QUARTERLY REPORT Wl TABLE OF CONTENTS BY VOLUME NUMBER Volume Number Table of Contents I I. PRE- EXPLORATION ENVIRONMENTAL RECONNAISSANCE SURVEYS A. Biological B . Archaeo log ical II. ENVIRONMENTAL BASELINE MONITORING PROGRAMS A. Surface Water 1 . Streams 2. Springs and Seeps B. Core Drilling and Associated Ground Water 1. Well Survey Plats 2. Completion Data 3. Drilling Water Production 4. Water Quality - Drilling 5. Water Quality - Baseline 6. Water Quality - Pump Tests 7. Aquifer Data - Jetting Tests II 8. Aquifer Data - Drill Stem £ Multipacker Tests III 5 IV a. Drill Stem Tests - SG-17 V b. MPT Series 1 - SG-17 c. MPT Series 2 - SG-17 VI d. MPT Series 3 - SG-17 e. Drill Stem Tests - SG-20 f . Drill Stem Tests - SG-21 9. Aquifer Data - Pumping Tests VII § VIII 10. Lithologic Logs 11. Geophysical Logs 12. Assays 13. Trace Element Analysis 14. Rock Mechanics 15. Gas Samples IX C. Air Quality 1. Air Quality and Surface Meteorology 2. Low Altitude Meteorology 3. Upper Air Studies 4. Visibility 5. Atmospheric Diffusion Studies X XI § XII 6. Radian AQ Data XIII D- Biology 1. Terrestrial Wildlife Studies 2. Aquatic Studies 3. Terrestrial Vegetation Studies 4. Dendrochronology and Dendroclimatology 5. Soil Survey and Productivity Assessment III. OTHER STUDIES A. Fish and Wildlife Management Plan B. Revegetation Program C. Microenvironmental Program D. Aerial Photographic Study E. Archaeological Studies F. Scenic Values Program 1 SiL AL-EC-U7 14 MARCH 1875 ENVIRONMENTAL CONSULTANTS UPPER ABR STUDBES OVER FEDERAL OBL SC-3ALE TRACT C-b DURSrJG WINTER 1975 PREPARED FOR THE C-b SHALE OIL PROJECT V PREPARED BY L* ROGER NELSON METEOROLOGIST APPROVED BY ;/C jj^fe L. C. MEYER PROJECT MANAGER II C-1096 CONTENTS Page 1.0 INTRODUCTION * II C-1099 1.1 BRIEF SUMMARY II C-1099 2.0 DATA ACQUISITION TECHNIQUES II C-1100 2. 1 TEMPERATURE PROFILES II C-1100 2.2 WINDS ALOFT II C-1102a 3.0 DATA PRESENTATION II C-1102a TABLES Table Page 1 Temperature Probes Specifications II C- 1101 2 Weather Condition Log II C-11C3, 1104, and 1105 3 Tract C-b II C-1106 FIGURES Figure Page 1 Dual Temperature Sounding Performed Over Tract C-b about 12:00 MST on 1/23/75 II C-1109 2 Dual Temperature Sounding Performed Up Over Tract C-b and Down Over the Rock School House 8 km to the North on 2/2/75 II C-llll 3 Horizontal Flight Across Piceance Creek from Rock School House to the C-b Met. Tower H C-1112 4 Horizontal Flight Up Piceance Creek Valley from Redd Ranch to the Rock School House II C-1112 II C-1097 CONTENTS (continued) Page LIST OF REFERENCES II C-1113 APPENDIX A II c-1114 to II C-1165 APPENDIX B II C-1166 to II C-1181 APPENDIX C II c-1182 to II C-1197 11 C-1098 1.0 INTRODUCTION This report summarizes and presents upper air meteorological data taken over Federal Oil Shale Tract C-b during the period 20 January through 9 February 1975. The studies to acquire winds aloft from the surface to 6, 000 feet and temperature profiles over the same height inter- val were performed by EG&G for the C-b Shale Oil Project. The purpose of these studies was to investigate the temperature and wind structure of the atmosphere over Tract C-b as a function of season. The ultimate use of this data will be for inclusion into modeling studies to predict the environmental impact of future oil shale developments. Attempts were made to obtain 15 days of soundings with four per day. As long as at least two (down into the valley below the tract) were per- formed, the day was considered successful. 1. 1 BRIEF SUMMARY A brief summary of the most noteworthy points found in the data is presented here. For a more complete description of the processes involved and a more extensive summary, the reader is referred to EG&G Report No. AL-EC -116, 14 March 1975, "Upper Air Comparison Studies for Winter 1975 between Federal Oil Shale Tracts C-a and C-b and Grand Junction, Colorado. " The topography of the Federal Oil Shale Tract C-b is complex. The wind structure above the tract depends heavily upon the upper (500 mb) level flows as well as the detailed surface topography. In general, the upper level winds are from the west, although during the study period, the winds ranged from throughout all sectors. In addition, wind speeds during the early morning hours were significantly smaller and less gusty than during the remainder of the day. II C-1099 The temperature structure above the tract followed the dry adiabatic lapse rate very well above 1, 500 feet above the surface on clear days. On moist days (with showers or snow squalls in the area) the temperature structure showed more of a wet adiabatic behavior. The lower 1, 500 feet above the surface showed a somewhat more complex profile with inversions in the morning hours which generally broke up by early afternoon. The temperature inversions were much more pronounced in the valleys below the tract. The average mixing layer depth in the presence of an inver- sion at the early morning sounding (about 05:00 MST) was about 1, 200 feet. At about 08:00 MST, the average mixing layer depth in the presence of an inversion was about 860 feet. These values indicate that there is a significant difference in the mixing layer heights and intensities when an inversion is present compared with the Fall 1974 Upper Air Data (AL-ECP-74-107). Several flights flown to determine the horizontal temperature structure at constant altitude, but at varying height above the surface (dependent upon terrain), showed very little horizontal dependence; although the closest of these to the surface was not performed in the presence of an inversion. However, from the data collected from surface based measurements of the actual temperature, it is apparent that large horizontal temperature gradients can exist when a surface based vertical temperature inversion is present. 2. 0 DATA ACQUISITION TECHNIQUES 2. 1 TEMPERATURE PROFILES The vertical temperature structure from the surface to 13, 000 feet MSL was determined four times daily using a shielded sensitive ther- mistor mounted on a wing strut of a light aircraft which was flown out of Rifle, Colorado. The four flights were made at approximately 05:00, 08:00, 11:00, and 17:00 MST hours on days when the weather permitted safe flying. During daylight hours, soundings were made to within 100 feet of the surface; during night flights, 500 foot safety margins were observed. In addition, II C-1100 flights were made down nearby valleys to determine the temperature structure of the air actually below the proposed plant site on the 08:00 and 11:00 MST hour soundings. The instrument used for the temperature recording was an EG&G portable temperature recorder Model 702 which is designed to achieve high- resolution temperature recording from a moving airplane or automobile. The unit is capable of measuring temperatures in the range from -30° to +32 °C with an absolute accuracy better than ±0. 2°C, although for this operation, the unit was calibrated to within ±0. 1°C. The specifications of the Model 702 are given in Table 1. TABLE 1 Specifications : Sensor Probe: Type Range Accuracy Time Response Thermistor head in weatherproof radiation shield -30°C to +32 °C in six ranges ±0.2°C absolute Less than 2 seconds for 63% recovery Recorder: Resolution Process Chart Speed Chart Paper Power .1°C Meter and permanent, inkless on pressure sensitive paper 60 inches per hour 63 feet by 2 5/16 inch usable width Nickel- cadmium batteries, 10-hour operation II C-1101 The flight path of the aircraft was made as consistently as possible with a pre-established plan. The early morning sounding (05:00 MST) and later afternoon sounding (17:00 MST) started as close to the top of the Tract C-b meteorological tower as conditions would permit. If at all safely possible, a close fly-by of the tower top (200 feet above the surface) was made. This provided a check upon the aircraft altimeter which was used for height determination for the remainder of the flight. In all cases, over the entire course of the study period the altimeter indicated an elevation of 7, 200 ±50 feet above MSL during the tower fly-by. The true tower top is 7, 180 feet above MSL. During the 08:00 and 11:00 MST soundings, the flight path called for a slow, gradual (approximately 10 ft/sec) climb from approximately 50 feet above the surface of the Piceance Creek (in the direction towards Tract C-b and the meteorological tower) to an actual top-of-tower fly-by. This, by necessity, required that the measurement of the temperature at a level comparable with the elevation of the base of the tower be made horizon- tally displaced from the tower itself. On a normal flight plan, the temperature measurement made at the level of the base of the tower was approximately 1 km to the North. Because of this, data below about 7, 200 feet cannot accurately be termed "vertical" temperature soundings, even though the 10 feet/sec rate of ascent was maintained along the horizontal flight path. Once having made the tower fly-by to check the altimeter setting, the air- craft began its normal ascent to 13, 000 feet in an approximately 1 km diameter spiral at an ascent rate of about 10 ft/sec. Altitude markings were made on the temperature chart in real time by an observer. While the pilot attempted to maintain a constant rate of ascent, this was not always possible due to turbulence. For this reason, temperature/altitude readings were taken from the charts only at points marked with a distinct altitude. No interpolations between markings were used. II C-U02 2. 2 WINDS ALOFT The vertical wind structure from the surface to 13,000 feet MSL or cloud base was determined four times daily using 30 gram pilot balloons in conjunction with a theodolite. The theodolite was aligned to magnetic north and then corrected to true north by rotating it 15° counter-clockwise. The balloons were carefully "weighed off" using a standard National Weather Service inflation kit for 30 gram balloons inside an enclosed area to rule out any influence which wind might cause and released approximately 800 meters northwest of the main meteorological tower on Tract C-b. These balloons rise at an approximately constant rate of 600 feet per minute (Reference 3). During night operations, small water activated batteries connected to a tungsten filament bulb were attached to the balloon before it was "weighed off" to allow optical tracking. The balloons were released at 05:00, 08:00, 11:00, and 17:00 hours MST on days in which temperature soundings were made. At 30 -second intervals, azimuth and elevation were vocally recorded to within 0. 1 degree, although interpolations were attempted to within 0. 02 degree. The balloons were kept in the field of view at all times and only after the sounding was completed were the voice records transcribed to data sheets. 3. 0 DATA PRESENTATION During the course of the 21 -day study period, soundings over the oil shale tract were aborted on six days due to inclement weather causing dangerous flying conditions. A general description of the weather conditions for the 21 day period encompassing the 15 days of successful data collection is given in Table 2. The release times of the pilot balloons (pibals) and the temperature sounding times along with the heights attained by the balloons and the surface temperatures are presented in Table 3. II C-H02a TABLE 2 WEATHER CONDITION LOG Date Conditions 1/20/75 05:00 sounding cancelled due to poor flying conditions. After sunrise, few high alto cirrus until noon, turning to stratus with high gusty winds from southwest as storm front moved into the region. 1/21/75 Two- inch snow accumulation, high winds, poor visibility as snow passed through region all flights cancelled. 1/22/75 Instrumentation problems with temperature recorder - repaired and recalibrated; no soundings. Weather clear, light winds, few high cirrus. 1/23/75 Ceiling at 05:00 MST was 12,000 (snow). Alto-stratus over entire Piceance Creek region, ceiling 12,000 to 13,000 at 08:00 MST. Alto-stratus (20 to 30%) at about 14, 000 for remainder of day. 1/24/75 Light cloudiness through noon. Surface winds became gusty and strong in the afternoon about 14:00 MST bringing small snow storms through the area. Completely overcast at 17:00 MST and scattered light snow showers. 1/25/75 Heavy cloud cover (less than 9500) over Rifle forced 05:00 MST sounding cancellation. Cloud base lifting to 14, 000 with 50 to 60% cover by 08:00 MST. Very strong winds from northwest for remainder of the day. 1/26/75 High winds throughout day. Some light alto- cirrus during the morning, clear in the afternoon. Surface winds from south- west gu sting to 40 mph. 1/27/75 Complex weather picture, including Pacific Northwest front and cold Canadian air mass moved into area during the night. Completely overcast with snow showers in the area. All soundings cancelled. 1/28/75 Weather pattern remained over area. Severe turbulence, low ceiling, snow and freezing rain forced cancellation of all soundings. Accumulation throughout two day period of 6 to 8 inches of new snow. II C-1105 TABLE 2 (Cont'd) Date Conditions 1/29/15 Clear and extremely cold in the morning with intense low surface inversions. Another weak short wave impulse moved into the region in late afternoon bringing low clouds obscuring wind soundings. 1/30/75 Snow throughout entire 24-hour period. Local accumulation of four to five inches. Scattered snows began clearing in early evening. No soundings. 1/31/75 Heavily overcast in Rifle from 05:00 through 10:00 MST. Clear over tracts in Piceance Creek Basin. Temperature soundings cancelled at 05:00 and 08:00 MST due to poor conditions at airport. Late afternoon cloudiness developed bringing scattered snow storms. 2/1/75 Snow over Piceance Creek area at 05:00 MST, sounding can- celled. Clearing to partly cloudy at 08:00 MST over sites (1" accumulation), although high winds and clouds persisted until midafternoon. 2/2/75 Extremely clear all day; moderate southwest winds. 2/3/75 Clear through midmorning. High cirro-stratus formed by 12:00 MST continuing to become completely overcast by 17:00. Light surface winds throughout the day. 2/4/75 Moderate winds throughout entire day; approximately 30 to 40% cloud cover (alto-cirrus) until early evening with an increase in cloudiness and widely scattered light snowfall. Late afternoon sounding (17:00) cancelled. 2/5/75 High winds and scattered snowfall during the night. Heavy cloud cover and severe turbulence forced cancellation of all soundings. 2/6/75 Early morning cloudiness (moderate winds) with isolated snowfall becoming partly cloudy by mid- morning. Calm surface conditions and weather clear throughout afternoon. 2/7/75 05:00 and 08:00 MST soundings cancelled due to low clouds (9500 ft) and poor visibility in the Rifle area. Scattered snowfalls in the area. Clearing to 50% cover by noon with high winds. II C-1104 TABLE 2 (Cont'd) Date Conditions 2/8/75 High cirrus accompanied with high winds throughout morning. Alto-stratus at about 12, 000 MSL moved into area in mid- afternoon with no precipitation. 2/9/75 Severe turbulence with a 12, 000 foot ceiling until noon. Scattered snowfall (moderate to heavy) in the area. Ceiling lowering with more intense snowfall combined to cancel 11:00 and 17:00 MST soundings. II C-1105 DATE 1/20/75 1 23 75 1 24 75 1 25 75 1 26 75 1 29 75 1 31 75 2/1/75 2/2 '75 2/3 '75 2/4 75 2 6 75 2/7 "l 5 2 8 75 2 '9 75 FLIGHT NUMBER 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 TRACT C-b TABLE 3 TIME OF TIME OF P1BAL RELEASE TEMPERATURE SOUNDING PIBAL HEIGHT SURFACE TEMP (°C) msg 08:05 11:16 17:06 NA 08:50 11:41 17:51 msg 4200 5400 6000 msg -4.0 2.5 0.3 05:02 08:27 11:00 17:23 05:45 08:38 11:50 17:10 6000 3600 6000 6000 msg -2.6 2.8 2.9 05:10 08:00 11:02 16:49 05:36 08:20 11:28 17:14 6000 6000 6000 5400 -2.2 -3.1 2.4 msg NA 08:00 11:00 17:00 NA 08:38 11:44 17:22 NA 6000 6000 6000 NA 2.2 7.3 7.8 msg 08:15 msg 16.50 05:27 08:46 11:26 17:26 msg 3000 msg 4200 2.2 4.2 6.9 5.0 05:02 08:02 11:00 17:10 05:25 08:20 11:30 17:20 6000 6000 6000 4200 -13.3 -9.6 -2.5 -3.1 NA 07:55 10:55 msg NA NA 11:20 17:21 NA 5400 6000 msg NA -5.7 -1.9 msg 05:12 08:20 10:56 17:53 NA 08:31 11:35 17:16 3000 6000 6000 6000 -3.9 -3.6 -0.6 -1.7 05:20 07:53 11:00 16:47 05:34 08:30 11:27 17:12 6000 4200 6000 6000 -7.0 -5.6 1.7 0.2 05:12 08:03 11:00 16:47 05:23 08:16 11:23 17:07 6000 6000 6000 6000 -5.2 -4.4 0.8 2.2 05:09 07:57 10:52 16:50 05:24 08:21 11:30 NA 6000 5400 6000 5400 -6.9 -5.0 -1.4 -2.5 05:20 msg 11:10 16:59 06:28 08:23 11:19 17:15 4800 msg 6000 6000 -20.0 msg -5.1 -6.9 NA 08:40 11:01 16:55 NA NA 11:38 17:18 NA 4800 3600 6000 NA -4.7 -1.7 -1.9 05:01 08:10 10:50 16:57 06:01 08:27 11:41 17:18 4800 4800 4200 5400 -3.3 -1. 1 1.7 2.8 05:03 08:25 11:00 NA 06:05 08:10 NA NA 6000 4200 2400 NA 2.8 0.8 3.06 NA II C-1106 A summary of all pibal measurements taken over the study period and the resultant calculated upper air velocities (mph) and directions (heading in degrees) is given in Appendix A. Each sighting is listed and the height and horizontal coordinates (x and y corresponding to the distances in the east and north directions, respectively) are calculated assuming a 600 feet/minute constant rate of rise. Between each sighting a median height, velocity and direction is listed. These values were calculated from the prior and subse- quent sighting data. A value of 999. 