to carry a more bulky card file.

III. Credit Information for the Order Clerk. — The order
clerk is also supplied with credit information to the extent that
he knows whether to allow credit or to demand cash for goods
sold. If the creamery is doing both a city and an out-of-town
business then it may be most convenient to have two card
files, one for city customers and the other for out-of-town cus-
tomers. It is most convenient that such credit cards be filed
alphabetically. All the information of value to the order clerk
is the correct name and address of firm, nature of business,
credit or cash. If credit, the amount of credit should be stated;
if cash should be demanded before the goods are delivered then
C. O. D. may be marked across the face of the card. It is ad-
visable that this credit file be kept as complete as possible, con-
taining not merely information pertaining to present customers,
but also to such as may become customers within the near
future. It is always pleasing to a new customer to obtain credit
without having to make application therefor.

CREDITS AND COLLECTIONS 325

FORM XXVII
THE ORDER CLERK’s CREDIT CARD

ee ea el Me iol ek te | eee ace ee me a ie aiiet kkk pe mae ae ©
Drie Ol Si aenw lie @ ts as a oL a we adn) oe, ele re. ee eS ee) 6
nyt, iw be a” ml lode eae ple oe) we eee as Sed! aie elanh) a 56
eon We ae w ewe ope Se) 6)s se © elo!) si'nye) es oe « 6.4 abe a se Sw abate a
a St 6. wifes @ 246 < © Bw ow aig be wa) -s et we ee oe.

The ledger contains the most recent and most reliable credit
information available. It is convenient, especially in a larger
business, to have the amount of credit allowed marked on the
ledger leaf in such a way that the meaning thereof may not be
understood by any except the regular office employees. It has
the advantage that if a firm should take more credit than it
is entitled to, then the bookkeeper can at once call the atten-
tion of the credit man thereto.

D. COLLECTIONS

A business firm will establish its own terms on which its goods
are to be sold. Such terms should be fair to the buyer as well
as to the seller. The terms should also be fully explained to the
customers in order to eliminate ‘all misunderstandings. After
the terms have once been established the firm should enforce
them to the best of its ability. An organization that is always
collecting its accounts on a definite, prearranged time will
have less difficulty in obtaining prompt payments than a firm
making its collections at irregular intervals. By being prompt
in making collections the debtor involuntarily comes to realize
that it is just as important that the account is paid on time
. as it is that he receives the goods on time.

I. Frequency of Making Collections. — The frequency of
collecting bills is governed to some extent by the adopted cus-
toms of other merchants; however, such customs may in part be
ignored. It is customary in most cities to collect weekly for

326 MANAGEMENT OF DAIRY PLANTS

butter and cheese sold in the home city or town, whereas for
butter or cheese shipped out collections are often made every
other week. Butter and cheese are retailed mostly through the
grocery stores. Such business may be considered to be fairly
permanent and accompanied by less risk on account of uncol-
lectible accounts. Ice cream is to a greater extent sold to
retailers whose business is of a less permanent character. Sev-
eral will remain in business for only one season or even less.
They may also in general be considered as a class of business
men not worthy of as much credit as the retail grocer, and there-
fore it is the usual custom to sell to many of them for cash and
it is seldom that more than one week’s credit is allowed, regard-
less of whether the sales are local or not. The manufacturer of
ice cream is justified in collecting promptly, as ice cream is a
commodity which is sold by the retailer for cash within twelve
or forty-eight hours after it has been received. Where milk is
sold at retail on the ticket system it is often sold on a cash basis
or up to a month’s credit may be allowed.

II. Delinquent Customers. — Delinquent customers may be
divided into four classes, “careless, chronically slow, temporarily
hard up, and insolvent.’ The careless customer may become
prompt by insisting on receiving prompt pay. It is advisable
when presenting a statement to a customer that it shows plainly
the balance (Form XXIII), as this will continually remind the
customer of his delinquency. ‘The credit man is continually
making comparisons between the figures of the amount carried
over and that indicating his purchases not yet past due. The
merchant who always carries a past due balance is less desirable
as a customer unless he becomes more prompt in meeting his
obligations and it is the duty of the credit man to cause such a
customer to become prompt without thereby losing his busi-
ness. The one who is careless about paying his bills is also apt
to be careless in many other respects and cannot very often be
considered a safe risk. ‘The one who is chronically slow may
be very careful about his business affairs, is often a good money-
maker, but one who will rather receive money than pay it out.
The customer who is temporarily hard up often deserves the

CREDITS AND COLLECTIONS 327

leniency of the merchant who sells him goods. By being properly
supported by the creditors such a debtor will usually be able to
readjust his financial affairs so that he in time will be able to
pay his creditors in full. The insolvent debtor is the one whose
property will not pay his liabilities. A firm may actually be
insolvent long before it becomes an acknowledged fact and
accounts may be collected. Payments will become suspended
after it becomes an acknowledged fact that the debtor is insol-
vent.

III. The Collector. — The collector is an important assist-
ant to the credit man. He should always pay strict attention
to the appearance of the business of his firm’s debtors and
should therefore have a fair understanding of the value of goods.
If the debtor is not ready to pay the bill when presented, then
the collector should in a judicial manner secure information as
to the exact time when payment may be expected. The col-
lector will then make the necessary memorandum and this
should be followed up by his calling on the debtor on the partic-
ular day, and if possible a definite hour, when the payment of
the bill has been promised. Should the debtor fail to pay this
time it should be expected that he will present a satisfactory
reason for his delinquency.

IV. Collecting by Correspondence. — It is of greatest im-
portance that statements be rendered at regular and definite
times. If two weeks’ credit is allowed then statements should
be mailed every two weeks, leaving on the same mail each time.
It should be definitely agreed upon between creditor and
debtor that remittance should be forthcoming within a certain
number of days after the date of statement. If the statement
is dated on Monday of the week, most creameries will expect
remittance not later than Friday of the same week. If remit-
tance is not received by that time another statement should be
mailed the following morning. If remittance is not received
within a reasonable time after the second statement, then a
third statement may be rendered, bearing a footnote calling the
debtor’s attention to the delinquency of the account and ad-
vising him that unless paid within a certain time a sight draft

328 MANAGEMENT OF DAIRY PLANTS

will be sent through his bank. Such a footnote may be placed
by using a rubber stamp and may be worded as follows: “‘If
remittance is not received before then we take it for
granted that you prefer to have us draw on you for the amount.”
If remittance does not follow, a sight draft should be made
out at the time specified. This is turned in to the bank for col-
lection. It is preferable that a sight draft be made out through
the bank at which the debtor has his deposit, as the debtor will
be less liable to give an evasive answer. If a sight draft is not
honored, a good heart-to-heart letter will often bring about the
desired result, but if not, it may be necessary to resort to other
means for making the collection. Possibly a local attorney or
some collecting agency may be most successful in bringing
about a speedy settlement.

V. Collecting Agencies. — Collecting agencies are estab-
lished in some cities for the purpose of collecting accounts.
Such agencies are mostly employed by the retail dealers. Some
are organized in connection with their associations such as have
been mentioned in connection with Retail Men’s Credit Asso-
ciation. Others are private concerns. Some retail merchants
will turn all their accounts over to such agencies for collection.
The claims made in favor of collecting agencies are that they
make the collections at less cost than is possible if made by the
individual merchants, and that they are better trained as col-
lectors and as a result less money is lost due to bad accounts.
Arguments against this system of collecting may be based on the
ground that if he adopts it then he will not be in as close touch
with his customers and that the collector is not working directly
under the merchant for whom he collects and may therefore
adopt means for collecting which would not be approved by
the seller. Furthermore some customers are opposed to having
a collector employed by a collecting ageacy call, as such are
often known to be employed for collecting bad debts.

For collecting bad accounts a local collecting agency will
often prove to be very efficient. Local attorneys may also be
employed to advantage. They are usually willing to collect on
a percentage basis.

CREDITS AND COLLECTIONS 329

VI. Selling on Sight Drafts or Time Drafts. — This prac-
tice may not be followed entirely because of fear that the one
receiving the goods will not be able to pay therefor. However,
it is the safe system by which to ship goods to persons or firms
that are not able to satisfy the shipper as to their financial
responsibility. The smaller creameries are often, when ship-
ping butter or cheese to commission merchants, making out
sight drafts for part value and at times when the butter has been
contracted for at a definite price the shipper will draw a sight
draft for part or at times for the total value of the products
shipped. By this method the creamery is receiving cash for its
products and will require less money for carrying on its busi-
ness.

The sight draft when used for such a purpose is attached
to the bill of lading and is forwarded through the local bank
to the bank on which it is drawn, this bank being located in
the city to which the goods are being shipped. The sight draft
is presented to the consignee for payment who on payment
thereof receives the bill of lading for goods covered by draft.

Some shippers, especially shippers of carload lots, make
all collections on time drafts. These are similar to the sight
drafts except that they are not payable on sight but payable in
five, ten, or fifteen days or may be made out for any time agreed
upon between the shipper and the consignee. Such a draft is
sent through the bank in a similar manner as the sight draft, but
when presented by the bank to the consignee the draft is accepted
by the consignee who in return receives the bill of lading. When
accepting a time draft the word ‘“‘accepted ” is written across
the face of the draft and signed by an officer of the firm ac-
cepting the draft. The banker who holds the draft will present
it to the consignee for collection the day it becomes due.

a7

Royal National Bank
Royal, France

MANAGEMENT OF DAIRY PLANTS

FORM XXVII-A

A BANK DRarT

The Royal National Bank

CASHIER

FORM XXVIII

SIGHT DRAFTS

$-600200.._.....-.- reuaia Royal, France ~...dotobar.....c..0-+ 192:0...5

rel a aes = a Se arrernorerermetesterorss tas as feroenseneionies ET Et Ty) CO) VERE ORRIN

Mates. pceeoeaarmneaeuee P22 8 S885: 4.0, 28.2. BA nk.

Pive Bandreda, Mo ier le eevee os SAS Wid vn sYoucirores mreere= --DOLLARS

p39 Paseee Sar YS SCTE Wek naar Jer ay Wr. Ses are Cae “EN a PU “Yh es geri Ui: JE « SRE co

With Exchange and. Collection “Charges,
AVES Ree EP EE ae RS OCT Lee ea o :

= CB Seen ee ave as eee eel ene

eee en ee rs

ee ET EE ET Pe ES oa a ers (ie Bis a Wh ea ee

cee Le ee ee Royal, France... oatoher...18,_...._.1920...
fi
Bi ght...on.arriyvars of .¢.9.04.9._.....Pay to the order of

“Ast Ape a ee pep te Ce Oe eS ee ee eee ee a

LNB a Yaoi <A SW a at SRS oe dh ek SO aC Jey A EL I: SE en Se eee Be Ee oe a, DOLLARS

With Exchange and Collection Charges

To_..J.9.h.n.. 1 2.n.9_8..&...6.0_0.....

a tne ee ne ne ne ee et a ee a eS ee ee oe oo

Sees EB

ee ee ee eee ree ate Wi11-i+«.s.

CREDITS AND COLLECTIONS 331

FORM XXIX

A Time DRAFT

o
$ ~§00.00_ aes --
a

Ootober 18:

mea & Ci

b>
a
er it Ws Ao

soogpt ed
pb
ohie Jo:

,
Fora niyo. 39.0:-- 0.0.8 0: ble FE beh 0 8 20. 2100 299000 | ooo ene aacac nema mces

With Exchange and Collection Charges

ig
fe
3
ri
5

There are four kinds of drafts — “bank drafts,’ “ on demand
drafts,” ‘‘sight drafts,’ and “time drafts.”” A “bank draft’’ is
drawn by one bank on another. An ‘‘on demand draft’’ is
drawn on one person by another and is payable as soon as pre-
sented. A “‘sight draft” is drawn on one person by another; in
some states it is payable immediately upon presentation, and
thus becomes an “on demand draft,’”’ but in other states it
becomes payable three days after it has been accepted by
the person on whom it is drawn. We speak of one, two, three,
four, or five day sight drafts; then one, two, three, four, or
five days respectively will be added to the three days of grace.
If it is written for more than five days it is considered to be
a time draft. The first three kinds of drafts are considered
by the bookkeeper as belonging to the cash account, whereas
the time drafts are considered as bills receivable or bills payable.

VII. Shipping Goods C. O. D. — The C. O. D. (Cash on
Delivery) system is made use of for smaller shipments, such as
when cream or butter is shipped to firms to which credit is not ex-
tended. By this system the transportation company makes
collection for the shipper before goods are delivered and the
shipper will either receive the money or have the goods returned.

CHAPTER XXIV
CREAMERY BOOKKEEPING!
A. DEFINITION AND GENERAL INFORMATION

BOOKKEEPING is the science of making a systematic record of
business transactions. By a business transaction is understood
an exchange of values.