0 indicates that a particular data point was missing. The data in Appendix A were plotted in polar form to give a qualitative and quantitative means of viewing the data. These polar plots are presented in Appendix C. Each sounding has a corresponding polar plot. The points indicate the balloon position at a particular sighting. The numbers alongside the points represent the calculated height of the balloon at that point in hundreds of feet. Other non-labeled heights can be determined by remem- bering each continuous point is 300 feet vertically displaced from its neighbors. Where data was missing, points were not plotted, but the line was interrupted to denote that data was missing. In general, there is good agreement between pibal soundings made at different times of the day. The general clockwise turning of direction with height (Ekman effect) is readily apparent. Most soundings show this expected simple behavior, however, several exhibit complex structure having no easy explanation (e. g. , Figure C-12). Another outstanding feature of the sounding plots is the directionality. All upper level winds (above about 3, 000 feet from the surface) are entirely from the west hemi-circle, with the greatest majority of them being from southwest through northwest. A summary of all temperature soundings is given in Appendix B. Each sounding on a particular day is plotted alongside any other soundings on that day. Soundings were extended down nearby valleys during the daylight hours and when weather permitted, to investigate the temperature structure of the air masses below the level of the proposed plant site (see Section 2. 1). II C-1107 These soundings revealed the fact that in most cases, when an inversion was present, the inversion intensity at the lower levels was much more severe than at the proposed plant altitude. Excellent examples of this type of behavior are shown in the temperature profiles taken at 08:38 on 23 January 1975 and 08:30, 2 February 1975, (Figure B-2 and B-9). Over the 15 days of data collection, nine of these days showed evidence of isothermal or inversion conditions. Although the Fall 1974 study showed a higher percentage of inversion based days, it should be pointed out here that only four of the 15 days of data collection were without snowfall in the area, indicating an extended period of generally unstable precipitative conditions. The disconnected symbols plotted at the elevation of the base of the tower (7,000 feet) are the results of temperature measurements made with a sling psychrometer a few feet above the ground at the same time as the respective aircraft temperature soundings. These measurements show a large difference in a significant number of cases. The difference, in almost every case, indicates a colder surface temperature than the sounding tempera- ture value at the absolute elevation of the surface based measurement; which is to be expected. When no inversion is present, or in the afternoon, the instantaneous surface measurements seem to agree more with the sounding measurements at the same elevation. Under the influence of an intense surface -based vertical temperature inversion, large horizontal temperature gradients can and do occur introducing the uncertainty into the measurement. As a check upon the depth and extent of these types of situations, several special flights were made in the general area. The first of these was a dual sounding performed within 20 minutes of each other directly over the C-b meteorological tower at about 12:00 on 23 January 197 5. The results of these measurements are shown in Figure 1. The flight plan took the aircraft up over C-b at 11:50 MST, then immediately back down (from 13, 000 feet MS) at 12:00 MST. The similarity of the plots is apparent; even the small elevated inversion at about 11, 000 feet MSL is easily discernible in both plots. In the 11:50 MST sounding, a weak and shallow inversion existed. When the II C-1108 13000 12000 11000 ill > § 10000 < Ui O D _J < 9000 8000 7000 1 1 1 I f 1/23/75 11:50 Spiral up 12:10 Spiral down I I L -10 -5 0.0 5 TEMPERATURE (centigrade) II C-1109 Figure 1 Dual Temperature Sounding Performed Over Tract C-b about 12:00 MST on 1/23/75 aircraft returned over the same locale on the descent phase of the 12:00 MST spiral downward, the inversion structure was not apparent. Although it is certainly possible, it seems unlikely that the inversion ,rburned off" in only 30 minutes. A more probable explanation of the discrepancy is that it arises from a slightly different flight path (different terrain below). A second check flight called for a regular sounding up over Tract C-b and then down over the Rock School House (approximately 8 km North of C-b). The C-b sounding included the horizontal extent used for all 08:00 and 11:00 MST flights, whereas the Rock School sounding maintained an approximately 1 km diameter downward spiral. The results of these measure- ments are shown in Figure 2. Two constant level -constant speed flights were made with and without an inversion present. The first of these is shown in Figure 3, with an inversion present below the top of the Tract (7, 000 feet). This flight was made at 7, 200 feet above MSL from over the Rock School House to the top of the 60 meter meteorological tower on Tract C-b at 09:12 MST. As can be seen from Figure B-9, an intense surface inversion existed in the Piceance Valley below about 7, 000 feet MSL. The temperature during the horizontal check flight stayed within about l°centigrade over the entire path. The second of the constant level flights (Figure 4) was made without a surface inversion present. The aircraft flew from the approximate head-water end of the Piceance Creek Valley to over the Rock School House while maintaining a 6, 400 feet MSL altitude. Again in the case of no vertical inversion at the elevation of interest, the termperature changed less than about 1° centigrade over the entire path. These indicate that significant horizontal temperature gradients probably only exist when a surface based vertical inversion is present. II c-iuo 12000 11000 — 10000 > o CD < g 9000 D h < 8000 7000 t 1 r 2/2/75 UP OVER C-b (08:30) DOWN OVER ROCK SCHOOL (08:48) \ J L -15 -10 -5 0.0 TEMPERATURE (centigrade) ll C-llll Fip;ure 2 Dual Temperature Sounding Performed Up Over Tract C-b and Down Over the Rock School Houfc 8 km to the North on 2/2/75 INVERSION BELOW 7200 feet MSL 2/2/75 09:12 MST ROCK SCHOOL HOUSE PL RANCH C-b MET TOWER TIME INCREASING ALTITUDE • 7200 feet Figure 3. Horizontal Flight Across Piceance Creek from Rock School House to the C-b Met. Tower NO INVERSION PRESENT 2 10 9 o LU cc D h < cc LU a. LU I- 0.0 2/9/75 08:10 MST Emu.*-.-- REDD RANCH TRAILER PL RANCH ROCK SCHOOL HOU3E TIME INCREASING ALTITUDE • 6400 feet Figure 4. Horizontal Flight Up Piceance Creek Valley from Redd Ranch to the Rock School House II C-1112 LIST OF REFERENCES 1. EG&G Report #A1-EC-116, 14 March 1975; "Upper Air Comparison Studies for Winter 1975 Between Federal Oil Shale Tracts C-a and C-b and Grand Junction, Colorado." 2. EG&G Report #Al-ECP-74-107, 6 December 1974 "Upper Air Studies Over Federal Oil Shale Tract C-b During October 1974." 3. Hilfiker, Ronald C. "Meteorological Instrumentation in Air Pollution" National Technical Information Service PB 218 002, EPA. II c-1115 APPENDIX A Upper -Air Pilot Balloon Sounding Summaries Over Federal Oil Shale Tract C-b During the Period 20 January to 9 February 1975 AZIMUTH ELEVATION HEIGHT HEIGHT VELOCITY HEADING Horizontal angle to balloon in degrees clockwise from north at time of sighting Vertical angle to balloon in degrees from horizontal at time of sighting Vertical elevation in feet from release point to balloon at time of sighting Calculated easterly distance in feet from release point to balloon at time of sighting Calculated northerly distance in feet from release point to balloon at time of sighting Interpolated height of balloon in feet above the surface Interpolated velocity of balloon in mph from prior and succeeding sightings Interpolated heading angle of balloon in degrees clockwise from north from prior and succeeding sightings II C-1114 o z * kO t 10 10 H 01 10 •* 10 10 © t • © © -H 1 r< r\ H > h- M H 01 * © H 10 VO -t © ch m 10 vo © U 1 Tf M H -t 10 © 10 © 10 l£i © M •* 1 h 01 Oi OJ in © T» Tf N © H H H ri OJ OJ OJ M n M t 1 © © 10 *0 (ft 10 N M © N N © OJ •H rf H UJ © oi © © H *b oS H M CO N* t* r-i N CO 2»- Ui Ch U) N N M Ch M © Oi © © in © 0> u. 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If; ft '"•: • f-.; t CO — £h ijj JL- !'•'; J1-. t CM iV 65 '•£ CM > LL CT> 'ji '-V ■ lT, CO N r.J i- a 1 _. ! CM »_; ._; ,_; ,_. x ^ (3 Ijj I- i/'J ft I-: cm r-- r— r— L1"' Ij" '—' ' ""■ h- Oh Eli" "■■■ •"■ ' X '■■.; h- i LU I ivi G II C-1165 APPENDIX B Temperature Soundings Over Federal Oil Shale Tract C-b During the Period 20 October through 9 February 1975 In all soundings presented in this appendix, the following point symbology is adhered to: A Flight Number 1 nominally 0500 MST Flight Number 2 nominally 0800 MST Flight Number 3 nominally 1100 MST \y Flight Number 4 nominally 1700 MST The ordinate of the graphs is the alimeter determined elevation above MSL (feet). The abscissa of the graphs is the ambient air temperature (°C). Unconnected (isolated) and expanded symbols plotted at the elevation of the base of the tower following the same above symbology are temperature measurements derived from a sling psychrometer a few feet above the ground, made at the same time the aircraft made its tower fly-by. II C-1166 (IHI)ISN 3A09VN0I1VA3T3 II C-1167 i - - - m ■ > CL \ CO ■ oo 0J L0 00 SI IS \ 'sT 00 in 1—t ■ »— 1 m 00 *- 1 r- - QQ s SI «— t »— i I o < D < 0 f™ - II ■ IIPIIII II «■ -s tc c =3 t'js» IT 3 r .s a E a) O u3> JBSEESES asEBHansnaanM (HSinSW 3A08V N0I1VA313 II C-1168 (lasSHSW 3A08VM0I1VA3T3 II C-1J69 (UainSW 3A03V K0I1VA313 II C-1170 qpue? 1 S (l»9|)1SW 3A08V N0I1VA3T3 II C-1171 II - - - LO " l> \ a CD CM ■ D s si s N, \ -j CM CO c^ •■ rH f- i T-t »— | o o o I * ¥ a (IMM1SH 3A09VNOI1VA3T3 II C-1173 (IMJ)ISW 3A08V N0UVA3T3 II C-1174 m \ \ CO CO CM ^ t»»»inSH 3A0BV N0IJ.VA313 II C-1175 CT"| S i Lfl \ 00 CO CD 00 C- \ CXI -^ C\J 5} CvJ UO 00 — « > CQ S Q rH rS o < a o o U"»nSW 3A08VN0I1VA3T3 II C-1176 (J»9inSW3A03VN0UVA3T3 II C-1177 3 LO C^ \ CO 00 00 CO ID \ OJ C\I ■•— t *— t CvJ CO 00 *—t c- DQ s Si t—i »-i o < Q O O (IMinSW 3A09W N0I1VA313 Ti C-1178 (t*a()lSW 3A0aVN0liVA3T3 IT C-1179 •12 U»»mSW 3A08VN0I1VA313 IT C-1180 "is Lf) D^ \ CD LD SI \ SI »— i CvJ • a • • CD 00 CQ (S3 Si o < D .Q •*, i o y *-> U r_ a :• ' u ■ 1 '. , 6 i « H ■u H « S to 1 i 1 '■3 n o MB w ■ ■ ■J rH ' ! (i»8J) 1SW 3A08V N0I1VA313 II C-1181 APPENDIX C Pilot Balloon Sounding Plots Over Federal Oil Shale Tract C-b During the Period 20 January through 9 February, 1975 Numbers alongside the points represent the calculated height of the balloon above the surface at that point in hundreds of feet. Other non-labelled heights can be determined given that each continuous point is 300 feet vertically displaced from its nearest neighbors. Where data are missing, no points were plotted, but the line was interrupted to denote that data was missing. In all soundings presented in this appendix, the following point symbology is adhered to: /\ Flight Number 1 nominally 0500 MST __.J Flight Number 2 nominally 0800 MST V_ Flight Number 3 nominally 1100 MST Flight Number 4 nominally 1700 MST II C-1I82 270 C3 ISO C-B 1/20/75 D 08:05 O 11:16 O 17:06 Figure C-l Pilot Balloon Soundings made over Tract C-b 2000FT/DIV 2000FT/DIV 3000FT/DIV II C-1185 270 US N C-B 1/23/75 A 05:02 2000FT/DIV D 03:27 O 11:00 O 17:00 Figure C-2 Pilot Balloon Soundings made over Tract C-b 1000FT/DIV 2000FT/DIV 1000FT/DIV II C-1184 270 110 £3 C-B 1/24/75 A 05:10 3000FT/DIV □ 08:00 2000FT/DIV O 11:02 2000FT/DIV O 16:49 2000FT/DIV Figure C-3 Pilot Balloon Soundings made over Tr2ct C-b II C-1185 270 ICQ ©*£=3= -»-o O C-B 1/25/75 D 08:00 O 11:00 O 17:00 Figure C-4 Pilot Balloon Soundings made over Tract C-b 4000FT/DIV 4000FT/DIV 3000FT/DIV II C-1186 270 no C-B 1/26/75 D 08 5 15 2000FT/DIV O 16250 3000FT/DIV Figure C-5 Pilot Balloon Soundings made over Tract C-b 11 C-1187 270 i*a C-B 1/29/75 A 05 202 3000FT/DIV D 08:02 O 11:00 O 17:10 Figure C-6 Pilot Balloon Soundings made over Tract C-b 3000FT/DIV 4000FT/DIV 2000FT/DIV II C-1188 27G r> 119 S3 C-B 1/31/75 □ 07:55 3000FT/DIV O 10:55 3000FT/DIV Figure C-7 Pilot Balloon Soundings made over Tract C-b II C-1189 270 tu 1S3 U / C-B 2/1/75 A 05:12 2000FT/DIV □ 08:20 O 10:56 O 17:53 Figure C-8 Pilot Balloon Soundings made over Tract C-b 3000FT/DIV 2000FT/DIV 2000FT/DIV II C-1190 ( ) \j 270 sh U9 i: OB 2/2/75 A 05:20 2000FT/D1V D 07:53 2000FT/D1V O 11:00 2000FT/DIV O 16:47 2000FT/DIV Figure C-9 Pilot Balloon Soundings made over Tract Ob IT C-1191 276 W ICO C-B 2/3/75 A 05:12 2000FT/DIV D 08:03 O 11:00 O 16:47 Figure C-10 Pilot Balloon Soundings made over Tract C-b 3000FT/DIV 2000FT/DIV 2000FT/DIV 11 C-1192 n 103 C-B 2/4/75 A 05:09 2000FT/DIV D 07:57 O 10:52 O 16:50 Figure C-ll Pilot Balloon Soundings made over Tract C-b 2000FT/DIV 2000FT/DIV 2000FT/DIV II C-1193 270 C3 ICO C-B 2/6/75 A 05:20 1000FT/DIV O 11:10 O 16:59 Figure C-12 Pilot Balloon Soundings made over Tract C-b 1000FT/DIV 1000FT/DIV II C-1194 270 J 13 180 C-B 2/7/75 D 08:40 O 11201 O 16:55 Figure C-13 Pilot Balloon Soundings made over Tract Ob 2000FT/DIV 2000FT/DIV 3000FT/D1V II C-1195 110 OB 2/8/75 A 05:01 3000FT/DIV D 08:10 O 10:50 O 16:57 Figure C-14 Pilot Balloon Soundings made over Tract C-b 2000FT/DIV 2000FT/DIV 2000FT/DIV II C-1196 110 OB 2/9/75 A 05:03 3000FT/DIV P 08:25 2000FT/DIV O 11:00 1000FT/DIV Figure C-15 Pilot Balloon Soundings made over Tract C-b II C-1197 AL-EC-116 14 MARCH 1974 CONSULTANTS UPPER A§R CO^PARSSOW STUDIES FOR WINTER 1075 BETUSEN FEDERAL OSL SHALE TRACTS C-a, C-b AND GRAND JUNCTION COLORADO PREPARED FOR THE RIO BLANCO OIL SHALE PROJECT AND THE C-b SHALE OIL PROJECT PREPARED BY APPROVED BY fL j C inu,^- ROGER NELSON L. C. MEYER METEOROLOGIST PROJECT MANAGER II C-1198 TABLE OF CONTENTS Page 1. 0 INTRODUCTION II C-1200 1. 1 BRIEF SUMMARY II C-1203 2. 0 DATA ACQUISITION TECHNIQUES . II C-1204 2. 1 TEMPERATURE PROFILES II C-12C4 2. 2 WINDS ALOFT II C-1206 3. 0 DATA PRESENTATION II c-1207 3. 1 VERTICAL TEMPERATURE PROFILES II C-1212 3. 2 UPPER AIR WIND STRUCTURE II C-1218 LIST OF REFERENCES II c-1222 LISTING OF FIGURES AND TABLES Figure 1 Topographic Map of Oil Shale Tract Area II C-1201 Figure 2 Map showing locations of NWS stations II C-1203 Figure 3 Dual Temperature Sounding over C-a, 1/23/75 II C-1215 Figure 4 Dual Temperature Sounding over Tract C-b, 1/23/75 II C-1216 Figure 5 Dual Temperature Sounding 2/2/75 II c-1217 Figure 6 Horizontal Flight Across Piceance Creek from Rock School House to the C-b Tower II C-1219 Figure 7 Horizontal Flight Up Piceance Creek Valley from Redd Ranch to Rock School House II C-1219 Figure 8 Wind Direction vs. Height Comparisons II C-1221 Table 1 Specifications II C-1205 Table 2 Weather Log II C-1208 Table 3 Summary of Soundings II C-1211 II C-1199 1.0 INTRODUCTION This report summarizes and presents comparisons between upper air data taken over Federal Oil Shale Tracts C-a and C-b and Grand Junction, Colorado as a continuing series of programs (one per season) to determine the upper air structure of the Piceance Creek Basin. A topographic map of the oil shale tract area is shown in Figure 1. A map showing the relative positions of the tracts and primary National Weather Service stations is shown in Figure 2. The data were taken during the period 20 January through 9 February 1975 with the primary emphasis on the vertical temperature profile and wind structure from the surface to 13,000 feet above MSL. For complete listings of the actual engineering unit data analyzed here, the reader is referred to EG&G report AL-EC-117, "Upper Air Studies Over Federal Oil Shale Tract C-b During Winter 1975" dated March 14, 1975; and EG&G report AL-EC-118, "Upper Air Studies Over Federal Oil Shale Tract C-a During Winter 1975" dated March 14, 1975. The purpose of these studies was to investigate the temperature and wind structure of the atmosphere over the Federal Oil Shale Tracts as a function of season. The ultimate use of this data will be for inclusion into modeling studies to predict the environmental impact of future oil shale developments. The studies require 15 days of upper air data. Ideally, each data day would consist of four temperature soundings and the corresponding Pilot Balloon soundings. Recognizing that inclement weather could force cancellation of aircraft flights, and limit Pilot Balloon tracking, a successful data day was defined as one with a minimum of two temperature profiles with one of the two flown down into the valleys below the tracts. The studies over Tract C-a were performed for the Rio Blanco Oil Shale Project and the studies over C-b were performed for the C-b Shale Oil Project; both by EG&G. National Weather Service data from Grand Junction, Salt Lake City, and Denver were obtained from the EG&G IT C-1200 • **' ro COICM4DO 04 '] 30' '2 fp .;/.v\>* FKiS ■:■;■• v a* "Pal-, .-ct_< _i^r_ -*t-A — 1 — ~ ^-w. — .- ■ ii- .~: i_; ^ , .. cttka X .: — a...*., ., — :-2 — / — _ ■>.-^ -«ir=rr-= r-> ?isZ3 La n LJ II £ A , . ^i'-." ^r %.,, ■' > '! v- « I:: L ■ • • : -4As,l^:v£ . .W. : -j ■^O^NtVi ;v Figure 1 Topographic Map of the Area Surrounding Federal Oil Shale Tracts C-a and C-b II C-1201 S II C-120; field office in Durango over a Weather Service facsimile machine. Tract C-a and Tract C-b soundings were made four times daily at approximately 05:00, 08:00, 11:00 and 17:00 hours MST whereas National Weather Service soundings were only made at 05:00 and 17:00 hours MST. The purpose of the 08:00 and 11:00 soundings over the oil shale tracts was primarily to investigate the formation and breakup of surface inversions. 