I. Systems of Bookkeeping. — The systems adopted by the
various firms differ greatly so as to meet the needs of the va-
rious concerns. There are two general systems known in book-
keeping which include all; these are ‘‘Single Entry ”’ and Double
Entry Systems.”

1. The Single Entry System. — By single entry is understood
an entry to only one account. This may be a credit or a charge.
Only personal accounts are affected by this system and the
books will show no balance and consequently no profit or
loss.

2. The Double Entry System. — By double entry is under-
stood an entry that is made twice. If a credit is made to
one account a corresponding debit is made to some other
account. By this system the ledger is kept in balance per-
petually.

II. The Ledger. — The ledger is conveniently divided into
two parts: first, the general ledger; second, the debit ledger.

1. The general ledger is a book which contains a summary
of all of a firm’s business transactions. It shows its resources
and liabilities.

1It is suggested that students familiarize themselves with ‘‘ Accounting Records
for Country Creameries,’ by Nahstoll, Bulletin No. 559, U. S. Department of
Agriculture.

332

CREAMERY BOOKKEEPING 333

FORM XXX

DEBIT LEDGER

Cee

NAME 1 2g : Z Account _No. 2

Aooress Te, a PAQITUCL’ Sucer. No 4
Poare [ems fe] veer | creo —‘rce] pare [tems 6
yanle| sor lutin | |_| [dolesl| [1 tasd lTmalol Gah _
ee ame wuet est eee oe Buy ticle :
Pte or Tt Ltt 10
lag oe ee Fn ae) ee :
ce ee ee rs
=a Ce ae? EA a 14
een ee een Chan tals WC Le ales
pot pf ~
ee ee 18
ae Tet ane a tern ak (LSS re
ee i .
TS Deane Cd Hs a
TS FR a a a a <
mae | wae a ie eepeaneer h Pe 2a
lt ees re pen er A Pye
FS ae aaa eae FT (PS a i yt ee
voc [a agg escort DST ERS (0, Ee a
We ea ees eames FE) ah PT Dak GN WN =
EL DE eee OAS We LC ey

2. The debit ledger, also known as the dealer’s ledger, deals
with personal accounts; it contains all accounts with the firm’s
customers.

The left-hand side of the ledger is known as the debit and
the right-hand side as the credit side. The principal rules in
posting to the ledger are first “debit what we receive ”” and
second “‘credit what we give.”’

When the credit side of an account in a ledger is the greater,
then the amount by which the credit exceeds the debit is either
a liability or a gain. When the debit side of the ledger is greater,
then the difference is a resource or a loss.

A personal account is an account with a person, firm, or cor-
poration.

A resource is anything of value belonging to the firm. A
liability is anything that is owed, such as a personal account,
bills payable, notes payable, etc.

III. The Cashbook. — The cashbook is a book in which is
recorded a detailed record of all cash transactions. The left-

@ SS re 8 EET 9 RR OED

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| SINaWIavdao g eS SINIWlavVdIO | SINSWLAVEST | ool O}| 4.7

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a10g

334

CREAMERY BOOKKEEPING 335

hand side of the cashbook is the debit side on which is recorded
cash received. The right-hand side is the credit side on which
is recorded cash paid out. All receipts and disbursements may
be entered in detail in the cashbook; however, that system may
not be practical to the average creamery. A complete record
should be made in detail of all receipts. Cash sales for the day
may be entered as one item. By adhering to the system out-
lined in the following it becomes possible to materially reduce
the number of entries to be made in the cashbook.

A petty cash record may conveniently be kept in many dairy
establishments where small sums of money are paid out daily in
the form of cash. By that system a check should be drawn
crediting cash and debiting petty cash.

IV. The Check Register. — The check register is a record of
all checks issued. Checks should be drawn for all money paid
out, and the check register should therefore check with the pur-
chase record. No itemized record needs to be made of the milk
and cream pay roll, but one entry should be made daily of the
total amount paid for milk and cream. The check register
should also at all times show the bank balance. The stub of the
check book may be satisfactorily used, thus eliminating a spe-
cial form of check register.

B. RECORD OF PURCHASES

I. Milk and Cream Purchases. — Milk received at a whole
milk creamery is recorded on a blank known as “the milk
receiving record.” It is not transferred to any other form of
record before payment is made, when it may be transferred to
the general purchase record as one single item of milk purchased
for the period. Creameries receiving cream are forced to keep
more detailed records as each separate lot of cream is tested
and the butter fat calculated. Cream collected on routes
may be recorded on a driver’s report blank (Form IX,
p. 118). The entire load of cream collected by a driver is at
the creamery recorded on the daily cream receiving record
(Form VIII, p. 113), and a special route checking record (Form

FORM XXXII

CHECK REGISTER

a CREAM

5 aoe it aaa aso

=

336

CREAMERY BOOKKEEPING 337

X, p. 119), is kept of losses or gains sustained from each route
operated.

The accounts of the individual patrons are daily transferred
from the cream receiving record and from the driver’s reports to
the patrons’ statements. These are often attached to the check
blanks and are filed alphabetically in a loose-leaf binder. When
time for making remittance, the statement with check properly
made out is delivered to the patron. A duplicate (a plain sheet
of cheap paper may be used for this purpose) is kept for refer-
ence and filed alphabetically and divided numerically in accord-
ance with date of payment.

FORM XXXIII

Patrons STATEMENT AND CHECK

Royal Greamery Qo. ,
J ROYAL. hh Ne No_7é+_
Roya, France, aseh.2 [9/9
Pay TO THE
ORDER OF OMY $22
DPS TRE: AIIM ee aa Ties
~ DOLLARS

ROYAL CREAMERY CO.
By SEC'Y

nove aecnat nce ¢ semeeeeceaecens coaee auroras toemncccees aacamnsereseereRe anes

“CTEAR OFF BEFORE PRESENTING FOR PAYMENT?
NOTICE Check hereto attached 1s in payment of the following items. If incorrect,
return at once with check. ROYAL CREAMERY CO

2S DI ee Fo Mac cere ee, Ricooc
ah 92 |as | 2 | ws | ao | [| [declerAzw, | TT | Joel TL
1 ay i Le Oe) Ra WO a a
a1 99 |as |» | vas | ao || | [abo Aw III I fee) P
[| ESE (TMS A, ORE a La OO
SoS FES PR NS ae Fe Oe
(0S 9 SE EE ee TC HW
(eS SE ee eS ey GE ee ee ee ee
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Remmi ea na vee ee taraere eI Fe ed Aaa
SN OES) ERY F(R HG ES FCO 1 HD
TOTAL eA tT See Eee

Labor is saved by having statement and check attached, as it
becomes necessary to write the name of a patron only once,
whereas, if separate, the name should be on the statement, on
the check, and on the check register. Furthermore it should be
noted on the check register the item for which the check was

FORM XXXIV
ITEMIZED RECORD OF PURCHASES

oleh eh tele tales ete ea ie eae b——

cor He

CdUMAUUROREES —

eSCOCCCCC CL f———

a
San

BRRGEEREROEE —

CREAMERY BOOKKEEPING 339

sssued. That information is by this system contained on the
duplicate.