1.1 BRIEF SUMMARY The topography of the Federal Oil Shale Tracts C-a and C-b is complex. The wind structure above the tracts depends heavily upon the upper (500 mb) level flows as well as the detailed surface topography. In general, the upper level winds are predominantly from the west, although during the study period, the winds ranged from throughout all sectors. In addition, wind speeds during the early morning hours were significantly smaller and less gusty than during the remainder of the day. The temperature structure above the tract followed the dry adiabatic lapse rate very well above about 1500 feet above the surface on clear days. On moist days (with showers or snow squalls in the area), the temperature structure showed more of a wet adiabatic behavior. The lower 1500 feet ahove the surface exhibited a somewhat more complex profile with inversions in the morning hours which generally broke up by early afternoon or late morning. The temperature inversions were more pronounced in the valleys below the tract. The average mixing layer depth in the presence of an inversion at the early morning sounding (05:00 MST) was about 930 feet above the main meteorological tower (7400 MSL) over C-a and about 1200 feet above the main meteorological tower (7000 MSL) over C-b. At the mid-morning sounding, under the influence of an inversion, the average mixing layer depth was about 840 feet over C-a and about 860 feet over C-b. These values indicate that II C-1203 there is a significant difference in the mixing layer heights and intensities when an inversion is present compared with Fall, 1974, upper air data (References 3,4, and 5). Several flights flown to determine the horizontal temperature structure at constant altitude, but at varying height above the surface (dependent upon terrain), showed very little horizontal dependence; although the closest of these to the surface was not performed in the presence of an inversion. However, from data collected from surface based measurements of the actual temperature, it is apparent that large horizontal temperature gradients can exist when a surface based vertical temperature inversion is present. 2 . 0 DATA ACQUISITION TECHNIQUES 2 . 1 TEMPERATURE PROFILES The vertical temperature structures from the surface to 13,000 feet MSL were determined four times daily using a shielded sensitive thermistor mounted on a wing strut of a light aircraft based at Rifle, Colorado. The four flights were made at approximately 05:00, 08:00, 11:00, and 17:00 hours MST on days when the weather permitted safe flying. During daylight hours, soundings were made to within 100 feet of the surface; during night flights, 500 foot safety margins were observed. In addition, flights were made down nearby valleys to determine the temperature structure of the air actually below the monitoring sites on the 08:00 and 11: 00 hour soundings. The instrument used for the temperature recordings was an EG&G portable temperature recorder Model 702 which is designed to achieve high- resolution temperature recording from a moving airplane or automobile. The unit is capable of measuring temperatures in the range from -30°C to +32°C with an absolute accuracy better than ±0.2°C, although for this operation the unit was calibrated to within tO. 1°C. The specifications of the Model 702 are given in Table 1. II C-1204 TABLE 1 Specifications: • Sensor Probe: Type Thermistor head in weatherproof radiation shield Range -30°C to +32°C in six ranges Accuracy + 0. 2°C absolute Time Response less than 2 seconds for 63% recovery in still air Recorder: Resolution .1°C Process Meter and permanent, inkless on pressure sensitive paper Chart Speed 60 inches per hour Chart Paper 63 feet by 2 5/16 inch usable width Power Nickel-cadmium batteries, 10-hr ODeration The flight path of the aircraft was made as consistently as possible with a pre-established plan. The early morning sounding (05:00 MST) and later afternoon sounding (17:00 MST) started as close to the top of the Tract meteorological towers as conditions would permit. If at all safely possible, close fly-bys of the tower tops (200 foot above the local surfaces) were made. This provided checks upon the aircraft altimeter which was used for height determinations for the remainder of the flights. In all cases, over the entire course of the study period, the altimeter indicated an elevation of 7200 ±50 feet above MSL during the C-b tower fly-by and 7650 ±50 feet above MSL during the C-a tower fly-by. The true tower tops are 7180 and 7610 feet above MSL, respectively. II C-1205 During the 08:00 and 11:00 soundings over Tract C-b, the flight path called for a slow gradual climb from approximately 50 feet above the surface of the Piceance Creek (in the direction towards Tract C-b and the meteorological tower) to an actual top-of-tower fly-by. Once having made the tower fly-by to check the altimeter setting, the aircraft began its normal ascent to 13,000 feet in an approximately 1 km diameter spiral. For the same soundings over Tract C-a, the plane spiraled down from 13,000 feet to make a tower-top fly-by. The flight path continued down into Corral Gulch below the tract until an elevation of about 6400 feet MSL was reached. This, by necessity, required that the measurement of the temperature at a level comparable with the elevation of the base of either tower be made horizontally displaced from the tower itself. On the normal flight paths made by the aircraft, the temperature measurement made at the level of the base of the C-a tower was approximately 1 km to the east, and the temperature measurements made at the level of the base of the C-b tower was approximately 1 km to the north. Because of this, data below about 7200 feet at C-b and below about 7600 feet at C-a cannot accurately be termed Vertical' temperature soundings, even though the 10 feet/sec ascent/descent rate was maintained along the horizontal portion of the flight path. Altitude markings were made on the temperature chart in real time by an observer. While the pilot attempted to maintain a constant rate of ascent, this was not always possible due to turbulence. For this reason, temperature /altitude readings were taken from the charts only at points marked with a distinct altitude. No interpolations between markings were used. 2 . 2 WINDS ALOFT The vertical wind structures from the surface to 13,000 feet MSL or cloud base were determined four times daily using 30 gram pilot balloons in conjunction with theodolites. The theodolites were aligned to magnetic north and then corrected to true north by rotating them 15° counterclockwise. The balloons were carefully "weighed off" using a II C-1206 standard National Weather service kit for 30 gram balloons inside an enclosed area to rule out any influence which wind might cause and released 800 meters northwest of the C-b main meteorological tower and 60 meters northeast of the C-a main tower. These balloons rise at an approximately constant rate of 600 feet/minute (Reference G). During the night, small water activated batteries connected to a tungsten filament bulb were attached to the balloon before it was weighed off to allow optical tracking. The balloons were released at about 05:00, 08:00, 11:00 and 17:00 hours MST on days in which temperature soundings were made. At 30 second intervals, azimuth and elevation were vocally recorded to within 0. 1°, although interpolations were attempted to with 0.02°. The balloons were kept in the field of view at all times and only after the sounding was completed were the voice records transcribed to data sheets. 3 . 0 DATA PRESENTATION During the course of the 21 day study period, soundings over the two oil shale tracts were aborted on six days due to inclement weather causing dangerous flying conditions. A general description of the weather conditions for the 21 day period encompassing the 15 days of successful data collection is given in Table 2. The release times of the pilot balloons (pibals) and the tempera- ture sounding times for the oil shale tracts along with the height attained by the balloons and the ground temperature are presented in Table 3. The topography of both of the Federal Oil Shale Tracts, C-a and C-b is complex. Both tracts consist of several finger-like plateaus sloping generally down to the northeast. Between plateau-like regions are broad steep-sided valleys. The elevation differences between plateau-like regions and valleys are about 300 to 400 feet, both having the same general slope. Tract C-a slopes to the northeast while Tract C-b slopes to the north-northeast. The elevation of the main meteorological monitoring site at Tract C-a is approximately 7400 feet and at Tract C-b approximately 7000 feet. II C-1207 TABLE 2 WEATHER CONDITION LOG Date Conditions 1/20/75 05:00 sounding cancelled due to poor flying conditions. After sunrise, few high alto cirrus until noon, turning to stratus with high gusty winds from southwest as storm front moved into the region. 1/21/75 Two- inch snow accumulation, high winds, poor visibility as snow passed through region all flights cancelled. 1/22/75 Instrumentation problems with temperature recorder - repaired and recalibrated; no soundings. Weather clear, light winds, few high cirrus. 1/23/75 Ceiling at 05:00 MST was 12,000 (snow). Alto-stratus over entire Piceance Creek region, ceiling 12,000 to 13,000 at 08:00 MST. Alto-stratus (20 to 30%) atabout 14,000 for remainder of day. 1/24/75 Light cloudiness through noon. Surface winds became gusty and strong in the afternoon about 14:00 MST bringing small snow storms through the area. Completely overcast at 17:00 MST and scattered light snow showers. 1/25/75 Heavy cloud cover (less than 9500) over Rifle forced 05:00 MST sounding cancellation. Cloud base lifting to 14, 000 with 50 to 60% cover by 08:00 MST. Very strong winds from northwest for remainder of the day. 1/2G/75 High winds throughout day. Some light alto-cirrus during the morning, clear in the afternoon. west gu sting to 40 mph. Surface winds from south- 1/27/75 Complex weather picture, including Pacific Northwest front and cold Canadian air mass moved into area during the night. Completely overcast with snow showers in the area. All soundings cancelled. 1/28/75 Weather pattern remained over area. Severe turbulence, low ceiling, snow and freezing rain forced cancellation of all soundings. Accumulation throughout two day period of 6 to 8 inches of new snow. II C-1208 TABLE 2 (Cont'd) Date Conditions 1/29/75 Clear and extremely cold in the morning with intense low surface inversions. Another weak short wave impulse moved into the region in late afternoon bringing low clouds obscuring wind soundings. 1/30/75 Snow throughout entire 24-hour period. Local accumulation of four to five inches. Scattered snows began clearing in early evening. No soundings. 1/31/75 Heavily overcast in Rifle from 05:00 through 10:00 MST. Clear over tracts in Piceance Creek Basin. Temperature soundings cancelled at 05:00 and 03:00 MST due to poor conditions at airport. Late afternoon cloudiness developed bringing scattered snow storms. 2/1/75 Snow over Piceance Creek area at 05:00 MST, sounding can- celled. Clearing to partly cloudy at 08:00 MST over sites (1" accumulation), although high winds and clouds persisted until midafternoon. 2/2/75 Extremely clear all day; moderate southwest winds. 2/3/75 Clear through midmorning. High cirro-stratus formed by 12:00 MST continuing to become completely overcast by 17:00. Light surface winds throughout the day. 2/4/75 Moderate winds throughout entire day; approximately 30 to 40% cloud cover (alto-cirrus) until early evening with an increase in cloudiness and widely scattered light snowfall. Late afternoon sounding (17:00) cancelled. 2/5/75 High winds and scattered snowfall during the night. Heavy cloud cover and severe turbulence forced cancellation of all soundings. 2/6/75 Early morning cloudiness (moderate winds) with isolated snowfall becoming partly cloudy by mid-morning. Calm surface conditions and weather clear throughout afternoon. 2/7/75 05:00 and 08:00 MST soundings cancelled due to low clouds (9500 ft) and poor visibility in the Rifle area. Scattered snowfalls in the area. Clearing to 50% cover by noon with high winds. II C-1209 TABLE 2 (Cont'd) Date Conditions 2/8/75 High cirrus accompanied with high winds throughout morning. Alto-stratus at about 12, 000 MSL moved into area in mid- afternoon with no precipitation. 2/9/75 Severe turbulence with a 12, 000 foot ceiling until noon. Scattered snowfall (moderate to heavy) in the area. Ceiling lowering with more intense snowfall combined to cancel 11:00 and 17:00 MST soundings. 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Each chart has one normal sounding plotted. The heavy right hand line is the temperature sounding; the light left hand line is the plot of the dew point depression temperature profiles corresponding to the air temperature curves. Grand Junction is abbreviated GJT. One note- worthy similarity in the NWS soundings is the presence of the surface based inversion in the 05:00 MST soundings in virtually every plot. Although few were severe and none persisted throughout the day, morning inversions at this location were the rule rather than the exception throughout the study period. The vertical temperature profiles over Federal Oil Shale Tracts C-a and C-b for each individual sounding are given in Appendix B along with any soundings made at the same time by the NWS at Grand Junction. The profiles from each tract are plotted alongside each other to allow quick visual (qualitative ) comparison. The temperature values are plotted as a function of absolute elevation above sea level. For this reason, most of the early morning surface inversions apparent at Grand Junction in Appendix A do not show up in these comparison plots. Because the 05:00 MST sounding was made at night, the temperature profiles were not obtained closer than about 500 feet to the surface. The disconnected symbols plotted at the elevations of the bases of the two tracts' main meteorological towers are the results of temperature measurements made at essentially ground level at the same time as the respective aircraft temperature soundings. A straight line between the lowest point on any actual sounding (above tract elevation) and the surface value provides an estimate of the lapse rate within this interval. Although the temperature fine structure is not evident, the slope of the line gives a lower bound on the maximum lapse rate in the unprofiled height interval. IT C-1212 On the 08:00 and 11:00 MST flights, the temperature profile was extended by flying down nearby valleys to altitudes as much as 700 feet below the plateau level (both tracts have proposed plant sites on the plateau-like regions). This procedure revealed the fact that in most cases, the inversion intensity below the plateau levels was much more severe than at the proposed plant altitudes. An excellent example of this type of behavior is shown in the temperature profiles taken at about 08:00 MST 23 January 1975 and at 08:00 MST on 29 January 1975. From the limited data available from the two seasonal studies (Fall and Winter) conducted so far, it seems that the intensity of the surface inversions in the valleys below the tracts may be more intense in the Winter than in the Fall. Over the 15 days of data collection during the Winter study, nine of these days showed evidence of isothermal or inversion conditions. Although the Fall study showed a higher percentage of inversion based days, it should be pointed out here that only four of the 15 days of data collection in the Winter were without snowfall in the area, indicating an extended period of generally unstable precipitative conditions. The disconnected symbols plotted at the elevations of the bases of the towers (7400 feet C-a; 7000 feet C-b) are the results of surface temperature measurements. The surface measurement made at C-a was the temperature at the 10 meter level of the main meteorological tower. The surface measurement made at C-b was done with a sling psychrometer a few feet above the ground. Both were taken at about the same time the aircraft made its top-of- tower fly-by. These measurements show a large difference (in a significant number of cases), which in almost every case, indicate a colder surface temperature than the sounding temperature value at the absolute elevation of the surface based measurement. When no inversion was present, or in the afternoon, the surface measurements seemed to agree more with the sounding measurements at the same elevation. Under the influence of an intense surface based vertical tempera- ture inversion, large horizontal gradients can and do occur introducing the apparent uncertainty into the measurement. II C-1213 As a check upon the depth and extent of these horizontal temperature gradients, several special flights were flown throughout the Piceance Creek basin. Data validity was checked by flying dual soundings (one immediately following the other) over both tracts. The results of these two checks are shown in Figures 3 and 4. The first of these is a dual sounding flown each within 20 minutes of the other directly over the Tract C-a meteorological tower at about 11:30 on 23 January 1975. The flight plan took the aircraft down over C-a at 11: 15 MST, th immediately back up (to 13,000 feet MSL) at 11:27. The similarity of the plots is apparent; even the small elevated inversion at about 9, 500 fe s t MSL is easily discernible in both plots. The second data check was a dual sounding over Tract C-b at about 12:00 on 23 January 1975 (Figure 4); here the aircraft began its climb up over C-b at 11:50 MST, then immediately descended (from 13,000 feet MSL) at 12:10. Again, the similarity of the soundings is apparent (small elevated inversion at about 11,000 feet MSL). In the 11:50 MST sounding, a weak and shallow surface inversion existed. When the aircraft returned to the same elevation on the descent phase of the 12:10 sounding, the inversion structure was not apparent. Although it is entirely possible, it seems unlikely that the inversion 'burned off in only 30 minutes. A more probable explanation of the discrepancy is that it arises from a slightly different flight path (different terrain below). A further check flight called for a normal sounding up over Tract C-b and then down over the Rock School House (approximately 8 ":. North of C-b in the Piceance Creek valley). The C-b sounding included the horizontal extent used for all 08:00 and 11:00 MST flights, whereas, the Rock School sounding maintained an approximately 1 km diameter downward spiral. The results of these measurements are shown in Figure 5 (excellent agreement). Two constant level -constant speed flights were made with an without an inversion present. The first of these is shown in Figure 0, v II C-1214 13000 12000 11000 > O CD < ® 10000 UJ 9000 eoor 7000 ■10 t r ~ l 1 r 1/23/75 c-e SPIRAL DOWN (11:15) SPIRAL UP (11:27) 0.0 J_.l_l J I 5 * 12 TEMPERATURE (Centigrade) ffeure 3 Dual Temperature Sounding Performed Over Tract C-a About 11:30 MST on 1 23/7! IT C-1215 13000 12000 11000 > § 10000 < LU o ? I- -J < 8000 8000 7000 TTT i — r J L i — r t — r 1/23/73 11:50 Spiral up 12:10 Spiral down i i i i L J L-1.L -10 TEMPERATURE (cmil&ziz) Figure 4 Dual Temperature Sounding Performed Over Tract C-b about 12:00 MST on 1/23/75 II C-1216 12000 T p 1— — \ r I T 11000 10000 LU > o CO < y 9000 D 8000 7000 2/2/75 UP OVER C-b (08:30) DOWN OVER ROCK SCHOOL (08:48) /O Top of C-b Tower JL— ^JL._.-J -15 -10 J— L-~_J~_ .J. I — L ,.. 0 0 . TEMPERATURE (c»ntign : Figure 5 Dual Temperature Sounding Performed Up Over Tract C-b and Down Over the Rock School Housb 0 km to the North on 2/2/75 II C-1217 an inversion present below the top of the Tract (7, 000 feet). This flight was made at 7, 200 feet above MSL from over the Rock School House to the top of the 60-meter meteorological tower on Tract C-b at 09:12 MST. As can be seen from Figure B-29, an intense surface inversion existed in the Piceance Valley below about 7, 000 feet MSL. The temperature during the horizontal check flight stayed within about 1 centigrade over the entire path. The second of the constant level flights (Figure 7) was made without a surface inversion present. The aircraft flew from the approximate head- water end of the Piceance Creek Valley to over the Rock School House while maintaining a 6, 400 feet MSL altitude. Again, in the case of no vertical inversion at the elevation of interest, the temperature changed less than about 1° centigrade over the entire path. These indicate that significant horizontal temperature gradients probably only exist when a surface based vertical inversion is present. 3. 2 UPPER AIR WIND STRUCTURE The vertical wind structure over Grand Junction during the 20 January to 9 February 1975 period is plotted on the Skew-T Log-P Charts in Appendix A. Each chart has one normal sounding plotted. The flags are the presentation of the wind portion of the sounding. - A comparison of the detailed pibal trajectories in polar form at the oil shale tracts C-a and C-b for each sounding is given in Appendix C. The plotted points in the hodographs are the projected balloon positions corresponding to each individual sighting. The numbers beside the points give the computed altitude of the balloons in hundreds of feet for that particular sighting. Other non-labeled heights can be determined given that each continuous point is 300 feet vertically displaced from its nearest neighbors. A brief review of all of the comparisons shows that in some cases there is excellent agreement between the two sites and in some others there absolutely is none. In general, there are more cases where there is some agreement between sites than where there is none; however, there II C-1218 o UJ cc D »- i UJ Q. UJ INVERSION BELOW 7200 f««t MSL 2/2/75 09:12 MST 0.0 - - - - _ - •5 - - -10 ▼ Y i ROCK SCHOOL HOUSE PL RANCH C-b MET TOWER TIME INCREASING ALTITUDE • 7200 fc«t Figure 6 Horizontal Flight Across Piceance Creek from Rock School House to the C-b Met. Tower NO INVERSION PRESENT 2/S/75 08:10 MST I 3 10 c • O Ul cc D I- 2 s UJ 0. 2 UJ 0.0 - NN REDD RANCH TRAILER PL RANCH JL ROCK SCHOOL HOUSE TIME INCREASING ALTITUDE • 6400 ttet Figure 7 Horizontal Flight Up Piceance Creek Valley from Redd Ranch to the Rock School House II C-1219 is no apparent pattern for agreement with the limited data available. An interesting case of excellent agreement over the entire 6000 feet height interval is shown in Figures C-23 and C-24 for the 11:00 MST sounding on 2/6/75. The winds are from the south at the surface to about 2500 feet where they gradually turn to the northwest until about 4000 feet, becoming westerly above 4500 feet. Even the wind speeds compare well for this particular sounding. It is of interest, however, to note the lack of correlation between the two sites for the remainder of the soundings on 2/6/75. A check of the temperature profile comparisons reveals that there is no ready agreement between inter- site wind comparisons when temperature correlations are good. A quantitative comparison between winds at a particular level for the NWS station and the two oil shale tracts also reveals very little good correlation; although here again, there are some cases where there is excellent agreement. Wind direction comparisons as a function of altitude above the local surface between Grand Junction and the tracts are presented in Appendix D. Because the wind structure as a function of height is dependent upon the surface (topography, roughness, etc. ) it was felt that the wind direction comparisons versus height should be referenced to the actual height above the surface at each location. Asa spot check on this assumption, the wind direction comparison for a particular day with good agreement between C-a, C-b, and Grand Junction (See Figure D-12) was replotted as a function of absolute height above MSL (Figure 8). Contrary to physical expectations, the wind directions at the sites at about 17:00 MST agreed more when referenced to an absolute elevation than when referenced to the height above each site. II C-1220 16000 15000 1 Z24/75 ▲ C«a 17:02 14000 • C-b 16:49 ■ GJT 17-00 13000 12000 11000 HI > o CD < Z 10000 o < > UJ _l HI HI I- D _J O < 9000 8000 7000 6000 5000 4000J NORTH EAST SOUTH WIND DIRECTION WEST NORTH Figure 8. Wind direction versus height comparisons above an absolute reference (MSL) for Sounding Number 4 on January 24, 1975. II C-1221 LIST OF REFERENCES 1. EG&G Report A L- EC- 117, "Upper Air Studies over Federal Oil Shale Tract C-b during Winter 1975, " March 14, 1975. 2. EG&G Report AL-EC-118, "Upper Air Studies over Federal Oil Shale Tract C-a during Winter 1975, " March 14, 1975. 3. EG&G Report A L- EC P- 7 4- 107, "Upper Air Studies over Federal Oil Shale Tract C-b during October 1974, " December 6, 1974. 4. EG&G Report AL-ECP-74-108, "Upper Air Studies over Federal Oil Shale Tract C-a during October 1974, " December 6, 1974. 5. EG&G Report A L- EC P- 7 4- 109, "Upper Air Correlation Studies for October 1974 between Federal Oil Shale Tracts C-a, C-b, and Grand Junction, Colorado, " December 6, 1974. 6. Hilfiker, Ronald C. , "Meteorological Instrumentation in Air Pollution, " National Technical Information Service PB 218 002, EPA. II C-1222 APPENDIX A SKEW T - LOG P ATMOSPHERIC CHARTS OF RADIOSONDE DATA TAKEN AT GRAND JUNCTION, COLORADO, DURING 20 JANUARY THROUGH 9 FEBRUARY 1975 Winds are presented along the right hand side of the chart. Major flags represent 10 knots, minor flags represent 5 knots, triangles represent 50 knots. Numbers along side wind significant points denote wind direction with the most significant digit deleted. Temperature and dew point depression temperatures are plotted with ambient air temperature always greater than dew point. II C-1223 vms "S3 jsc l . '. » ■ '. r • '■ S ■■■>-, I . ■■ i |*1 | ■■, ^■■, t ,-| ,!■■■ ■',■■ ■'■■. |t, I r*,i| .'. I • • « A M f ;.»,',,., i, ,. i ',,.,>,., i ...| i ■. .A r.i I . i l A ,,',-i.t r„ — L.-k.-i.!.!.: ill iNl • .-i U'l X m l> en .— i >> a C d •-a o CM c o CO o o m o c o .-J 4-1 o •-3 ei u O u > O •S C P O CO a> xs c o o & I •t-i II C-1224 "i - 0 • • mi at A m d ^-^F-: -w — >■■.!..■.;,■,> ... > ,'. i t- Ci T-l >> u a C rt ►■a o c c E- w o o c o o c »"3 c O > o b£ .s c c w 0) c c c T3 rt CO I < 0) & ■ •-1 II C-122S u '^^v 'v --»--• — «-0 ,t ■> I ... I ... ^... ;.., ■>.., .1,1. ,1 ^ 1, . , ■ s ■> ■ >■ .' 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( o Xc [I C-1249 YTT^? • • ► % ' ■'• h**"i*' , > .1 . \ '. i .', > .». i ,'. t .'. | .' . i . ■'■ ■■>'' ■■■ > ■■■> ■'■! ■■•! \„ > ! *.i, I. VH ■■■■.. ; jj^.._^ i_ V. it >\i ■»■?■! . if l.lNl . - - :j, . HJXjvTJlli/ " IT5 T-l X2 OS c o H CO o o m o -t-> c o -t-> u c •-3 -c c cd O s-i 0) > O .s O CO (1) T3 o o • r-< -a I < II C-1250 --• o ■» ■<.:.. .', . ■■ roc * . ■■ .'^ — ' v*1 — • — » • o *■ « • « «l 1 _ 0 l,f;, ,,l,,.l,.,l.,M ,..t,.,i „.( C r 0*0 C # 0 * o T-l >> Si H CO o o ei o o c •-3 a u O > o c ■ —I T3 O CO (IMUlSW3A0aV NOIiVAlia IT C-1260 (l»»mSW 3A09VN0I1VA313 II C-1261 (IMJHSW 3A08V N0I1VA313 II C-1262 (J»«J)1SW3A08VN0I1VA313 II C-1263 U»»»1SW 3A0avH0llVA3T3 II C-1264 3 at ■? G u & ^3 B rt V 1 E- U Q _ c o 0) ?r, tH s 0) o U. > ffl in (l»9»n5W 3A0SW N0I1VA3T3 II C-I265 (IMJMSW 3A0aVN0liVA3T3 IT C-1266 s r 3 E'S o in C 0, So in era i H U ra - 3> S g Si > m a («»«J) 1SW 3A0BV N0LUA313 U C-]267 0»SJ) TSH 3A09V N0I1VA3T3 II C-1268 <»»»nsw 3Aoav noiiva313 II C-1269 (J»3« 1SW 3A0BV H0UVA3T3 11 CM 270 — o u a M is Si r* £ « a, i a, c > a (MXllSfli 3AD8VN0I1VA313 II C-1271 ■an S ^ o u s o •c « 1 o 0) o h 0, 0) h -2-? a°3 o £ rt N 0, 1 HO CQ —j e a; S g Si 3 J! (U a> u< >ca E ]5 K fp (l«JnSW 3A09V N0IJ.VA313 II C-1272 - - S o n re - i o u o u a 01 m o o CO 5 -c in " s 2u *^ \ D.°3 re 1 CvJ E re Ol ' ~H U U H O a re S - 1 ■■ o> o> E > ca ■ - - !- u . : .-. . „ I i* m (WinSW 3A08V N0I1VA3T3 Tl C-1273 ■aim I ■ »■■■ 1 1 I r s jnHHSssszzau^' *«j (iwinsw 3Aoav NouvAana I] C-1274 — T™ 1 !- - 1 "" 5 g " 1 u bo ■ o o vr> CM -2-Q in o •-< « » c- »■* ^ t. O * „ m i XI CO c«3 ,_) U O CM V l " 1 CD H O - 2 a- 3 * 1 a - " Eii: n * I U"»nSfl 3A09VN0I1VA3T3 II C-1275 <«"in$« 3A0BV N0I1VA313 II C-1276 aBT u u i H O 03 _ a > 03 C El 3 t hs (»•» 1SW 3A08V N0UVA313 II C-1277 (»83inSW3A0aVN0llVA3T3 I] C-1278 CQ 0»»inSW 3A0BV N0I1VA3T3 II C-1280 — 1 (l»«insW3A0SVNOIl«A313 11 C-1281 (JMHISW 3A09V N0U.VA313 11 C-1282 (IMI)ISW 3A0SV N0UVA313 II C-1283 C o .2 s S o O jU *•-( O h a, ti t. 5-9 CD CO « . I/} CM ti a o in o 4) eg CO 01 1 n i J3 0) H O U u g 4) fct .H e 5 Uj qj a> £ > m K t- f •13 ° C3 t" ;J3 * ^IBBKHiaBSSa S ' (»m»1SW 3A09W N0I1VA3T3 ]] C-1284 (»«»n$W 3AC3W N0I1VA3T3 II C-1285 (IMM1SW 3A0B» N0I1VA313 ]] C-1286 T— . - - I ■ i E o o " u 0) ■ « c- h T " rr (18'inSH3A0a?N0UVA313 II C-1287 lis a a" a (l»a*nSW3A08WN0ll\JA3T3 II C-1288 tr-w evls r s (»«»»1SW 3A08VN0IJ.VA3T3 II C-1289 (isai) 1SW 3A08V N0UVA3T3 II C-1290 ■ o o o o> "3 h a « G ■?"? Luu 4) ~ c o a> e * eo 01 i i H O ffl — c s * s « £ V 0) u< >CQ a t v (•••D1SW3A09VN0I1VA3T3 J I C-1291 "7 i. -..•'•- s i o i s> o a. 3 J9 <*0 E H O 3 g si 01 0) CJf (laatnSW 3A08V N0UVA313 II C-1292 en X a 6' M N U O 5= o tt) h a 01 S Co E « u ' H U s I > CQ *- 2 j > CQ l s :.a (IMinSW 3A0BVNCU»A313 ]] C-1297 (»»•») 1SW 3A09V N0I1VA313 11 C-1298 — H = « \ IT - <»".'nSW3A08tf N0I1VA313 H C-J299 (»3inSW3A09VN0llVA313 II C-1300 I CD ■c 0) 01 2u EJ-S rt A o> £ «s o O i ca 01 > 0> | g E. !S (»•») 1SW 3A09V N0IJ.VA313 II C-1301 I o c s £2 § . I (l»»!nSW3A08VN0tlVA313 II C-1302 APPENDIX C Pilot Balloon Sounding Comparisons between Federal Oil Shale Tracts C-a and C-b During the Period 20 January through 9 February 1975 Numbers alongside the points represent the calculated height of the balloon above the surface at that point in hundreds of feet. Other non- labelled heights can be determined given that each continuous point is 300 feet vertically displaced from its nearest neighbors. Where data is missing, no point was plotted, but the line was interrupted to denote that data was missing. In all soundings presented in this appendix, the following point symbology is adhered to: Z\ Flight Number 1 nominally 0500 MST I I Flight Number 2 nominally 0800 MST \_) Flight Number 3 nominally 1100 MST \y Flight Number 4 nominally 1700 MST II C-1303 57 270 C2? M 113 C-A 1/20/75 A 05:02 1000FT/2I\ D 07 2 55 3000FT/2I\ O 10:55 SQdZFT, O 17:00 3000FT/D2Y Figure C-l. PIBAL Trajectories over Tract C-a II C-1304 27C A 42 N 60 54 / 1r " C-B 1/20/75 □ 08:05 O 11:16 O 17:06 Figure C-l Pilot Balloon Soundings made over Tract C-b 2000FT/DIV 2000FT/D1V 3000FT/DIV II C-1505 276 1 SL ^>.> 7 £3 r: Figure C-2. PIBAL Trajectories over Tract C-a 60 54 C-A 1/23/75 A 04. :3S 2030FT/DIV D 08 :13 2003FT/DIV O 10 (49 203SFT/DIV ract C-a O 17 f21 102SFT/DIV II C-1306 / 270 S\^^42 us •£&*& 60 60 S8 36 C-B 1/23/75 A 05:02 2000FT/DIV D 03:27 O 11:00 O 17:00 Figure C-2 Pilot Balloon Soundings made over Tract C-b 1000FT/DIV 2000FT/DIV 1000FT/DIV II C-1307 270 •o- rs > Zj 60 60 B 60 U3 C-A 1/24/75 A 05 :08 4000FT/DIV D 08 :43 3000FT/D!\ O 11 :02 3000FT/DIV O 17 :02 4000FT/DIV Figure C-3. PIBAL Trajectories over Tract C-a II C-1308 276 M 60, 110 C-B 1/24/75 A 05:10 3000FT/DIV □ 08:00 2000FT/DIV O 11:02 2000FT/DIV O 16:49 2000FT/DIV Figure C-3 Pilot Balloon Soundings made over Tract C-b II C-1509 27Q 1C3 Figure C-4. PIBAL Trajectories over Tract C-a II C-1510 C-A 1/25/75 A 05:03 4000FT/DI\ C 08:03 400B,FT/'Lir O 11 :01 3000F!'. -!•■ 276 ■^ 60 M 60 ICO C-B 1/25/75 □ 08:00 O 11:00 O 17:00 Figure C-4 Pilot Balloon Soundings made over Tract C-b 4000FT/DIV 4000FT/DIV 3000FT/DIV II C-1311 270 Jf KS 60 60 60 £3 C-A 1/26/75 A 05:10 4000FT T\ D 07:55 O 10:56 4000FT/i..Z 4B00FT, u : Figure C-5. PIBAL Trajectories over Tract C-a II C-1312 ICO C-B 1/26/75 D 08:15 2000FT/DIV O 16:50 3000FT/D1V Figure C-5 Pilot Balloon Soundings made over Tract Ob II C-1515 270 18 1 7 110 v51 Figure C-6. PIBAL Trajectories over Tract C-a II C-1314 n 2000FT/L?:\ C-A 1/29/75 A 04:58 P 07:50 1000FT/LT O 10:47 4000FT/L r / r j 270 w £3 110 C-B 1/29/75 A 05:02 3000FT/DIV D 08:02 3000FT/DIV O 11 :00 4000FT/DIV O 17:10 2000FT/DIV Figure C-6 Pilot Balloon Soundings made over Tract C-b II C-1315 270 £3 U0 C-A 1/31/75 □ 08 : 1 1 O 11 :04 O lG:3b 2000FT/DIV 3000FT/L-IV 1000FT/DIV Figure C-7. PIBAL Trajectories over Tract C-a II C-1516 Ftf 270 1X3 r3 C-B 1/31/75 D 07:55 3000FT/DIV O 10:55 3000FT/DIV Figure C-7 Pilot Balloon Soundings made over Tract C-b II C-1317 27C p 1% ICO Figure C-8. PIBAL Trajectories over Tract C-a TI C-1518 C-A 2/1/75 D 08:00 O 10:5b O 2 6:55 2000FT/DI' 100k FT/DIV 3000FT/JIV Tj :> 270 & 110 '60x \60 :: C-B 2/1/75 A 05:12 2000FT/DIV Figure C-8 □ 08:20 O 10:56 O 17:53 Pilot Balloon Soundings made over Tract C-b 3000FT/DIV 2000FT/DIV 2000FT/DIV II C-1319 27D ICO C-A 2/2/75 A 05:02 3000FT/DIV D 0S:08 O 11 :04 O 16:54 2000FT/JIV 3 000 FT /L' IV 3000FT/U-IV Figure C-9. PIBAJL Trajectories over Tract C-a II C-1320 270 I > V> ICO £3 C-B 2/2/75 A 05:20 2000FT/D1V D 07:53 2000FT/DIV O 11:00 2000FT/DIV O 16:47 2000FT/DIV Figure C-9 Pilot Balloon Soundings made over Tract Ob II C-1321 60 270 £3 180 C-A 2/3/75 A 05:05 D 08:14 O 10:59 O 16:57 3000FT/DIV 2000FT/DIV 3000FT/LUV 2000FT/DIV Figure C-10. PIBAL Trajectories over Tract C-a II C-1522 270 ISO £3 C-B 2/3/75 A 05:12 2000FT/DIV □ 08:03 3000FT/DIV O 11:00 2000FT/DIV O 16:47 2000FT/DIV Figure C-10 Pilot Balloon Soundings made over Tract C-b II C-1525 ,60 270 n ISO Figure C-ll. PIBAL Trajectories over Tract C-a C-A 2/4/75 A 05:20 □ 08:00 O 11:12 O 16:50 2000FT/DIV 2000FT/DIV 1000FT/DIV 1000FT/DIV II C-1324 0 } £ 54 57 ica .54 60 N C-B 2/4/75 A 05:09 2000FT/DIV D 07 257 2000FT/DIV O 10:52 2000FT/DIV O 16 250 2000FT/DIV Figure C-ll Pilot Balloon Soundings made over Tract Ob II C-1325 270 V iss ^ Figure C-12. PIBAL Trajectories over Tract C-a II C-1326 ssv: :s^ M C-A 2/6/75 D 08:15 O 11 :00 O 17:00 1000FT/DIV 1000FT/DIV 2000FT/DIV / 60 270 1S3 48N vSf \ \ \ ^ \ (J\ \ \ \ \ ' p\j^ ^*^ vV^ \ I ^4 60 i tJ C-B 2/6/75 A 05:20 1000FT/DIV O 11810 O 16:59 Figure C-12 Pilot Balloon Soundings made over Tract Ob II C-1327 1000FT/DIV 1000FT/DIV 270 ico Figure C-13. PIBAL Trajectories over Tract C-a II C-132S 60 I SJ C-A 2/7/75 D 08140 O 10:55 O 16:49 3000FT/DIV 3000FT/DIV 3000FT/DIV 45\ 270 r'f ISO » \+» ♦ ♦ T 60 1 C-B 2/7/75 rj D 08:40 O 11:01 O 16:55 Figure C-13 Pilot Balloon Soundings made over Tract C-b 2000FT/DIV 2000FT/DIV 3000FT/DIV II C-132P 33 27G }Om m C-A 2/8/75 A 05:11 2000FT/DIV D 08 : 1 1 O 10:56 O 17:14 4000FT/DIV 1000FT/DIV 2000FT/DIV Figure C-14. PIBAL Trajectories over Tract C-a "II C-1330 153 C-B 2/8/75 A 05 201 3000FT/DIV D 08:10 2000FT/DIV O 10:50 2000FT/DIV O 16:57 2000FT/DIV Figure C-14 Pilot Balloon Soundings made over Tract C-b II C-1331 27N / 270 1C3 C-A 2/9/75 A 04:54 1000FT/DIV P 07 254 1000FT/DIV O 11200 1000FT/DIV Figure C-15. PIBAL Trajectories over Tract C-a II C-1332 / 270 ICO C-B 2/3/75 A 05**03 3000FT/DIV D£3:25 2000FT/DIV O 11 :00 1000FT/DIV Figure C-15 Pilot Balloon Soundings made over Tract C-b II C-1333 APPENDIX D WIND DIRECTION VERSUS HEIGHT COMPARISON BETWEEN FEDERAL OIL SHALE TRACTS C-a AND C-b AND GRAND JUNCTION, COLORADO DURING 20 JANUARY THROUGH 9 FEBRUARY 1975 For all data presented in this appendix, the following point symbology has been adhered to: /\ Grand Junction Data □ O Tract C-a Data Tract C-b Data If there were no more than one of the above three plots for any particular flight, there was no comparison chart included for that flight. II C-1334 zzzz NORTH EAST II C-1335 °0C0" 1/20/75 □ 07:55 OA C 08:05 OB A NO DATA CJT h- UJ LU LL E0B0__ Figure D-2. Upper Level Wind Comparisons for Flight No. 2 on 20 January 1975. 