As will be noted, the statement (Form XXXIITI) also answers
the purpose of a patron’s ledger, and the bookkeeping Is thus
materially facilitated and it assures prompt payment for mer-
chandise purchased by the creamery patrons.

Il. Forms of Purchase Records. — The purchase record
may for the sake of convenience be divided into two forms, one
containing an itemized record of purchases and the other a sum-
mary of daily purchases.

An itemized record of purchases is kept so the one who is in
charge of purchases may be enabled to know when orders for
goods were placed, when such goods were received, and when
paid for. Such a record is convenient to refer to at various
times and particularly when closing the books at the end of
each month. A glance at this report will give information as to
whether the goods inventoried at the close of the month have
been paid for.

The monthly purchase record furnishes a record of all pur-
chases made during the month including all items which have
been paid, such as labor, insurance, interest, depreciation, etc.

Entries may be made on the monthly purchase record when-
ever payments are made, or not later than the last day of
the month for all goods, labor, etc., received during the
month.

III. Record of Depreciation. — Depreciation and similar
items, the amounts of which are paid back to the firm, may be
treated the same as any account payable and a check issued,
payable to the firm by which issed. This amount, as in case of
depreciation, is credited to the plant and equipment account
and charged against the expense accounts of the departments.
The advantage in issuing a check for the amount is that the
amount of checks issued should equal the total amount of the
purchase record.

The general ledger should always contain a complete record
of depreciations. Consider, for example, the equipment ac-
count; the cost of the equipment should be entered on the debit

FORM XXXV

PURCHASE RECORD

340 MANAGEMENT OF DAIRY PLANTS

PERE EC COC EE ECE te ia

Ee "EDs Rw oe a Oa
i dazsssseeeeeeseeeeeeeseeeeier

ite

CREAMERY BOOKKEEPING 341

side of the ledger while the amount depreciated is entered on the
credit side. Suppose the value of the equipment January 1st
is $3,000 and that a depreciation of $50 per month is allowed;
then the equipment will at the close of the year show a value
of $2,400, provided no new equipment was added during the
year. If equipment to the amount of $300 was added, then
the equipment account will show a value of $2,700. The
amount depreciated should represent the actual loss due to wear,
breakage, etc.

A creamery operating routes with its own teams and wagons
should keep a similar ledger account of the horses, wagons, and
harness. If several departments are operated by the same
creamery, such as ice cream, butter, and cheese departments,
then a separate ledger account should be kept of the equipment
for each separate department. If the creamery owns its own
building, a building account should be carried, etc. The ob-
ject is that the record should always be complete enough so that
the management at all times will have a correct idea of the assets
and liabilities of the enterprise.

C. RECORD OF SALES

A complete monthly record should be kept of all sales. Such
record should be complete enough to furnish information
about cash and credit sales, sales to patrons, and consignments.

I. Cash Sales. — Such are sales for which cash is received
upon the delivery of the goods. The only record necessary to
keep of such sales is the original sales ticket (Form XXI, p. 239)
and a total of the day’s cash sales is recorded on the sales
record.

II. Credit Sales. — Credit sales are recorded on the same
forms as cash sales; in addition thereto an entry of each per-
sonal credit sale is made to the debit ledger (Form XXX).
After the daily entries have been made to the debit ledger the
sum of the entries for the day should be taken and should check
with the total credit sales as recorded on the sales record.

III. Sales to Patrons. — Although these are credit sales they
are recorded separately as, instead of being entered on the debit

342 MANAGEMENT OF DAIRY PLANTS

ledger, they are entered on Form XXXIII and remittance for
such sales are made when the amount is being deducted from
amount due the patron for milk or cream. A ticket such as
Form XXIV is usually presented for such sales instead of the
general sales ticket.

IV. Consignments. — Goods disposed of on consignment
may cause some confusion as the remittance is made later
and there is usually some shrinkage in weight from the time
the butter leaves the creamery until it is sold. The price
is also likely to change. The writer has found it most satis-
factory to make a sales ticket for such shipment the same
as for butter sold locally, figuring actual weight the day of
shipping and calculating the value on the same basis as that of
butter sold to local merchants. This entry is made on the sales
record. Another entry is made thereon when remittance has
been received. This record is of value to the creamery, also for
the reason that if the creamery is losing too much on butter
sold on commission, it may be advisable to establish local mar-
kets for the entire output.

D. RECORD OF INVENTORY

I. Monthly Record of Inventory. — If the monthly sales
constitute the sales of the product manufactured from the
monthly receipts of raw material, no more nor less, and if the
material on the purchase record includes such purchases as are
made only for the month’s business, then the difference between
the total monthly sales as recorded on the sales record and the
total monthly purchases as recorded on the purchase record
equals profit or loss. This method, however, is impracticable
in business and therefore it will be necessary to consider the
monthly inventory when making out a report of monthly profit
and loss.