4- LU CJ < on id CO 4000. <: 30004- o o J. Jj > o UJ a i— 1000. 0ft i. NORTH __J EAST i i I 1 SOUTH WEST II C-1556 °CC3" 1/20/75 D 10:55 C-A O 11:16 C~B A NO DATA GJT 5000. _ UJ UJ Ll Figure D-3. Upper Level Wind Comparisons for Flight No. 3 on 20 January 1975. UJ o < U_ cc 4SJ3-_ o o > o LU Q 1r ,. _ rr -■' -" *» 1 NC RTH _L EAST SOUTH II C-1557 v;lst NOR >000- E000__ 40Z3-- I— LU UJ U_ LU O < CO < 3S23. o -P UJ > o LU Q 3 1000. 1/20/75 1 i D 17200 D-A O 17:06 OB A 17:00 CJT Figure D-4 Upper Level Wind Comparisons for Flight No. 4 on 20 January 1975. GZZ?.A NORTH 1 . EAST _1 SOUTH WEST II C-1338 >000" 1/23/75 D 04:36 C-A O 05:02 OB A 05:00 CJT 5000. Figure D- Upper Level Wind Comparisons for Flight No. 1 on 23 January 1975. 4000-- <: 32S0. CJ o LU > o 59 2B3B. < azm. NORTH i EAST SOUTH WeTT TIoT^h II C-1359 >000- 5000. h~ UJ UJ Ll UJ CJ < u. ID CO < o o M lu > o < LlI Q 3 I- 1/23/75 D 08:13 O 08:27 A NO DATA 1 C-A OB GJT 1 Figure D-6 Upper Level Wind C Flight No. 2 on 23 J omparisons for anuary 1975. 4003. _ 3S03__ 2CC3„ 1C~3.. 0000 J NC -iTH N0n7 °000 UJ LU U_ LU O < Lu ££. ZD (/) < o < E000__ 40S0-- 30C0__ LU > O QQ 2S20 <. LU Q 3 1ES0-- 1/23/75 1 1 n D 10:49 C-A VL O 11 :00 C-B » A NO DATA CJT JJ Er o -- Figure D-7 Upper Level Wind Comparisons for Flight No. 3 on 23 January 1975. -L i i i 1 i 4 I 1 i NOHTH EAST SOUTH II C-1341 WEST NOr 4003-- 1/23/75 D 17:21 OA O 17:00 OB A 17:00 GJT Figure D- Upper Level Wind Comparisons for Flight No. 4 on 23 January 1975. / w •-• *3 — NORTH t»ac. 003 S000__ 1/24/75 D 05:08 C-A O 05:10 OB A 05:00 CJT Figure D-9 Uppjr Level Wind Comparisons for Flight No. 1 on 24 January 1975. 4ZC0-- <: mm u a 2ZZ3-- _j 1000 0000 NORTH II C-1345 °000 5000. - 1/24/75 D 08:43 C-A O 08:00 OB A NO DATA GJT 4S20-- LjJ LU U_ LU a < Ll. cc CO -J <: 3000. _ o o > o 5 2003. LU Q < Figure D-10 Upper Level Wind Comparisons for Flight No. 2 on 24 January 1975. ■ i NOHTH EAST SOUTH WEST II C-1544 >000' 5000 _. S\ UJ UJ UJ CJ < Ll 40£3-_ <; 30*33. O o UJ > o U Q 3 _j 1000. < i ' 1/24/75 D 11 :02 C-A O 11 :02 OB A NO DATA GJT Figure D-ll Upper Level Wind Comparisons for Flight No. 3 on 24 January 1975 NORTH AST ^fnr TO n 77-27 NOi- II C-1545 >000' s\ S000__| Figure D-12 4SS2-- 1/24/75 D 17:02 C-A O 16:49 C-B A 17:00 GJT UJ LU Li_ \^ U CJ < CO -J < 3020 _<_ o o _J UJ > o 9 200aH UJ Q Upper Level Wind Comparisons for Flight No. 4 on 24 January 1975. I tT> i ■ „k_ < r- — - - .„mTH /.EST II C-1346 r~ NORTH II C-1347 >000 E000J- 4001 U UJ LU < q: o 5 2000., LU Q _j 1000. f : " NOHTH ... I - EAST WEST SOUTH II C-1549 O000- E000. /"\ UJ UJ LL. UJ u < u_ CO 4000-- o o LiJ > o ^9 2033. < UJ Q 3 1££3. 1/25/75 D 17:02 C-A O 17:00 C-B A 17:00 GJT Figure D-16 Upper Level Wind Comparisons for Flight No. 4 on 25 January 1975. < * ' * Romrr _L EAST J- SOUTH VVbS 1 II C-1550 •000" 1/26 75 D 07:55 C-A O 08:15 C-B A NO DATA GJT EgesJ-j- 4£20_- I- LU LU U_ UJ o < Ll QC 3 CO -J <: scng_j_ CJ o LU > o UJ Q Z> < Figure D-17 Upper Level Wind Comparisons for Flight No. 1 on 26 January 1975. ! . . NORTH "East -rrr SOU TH MOF-," II C-1353 »020 1/26/75 i D 16:56 C-A O 16:50 OB A NO DATA CJT E002__ 42234- h- UJ UJ U_ LU a < Ll to a UJ > o m < LjJ Q i— i < 2s:i34- \r.,:-Z— i Figure D-18 Upper Level Wind Comparisons for Flight No. 2 on 26 January 1975. NORTH !_ EAST Q ra o SCuTh WEST "RoTT* IT C-1352 kjyu 1/29/75 it D 04:58 C~A / / O 05:02 C-B / f A 05:00 CJT / 1 5223. h- LU U U_ ^y LU O < Ll vc CO Figure D-19 Upper Level Wind Comparisons for Flight No. 1 on 29 January 1975. 42S34- < 2ZZ2+ o o LU > o LU Q 3 < iwtJ. 02£& NORTH _J EAST souYTT WEST II C-1355 »000" UJ Q 5000.. 4000 UJ LU Ll UJ o < ZD CO -J «< 30S3 O o UJ > o QQ < 1/29/75 D 07:50 C-A 0 08:02 OB A NO DATA CJT Figure D-20 Upper Level Wind Comparisons for Flight No. 2 on 29 January 1975. T 20004- 1000- - 00S0. NORTH _! EAST SOUTH /EST II C-1354 »000- 1/29/75 D 10:47 OA O 11:00 C-B A NO DATA CJT 5000 _+_■ Figure D-21 Upper Level Wind Comparisons for Flight No. 3 on 29 January 1975. 4£33_e- n 30004- 2000-- _j 10004. < t , ■ • . !_ N< >RTH TasT SOUTH "W^i rr NOF IT C-1355 >000- S000__j s\ LU LU Ll LU o < 4003-i- O 5 2000J. LU Q :d t- 100a. < nOTTTTT X SiUTH EAST WEST NOr II C-1356 >000- h- LU UJ U_ ^y LU u < u_ ID CO 1/31/75 □ 08 : 1 1 C-A O 07:55 OB A NO DATA CJT E000__ Figure D-23 Upper Level Wind Comparisons for Flight No. 1 on 31 January 1975. 4000.. CJ o LU > o LU Q I- 1000.. EAST suAttt II C-1357 JeTT NORTH >000' h- LU LU LL UJ u < CO < CJ o 5000__ 4023-- 1/31/75 □ 11:04 C-A O 10:55 C~B A NO DATA GJT Figure D-24 Upper Level Wind Comparisons for Flight No. 2 on 31 January 1975. 3033_- LU > o <. LU Q !D lra.- 1 0 east" -I SOUTH -L WEST NG-.Y II C-155S >000- E000-_ 40OT-- /^\ h- LU LU Ll \s UJ o < LI- CK ZD CO CJ o UJ > o ^9 2B30. UJ Q !D 10ML- < r~""i *W8jeR(3RTIT D 16:35 OA O NO DATA C-B A 17:00 GJT Figure D-25 Upper Level Wind Comparisons for Flight No. 3 on 31 January 1975. _L EAST SOUTH WEST \^ II C-1359 >000- UJ UJ u o < Ll CO 2/1/75 D NO DATA C~A O 05:12 C-B A 05:00 GJT S000__ Figure D-26 Upper Level Wind Comparisons for Flight No. 1 on 1 February 1975. 4SS3-- o o LU > o LU Q 10O8-- crrrsJ NORTH r^fer _l SOUTH WEST Nl, i- i H II C-1560 °000* H 5000. 4P23__ h~ LU LU Li_ v UJ o < Ll cc < 3000. a o uj > o QQ 9aaa < *—■ LU a 3 2/1/75 D 08:00 O-A O 08:20 C-B A NO DATA GJT Figure D-27 Upper Level Wind Comparisons for Flight No. 2 on 1 February 1975. 1000- - r::z. NORTH EAST X SOUTH WEST TioTrm II C-1561 >000- 5000. _ 4C39-i_ 2/1/75 D 10:55 C-A O 10:56 OB A NO DATA CJT LU UJ U_ LU O < Lu C£ CO < 3P20_- O o LU > o UJ Q 3 5« Figure D-28 Upper Level Wind Comparisons for Flight No. 3 on 1 February 1975. j -L 4- r ■ ■ o QQ 2B38. LU Q ZD < IwriTH 2/1/75 D 16:55 C-A O 17:53 C-B A 17:00 GJT Figure D-29 Upper Level Wind Comparisons for Flight No. 4 on 1 February 1975. X EAST WEST U.-- . II C-1565 NORTH EAST WEST IT C-1564 NORTH IV O000-J 1 2/2/75 □ 11:04 C-A O 11:00 C-B A NO DATA GJT h- LU LU LL v LU O < Lu tc CO B0B0_J_| Figure D-32 Upper Level Wind Comparisons for Flight No. 3 on 2 February 1975. 4WJ0-- J <1 3323. a O LU > O CQ < 2- , z _ _ LU a _j IMP.. ; TXTT Nt----n NORTH SOUTH II C-1366 WEST NORTH ,;j7TFT VEST SOUTH II C-156S >000- S000__ 4csa_- h- u u Ll ^^ LU O < ZD CO «< 3SC0. CJ o UJ > o UJ Q h- J 1000. < * . 2/3/75 n 08:14 C-A O 08:03 C-B A NO DATA GJT Figure D-35 Upper Level Wind Comparisons for Flight No. 2 on 3 February 1975. t A] NOi-tTH EAST SOUTH i.Ci II C-1569 °000X 2/3/75 □ 10:59 O 11:00 A NO DATA T" C-A C~B GJT r , ■ U.I LU Ll Ui CJ < Ll a: ZD CO Figure D-36 Upper Level Wind Comparisons for Flight No. 3 on 3 February 1975. 4000 / ' NORTH EAST scurrr II C-1570 >000' 5000. _ UJ UJ y 40004. < Ll tit CO -J < 3020. CJ o UJ > o <, UJ Q 1030- - h- NORTH 2/3/75 D 16:57 O 16:47 A 17:00 C-A C-B CJT Figure D-37 Upper Level Wind Comparisons for Flight No. 4 on 3 February 1975. t:^ EAST WEST SOUTH II C-1571 >000 2/4/75 LU LU U. ^/ UJ a < Ll CO D 05: O 05:09 A 05:00 C-A C~B GJT Figure D-38 Upper Level Wind Comparisons for Flight No. 1 on 4 February 1975. [ 'KiOTTh NGRTr II C-1372 °0B0 u LU U_ Ld O < Li_ a: CO < o o LU > o m < LU a i- E039-- 4.^0 _- C-v.-_/*l . 2T^3-_ ic:"3_- 2/4/75 D 08:00 C-A O 07:57 C-B A NO DATA GJT Figure D-39 Upper Level Wind Comparisons for Flight No. 2 on 4 February 1975. ^ ■ Nofrnr fe TTvST X SOUTH II C-1373 WEST Tronr-T *&"& I- LU UJ Ll. QJ o < ll. r> CO < o h- 6000. 2/4/75 D 11: 12 C-A 0 10:52 C-B A NO DATA CJT Figure D-40 Upper Level Wind Comparisons for Flight No. 3 on 4 February 1975. 4000-. SS23. UJ > o UJ Q it: <& 00250 NORTH EAST SOUTH Tv^T N0R7- II C-1374 °003 UJ LU LL o < Ll. C£ r> CO > o m < LU Q r) *- 2/4/75 D 16:50 O 16:50 A 17:00 C-A C-B CJT B6£!0__ Figure D-41 Upper Level Wind Comparisons for Flight No. 4 on 4 February 1975. 40S0. < ZZZ3. O o t**^~- e<-**J • 10C3-- NORTH EAST SOUTH WtST N*_ , II C-1575 °000 NORTH EAST SOUTl II C-1376 WEST °c&r 2/6/75 D 11:00 C-A O 11:10 C-B A NO DATA GJT 1 1 EG30- - Figure D-43 h- LU UJ Ll Upper Level Wind Comparisons for Flight No. 2 on 6 February 1975. \c\ W 4000. / J < Ll a: CO 1 o o ' d LU > o UJ Q _l 1000- < 0223 I f NO RTH EAST SOUTH WEST NOT;' II C-1577 »S£J LU LU LU O < Ll a: CO UJ Q 2/6/75 □ 17:00 O 16:59 A 17:00 OA OB CJT S0B3-- Figure D-44 Upper Level Wind Comparisons for Flight No. 3 on 6 February 1975. 4C-53, o o .J LU > o m < 2rr3_- H 1C^3-- < r:: '3. NORTH °000 E020-- UJ UJ LL LU O < Ll r) CO 4^3.- LU > o < LU Q 2^.T3-_ < ir~3.- f 2/7/75 □ 08:40 O 08:40 A NO DATA C-A C-B GJT Figure D-45 Upper Level Wind Comparisons for Flight No. 1 on 7 February 1975. i.uHTH i SOUTH H C-1579 NOfHn >BSB' K0D3.J 2/7/75 D 10:55 C-A O 11:01 C-B A NO DATA GJT Figure D-46 Upper Level Wind Comparisons for Flight No. 2 on 7 February 1975. £^iuv5— — LU > O _j 1030. < i f * ' - '* numTH J. EAST sfilw J. WEST NOH H C-1580 >8Sjr E0C0-_f LU LU U- s^ LU O < Ll r> CO 4CC3— to LU > o m < LU Q 1 sbanr 2/7/75 D 16:49 O 16:55 A 17: Figure D-47 Upper Level Wind Comparisons for Flight No. 3 on 7 February 1975. -J- NO °K50' h- U Q.J U. ^^ LU O < Ll CO < o o _J LU > o m < UJ Q h- 2/8/75 □ 05:11 C-A O 05:01 C-B A 05:00 GJT 5C£3_- Figure D-48 4SZ3-_ 3S33-- Upper Level Wind Comparisons for Flight No. 1 on 8 February 1975. ic:j-. NuRTH T^rr °C23" 62S3_J Figure D-49 LU QJ LL \^ LU O < Ll r> CO 4SS3__ < ZZZ3. a a > o 9 2880. LxJ Q 3 J3 ICU90. < r: i 2/8/75 □ 08 : 1 1 C-A O 08:10 C-B A NO DATA CJT Upper Level Wind Comparisons for Flight No. 2 on 8 February 1975. NORTH "eaST bOUTH ~~ TT' II C-1383 "0S3" £££3_-f lu UJ LU O < U_ q: CO < 3088. o o > o < z~3. UJ Q ID < #yr '-^ 2/8/75 □ 10:56 C-A O 10:50 C-B A NO DATA CJT Figure D-50 Upper Level Wind Comparisons for Flight No. 3 on 8 February 1975. NOiMH II C-1584 >000 H UJ UJ u. LU O < Li- ZD CO -J < CJ o UJ > o ca < LU Q 3 5000. 2/8/75 D 17:14 C-A O 16:57 C-B A 17:00 CJT 4r>f?n 2S23-- < Figure D-51 Upper Level Wind Comparisons for Flight No. 4 on 8 February 1975. ££23 J_- NORTH J, EAST ©ftf! LU UJ Ll \s UJ CJ < Li- ft: :d (S) _j < o o > o m < LU t- h- < 0" NC'-t IH EAST SOUTH WEST NCF II C-1586 t»c3jJ- EOF0-J < .-_ j__ U UJ LL LU o < Ll a: CO •J < o o -J LU > o m < LU a < 42S3-- I, | »|W^ 2/3/75 D 07;54 C-A O 08:25 C-B A NO DATA CJT Figure D-53 Upper Level Wind Comparisons for Flight No. 2 on 9 February 1975. Kjgsth T^T SOUTH "WST NO II C-1387 OgfJfJ- 4S23-- u UJ Ll LU o < Ll r> CO < o o LU > o < LU Q 2/9/75 D 11:00 C-A O 11:00 c-B A NO DATA CJT E£23-. Figure D-54 «*3u' ; Upper Level Wind Comparisons for Flight No. 3 on 9 February 1975. north i>OU i H • col "FT-TT II C-158S The Oil Siiai.k Corporation I02OO WEST HIGHWAY 72 GOLDEN, COLORADO 80401 303/279-7721 CABLE ADOHESS'TOSCOPETRO" February 6, 1975 IOIOO SANTA MONICA 0OULEVAR0 IOS ANGELES, CALIFORNIA 90067 Dr. MaxW. Legatski C-b Shale Oil Project 2 Park Central, Suite 555 1515 Arapahoe Street Denver, Color-ado 80202 Dear Max: LABORATORY DATA LETTER 75-23 Re: Air Monitoring and Analytical Determinations of Volatile Trace Metals at the C-b Tract Sampling Date: January 27, 1975 Project No. 197 .••rl:V'"D fin ' n i o This is the second quarterly report on the sampling and analytical determination of airborne concentrations of volatile trace metals, e.g. arsenic (hereafter referred to and determined as arsine) , selenium and mercury at the C-b tract. The meteoro- logical parameters of interest are recorded in Table 1. Samples were collected at the meteorological tower on January 27, 1975. The sampling technique and analytical methology used for arsine, selenium and mercury were outlined in Laboratory Data Letter 74-134, dated December 4, 1974 r The concentrations of these metals and sulfur dioxide were found to be below the ["detection levels of the analytical methods used (see Table 2 for details),,... although the methods used for analysis are reportedly" quite ,..,. sensitive. >:*p ■j.o On January 29, 1975, one sample for sulfur d:. oxide was collected by passing the air through an impinger that contained 10 ml solution of tetrachloromercurate (II) Solution ,--k-> l- . (TCM). The TCM solution was subsequently analyzed for Co II C-1389 or ' ' ( "T L^~ «' .../ .r'p IT;/.' U^ .;.-'" /VP.L . r' LX£ J1?t. Dr. MaxW. Legatski February 6, 19 75 Page 2 sulfur dioxide content using West-Gaeke method. This method essentially consists of absorbing sulfur dioxide into TCM solution. This results in the formation of a stable dichloro- sulfitomercurate complex. The color is developed by adding solutions of formaldehyde (0.2% v/v) and acid-bleached pararosaniline (0.2% w/v) . Pararosaniline, formaldehyde and the bisulfite anion react to form intensely colored complex which is measured spectrophotometrically at 548 nm. Absorbance is linearly proportional to the sulfur dioxide concentration. Air sampling for particulate matter in the respirable ranges was performed using an Andersen sampler (see Table 3 for results). The Andersen head attachment to the high volume sampler is a multi-stage, multi-jet cascade impactor. It is made of five aluminum plates separated by neoprene rubber gaskets. The standard 8"xl0" high volume glass fiber filter acts as a back-up. Each plate contains 300 equally sized holes. The holes are aligned so that the air streams through the holes are directed at the surfaces of the plate below. The diameter of the holes decreases from plates one to four. Plates are covered with circular glass filters which have holes aligning with the holes in the plates supporting them. The mass of particulates, on a particular stage or plate, is determined by the usual gravimetric procedure (i.e. difference in weights is determined by using an analytical balance). The filters resting on plates 2, 3, 4, 5 and the back-up filter corrrespond res- pectively to aerodynamic diameters of 7.0 microns and above, 3.3 to 7 microns, 2.0 to 3.3 microns, 1.1 to 2.0 microns, and 0.01 to 1.1 microns. CONCLUSIONS The weather conditions from January 27 through 29, 1975, were far from being ideal for air sampling of volatile trace metals and sulfur dioxide at the C-b tract. The natural atmospheric self-cleaning processes were at their best due to rain and heavy snowfall. In addition to this, high wind velocity would have effectively dispersed any remaining airborn particulates that rain cr snow could not sink into the ground. Arsine and selenium dioxide both show a greater solubility in water and, therefore, II C-1390 Dr. Max W. Legatski February 6, 1975 Page 3 because of prevailing atmospheric conditions, I might have gotten zero values for these. The values for these two metals I had measured in the last quarter are given in parenthesis in Table 2 for reference purposes . By no means are these values high even in analytical sense; in fact, both of these were just above the detection limits of analytical methods used. It may be that true concentrations of arsine and selenium dioxide are zero at the C-b tract, but I would have liked to establish this under better meteorological conditions. Surprisingly, I could not get any number for mercury this time. Last quarter, the sampling time for mercury was three hours and I had collected a total of 12 /ag of mercury (in absolute quantities) during this sampling time. This quarter, the sampling time for mercury was two hours. The reduction in time was mainly a means of convenience for analyzing the sample, The sulfur dioxide sample collected on January 29, 1975, after a very heavy snowfall, would in all probabilities give a zero reading. The data from Andersen sampler looks OK. I am hoping to sample all these species again under better weather conditions in the near future and then shall report to you again . Very truly yours , ARUN D. SHENDRIKAR Senior Research Chemist ADS /as Encs. Q[k >Y^f~-- Approved (FCH) (MTA) . cc: Dr. B. L. Schulman Dr. R. M . Coomes Mr. K. D. VanZanten Mr. G, C. Kane II C-1391 TABLE 1 METEOROLOGICAL DATA AS RECORDED ON JANUARY 27, 19 75 Sampling Point Barometric Pressure Temperature Wind Velocity Wind Direction Relative Humidity- Meteorological Tower 593.30 mm Hg 29°F 5 Miles per Hour Northwest 73% • The day was partly clear with some snow on the ground 11 C-139: CM w ►-} CQ < W P B a: P & P CO n < CO g w w o g w Eh O > Pin o CO o f— 1 S w H W P < o t— 1 < o S H X! I o w H H < P H XI (X CO ®L <2) ®L o* CM r— I i— i 1—1 O J> • • • \ CO o o > » — » » — * » — * CD o o o CQ O o o o CL. • • • • Cu. o o o o at ^ co m i- O CU +J 0 "-• £~ 5 "2 a t>. CD "^ CM 00 'sf' CO CD r— 1 CM CO CD LO o °° O H i-H co •H en 3 U •r-1 . — i 3 c < to ■4-' CD 3 •H en * 3 •--) 3 o t~ ( Q> CO + O 0) rd £ 6 ° o 2 a T5 3 3 O • •a X >■ 0 CU 3 u 0 & o o TJ 3 5 o as I — I 3 3 •■-* 00 a -3 a cd a u jo g * o CO «:' fd ^ £ o +-> o g CO ■-< CD 3 i_, O O L0 -Q — Q) xs X o •.-I p 1-1 Is E ® O CD £« m ^ CO "o t! ^ ° O CD CO 3 CD O 3. 3 -3 r— I C O rd CO CO ^, o rd 3 Xi rd X) Oh d ^ n >, 0) ° X! ,3 m 3 rd O .Q I 3 O CD U "^ T3 rj m > CD fc u Cn CD rd & 3 O i-< CD -a 3 rd 3 •rM 3 CD ■ — i 0 CO 0 3 •H CO s-< rd i-, O 0 T5 o X5 £ 3 •rH 3 0 i-H 0 CO CO rd 0 CO CO 0 S-. o« CO 0 0 L0 3 rd o .Q -^H •)-» t— i 3 rd S-, U 4-» T-! 3 •)-■> 0 5 U ^ 3 3 O < O 3 CO O tj rd 5-. O o O 0 > 3 0 P L0 0 -1-1 Lw O -!-> 3 O 3 Cn 3 CO 0 H . — i 3 •t-i O J-, 0 £ £ o U >. X! XS 0 N f — i 3 3 < + 0 »-. B 3 t-< 0 3, £ 0 ■M '3 3 3 Ctn DQ s- O v-i -3 0 O 0 1_| o u 0 i-, 0 > CO 0 £ 3 "o 0 J_l 3 CO 3 0 + + 0 ts 0 rd ■»-» 3 P E O Si 3 1-^ XJ 0 t: o a 0 TJ 3 3 T> 0 i-i 3 CO 3 0 CO 3 4-» 0 £ 0 LO 0 L0 3 O ■H .;_) 3 +-> 3 0 U 3 O U 0 u 3 CO ^ CO t^ 0 ^ 3 o Ph q 3 £ -H 0 W " i-. 0 0 Q 3 ^ & °2 r-H 0 I ,3 -vT1 ® II C-1593 TABLE 3 SIZE DISTRIBUTION OF AIRBORNE PARTICULATE MATTER IN THE RESPIRABLE RANGES AT THE C-b TRACT Sampling Time = 21 hours and 15 minutes Total Particulate Matter Collected = 15.1 mg Size Range (microns)* 7.0- Above 3.3 - 7.0 2.0 - 3.3 1.1 - 2.0 0.01 - 1.1 Concentrations (juq/m ) 1.77 1.89 6.62 2.13 5.44** * Aerodynamic diameter of the particulate matter. ** Although this represents particulate matter of 0.01 - 1.1 microns aerodynamic diameter collected on the back-up filter (8"xl0"), at least two soot particles of much larger diameters were observed on the filter. This may have happened due to "particle bouncing phenomenon" -- a common occurrence in almost all particle sizers. II C- 1394 The Oil Shale Corporation IS200 WEST HIGHWAY 72 GOLDEN, COLORADO 80401 303/279-7721 CABLC AOORCSS.'TOSCOPETRO" February 11, 1975 IOIOO SANTA MONICA BOULEVARD LOS ANGELES. CALIFORNIA 90067 Dr. Max W. Legatski C-b Shale Oil Project 2 Park Central, Suite 555 1515 Arapahoe Denver, Colorado 80202 Re: Correction to Laboratory Data Letter 74-134, Air Monitoring and Analytical Determinations of Volatile Trace Metals at the C-b Tract Dear Max: In the above referenced Laboratory Data Letter, dated December 4, 1974, the mercury concentration (see Table 2) should be 0. 006 ppb (v/v) instead of 0.012 ppb. Please correct your copy. This change is necessitated due to the fact that the chemist-in-charge at The Commercial Testing Laboratories, Denver, Colorado, had used an incorrect factor for calculat- ing mercury concentration. This was brought to my attention by Dr. M. L. Jacobs of the same laboratory only recently. Very truly yours, -IS SHENDRIKAR Senior Research Chemist ADS/dt bcc: B. L. Schulman J. H. Barney K. D. Van Zanten G. C. Kane II C-1595 — ^ ^M^— ^■^^■MHBMyiWSl A 24-HOUR "QUICK-LOOK" AT THE AIR QUALITY $ METEOROLOGY OF TRACT C-b 28 JANUARY - 29 JANUARY 1975 C-b Shale Oil Project Two Park Central, Suite 555 1515 Arapahoe St. Denver, Colorado 80202 II C-1596 FOREWORD This intensive field investigation and its resulting report had many contributors. They are: C-b SHALE OIL PROJECT Jean Bissett Roy Dameron George Fosdick, Task Coordinator and Editor Joan Gibbs Miles La Hue E G § G RADIAN Stan Kimball Le Roy Meyer Roger Nelson Jerry Umphries Richard Ellison Jack Grossman David Jones Robert Lee MARLATT £ ASSOCIATES William Marlatt TOSCO LABS Frank Haas Arun Schendrikar INTERESTED OBSERVERS William Roberts, TOSCO Roger Tucker, Staff Meteorologist for the Area Oil Shale Supervisor Kenneth Van Zanten, TOSCO II C-1397 TABLE OF CONTENTS FOREWORD n C-1397 TABLE OF CONTENTS II C-1391 LIST OF FIGURES . II C-1399 I. INTRODUCTION . II C-1402 II. BASIC DATA OBTAINED II C-140E III. OPERATIONAL STATUS 'II C-1408 A. METEOROLOGY II C-1408 B. AIR QUALITY II C-1409 IV. ANALYSIS OF THE DATA II C-1410 A. METEOROLOGICAL SUMMARY II C-1410 B. ATMOSPHERIC STABILITY ASSESSMENT II C-1413 C. OTHER METEOROLOGICAL DATA II C-1417 D. AIR QUALITY II C-1420 APPENDIX - FIGURES II C-1423 II C-1598 PAGE II C-1423 II C-1426 II C-1427 II C-1442 II C-1455 II C-1467 II C-1509 LIST OF FIGURES FIGURE NUMBER TITLE 1 ABBREVIATIONS FOR THE VARIOUS AIR QUALITY AND METEOROLOGICAL TOWER CHANNELS 2 SUMMARY OF METEOROLOGICAL SYMBOLS AND ABBREVIA- TIONS 3 TRAILER 020 HARDCOPY 4 TRAILER 021 HARDCOPY 5 TRAILER 022 HARDCOPY 6 TRAILER 023 HARDCOPY 7 TRAILER 024 HARDCOPY 8 HOURLY CLOUD AND SKY CONDITIONS AS ESTIMATED HOURLY II C-1533 AT THE TRACT C-b DURING THE 24 HOUR PERIOD OF THE TEST 9 HOURLY METEOROLOGICAL OBSERVATIONS AT TRACT C-b 10 METEOROLOGICAL CONDITIONS AT GRAND JUCNTION, COLO. COVERING THE 24 HOUR PERIOD FROM 1600, JANUARY 28 to 1600, January 29. 11 SYNOPTIC REPORTS FOR GRAND JUNCTION, COLORADO DURING THE 24 HOUR TEST PERIOD 12a VERTICAL COMPONENT OF WIND DIRECTION, 100' BIVANE 12b VERTICAL COMPONENT OF WIND DIRECTION, 200' BIVANE 13 MEAN VERTICAL COMPONENT OF WIND DIRECTION $ STAND- ARD DEVIATION, 1 MINUTE AVERAGE, 100' LEVEL 14a EFFECTS OF AVERAGING TINE ON a^ (DEG) (100' LEVEL) 14b EFFECTS OF AVERAGING TIME ON a, (DEG) $ ON STABIL- ITY CLASS - 100' BIVANE, JANUARY 29, 1975 15 ACOUSTIC SOUNDER STRIP CHART, C-b SITE 16 ACOUSTIC SOUNDER STRIP CHART, COLONY SITE 17 ACOUSTIC SOUNDER TEMPERATURE INVERSION HEIGHTS AT COLONY - DERE CABIN RIDGE, JANUARY 28-29 II C-1555 II C-1536 II C-1542 II C-1545 II C-1544 II C-1545 II C-1548 II C-1549 II C-1550 II C-1551 II C-1552 II C-1399 LIST OF FIGURES cont, FIGURE NUMBER . TITLE PAGE 18 ACOUSTIC SOUNDER TEMPERATURE INVERSION HEIGHTS AT II C- 15 53 TRACT C-b MET. TOWER SITE, JANUARY 28 and 29 19 USAF SKEW T, log p DIAGRAM (GJT) II C-1555 20 USAF SKEW T, log p DIAGRAM (GJT) II C-I556 21 C-b TEMPERATURE SOUNDING, 05:25 MST 1/29/75 II C-1557 22 C-b TEMPERATURE SOUNDING, 08:20 MST 1/29/75 II C-1558 23 C-b TEMPERATURE SOUNDING, 11:30 MST 1/29/75 II C-1559 24 C b TEMPERATURE SOUNDING, 17:20 MST 1/29/75 II C-1560 25 TRACT C-b TEMPERATURE SOUNDING 05:25, 1/29/75 II C-1561 SPIRAL DOWN FROM 13,000 FT. MSL 26 TRACT C-b TEMPERATURE SOUNDING OS: 20, 1/29/75 II C-1563 SPIRAL DOWN FROM 13,000 FT. 27 TRACT C-b TEMPERATURE SOUNDING 11:30 1/29/75 II C-1565 SPIRAL DOWN FROM 13,000 FT MSL 28 TRACT C-b TEMPERATURE SOUNDING 17:20, 1/29/75 II C-1567 SPIRAL UP TO 13,000 FT. 29 TRACT C-b PILOT BALLOON SOUNDING 05:02, 1/29/75 II C-1569 30 TRACT C-b PILOT BALLOON SOUNDING 08:02, 1/29/75 n C-1570 31 TRACT C-b PILOT BALLOON SOUNDING 11:00, 1/29/75 II C-1571 32 TRACT C-b PILOT BALLOON SOUNDING 17:10, 1/29/75 II C-1572 33 ANALYTICAL DETERMINATIONS OF VOLATILE TRACE METALS n C-1573 AND SULFUR DIOXIDE SAMPLED AT THE C-b TRACT 34 SIZE DISTRIBUTION OF AIRBORNE PARTICULATE MATTER II C-1574 IN THE RESPIRABLE RANGES AT THE C-b TRACT 36 SLOPE OF TEMPERATURE VS. ALTITUDE (°C/100M) 1/29/75 II C-1577 37 TEMPERATURE - ALTITUDE AT MET. TOWER VS. A/C II C-1576 SOUNDINGS II C-1400 LIST OF FIGURES cont. FIGURE NUMBER TITLE PAGE 38 EFFECTS OF ALTITUDE ON oQ (DEG) AND STABILITY II C-1577 CLASS 39 STABILITY CLASSIFICATION FROM WIND SPEED II C-1578 40 DIURNAL VARIATIONS IN WIND VELOCITY II C-1579 41 HORIZONTAL TEMPERATURE VARIATIONS IN PICEANCE CREEK II C-1580 42 TEMPERATURE SOUNDING, 2 FEBRUARY 1975, 50' INTERVALS II C-1581 II C-1401 I. INTRODUCTION An intensive, 24-hour field investigation in the area of air quality and meteorology was conducted at the Federal Oil Shale C-b Tract from 1600 NET on January 28 to 1600 MST on January 29, 1975. Purposes of this investigation were as follows: 1. To check on the operational status of the existing air quality and meteorological instrumentation at the site. 2. To coordinate the activities of all subcontractors over a short, intensive period. 3. To obtain reduced data within approximately 24-hours after termination of the field test. Data requiring laboratory facilties were reduced by February 6, 1975 (one week later) . 4. By virtue of the above, to circumvent the 3 to 4 month data-lag problem associated with the conventional report- ing channels. 5. To investigate possible gaseous emission sources on or near the Tract. 6. To correlate several methods of assessing atmospheric stability. The time period was selected to coincide with the previously scheduled quarterly upper- atmospheric soundings. A heavy snowstorm prevented the data-day from beginning at a scheduled time of 0500 MST on January 28th; the snow subsided by 1600 hours, so the data- day started then and actually ended with the 1700 MST sounding on the 29th. II C-1402 Regular field instrumentation was utilized for this test, supplemented as follows: 1. Data from a second acoustic sounder at the Colony site was correlated by Marlatt $ Associates with that from the meteorological tower site. 2. Bivanes have been installed at the 30', 100', and 200' levels on the meteorological' tower; for the field test the 30' level was not yet operational. Strip chart recorders were installed for this test by Radian in Trailer 023* at the Met Tower site to record the in- stantaneous vertical component of the wind direction at the 100' amd 200' levels; standard deviations (aj were reduced by Radian for 1 minute averaging times, assuming that the range of the data spread corresponded to 4aA. RH at 8', wind dir. at 30', wind speed at 30', Pasquill stability, net radiation index) . 3. Hourly meteorological ob- servations at the C-b Tract, 4. Hourly meteorological cond- itions at Grand Junction. 5. Synoptic reports for Grand Junction. 6. Meteorological summary 7. Bivane vertical component of wind direction and associated standard devia- tions as 1 min. averages. 8. Effects of averaging time on c, and Stability Class. OBTAINED BY Radian FIGURE NO. Trailer 020 3 021 4 022 5 023 6 024 7 Radian Radian Radian Radian Radian Radian 10 11 Text *100' alt. 12a 200' alt. 12b **100' alt. 15 Arco 14 a 5 b *Strip Chart **Tab Data II C-1406 9. Acoustic sounder strip Marlatt charts 10. Acoustic sounder tabulated Marlatt data of heights of turbul- ance layers and inversion layers . 11. Skew T, log p diagrams for Grand Junction EG$G 12. Temperature sounding plots EG§G 13. Temperature sounding tab. EG§G data (temp, vs alt.) 14. Pilot balloon soundings EG§G 15. Volatile trace metals Tosco Labs (mercury, arsenic, selenium) 16. Particulate size dist- Tosco Labs ribution via Anderson Sampler (Met Tower) 17. SO2 impinger sampling at Tosco Labs Met Tower 18. H2S sampling via MSA Arco portable sampling pump at SGI 5 ATI C-b Met Tower Site Colony Dcre Ridge C-b Met Tower Site Colony Dcre Ridge 0500 MST 1700 MST 0525 MST 0820 MST 1130 MST 1720 MST 0525 MST 0820 MST 1130 MST 1720 MST 0502 MST 0802 MST 1100 MST 1710 MST 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 33 55 II C-1407 • III. OPERATIONAL STATUS A. METEOROLOGY All meteorological instrumentation in the 5 trailers, on the meteorological tower, associated with upper atmospheric soundings and the acoustic sounders was operational during this test with the following exceptions: 1. The bivane at the 30' level on the meteorological tower is not yet operational. 2. The differential temperature (DTI) from the 100' to the 30' level on the meteorological tower was inoperative due to a faulty translator card. 3. Software changes appear to be needed to accomodate changed averaging times for the standard deviations in both the horizontal and vertical components of wind dir- ection. 4. The snow gage in Trailer 021 indicated precipitation during the last 3 or 4 hours of the test when no precipitation occurred. High evaporation rates and windy conditons tend to make all precipitation readings on the light side. 5. The temperature sensor in the aircraft appears to have approximately a +3°F bias. (Fig. 37) 6. Inasmuch as strong surface temperature inversions occur at Rock School below the (plateau) level of the tract, it is recommended that the acoustic sounder at II C-1408 the Colony site be moved to Trailer 021 at Rock School as soon as weather permits. 7. A single technique to assess atmospheric stability (the subject of Section IV A) has not yet been selected. In view of this, it is recommended that the upper atmospheric soundings be continued until this issue is resolved. B. AIR QUALITY Daily logs are kept at all the trailers. Reference gases are checked approximately once every six months. The equipment in all 5 trailers was operational with the follow- ing exceptions: 1. In Trailer 023 the NOX and NO2 channels were not working properly . 2. Drift for zeros and spans look large for THC, CO, CH4 at both 023 and at 020. 3. There have been three earlier power failures since the trailers have come on-line. 4. Trailer 023 lists the last 5-minute value frequently out of time sequence. 5. Entries from the daily logs that reflect on accuracy of the data must find their way into the regular monthly reports. II C-1409 IV ANALYSES OF THE DATA A. METEOROLOGICAL SUMMARY The period from January 28th, 1609 hours to January 29th, 1609 hours, was basically a fair period. The upper "low" which had brought 6 inches or more of snow to the Tract C-b region during the morning and early afternoon hours of January 28th moved northeastward, bring- ing cool dry air into the region. The entire upper air situation during these two days was basically meridional, with a mean long wave trough located over the Western United States. As the upper low, which had been over Utah on the morning of the 28th, moved northeastward, another weak short wave impulse moved toward the region. By the morning of the 29th, this impulse was located on a northeast - southwest axis from Idaho to California. This system was responsible for advecting middle and high clouds over the Tract C-b region during the last two-thirds of the test period. However, as the system continued to move eastward, snow began to fall during the afternoon of the test in southern Colorado. This precipitation shield continued to move north and northeastward, eventually bringing moderate to heavy snow to western Colorado on the morning of the 50th. Light to moderate winds prevailed in the Tract C-b region during the. period of the test because of the weak surface pressure gradient which dominated the area after the snow-producing low pressure system moved northeastward. Because of the fresh, deep snow cover, the dry, cool air, the clear skies, and very light pressure gradient and wind field, coalitions were excellent for radiational cooling in the entire II C-1410 region. As a result, an intense katabatic circulation began to develop in the Piceance Creek valley after sunset on the 28th. Because of the excellent radiation conditions, temperatures dropped rapidly and cold air rushed down the valley and drained from the plateau. The result of the radiational cooling and katabatic (downs lope) flow was the formation of an intense, deep inversion in the area. The inversion was deepest and most intense, of course, in the Piceance Creek valley, particularly near the Rock Creek School. The inversion was not as strong in the eastern higher portions of the valley because of the stronger katabatic winds which prevailed in the upper portions of the valley (more mixing). Also, the inversion was somewhat weaker on the plateau, but was still fairly well -developed in relation to the inversions which normally form at these higher elevations. The high cloudiness which began to advect over the Tract C-b region shortly after midnight arrested the radiational cooling in the Tract C-b region because of the insulation which it provided (weakened radiational cooling). Nevertheless, the conditions which prevailed on the plateau and in the valley from sunset to midnight and shortly afterwards were remarkable. Surface low temperatures in the monitoring network ranged from -31°F at trailer 021 (Rock Creek School) to 5°F at the 8 foot level of the meteorological tower. The horizontal and vertical temperature gradients which prevailed in the region were noteworthy. A strong inversion prevailed throughout the area. At the meteorological tower, temperature differences between the 30 foot and 200 foot levels of as much as 5.9°F prevailed during the period from 2100 hours to 2400 hours. The temperature differences, although variable during the night, generally ranged between 2°F and 4°F ( 200 foot temperature - 30 foot temperature ), indicating that 11 C-1411 the air was indeed very stable. Vertical temperature gradients in the Piccancc Creek valley were probably even stronger. The incoming high cloudiness did stop further cooling. Some meteorological phenomena in the area that were noteworthy are: At 0045, the temperature at Trailer 021 was -31° F , while the temperature at the Met Tower was 9° F, a 40° F spread; the temperature fell 16° in one hour (from 17° F to 1° F) from 1725 to 1820 at Trailer 021; the high at Trailer 021 was 35° F during the afternoon, which means this location had a diurnal range of temperature of 66° F; and almost all minimum temperatures in the monitoring network were reached before 2400 hours on the 28th, warming slightly or stablilizing thereafter as the insulating high cloudiness increased in coverage. Minimum temperatures would definitely have been even lower if the cloudiness had not come in when it did. Throughout the rest of the valley, the minimum temperatures were: -15° F at Trailer 022 (0015 hours, January 29th); -20° F at Trailer 020 (0720 hours, January 29th); and -2° F at Trailer 024 on the plateau. The katabatic (downs lope) flow was extremely well-developed, as stated previously. Southeast winds of as much as 18 miles per hour were experienced at Trailer 022. Although winds were rather light and generally northwesterly early in the evening in the network, they became southeasterly (downs lope) throughout the area as the downslope flow intensified. Winds at 021 were light throughout the II C-1412 the night, as is usually the case, which allowed the cooling to progress rapidly because of the limited mixing and strong inversion conditions that existed. Light southeasterly winds prevailed in the Tract C-b region during the day as cloudiness increased in advance of the next short wave. Temperatures edged slightly above freezing at all valley trailers (33° F at 020, 35° F at 021, and 34° F at 022). Trailer 024 (on the plateau) had a 33° F maximum, while the high was only 30° F at the 8 foot level of the meteorological tower. Solar insolation was rather intense during the late morning and early afternoon hours, as the pyranometer recorded a solar radiation rate of .89 langley/min. shortly after noon. The strong insolation was made possible by fair skies (mostly high cloudiness) during the morning and early afternoon and the rather dry nature of the air, which resulted in high transmittance characteristics. B. ATMOSPHERIC STABILITY ASSESSMENT 1. Temperature - altitude soundings a. From the four soundings, the stability classes are: 0525 MST E STABILITY 1000 '- 2600 » , G93000' 0820 E 200'-3000', F90' 1130 D 0f-2600', E>2600' 1720 D 0'-2200'; E>2200' (Reference Figures 21-25, 36,42) b. A strong surface inversion in the Piecance Valley existed in the early morning hours; it lifted by the 1130 flight. II C-1415 c. For this date, Pasquill-Gifford stability classes indicated by this technique were insensitive to altitude between 200* and 2200'. d. These stability indications will be used as the reference for comparison with the other techniques discussed in this report . 