The monthly record of inventory is furthermore of value for
the following reasons:

1. For determining the amount of supplies used during the
month.

2. As a guide for placing orders for supplies.

FORM XXXVI

SALES RECORD

CREAMERY BOOKKEEPING 343

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344 MANAGEMENT OF DAIRY PLANTS

3. As a record in case of fire loss.
4. As a check record on waste of supplies.

FORM XXXVII
BUTTER DEPARTMENT

INVENTORY — MontTH OF MaAy

On hand May 1 Purchased On hand June 1
Item —— | ———_—___———
Amount Value Amount .| Value Amount Value
Butter tubs..... 152 76.00 300 150.00 147 73.50
Butter boxes. ... 20 5.60 200 56.00 152 42.56
Tub liners com-

DLEtels ete Sie are 200 11.20 | 1,000 56.00 920 S152
Box liners....... 150 1.50 400 4.00 450 4.50
Butter wrappers | 1,000 1.56 |10,000 15.60 | 6,500 10.14
Butter color..... 10 gals. 40.00 734 gals. 31.00
Salter adie ate 4 bbls. 16.00 10 bbls. | 40.00 81% bbls. 34.00
Thermometers. . . 24 24.00 21 21.00
Can brushes... . . 4 2.00 12 6.00 12 6.00
Floor brushes... . 1 .65 6 3.90 5 3225
ACIGM Ree aes = 2 gals. 1220 5 gals 3.00 1 gals 0.60
Separator oil... 6% gals 6.50 2% gals 2.50
Engine oil... .. 4 gals 1.80 ; 4% gals 2.02
ub) tins). ace: 1,000 2.50 15,000 12.50 | 4,750 11.87
Washing powder. 5 bbls. 70.00 31% bbls. 49.00
Total for supplies 260.51 347.00 343.46
Coal on hand... . 1% tons 6.00 18 72.00 6 24.00
Butter on hand. .| 4,078 lbs. 2,854.60 47,121 Ibs. 2,827.20

‘Lotalee et : 2,860.60 419.00 2,851.20

The manufactured products, such as butter and ice cream,
may or may not be included on the monthly record of inventory,
but if not included then record of such products should be found
on a daily inventory record.

II. Daily Record of Inventory. — This record is primarily of
value for checking the stock of manufactured goods as well as
stock of raw material on hand. Such reports should be available
for the manager daily and may be in form of a card as Forms
XXXVIII and XXXIX, or on a large record sheet combined
with a daily manufacturing report as Form XL.

CREAMERY BOOKKEEPING 345

FORM XXXVIII
STOCK RECORD

Date

wives a
ase ai a a se
Ree ors

ee
dl SO a i
(oo 2 a ae ae
oS ee ea a
eS aS ae
> UO Be a

Form XXXVIII is a general form which may be used for the
entire stock in the various departments while Form XXXIX isa
department inventory record; the latter containing a record of
the manufactured product as well as of milk and cream handled
for the manufacture of ice cream.

The inventory recorded as last item on Form XXXVIII is the
inventory taken of the goods in the stock room. If this in-
ventory does not tally with the theoretical inventory then there
is a gain or a loss in the stock on hand and such gain or loss is
recorded on report.

E. PROFIT AND LOSS

I. Monthly Report. — The creamery business is of such a
nature that it is difficult to estimate profit or loss daily; the
prices are changeable, so is the margin of profit, operating ex-
penses, losses, etc. Therefore a complete report of profit or loss
should be available monthly. Larger plants are even known to
estimate the profit or loss for the month at the beginning of the
month. This estimate is then at the close of the month checked
against the monthly report. An estimate is readily prepared of

ping SST ea Sn aia el ei ee el ili ea 8 || Fe anh ecient AEA 3 tea Geen =) SS goatee. kale es ae

Sng SSRN heed er
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Sead aes eh cine:

AXYOLNSANI WV3YD GNY WIINW Bekse ONINYOW ‘ONVWH NO WV3uD 35!

AYOLNAANI WWSeD Sol
XIXXX Wao

346

FORM XL

MANUFACTURING AND INVENTORY RECORD

elal |_|

ABH

et
oe

=

CREAMERY BOOKKEEPING 347
AA TS a a BS ee A El
BER SaSenn
20:5 GRE DO Pee Rea eee
[HAESIRaaitaaaasatasatasiiasisial
| EA ERED aE REN SEENE
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J: BORE DERE Reh Pera
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| EDAD ERERAR SAAN D
AWPECEEARO RE RRe ERSRERRRC RGR

348 MANAGEMENT OF DAIRY PLANTS

the coming month’s business by comparing expenses, output,
etc., with that of the corresponding month of previous years.
This is a valuable method for guarding against losses, and it is
known that large companies have made good returns by adopt-
ing this system.

Records from which the figures are obtained for the profit and
loss report are the purchase record, the sales record, and the
monthly inventory record.

FORM XLI
STATEMENT OF PRoFiT AND Loss For MAy
Butter Cr.
Pitter sales, 33718 MDS. 3 ys Dose e ee oes eho $11,979.52
Shick Cermrat lis SALES cia ies acc sd So TB te ts ace had 41.00
Steam sold to ice cream department.............. 20.00
Butter ow hand, Jane-rst;\4/712' Was. to... 3 6s 2,827.20
Gren, WAM ates eee aa a ties oe ns be Wess 24.00
Pactory supphesion hands. ih .06 1 ecter 3a es sibs werd 343.46
Giicesuppiies ON Nand sys 51geaicc tts tise adios gale 5 « 24.50
—§\—-_ $15,259.68
Dr.
Butter on hand, May tst,.4,078 tbs. 65.9.5... 2.8 h3 $ 2,854.60
Coal on hand, Be Oe ENA a Ente ta ee haetoe eee 6.00
Factory supplies on hand, May ist............... 260.51
Office supplies on hand Oe) Bee bisa atbes Oat ayat cts pie 18.00
Milkand cream pirchased }).0.0. 4s. 403 Seen ee 11,195.14
Factory supplies purchased) ))22 005 0. 2 aa ke 347.00
Office iy “ii oth SURED Weer ah AL Sea DM ag aU 10.00
CGA pirendsedh "ical ste Penny wets Meir sta Ath 72.00
Power Ub LR NE Be crate shen bt iRe hee Un Viv ai aan vee Ne 20.00
1B a rsh (27 = pla me Mada ed Mn, tL ean A sa eh 8 15.00
PREM ays ees Fe ant ee ete ev hE ert cone aie 30.00
TASES Ae ePrice he eas 200.00
| fe ee Re EOD Deo Mire ad REPL RAISE LAL tk 2) URE 7.50
Revares os wie nha Sn Lee AS 15.00
Tnterést-and thsautanee 2647), «cue soa tasaotne woe 19.50
TIS C TEIN yay, 6 Sle os ded cate ot eae UR ope 30.00
Lose on Consignments (2 7 se ten tikes oe he aos 46.48
Prenton Mavs.) oc ss tule Gone emulate aa erenngrie 112.95

$15,259.68

CREAMERY BOOKKEEPING 349

FORM XLII

Ice Cream

Gr.
De CPANEL ices eine cic ohn d eet ss: eile hs Wi $ 2,421.00
dee cream on hand, June est... .. 4.6 6b kee Ss 108.00
Milk and cream on hand, June tst............... 85.00
SUURINIGS MM PIMA PUI BSE 0S ale sk oe 5 dk with ore 260.00
———_ $_ 2,874.00
Dr.
aeeereamven Hane. May TS ek ecg in vce we $ 63.00
Nak and cream on hand, May 1st... 0... 04...... 76.00
pees Giana. May ESt. oo... dc ees a 40.76
ir ai) @Peat PUTCHASE <6. oe ed ke 1,619.80
Paciory SUpGNeS DUTCHASed. 0) OS... os bee as 284.24
EBS oS] ET Oe a 15.00
OWES e toe er, Mecano = 8 tana eee es ese ale sis ws 10.00
EG tS Bei AE ES ey, 0 8 a ee re 60.00
CT ees Ns at oA iar? 2.68 Whales 15.00
RT ee ea ee ek ym as hole ha Sh 150.00
RO Oe a eh eT eR Says Cue Ri ob ed Sune IOI.20
RPI IE Mah, Pete Sele OP eg Fe cee tm oF Chia 10.00
Syistrnice ane WAberest. coo C8 ci Uh ele ne e,e wis es ss 10.20
EASES TT 272 1 epee AUGER TO ee ee ae an 25.00
Steam from butter department.................. 20.00
EOE ONO ge Gee se a 373.80
— $ 2,874.00

The total monthly profit or loss should be entered in the
general ledger, which will serve as a permanent record. A se-
parate ledger leaf is used for each year. The monthly profit and
loss report, the same as other important records, should be filed
so it may be available for future reference. For this purpose a
loose-leaf binder is most satisfactory.

II. Financial Statement. — The financial statement is a
summary of the firm’s resources and liabilities and as such it
shows the financial condition of the firm. The monthly state-
ment of profit and loss should be checked against the financial
statement. The monthly statement may be considered correct

350 MANAGEMENT OF DAIRY PLANTS

if the resources of the firm show an increase above the liabilities

equal to the monthly profit.

FORM XLIII

FINANCIAL STATEMENT JUNE IST

Resources
Plaritiand equipment.) 62h. a3 care ak so eee e aly ee es $15,120.00
BWwhler ois andes. sede Rane aa. 8 cones Guest 2,827.20
lice iereana.a@n: dna sir ok k Ge et 52 cei alee ege calc bee 108.00
Milk-and creamon hand ().\0 0) ssn ener iaiieiue vise 85.00
[Bes Bosc] 01 RON MEAT SOR aR RP ea 92 Oy 7 a rR ea 24.00
Supplies on hand, butter department............. 367.96
as Se titer. ACE CRGAIML CS Samimen een nt ce. (2c abeN! 260.00
FACCOMIMNTS TRCCTVRIOIE o o'h2 a's: cel ee REA Oks ie wie ees 3,295:02
rattle Aa CON Mis a ists, ince ae, nee apres so.) bein 669.77
Migneyvon hangin @fiee sy mri. tebe eo eh isc ohoales 52.15

Liabilities
Grapibeth tems) os Havay. traces: «ust aeare entail nee eee ee $15,000.00
Due patrons for mulk and cream)... 66. JW eae 660.50
1 CTL SAGE GE ot Co MNO RO OY SAL RS era MOUS a 370.67
INOHES WAVAlen 4 hia UN eG nae eter asec sick ma yeeun by 5,000.00
Undivided profit previous to May................ 1,291.20
rant WON TA ees fates ero in kee ere hn ob arte aie lg Sa 486.75

$22,855.60

$22,855.60

At the close of the year, plant, fixtures, etc., should be re-
valued, uncollectible accounts and notes should be charged off,
and the new year should be begun with figures representing the

actual value of the resources.

INDEX

Absorption refrigeration, 81
Acidity of cream, 101, 210
Active custumers, 233, 237
Active patrons, 106
Advertising, 26, 281
advertising manager, 204
appropriation for advertising, 291
booklets, 298
circular latters, 297
creamery, 299
essentials, 287, 301
exhibits, 299
mailing cards, 297
medium for advertising, 294
newspapers and magazines, 294
novelties, 298
planning and writing, 293, 299,
306
“‘nolicy ” advertising, 286
programs, 299
purposes of advertising, 282
scrapbook, 306
signs and billboards, 296
street railway cards, 297
tools of advertising, 302
Aging creams, 220
Air lift, 161
Ammonia, 68, 69, 78
Ammonia condenser, 70, 76, 78
atmospheric condenser, 78
double-pipe condenser, 78
Ammonia compressor, 70, 72
double acting, 75, 76
single acting, 75

351

Application blank, 84, 85
Articles of incorporation, 14, 19
Artificial cream, 209

Artificial extracts, 214
Asphalt, 28, 30

Australian butter box, 274

Bacteria in cream, 211

Bacteria in ice cream, 218

Bad accounts, 261

Bank draft, 329, 331

Banking facilities, 6

Bell trap, 41

Berries, 215

Bills, 127

Bill boards, 296

Blackberries, 215

Boiler, 138, 157, 164

Boiler losses, 134

Bonds, 91, 166

Bookkeeping, 332
cashbook, 333
check register, 335
depreciation, 339
financial statement, 350
inventory, 342
ledger, 332, 337, 339
patron’s statement, 337
profit and loss, 345
purchase record, 335
sales record, 341
systems, 332

Booklets, 298

Bottling cost, 260, 264

352

Bourbon vanilla bean, 212
Bradley box, 275
Bradstreet agency, 320
Branded butter, 250
Brick, 31, 33, 34) 53
Brine method of refrigeration, 70
Brine table, 72, 73
British thermal unit, 50
Broker, 199, 235
Building, 5, 8, 33, 120, 164, 232,
209

chimney, 35

floor, 9

foundation, 31, 36

frame building, 31

location, 8, 9

painting, 37

roof, 36

ventilation, 38

walls, 9, 31, 51

windows, 9, 53
Butter236, 245; 250; 272
Butter barrel, 275
Butter box, 272
Butter fat, 170, 181, 185
Butter grades, 246, 249

~ Butter maker, go, 93, 95

Butter printer, 278
Butter tins, 276
Butter tub, 273
Buying supplies, 123
contract, 125
cash discount, 126
By-laws, 16, 19

Cans, 112, 115, 164
Capital stock, 17, 19, 22
Carbonic acid, 68
Card records, 106, 237
Cash book, 333