2. Temperature increments from the Met. Tower a. The temperatures indicated at the Met. Tower at 8', 30', 100', and 200' and the temperature differences indicated between (30' and 100») (Symbol DTI) and (30' and 200') (Symbol DT2) are presented on Figure 37. Also shown are the calculated temperature differences, a calculated value for slope of the temperature-altitude curve and the resulting stability classes. Also shown for compar- isons are the temperature and stability classes obtained from the aircraft soundings. b. At 0820, 1130, and 1725 MST the stability classifications obtained from DT2 agreed with those obtained from the aircraft sounding (E,D,D respectively) .At 0525 MST the aircraft sounding was obtained down to 1000' above the Met. Tower indicating E stability at that level; at an average altitude of 115', DT2 yielded a stability class of F. The tower temperatures indicated an inversion to altitudes above the Met. Tower. II C-1414 3. Wind Speed a. Assuming that the Beaufort wind speed classifications equate to the Pasquill-Gifford stability classifications as indicated on Fig. 39, atmospheric stability classifi- cations are presented at 0525, 0820, 1130 and 1600 MST. Those obtained from the aircraft soundings are shown for comparison. b. By this technique, at the above respective times, the classifications were E,D,D,E as compared to E,E,D,E for the aircraft. Thus agreement was achieved in 3 of 4 cases . 4. Solar Radiation Index a. The stability classification from this technique is given on Fig. 8 and ( by interpolation) indicates D, D, D, D at 0525, 0820, 1130 and 1600 (possibly changing to E at 1720) . Agreement was achieved in 2 of 4 cases if E is assumed at 1720. b. This technique cannot be used at night with the present instrumentation. 5. Standard Deviations in the Horizontal Component of Wind Direction (c0) a. Included in the hardcopy printout of Figure 6 for the Met. Tower ( included as part of Trailer 023 hardcopy) is the 2 variance of the horizontal component of wind direction (o0) at altitudes of 8', 30', 100* amd 200' for the horizontal component of the bivanes; however the 30' level was not yet operative at the time of this test. Computed values II C-141S of the standard deviations are presented on Figure 38 with associated Pasquill stability values as indicated according to the following: a. (PEG) PASQUILL-GIFFORD STABILITY CLASSIFICATIONS >23 A 18-23 B 13-18 C 8-13 D 4-8 E 2-4 F <2 G b. For these 5-minute averaging times the agreement with stability classifications derived from the aircraft soundings as indicated on Figure 58 is relatively poor: Horizontal 16 cases - only 2 agree Bivane 8 cases - only 1 agrees Furthermore both vanes agreed with each other in only 2 of 8 cases. Future tests are needed wherein averaging times for 0 are varied from 15 seconds to 15 minutes for correlation purposes. 6. Standard Deviation in the Vertical Component of Wind Direction (a ) a. The effects of averaging time on o^ are presented on Figures 14a and 14b for averaging times of 15 sec, 50 sec, 1 min., 2 min. ,and 5 min. As indicated on Figure 14b, the stability classifications II C-1416 from this technique for the 15 sec. and 30 sec. averaging times agree with those from the aircraft sounding; aver- aging times greater than 30 sec. yielded erroneous results with the exception of 1 value. b. A 30- second- averaging- time software change will be investigated. c, The stability classifications were determined from the following table: a, RANGE (PEG) PASQUILL STABILITY ~~*~ ' CLASSIFICATION >15 B 9-15 C 6-9 D 2-6 E 0-2 F 7. Acoustic Sounder a. The strong inversion layer @ 0820 MST was below the ele- vation of the tract (i.e. in the Picenace Valley) so it was non- detectable by the sounder at the Met. Tower. b. At 0820 there are weak locally stable layers located at: 1st 2nd Top 920' 1270* Bottom 770' 1060 • as indicated on Figure 22. The sounder picked up the top of the 2nd layer as indicated on Figure 15. c. A moderately strong inversion layer starting at 3940. ft. altitude above the tract at 1130 MST is off the sounder chart. II C-1417 C. OTIDiR METEOROLOGICAL DATA 1. Wind Patterns Wind patterns throughout the day are shown on Figure 40 in miles- per-hour units at the five trailer locations. The reader should refer back to the meteorological summary for a general discussion of the wind patterns. Note that the down-valley direction for sites in the Piceance Creek (020, 021,022) is northwesterly (i.e. winds from the southeast) and that the downslope direction for both sites (023 and 024) on the plateau is generally northerly (i.e. winds from the south half plane) . The winds at 1600 hours are up-valley and downslope. By 2000 hours, a near-calm exists at the plateau sites which persists through 0000 hours; winds are downvalley. The downvalley winds at the Oldland Ranch (site 022) persist until afternoon of the 29th but previously ceased by 0800 at Redd Ranch. A near-calm has existed at the Rock School (site 021) from midnight until late morning of the 29th where an intensive surface temperature inversion has built up from the cool drainage flows of the evening and early morning. By noon the inversion has broken and a complex wind structure which is downvalley (at 021 and 022) at both ends and up-valley in the middle (020) exists. 2. Temperature Gradients The four temperature vs. altitude soundings obtained on the 29th by E G f, G are shown on Figures 21 - 24 at 0525, 0820, 1130 and 1720 MST respectively. Associated tabulated data for the pibal releases at (nominally) the same times are presented on Figures 29 - 32. Temp- eratures below the altitude of the Met. Tower are obtained by flying 11 C-1418 the aircraft from near surface level up the Piceance Creek (for the 0820 and 1130 soundings) to a point midway between Rock School and Redd Ranch and thereupon initiating a steady rate of climb to the Met. Tower followed by a spiralling ascent around the tower at a constant rate of climb to 13,000 feet MSL (mean altitude above sea level) corresponding to 6,000 feet above the ground level at the tower. Figure 22 indicates a very strong surface inversion at 0820 hours in the Piceance Valley up to just below the level of the tower, with near neutrally stable air aloft. Figure 23 indicates this inversion broke prior to 1130 hours with unstable air to around 10,000 feet followed by a weak inversion aloft between 11,000 feet and 11,500 feet. Strong surface horizontal temperature gradients were noticed during the test period, as evidenced on Figure 41. For example, at 0600 on the 29th temperatures of -26, -7, and -8°F were recorded at the Rock School, Redd Ranch and the Oldland Ranch sites respectively in Piceance Creek and +11°F at the Met. Tower site. Thus, the strongest vertical temperature gradient (i.e. the inversion) occurs at Rock School where the canyon walls are steepest and drainage effects are strongest. Because of the horizontal surface temperature gradient which existed during the inversion an additonal vertical sounding directly over Rock School was obtained on 2 February, shown on Figure 42. At this same time period (actually 0912 on 2 February) , a constant altitude flight at 7200 feet MSL was made by EG (1 C from directly over Rock School to the C-b Tower site indicating no horizontal temperature gradient at that elevation. Thus the inversion was really limited in vertical extent to only over II C-1419 the vallcv region and did not extend over plateaus. An additional flight was made at 0810 MST on 9 February when no inversion existed up Piceance Creek from Rock School to the.Oldland Ranch at a near- surface altitude of 6400 feet MSL indicating less than 1°F horizontal gradient. Thus the large horizontal gradients are confined to the valleys and exist only in the presence of an inversion. D. AIR QUALITY Hardcopy printouts from the five air quality trailers, designa- ted 020 thru 024 respectively are presented on Figures 3 - 7 in time intervals of 5 minutes. Daily summaries for 28 January and daily calibrations are also provided as part of the hardcopy. Symbols used appear on Figure 1. Maximum 5 minute averages and daily averages for 28 January are as follows: MAXIMUM 5 MINUTE i WERAGES ON 28 JANUARY TRAILER NOx NO S02 (pp%s THC CH4 CO 03 020 8 6 3 9 1651 1763 991 62 021 6 5 022 0 0 023 6 52 10 8 1499 1421 1690 51 024 4 0 II C-1420 DAILY AVERAGE FOR 28 JANUARY (ppb) TRAILER NOx NO so2 H2S THC CH4 CO 03 020 3 0 0 0 1380 1377 901 50 021 1 0 022 0 0 023 1 3 1 2 . 1377 1326 1551 42 024 4 0 As noted in Section III, the NOx channel for Trailer 023 was not operating properly during the test. Analytical determination of airborne concentrations of volatile trace metals, e.g. arsenic (hereafter referred to and determined as arsine) , selenium and mercury at the C-b tract are reported by TOSCO Labs on a quarterly basis. Samples were collected at the meteorological tower on January 27, 1975. The sampling technique and analytical methodology used for arsine, selenium and mercury were outlined in Tosco Laboratory Data Letter 74-134, dated December 4, 1975. The concen- trations of these metals and sulfur dioxide were found to be below the detection levels of the analytical methods used (see Figure 33) although the methods used for analysis are reportedly quite sensitive. On January 29, 1975, one sample for sulfur dioxide was collected by passing the air through an impinger that contained 10 ml solution of tetrachloromcrcuratc (II) solution (TCM) . The TCM solution was subsequently analyzed for sulfur dioxide content using Wcst-Cacke method. This method essentially consists of absorbing sulfur dioxide into TCM solution. This results in the formation o^ a stable dichloro- suifi tome reunite complex. The color is developed by adding solutions of formaldehyde (0.2°o v/v) and acid-bleached para rosani line (0.2* w/v) . II C-1421 Pararosanilinc, formaldehyde and bisulfite anions react to form an intensely colored complex which is measured spectrophotometrically at 548 nm. Absorbance is linearly proportional to the sulfur dioxide concentration. Air sampling for particulate matter in the respirable ranges was performed using an Andersen sampler (see Figure 34 for results) . The Andersen head attacliment to the high volume sampler is a multi- stage, multi-jet cascade impactor. It is made of five aluminum plates separated by neoprene rubber gaskets. The standard 8"xl0" high volume glass fiber filter acts as a back-up. Each plate contains 300 equally sized holes. The holes are aligned so that the air streams through the holes are directed at the surfaces of the plate below. The diameter of the holes decreases from plates one to four. Plates are covered with circular glass filters which have holes aligning with the holes in the plates supporting them. The mass of particulates, on a particular stage or plate, is determined by the usual gravimetric procedure (i.e. difference in weights is deter- mined by using an analytical balance) . The filters resting on plates 2,3,4,5 and the back-up filter correspond respectively to aerodynamic diameters of 7.0 microns and above, 3.3 to 7 microns, 2.0 to 3.3 microns, 1.1 to 2.0 microns, and 0.01 to 1.1 microns. Finally, hydrogen sulfide was sampled on January 29th at locations SGI and ATI by the C-b Shale Oil Project using an MSA portable sampling pump. No detectable amounts were measured (Fig. 35) . II C-1422 FIG. 1 ABBREVIATIONS FOR THE VARIOUS AIR QUALITY AND METEOROLOGICAL TOWER CHANNELS* TINE Mountain Standard Time NOX NOX in parts per billion NO NO in parts per billion SO2 SO2 in parts per billion WS1 Wind speed at 8 foot level in miles per hour WD1 Wind direction at 8 feet in degrees, referenced clockwise from true north. RH1 Relative humidity at 8 feet, expressed as a percentage TIN Inside temperature TMP1 Temperature at 8 feet, in ° F PYR Fyranometer readings in cal/cm2/min H2S Hydrogen Sulfide in parts per billion THC Total Hydrocarbons in parts per billion CH4 Methane in parts per billion CO Carbon Monoxide in parts per billion O3 Ozone in parts per billion WS2 Wind speed at 30 feet in miles per hour WD2 Wind direction at 50 feet in degrees RH2 Relative humidity at 30 feet TMP2 Temperature at 30 feet in ° F WS3 Wind speed at 100 feet in miles per hour WD3 Wind direction at 100 feet R1I3 Relative humidity at 100 feet TMP3 Temperature at 100 feet *Sybmols arc used in Figures 3 through 7 specifically. II C-1423 FIG. 1 cont. WS4 Wind speed at 200 feet WD4 Wind direction at 200 feet RH4 Relative humidity at 200 feet TMP4 Temperature at 200 feet DTI A Temperature between 100 feet and 30 feet (Tiqq^q-) A (-) precedes negative values in hundredths oi degrees Fahrenheit. DT2 A Temperature between 2Q0 feet and 30 feet (T2oo~T3o) (hundrcths of degrees Fahrenheit) PRES Station pressure in millibars WS5 Wind speed at 30 feet (Bivane) HWD5 Horizontal wind direction at 30 feet (Bivane) VWD5 Vertical wind direction at 30 feet (Bivane) WS6 Wind speed at 100 feet (Bivane) HWD6 Horizontal wind direction at 100 feet (Bivane) VWD6 Vertical wind direction at 100 feet (Bivane) WS7 Wind speed at 200 feet (Bivane) HWD7 Horizontal wind direction at 200 feet (Bivane) VWD7 Vertical wind direction at 200 feet (Bivane) Level 5=30' Bivane ' Level 6=100' Bivane Level 7=200' Bivane WDV1 Variance of horizontal wind direction at 8 feet WDV2 Variance of horizontal wind direction at 30 feet WDV3 Variance of horizontal wind direction at 100 feet WDV4 Variance of horizontal wind direction at 200 feet HUV5 Variance of horizontal wind direction at 30 feet (Bivane) WW 5 Vertical wind direction variance at 50 feet (Bivane) II C-1424 FIG. 1 cont, HWV6 Variance of horizontal wind direction at 100 feet (Bivane) VWV6 Vertical wind direction variance at 100 feet (Bivane) HWV7 Variance of horizontal wind direction at 200 feet (Bivane) VWV7 Vertical wind direction variance at 200 feet (Bivane) RAIN Precipitation rates in .01 inches. "1" bucket tip or pulse represents .01 inch of precipitation, in a rate of fall representation. II C-1425 FIG. 2 SUMMARY OF NETEOROLOGICAL SYMBOLS AND ABBREVIATIONS CLOUD COVERAGE SYMBOL 0 cloud coverage of Celestial Dome 1/1CK cloud cover < 6/10 6/10<_ cloud cover <_ 9/10 9/10< cloud cover Scattered coverage, not opaque Broken coverage, not opaque Overcast, not opaque METEOROLOGICAL DEFINITIONS AND ABBREVIATIONS SC Stratocumulus CI Cirrus CS Cirrostratus CC Cirrocumulus AC Altocumulus AS Altostratus OMTNS Over the Mountains SWU Snow shower of unknown intensity CU Cumulus E Estimated II C-1420 FIG. 3 "PHIL! 02 0 ltJMJ Ml TIME MUX PPB 1520 1525 1530 1535 154 0 1545 1550 1555 1600 1605 1610 1615 5 6 5 !♦ a MO PPB 0 0 0 0 0 0 0 0 0 • 0 2 0 108 PPB 0 0 0 0 0 0 0 0 0 0 0 0 MCH 5 3 7 10 10 13 11 •u 9 10 rro »♦♦♦« BEG wmvx. 5 313 325 330 295 301 236 300 302 300 300 303 FH PCT 333 86 34 33 82 30 74 71" 66 65 65 63 TIM DGF 65 63 62 64 65 62 63 64 65 64 62 TOUT DGF 17 17 17 17 18 19 19 19 19 19 19 19 H2S PPB 0 0 0 0 0 0 0 0 0 0 0 0 THC PPB CH4 PPB 1343 1334 14 31 1343 1590 1375 1651 1392 1436*1444 1 337 1 353 1356*1424 135 3* 14 95 1356*137 0 1433 14 04 147 3 1422 1335*14 09 CO PPB 9 04 911 923 9 06 923 911 906 909 379 377 396 911 0 3 FPB 59 53 53 57 57 57 57 56 MfiV D£<3 156 t 03 *24 1216 186 134 312 17 2 131 312 1*3 Ht'T 0 0 o; o 0 0 I, 0 0 fl 0 1 1 020 1 TIME 1620 1625 1630 1635 164 0 1645 165 0 1655 170 0 1705 1710 1715 72 0 01" mox PPB 0 4 5 4 4 3 3 6 0* 4 MO PPB 0 4 0 0 2 0 1 0 1 0 1 Z02 PPB 0 0 0 0 0 0 0 o 0 o 0 0 i.i s NPH 10 10 12 8 6 4 1 0 0 0 |J D DE6 305 296 291 296 299 299 293 292 309 0 43 84 RH PCT 63 62 61 61 61 61 61 62 63 65 67 70 TIM DGF 64 64 64 62 63 64 65 62 62 64 64 63 1 OUT DGF 19 13 13 18 17 17 16 15 14 14 12 12 H2S PPB 0 0 0 0 0 0 0 0 0 0 c 0 THC PPB CH4 PPB 1368*1422 1414*1422 1424*14 34 135 3*137 3 1446 14 09 1417*1473 1363*136.5 1339*1 363 1417 1373 1 373*1 39 7 1348*1375 1395 137 0 CO PPB 901 916 909 834 377 35 n 03 PPB 1.1DV I' EG PmT HI 57 314 56 241 56 310 55 157 54 54 ♦ ♦♦♦♦ 020 l TIME ♦♦♦♦♦♦ 82 0 01 NOX PPB ♦♦♦♦♦♦♦♦♦♦♦♦♦* ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ ♦♦♦♦♦♦«♦♦♦♦♦♦♦♦♦♦♦ ♦ «.