Cash sales, 341

INDEX

Cash system, 103, 261

Catch basin, 42

Cement, 30

Cement block, 31, 34

Cement floor, 28

Certificate of stock, 18

Cesspool, 43

Checking routes, 117, 243

Check register, 335, 336

Checks, 103, 237

Cheese, 231, 236, 253

Cherries, 215, 217

Chimney, 35

Chocolate, 217

Chocolate sirup, 218

Cinders, 56

Circular letter, 238, 297, 317

City delivery, 256

Clearance, 80

Coal, 131

Cocoa, 217

C. O. D. sales, 331

Collecting agencies, 328

Collections, 325, 327

Collector, 327

Commercial agencies, 320

Commission merchants, 235

Commission sales, 235, 242, 342

Common stock, 17

Competition, 4, 5

Composite samples, 117, 191

Composition of butter, 170

Condensed steam, 144

Conduction of heat, 50

Convection of heat, 49

Coolers, 148, 156

Cooling, 147

Cooling tank, 72

Cooling water, 148

Coéperative creamery, 5, 7, 18, 165
advantages, 21

INDEX

Coéperative capital stock, 19
dividends, 19
membership, 20
Coéperative cream hauling, 114
Codéperative cream selling, 122
Codperative selling agency, 236
Copartnership, 11
dissolution, 13
formation, 11
liabilities, 12
partners, 12
Cork, 56
Corporation, 14
advantages, 14
capital stock, 17
certificate of stock, 18
liabilities, 17
officers, 16
Correspondence, 309, 327
body of letter, 313
filing, 318
form letter, 317
parts of letter, 312
stationery, 309
Cost
advertising, 292, 204
bottling milk, 259, 264
buttermaking, 3, 198, 247
cooling, 147
delivery, 256, 260, 264, 266
electric power, 141
fruit sirups, 216, 217
gasoline for power, 140
homogenization, 209
ice, 81, 223
ice cream making,
222
kerosene for power, 141
labor, 95, 96, 148, 201, 222, 259,
269
lemon extract, 214

203,° 221;

353

Cost of marketing butter, 199, 200,
234, 245
marketing cheese, 253
marketing ice cream, 254
marketing milk and cream, 258,
261, 267
mechanical refrigeration, 80
overhead expenses, 261, 264
pasteurization, 143, 149
power, 223
printing butter, 279
roofs, 36
routes, 114, 234
raw material, 203, 258, 265
re-icing ice cream, 257
salt, 223
simple sirup, 218
shipping ice cream, 254
steam, 131, 140, 143
vanilla, 212
water, 158, 162
Cream, 102, 116, 204, 210, 220,
234, 258
Cream buyer, 122
Creamery construction, 24
Cream-receiving station, 5, 120
Credit information, 320, 323
Credit man, 319
Credit men’s ass’n, 321
Creditors, 13
Credit sales, 341
Curd in butter, 180

Daily records, 107, 113, 202, 270
Danish firkin, 277

Day-wage, 92

Dead air space, 34, 54

Debts, 12

Delinquent custumers, 326
Demonstrations, 299

Density of water, 145

354

Depreciation, 164, 339

Direct expansion, 70
Directors, 16, 19, 90, OI, 236
Discontinued custumers, 237
Discontinued patrons, 106, 107
Distributing milk, 260, 264
Dividends, 17, 19, 22
Dormant partner, 12

Dosing chamber, 44, 46
Double acting compressor, 75, 76
Double entry, 332

Drafts, 329

Dun Agency, 320

Earthern jars, 275
Electric power, 141
Employees, 84, 90
Envelope, 310
Equipment, 123, 148
Exclusive agency, 234
Exhaust steam, 135, 138
Exhibits, 299

Expansion coil, 7o
Expansion valve, 70, 78

Factory school, 338
Feed water, 135
Feed water heater, 138
Filing, 106, 127, 318
Fillers for ice cream, 218
Filter bed, 44, 46
Fimancial statement, 322, 349
Fire brick, 35
Fire clay, 35
Firing, 138
Flavoring extracts, 211
lemon, 213
orange, 214
vanilla, 211
Flavors in cream, ror
Floor plan, 9, 24

INDEX

Floor, 28, 35, 60

asphalt, 30

cement, 28

plank, 30

stone and tile, 30
Follow-up system, 104
Food value of dairy products, 183
Foot pound, 134
Foundation, 31, 36
Freezing ice cream, 220
Friction head, 159
Fruit, 215
Fuel, 131, 132

Gasoline, 140

Gasoline engine, 140

Gelatin, 218

Gem fiber box, 275

Glymol, 194

Good will, 164, 282

Grading cream, 100, 102
Gravity-brine refrigeration, 62

Half tone, 305
Hauler, 94, 115, 116
Hauler’s report, 118
Heat, 133

Hollow tile, 31, 33, 34
Homogenization, 208
Horse power, 134, 157

Ice, 62, 64, 81, 117

Ice bunker, 58

Ice cream, 203, 231, 234, 254
Ice cream containers, 221
Ice cream freezers, 72

Ice house, 58, 60, 63, 64, 67
Ices, 214

Illustrations, 303, 305
Incorporators, 15

Ink, 310 j

INDEX

Insulated ice house, 60
Insulation, 49
construction, 54
material, 51
piping, 140
Insurance, 165
employers’ lability imsurance, 166
fidelity insurance, 166
fire insurance, 166
Interest, 165
Inventory, 128, 342
Invoices, 127, 240

Jobber, 199, 200, 235

Jomt-stock co., 21, 165
capital, 22
dividends, 22
stockholders, 23

Kerosene, 141
Kerosene engine, 141
Kilowatt, 141

Labor, 84, 201, 222
cost of labor for pasteurization,
148
day-wage, 92
distributing cost of labor, 96
hiring the employees, 84
non-productive labor, 92, 96, 07
organization of labor, 89
piecework, 93
premium and percentage, 93
productive labor, 92, 95
prompt pay, 04
reducing cost of labor. 95
surety bond, o1
time keeping, 95
training the employee, 87
Latent heat of fusion, 51
Latent heat of vaporization, 69

355

Laundry, 1
Liabilities, 12, 13, 17, 333, 35°
Lintels, 35
Lith, 58
Losses
bad accounts, 267
boiler, 134, 140
butter, 196, 243
butter fat, 117, 181, 185, 186, 195
butter milk, 185
equipment, 224
heat, 133, 134, 135
ice, 64, 66
ice cream, 221, 224
mechanical losses in butter mak-
ing, 156, 188
pasteurization, 152
power, 134
refrigeration, 54, 64, Bo
salt, 176
samples, 190
skim milk, 181
surplas milk, 260
testing, 180, 192
waste at milk plant, 260
water, 150
weighing, 188, 190
Loyalty, 59

Magazines, 204
Mailing cards, 207
Manager, 10, 90, 91, 220, 232, 236
Manufacturing costs, see “Costs.”
Manufacturing records, 202, 222,
347
Maps, 104, 233
Marketing, 226, 231
commission sales, 235
cooperative selling agency, 236
local markets, 5, 232
municipal milk plant, 237

350

Marketing records, 237
Mechanical losses of butter fat,
181, 195

Mechanical refrigeration, 68
absorption system, 81
compression system, 69

Mexican vanilla bean, 211, 213

Milk, 23, 231, 234, 230, 237) 258

Mineral wool, 56

Minor, 12

Moisture control, 176

Moisture in butter, 171

Molding ice cream, 221

Mortar, 30

Motors, 142

Natural refrigeration, 58
Newspapers and advertising, 294
Nominal partner, 12
Nonproductive labor, 92, 96
Novelties, 298

Officers, 16, 19

Oil trap, 138

Oleomargarine, 249

Orange extract, 214

Order clerk, 324

Originality in business, 87

Ostensible partner, 12

Overhead expenses, 258, 261, 264

Overrun, 168
butter overrun, 168, 183, 186, 195
ice cream overrun, 204, 218
per cent overrun, 169, 218

- value of overrun, 170

Package, 272, 288

Painting, 37
enamel paint, 37
priming, 37

Parafiner, 273

INDEX

Pasteurization, 143, 210
cost, 149
flash method, 146, 149
holding method, 146, 150
Pasteurizers, 150, 156
efficiency, 152
purchasing a pasteurizer, 156
Patrons, 22, 103, 337
active, 106
discontinued, 106
prospective, 106
Patron’s sales ticket, 242, 341
Patron’s statement, 337
Peach, 215
Percentage system for labor, 93
Perpetual succession, 15
Piecework, 93
Pineapple, 215
Pine wood, 52
Piping for refrigerator, 72
Piston pump, 161
Plastering, 35
“Policy ” advertising, 286
Potassium chromate, 179
Power, 131, 200
electric power, 141
gasoline power, 140
kerosene power, 141
steam power, 131, 140
Preferred stock, 17

. Premium system for labor, 93

Preparing butter tubs, 274
Print butter, 278, 280

Process butter, 249

Productive labor, 92, 95

Profit and loss report, 348 —
Programs, 299

Promotion, 282

Proprietary plant, 4, 5, 7
Prospective custumers, 233, 237
Prospective patrons, 106

INDEX

Purchase of milk and cream, 100,
335
coéperative cream selling, 122
codperative hauling, 114
cost, 258
cream buyer, 122
cream route, 114, 119
cream station, 120
follow-up system, 104
grading, 100
individual delivery, 108
records, 338
shipping, 109

Quality, 100, 287
Quick assets, 5

Radiation of heat, 49
Railroad facilities, 8
Raspberry, 215
Raw material, 2, 21, 22, 203
Real estate, 16
Receiving record, 126
Refrigeration, 49

cost, 80

insulation, 49

mechanical refrigeration, 68

natural refrigeration, 58
Refrigerator, 59, 64
Refrigerator butter carrier, 273
Regenerator, 148
Rent, 163
Repairs, 165
Resources, 333, 35°
Retailer, 199, 200, 232, 247
Retail sales, 222, 223, 232, 247, 258,

264, 265

Richness of cream, 102
Roof, 36

flat roof, 36

gravel roof, 36

Roof, pitched roof, 37
prepared roofing, 36
tin roof, 36

Rotary pump, 161

Routes, 105, 114

Route sheet, 244

Rural business, 7

Salesman, 226, 233, 286, 324
Salesmanship, 226
Sales record, 239, 341, 343
Sales ticket, 239, 241, 242
Salt control, 176
Salt in butter, 174
Salt test, 178
Sandstone, 53
Sanitation, 8
Sawdust, 54
Scales, 188
Score card for cream, Io
Seals, 16, 110
Septic tank, 8, 44
Sewage disposal, 40

catch basin, 42

cess pool, 43

septic tank, 44

sewer system, 40

sewer traps, 41
Shavings, 54
Shipping cream, 109, 121
Shipping ice cream, 224, 254
Shipping-tags, 110, 225
Shrinkage in butter, 196
Sight draft, 6, 329
Signs, 296
Sills, 35
Silver nitrate, 178
Simple sirup, 217, 218
Single acting compressor, 75
Single entry, 332
Sinking fund, 20

357

358

Siphon trap, 42
Skim milk, 181

formula for fat loss, 182
Smoke bridging, 35
Solid-packed butter, 277
Special partner, 12
Specific heat, 65

Standardization of cream, 204

Statement, 241

Stationery, 309

Station report, 120

Steam, 131, 133, 143, 144
Steam engine, 140, 164
Stock clerk, 128
Stockholders, 16, 17, 23
Stock record, 344, 345, 346
Storing butter, 199, 250, 251
Storing cream, 210
Storing fruit sirup, 215
Strawberry, 215, 216
Street-railway cards, 297
Sugar, 211

Sulphuric dioxide, 68
Superintendent, 87, 90, 91
Supplies, 123, 127, 128, 344
Surplus milk, 261

Sweet butter, 175

Tahiti vanilla bean, 212, 213
Testing, 189
artificial extracts, 214
glassware, 189
reading tests, 192

INDEX

Testing samples, 190

Time draft, 329

Time keeping, 95

Trade-mark, 250, 283, 289, 290
Transferring correspondence, 318
Treasury stock, 18

Type, 303, 304
Unsalted butter, 175

Vacancies, 16
Vanilla bean, 211
Vanilla extract, 211
preparation, 212
standard, 212
Ventilation, 38
Vestibule, 54

Walls, 9, 31, 51, 56, 57, 60
Waste, 260
Water, 158
Watered stock, 18
Water pumps, 160

air lift, 161

piston pump, 161

rotary pump, 161
Wholesale milk, 264, 267
Windows, 9, 53, 62
Working capital, 5, 6
Wrapping butter, 279

Zinc etchings, 305

Printed in the United States of America

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