<♦■»♦««♦»♦»« • 1720 1725 1730 1735 174 0 1745 175 0 1755 1 8 0 0 1805 1810 1315 MD PPB 0 0 0 0 2 G 0 > 1 0 0 0 :o2 PPB 0 0 0 0 0 0 0 0 0 0 0 0 W'S MPH 0 0 0 1 3 3 4 5 4 MP BEG 94 1 04 100 85 132 120 117 1 22 1 32 117 117 110 PH PCT 90 31 TIM D6F 62 63 64 64 62 63 6 3 r.4 64 62" 63- TOUT DGF 11 10 H2: PPB 0 0 0 0 0 0 0 0 0 0 0 0 THC PPB •:h4 PPB 1375*14 24 1365* 1370 1 363*1 37 3 1417 1332 1434*1463 14 34*1453 1436*14 39 14 34 14 31 14 31*1446 1 338*14 3=- 14l'7*14l2 1484 1412 CO PPB 334 914 i::: 4 ': M 9 1 6 0 3 PPB 50 5 0 4? 43 4 3 17 41' 4:3 43 4? 4>; 4-? 15' 10 ir 12: II C-1427 w FIG. 3 020 1 380 01 '23'7 5 TIME no:-: MO so£ MS MO PH TIfl TOi H£i THC CH4 CO 03 Ul'V PRIM PPB PPB ppb MPH DE6 PCT DGF D6F PPB PPB PPB PPB PPB I' EG HIT ie20 6 0 0 4 112 ?1 64 0 0 1424*1444 901 48 461 0 I S3 j !♦ 2 0 3 136 91 64- 3 0 1385*1419 899 47 146 i.i 1830 3 0 0 6 112 91 64- 2 0 1 363*1 387 906 4 7 164 U 1335 3 1 0 5 112 91 68- 2 0 I 373*1383 8 99 47 £0 0 1S40 6 0 0 5 102 91 62- 3 ' 6 0 14 36 1419 904 48 93 0 1S45 4 4 0 6 106 90 63- 3 0 1431*1439 901 48 212 o 1850 8 0 0 6 104 90 64- 4 0 1417*1486 3: ="6 48 295 0 1855 7 0 0 6 121 90 65- 4 0 1409*1431 839 49 •»££ 0 1900 0 0 0 6 106 90 64- 6 0 1335*1412 377 47 39 0 1905 4 • 0 0 7 103 30 62- 6 0 1456 145 3 914 48 56 0 1910 3 0 0 7 103 91 63- 6 0 1443*1500 899 46 305 0 1915 7 0 0 7 108 91 63- 7 0 1434* 1466 896 46 164 0 020 20 20 01 '28'7 5 TIME MOX MO S02 MS WD PH TIM TOUT H2S THC CH4 CO 03 UDV PAIM PPB PPB PPB MPH he g PCT DGF BGF PPB PPB PPB PPB PPB I' EG HBT 1920 S 1 0 9 116 91 64- 3 0 1495 1456 334 46 30 0 1925 2 0 0 8 116 90 65- 10 0 1400*1451 894 4 8 145 0 19 30 4 0 0 6 112 91 63- 10 0 1397*14 04 '.-'. 't» r* 43 39 0 1935 2 0 0 7 126 91 62- o 0 1330*1419 916 4 9 343 0 1940 7 0 0 5 113 90 62- t' 0 1333*1397 394 49 8? 9 0 1945 5 0 0 5 112 90 63- 9 0 1337 1392 332 4 9 £46 0 1950 o 0 0 6 112 90 64- 10 0 1335* 14 00 839 49 178 o 1955 4 2 0 6 124 90 65- 10 0 1373*1400 398 4 9 166 0 200 0 3 0 0 5 112 90 63- 10 0 1370*14 00 399 50 34 c 2 0 05 3 0 0 7 114 90 oc! — 10 0 1330*1397 9 09 4 9 £1 0 2 010 3 o 0 6 104 90 63- 10 0 1395*14 08 914 50 St? 6 tj £015 4 0 0 5 93 89 63- 11 0 1417*14 34 904 5 0 5 •::.=.• 0 ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦*♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•*♦♦♦♦♦*♦*♦**** 020 £120 01 -£ ♦ *«■«« T I ME MOX MO iO£ ws WD PH TIN TOUT H2S THC CH4 CO 0 3 1,1 [IV -H !'• PPB PPB PPB MPH BEG PCT DGF DGF PPB PPB PPB RPE PPB PEG HIT £020 0 0 7 124 89 64- 10 0 1451*1463 9 1 3 51 £30 0 £ 025 3 0 0 9 129 •"•9 65- C; 0 1446*14 73 93 3 *~i -* 170 ••' £030 £ 0 0 9 134 83 64- 8 0 1429*1473 '-* -".'. c Z' £4 0 2035 3* c- 0 3 140 37 62- 3 0 1422*1463 r ;• ■450 u £04 0 4 1 0 7 141 or 9 0 1417*1453 9 :•• i 52 412 0 2045 3 0 0 7 122 86 63- 9 0 1417*14 39 91 1 51 1 6 3 ll 2050 4 1 0 7 114 87 64- 10 0 1519 1514 923 51 £ 7 9 l"l 2055 4 0 0 6 1£9 87 64- 11 0 159 7* 160 0 '•< *-; .-.' 51 156 o 21 00 0 0 0 7 148 87 65- 9 0 14 39*1529 921 •4 0 3 o 2 1 05 c 0 0 6 131 ■i? 6 3 — 10 0 14 31 • 1453 93 3 c-'c' 1 '^■:- 0 2110 2115 6 3 0 1 0 0 6 i 104 117 37 '62- 6a- 11 12 0 0 1532 1588 158 3* 1538 9 3 3 94 3 5 1 51 i o a ?6 0 tt P-14 7S FIG 3 020 22 20 01 '23 '7 , TIME MDX HO :03 us WD PH TIM TGUT H2S THC CH4 CD D3 1,1 [iV Rfllfi PPB PPB PPB MPH DEC PCT DGF D6F PPB PPI: pp* PPB PPB t'E'3 HM 2120 5 0 0 10 *l 33 36 63- 10 0 156 1*1585 931 52 272 0 2125 3 0 0 3 123 36 64- 11 0 140?* 1527 945 52 301 ii 2130 0 0 0 7 lit. 36 65- 12 0 13 3 5* 1444 923 272 0 2135 2 0 0 9 12? 36 64- 12 0 1 3,:»7*14 39 9c- 1 *| ^ 192 'J £140 1 0 0 10 1 33 86 62- 11 0 1 392*1453 921 5 3 2 34 0 21-45 3 0 0 9 145 85 62- 11 0 1393*1446 950 53 70 0 2150 3 0 0 9 1 33 35 63- 11 0 1 33 3* 14 34 94 0 53 343 u 2155 3 1 0 8 12& 85 63- 12' 0 1383*1426 945 5 3 42? 0 2200 2 0 0 6 112 35 64- 13 0 1434*1444 ?31 c ;# 672 l'l 2205 5 0 0 9 125 35 65- 13 0 1426*146 3 92 3 53 131 0 2210 0 0 0 9 134 35 64- 12 0 1363*1444 913 53 473 0 2215 7 0 0 6 112 85 62- 15 0 1402*1441 950 639 0 020 2320 01/23 -'75 TIME NOX MO S02 MS WD RH TIM TOUT H2S THC CH4 CD 03 W0V PfllM PPB PPE PPE MPH DEi? PCT BGF DGF PPB PPt PPB PPB PPB DEG HDT 2220 4 0 0 9 133 36 62- 14 0 1400*1453 955 53 32 0 £225 7 1 0 9 144 36 63- 13 0 1333*1443 965 53 134 0 ££30 4 0 0 9 133 85 64- 13 0 1330*1431 943 54 170 0 ££35 3 0 0 9 133 85 64- 13 0 1375*1412 931 5 3 361 0 £24 0 £ 0 0 8 140 95 65- 14 0 1363*1439 921 53 410 0 2245 4 1 0 10 133 35 63- 13 0 1363*1441 940 53 76 0 £250 4 0 0 10 133 35 62- 13 0 1333*1426 962 53 £73 0 £255 3 0 0 10 142 65 62- 14 0 1335*14 36 972 53 457 0 2300 1 0 0 11 140 35 63- 13 0 1337*1431 955 53 453 0 2305 5 1 0 12 140 35 64- 13 0 1373*1424 936 53 430 0 2310 6 0 0 12 140 34 65- 14 0 1363*1412 923 53 92 0 2315 5 0 0 11 133 34 65- 14 0 1356*14 07 931 53 423 0 ♦ *♦♦♦♦♦♦**♦♦♦♦♦♦»♦♦♦♦♦♦♦♦«♦♦♦♦♦«•««•♦♦*♦♦♦*♦♦♦»«♦♦♦♦♦♦< *»«♦*♦♦♦♦»♦•«.♦.♦*..♦♦♦♦♦♦«, DRILY SUMMARY FDR TRAILER 020 01/23/75 INSTANTANEOUS MAXIMUM VALUES NOX 34 TIME 07 09 MD T 1 ME 07 09 ND2 49 T I ME 0 0 1 8 S02 1 025 TIME 0 7 3 0 US 31 T I ME 060? H2S 975 TIME 0 7 3 1 THC 4758 TIME 0722 CH4 463 0 TIME 0735 CD 5026 TIME 0726 D3 63 TIME 143 0 MAM I MUM FIVE MINUTE AVERAGES NOX 8 TIME 1 755 MO 6 TIME 1745 $02 3 TIME 0 7 3 0 i..l s 20 T I ME 0935 WD 354 TIME 1 4 l"i ii RH 98 T I ME I 0 0 0 TIM 67 T I MF or 5 5 TOUT 34 T 1 ME 0445 H2S 9 T I ME 0730 THC 1651 TIME 1535 CH4 1763 T I MF. 1 4 1 l.i CO 991 TIME 0755 D3 62 T I ME 1 -1 1 5 II C-1429 V-- ' 30 riinure averages FIG. 3 TIME MC1X no •;oc MS M2S THC CH4 CO 0? PPB PPIi PPB McH PPB PPl< PPB PPB PP& 0000 2 0 0 4 0 1353 1321 391 43 0030 1 0 0 8 0 1350 13 09 366 43 otoo 1 0 0 £ 0 1350 1311 836 43 0130 1 0 0 5 0 1367 13*6 391 42 0200 1 0 0 7 0 135 3 1314 839 42 0230 1 0 0 4 0 1353 1 3 06 393 42 0300 CAL CAL CAL 0 CML CHL CML CML CML 0330 3 0 0 4 0 1439 1519 8 35 39 0400 1 0 0 10 0 132- 12 75 872 46 0430 3 0 0 10 0 1314 1270 376 46 0500 2 0 0 to 0 1232 1297 981 45 0530 3 0 0 12 0 1279 1294 381 44 0600 1 0 0 14 0 1275 1294 839 47 0630 CHL CAL CmL 6 CHL CHL CML CML CML 0700 CHL CML 0 6 0 CmL CML CML 48 0730 0 0 0 8 1 CML CML CML 49 osoo 0 0 0 • 0 1323 1279 962 50 OS 30 1 0 0 5 0 1309 1279 901 50 0900 1 0 0 11 0 1333 1297 334 50 0930 2 0 0 15 0 1353 1319 891 55 1000 ■ 2 0 0 6 0 1367 13 3 3 339 55 1030 4 0 0 1 0 1377 134 3 396 55 1100 4 0 0 2 0 1359 1333 696 56 1130 4 0 0 5 0 1345 1 326 391 56 1200 5 0 0 12 0 1394 1355 396 52 1230 4 0 0 14 0 1397 1377 903 53 1300 3 0 0 5 0 1470 1460 903 59 1330 2 0 0 4 0 1421 1424 893 59 1400 5 0 0 3 0 1453 1 54 3 9qo 61 1430 3 1 0 12 0 1416 1411 903 59 1500 3 1 0 9 0 1367 1350 915 53 1530 4 0 0 8 0 1463 1414 913 57 1600 3 0 0 9 0 1414 14 09 891 56 1630 4 0 0 7 0 1349 14 04 693 55 1700 4 0 0 0 0 1330 1 334 374 52 1730 4 1 0 2 0 1419 1426 893 47 1800 4 0 0 4 0 1411 1423 3?6 4^ 1830 6 0 0 5 0 1406 1414 i?3 47 1900 4 0 0 7 0 1433 14 55 393 46 1930 4 0 0 5 0 1334 14 02 89 3 4 3 2000 2 0 0 6 0 14 0? 14 23 911 50 2030 3 1 0 7 0 1463 1492 925 51 2100 3 0 0 7 0 1492 1533 933 51 2130 2 0 0 3 0 1337 1441 935 ■: z> 2200 3 0 0 ;? 0 14 02 145 0 94 0 «. 3 22 30 3 0 0 •a 0 1375 1431 945 53 2300 4 0 0 11 0 1370 1416 945 53 2330 4 1 0 10 0 1372 1419 945 53 DMILY AVERAGES MUX 3 NO 0 SD2 0 US 7 UD 203 RH 87 TIM 63 OUT 14 H2S 0 THC 13 30 CH4 1377 CO 901 03 50 RHlN 23 LAST CML MOX 064 3 01. '26 LAST ZERO! NO 064? 01 '23 LHIT ZERO: S02 064 3 01 "23 LMST iEf-O: H2S 064 3 ut 28 la:t zero: THC 0742 01-28 lh:t zepoi CH4 0.'42 ul- 28 INPUT Pf-Ks B7 1 NEU ZEFO: - INPUT PPfc: 37 2 MEM ZEROS - INPUT FPEJ 121 0 MEM ZERO: IMFUT PPPJ 121 0 ME-.i ZEPO: INPUT. FPf:: 3400 67 MEM rEPO: II4PUT f-^E: 5400 Lh:t ZtPQ: 21135 MEM ;epo« CO 074 2 Ot-ZS INPUT fPf: 44 ?3 Lh:1 ZE^Oj -H561 new TEPOt 03 064 3 01 '25 -INPUT Fpfr« 360 LflDT 7?PO« 0 " MEW ZEPOi 1 LHST tPMfi: 102 NEW SPAN: 39 2 LAST :pmn: 99 NEW SPAN: 88 0 LAST »PmN: 95 MEM SPAN: 113 0 LAST spans 103 MEM SPAN: 118 0 LAST SPAN J 3425 NEU SPAN: 344 i 0 LMST -;pmn: 3407 NEU ~.f AN: 34 34 0 LnJT ♦PANS 4475 MEM SPAN: 44 92 0 LMST iPHN: 36Z MEM SPAN: 353 II C-1430 020 00 10 01 '29'? c HU. j TIME NOX no :d2 ws WD PH TIM FDUT H2 2 THC CH4 CO 03 UDV PA 1 r< PPB PPB PPB MPH "BEG PCT DGF DGF PPB PPB PPB PPB PPB LEG HDT 2320 3 1 0 10 140 34 63- 14 0 1 36 1 ♦ 1 4 09 950 53 1*4 0 2325 3 0 0 11 145 34 62- 13 0 1370* 1422 965 53 116 0 2330 4 3 0 11 146 84 62- 14 0 1375*1429 972 53 :?i 0 2335 6 0 0 10 14? 84 63- 14 0 1375* 142-2 943 5 3 *53 0 234 0 5 2 0 9 146 84 64- 13 0 1370*1414 93 3 54 *4 0 2345 4 0 0 10 152 84 64- 13- 0 1363*1412 9 31 54 i53 0 2350 5 0 0 10 152 84 64- 13 0 1370*1419 34 0 54 £7"? 0 2355 6 1 0 11 150 34 62- 14 0 13r5*14 3* 965 C" -. 70 0 0000 3 2 0 11 145 34 61- 14 0 1333*1451 977 S3 23 0 0005 3 0 0 10 145 34 62- 14 0 1370*1436 975 53 42 0 0010 4 0 0 11 144 34 63- 14 0 1358*14 09 945 53 37 0 0015 3 '0 0 11 145 84 64- 14 0 1358*139? 928 53 53 0 020 01 20 01 '-89/ 75 TIME MX MD S02 ws WD PH TIN TOUT H2S THC CH4 CO 03 M DV FAIN PPB PPB PPB MPH DEG PCT DGF DGF PPB PPB PPB PPB PPB ['EG HDT 0020 2 0 0 12 142 84 64- 14 0 1353*1395 926 53 325 0 0085 1 0 0 11 142 84 64- 15 0 135 3*1397 931 52 30 0 0030 6 2 0 9 146 84 62- 16 0 1351*1414 855 C*. 2* c3? 0 0035 5 0 0 9 145 84 62- 16 0 1363*1419 977 c ■*> 503 0 0040 5 0 0 10 133 84 62- 16 0 136 3*1417 862 c ^ 234 0 0045 0 0 0 12 143 84 6 3- 15 0 1353*14 08 855 c i> 176 o 0050 3 0 0 13 136 84 64- 14 0 1 361* 14 09 9 38 5 3 60 0 0055 4 0 0 13 136 34 65- 12 0 1365*14 19 84 0 c" -• 53? o 0100 4 0 0 12 1 3 3 83 64- 12 0 1363*1419 84 3 5 j 316 o 0105 4 0 0 12 133 83 62- 12 0 1368*1434 865 5 3 164 Q 0110 3 0 0 13 1 38 oo 61- 13 0 1370*1436 O C; Z» 52 4 0 r • .•» 0115 r\ 0 0 13 136 83 62- 12 0 1370*1439 875 •_>c 343 0 ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ 020 0220 01^29/'?5 TIME NOX NO S03 WS WD RH PPB PPB PPB MPH DEG PCT ♦ ♦♦♦♦♦•♦♦•♦■♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦*•♦♦♦♦♦♦» TIN TOUT DGF DGF H8S PPB THC PPB CH4 PPB CO PPB 03 PPE UDV PRIM [•EG HDT 0120 0185 0130 0135 0140 0145 0150 0155 0200 0205 0210 0215 13 13 13 11 9 9 10 10 10 10 10 11 132 142 135 184 130 134 145 1 33 132 123 129 186 63- 64- 64- 64- 61- 61- 62- 63- 4- 65- 64- 12 12 12 10 11 10 10 10 10 8 9 1363*1417 1361*14 09 1343*14 07 1358*1404 1368*1422 1363*1426 1368*1419 1353* 14 02 1 353*14 00 1355*14 02 1 353*1 J 12 1356*1422 94 3 3 36 945 r":0 34 94 94 95 97 1 03 246 ,113 I? £54 124 30? 44s 2:4 404 START - 03 0 0 XS SPAN 0 XS SPAN 1 XS SPAN 14 IT. C-1431 FIG. 3 020 0 320 01 •29'? 5 m TIME NDX NO :o2 MS i.i D PH Tin rOUT H2S THC CH4 CO 03 MDV FAIN PPB PPB PPB MPH DE6 PCT DGF LGF PPB PPB PPB PPB PPB I'EG HDI 0320 4 0 0 12 138 31 61- 9 0 1373*1431 992 51 13 0 0225 5 0 0 13 133 81 62- 10 0 1375*1429 934 51 503 0 0230 4 0 0 13 140 81 63- 10 0 1 363*1417 955 51 135 0 0235 5 4 0 15 137 31 64- 10 . 0 1 36 3*14 12 9-4 3 =; y 3?3 1 024 0 4 0 0 13 134 31 64- 10 0 136 3*14 12 9-4 3 51 17 0 0245 3 0 0 12 135 31 63- 10 0 135 3*1422 vi,:. o 51 364 0 0250 6 0 0 12 133 81 61- 10 0 1 35 3*1429 987 5 0 169 0 0255 2 1 0 11 146 31 61- 10 0 1363*14 31 937 51 17 0 0300 CRL CRL CRL 11 150 82 62- 10 CRL CRL CRL CRL CRL 33 0 0305 CRL CRL CRL 12 143 32 63- 10 CRL CRL CRL CRL CRL ^.•■■S 1) 0310 CRL CRL CRL 10 146 32 64- 10 CRL CRL CRL CRL CRL 5,34 0 0315 CRL CRL CRL 9 146 82 64- 10 CRL CRL CRL CRL CRL 69 0 END - 0333 LRST CRl NDX 0300 01/23 LRST ZEPD: NO 0300 01 ''29 LRST ZERO: S02 0300 01 /29 LRST ZERO! H2S 0300 01 -'29 LRST ZEPD: THC 0300 01 -'29 LAST ZEPD: CH4 0300 01-29 LRST ZEPD: CD 0300 01^29 LRST ZEPD: D3 0300 01 -'29 LRST ZEPD: INPUT PPB: 87 1 NEW ZEPD: - INPUT PPB: 37 2 NEW ZEPD: INPUT PPB: 121 0 NEM ZEPD: INPUT PPB: 121 0 NEW ZEPD: INPUT PPB: 34 0 0 667 NEM ZEPD: INPUT PPB: 34 0 0 J1185 nem ZERO: INPUT PPB: 4499 -H561 NEM ZEPD: INPUT PPB: 360 0 NEW ZEPD: 1 LRST SPRN: 89 NEW SPRN: 113 1 LRST SPRN: 88 NEW SPRN: 104 0 LRST SPRN: 118 NEW SPRN: 115 0 LRST SPRN: 118 NEW SPRN: 115 0 LAST SPRN: 3449 NEW SPRN: 3433 0 LRST SPRN: 3434 NEW SPRN: 3510 0 LRST SPRN: 4492 NEW SPRN: 4492 1 LRST SPRN: 358 NEW SPRN: 363 END - 0; ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦«♦♦ 020 0420 01 -'29 '75 TIME NDX NO SD2 MS WD PH TIN TDUT H2S THC CH4 CD 0 3 MDV PAIN PPB PPB PPB MPH BEG PCT DGF DGF PPB PPB PPB PPB PPB DEG HDT 0320 CRL CRL CRL 10 146 32 63- 10 CRL CRL CRL CRL CRL 273 0 0325 2 0 0 10 150 33 61- 10 0 CflL CRL CRL 49 470 0 0330 4 0 0 9 142 33 62- 10 0 CRL CRL CRL 4 3 160 o 0335 4 0 0 9 143 32 63- 9 0 1335* 1390 9 7 0 43 492 0 0 34 0 3 0 0 10 143 63'— 9 0 1 33 0 133 0 95 3 4 9 306 0 0345 5 0 0 10 142 o ;* 64- Cl 0 1390 1 33 0 343 43 224 II 035 0 3 0 0 9 150 r» z* 64- 9 0 14 09 I '■>*- ^\ 943 49 309 0 0355 4 0 0 8 150 93 '■£— 14 0 155 5 1514 96 0 ji , l'^: 0 0 0 0 0 313 '8 i-' 62- 15 0 155 3 1465 945 3k* 4713 0 0 0 0 0 33 87 64- 15 0 1556 1522 931 3>K' lS'.o o 0 0 0 0 354 37 64- 16 0 1558 1505 Cj ^o •«c* 440 0 0 0 0 0 348 33 64- 17 0 1533 1589 943 34 57* 0 II C-1433 FIG. 3 PPB PPB PPB MPM PEG PCT DGF B'3F PPB PPB PPB P&B PPB I'E'3 HI 0720 0725 0730 0735 0740 0745 0750 0755 0300 0305 0310 0315 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 2 1 1 1 1 1 1 3 1 £8"? 0 337 305 0 102 1 237 206 7 247 126 83 83 89 39 33 •37 37 36 36 86 35 35 62- 62- 62- 63- 64- 63- 62- 61- 62- 63- 64- 64- £0 20 16 13 11 10 10 12 13 10 3 10 1535 1563 1541 1534 1514 1433 1495 154 1 1549 1495 1446 14 35 1549 1551 1522 1497 1463 1473 14 39 1490 1463 1466 1419 1395 975 899 939 960 953 955 937 1001 1 0ir6 1004 932 965 35 3o 36 36 39 33 34 32 30 33 43 36 10i7 5720 3 376 14 04 7918 Viz-* 3166 3877 5225 844 1834 8-..4 1 0 0 0 0 0 II 0 0 0 0 0 0 020 0920 01/29 '75 TIME OS20 0325 0330 0335 084 0 0345 0350 0355 0900 0905 0910 0915 NQX PPB 0 0 0 0 0 0 0 0 0 0 0 0 MO PPB 0 0 0 0 0 0 0 0 0 0 0 0 S08 PPB 0 0 0 0 0 0 0 0 0 0 0 0 MPH 1 9 14 15 13 9 5 6 13 14 14 12 DES 206 156 133 137 146 172 189 135 143 138 141 146 PH PCT 85 79 77 76 76 77 77 75 74 73 TIM DGF 64- 62- 61 62 63 64 65- 63- 61 62 63 64 TOUT DGF 12 6 0 1 1 1 2 3 1 4 6 6 H2S PPB 0 0 0 0 0 0 0 0 0 0 0 0 THC PPB 1602 1661 1544 1373 1373 1365 1441 1524 14 CH4 PPB 1514 1553 1486 1373 1363 1343 1373 1510 ♦ 1582 1330 133 0 1330 137 0 1373 1363 CD PPB 992 1004 1001 979 96 0 345 943 934 1031 932 365 03 PPB 34 43 51 5 0 51 47 41 48 51 51 1.11'V TEG 2489 1846 378 376 309 2334 1474 1221 1 K''!' 337 4^6 186 PRIM HIT 0 0 0 0 0 0 0 o 0 0 0 0 ♦ ♦♦♦♦ 020 1 TIME 0920 0925 0930 0935 094 0 0945 095 0 0955 1000 1005 1010 1015 02 0 01 Max PPB 0 0 0 0 0 0 0 0 0 0 0 0 ♦♦♦♦♦♦♦ •29/75 MO PPB 0 0 0 0 0 0 0 0 0 0 0 0 ♦♦•♦♦♦♦♦♦♦«♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦** ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦- :d2 us >PB MPH 0 0 a 0 0 0 0 0 0 0 0 0 11 5 2 1 2 3 1 3 6 7 7 WD BE "3 152 170 133 53 77 112 120 9 3 109 1 08 122 124 PH PCT 72 72 71 71 70 69 68 63 k-< 67 TIM TOUT DGF DGF to 62 62 63 64 64 >>2 61 63 64 64 61 8 10 10 1 1 12 12 H2S PPB 0 0 0 0 0 0 0 0 0 0 0 0 THC PPB CH4 PPB 1365 1353 139 7 1361 1422 14 07 14 07 1388 14 02 1397 14 09 1392 141 9*1 486 1412 1392 14 08 1385 139 7 1397 1 397 1 333 1397 139 0 CO PPB 962 YK'7 984 9o < •^62 865 03 PPB 45 2 45 4 4 3 4 5 0 I 4 ? *1 49 7 51 51 51 DEG 430 4 73 344 133 416 146 194 24 £":h:h HIT ' 0 0 o 0 0 .'} o 0 0 0 0 0 II C-1434 8. 5 020 1021 01/89 -75 TIME MflX MO :08 PPB PPB PPB 1015 0 0 0 I.I* MP PH TIM TOUT H2S THC CH4 CO 0 3 i.i [iV Pm'.h Nil MPH BEG PCT DGF DGF PPB PPB PPB PPI: PPB DEG 184 67 61 12 0 1397 139 0 9 37 84 FIG. 3 ■ 020 10?? 01'29'75 TIME NDX Ma S02 PPB PFB PPB 1035 0 0 0 MS MPH U0 BEG PH PCT T I r< TOUT H2S THC CH4 CD 03 WBV PAIN DoF BGF. PPB PPB PPB PPB PPB LEG HBT 98 64 62 16 0 1424 1402 975 52 198 L UNIT 0 PEC 031 UNIT 1 PEC 031 UMIT 2 PEC 000 M MAN CAL SYSTEM = 0 CAL NDX 1049 Ql/29/75 M MAN CAL SYSTEM = 1 CAL NO 1049 01 '29 '75 M MAN CAL SYSTEM = 2 CAL SD2 1049 01/29 '75 M MAN CAL SYSTEM = 3 CAL D3 1049 01/29/75 M MAN CAL SYSTEM = 4 CAL THC 1049 01. "29/75 M NAN CAL SYSTEM = 5 CAL H2S 1049 01/29/75 II C-1435 LAST CAL NDX 1 049 01-' 2 9 INPUT FPB: 37 LAST ZERO: - 1 MEM ZEFD: - NO 1049 01 -29 INPUT PPt: 87 LAST ZERO: - 2 NE'.t ZERO: S02 1 049 01/29 INPUT PPL: 121 LAST ZEFD: 0 NEW ZEFD: H2S 1049 i.'l 29 INPUT PPB: 121 LAST ZE.Ftl: 0 NEW ZEFD: THC 1 04 9 01 -'29 INPUT PPB: 3400 LAST ZEFD: 667 NEW ZEFD: CH4 1049 01 '29 INPUT PFB: 3400 LAST ZEPD: 21135 NEW ZEFD: CO 1049 0129 INPUT PPB: 4499 LAST ZEPD: -H561 HEW ZEFD: D3 1049 01 29 LAST ZERO: H HI VOL = 1 D 1057 01/29/75 R 020 1057 01 >■?.': TINE MOX INPUT PPB: 360 0 NEW ZEPD: 1 LAST SPAN: 39 NEW SPUN: 113 1 LAST SPAN: S3 NEW SPAN: 104 0 LAST SPAN: 118 NEW SPAM: 115 0 LAST SPAN: 118 NEW SPAN: 115 0 LAST SPAN: 3449 NEW' SPAN: 3483 0 LAST SPAN: 3434 NEW SPAM: 3510 0 LAST SPAN: 4492 NEW SPAM: 4492 1 LAST SPAN: 353 NEW SPAN: 363 no :a:: w: H2: THC CH4 CO 0 3 FIG. 3 030 105? 0l'29'75 TIME MOX HO C02 US H2S THC CH4 CO 0 3 PPE PPB PPB MPH FPB PPB PPF . PPB PPF 1057 -11-18 0 0 0 3493 3466 4475 0 020 105? 01'89'TS TIME MOX MO S02 US H2S THC CH4 CO 03 PPF PPB PPB MPH PPB PPB PPB PPB PPB 1059 - 2* * 0 0 0 0 3493 3463 4475 0 020 1100 01/29 -'75 TIME MOX MO SD2 MS H2S THC CH4 CO 03 PPB PPB PPB MPH PPB PPB PPB PPB PPB 1101 - 3* 0 0 0 0 3493 346S 4463 0 R 020 1101 01/2? '75 TIME NOX MO S02 US H2S THC CH4 CO 03 PPB PPB PPB MPH PPB PPB PPB PPB PPB 1101 - 3*- 10 0 0 3493 346S 4465 I R 020 1 1 02 01 '89/75 TIME MDX MO S02 MS H2S THC CH4 CO 03 PPB PPB PPB MPH PPB PPB PPF PPB PPB 1102-2-4 0 0 0 3493 346S 4465 0 R 020 1103 01 -'2? '75 TIME MOX MD S02 WS H2S THC CH4 CO 03 PPB PPB PPB MPH PPB PPB PPB PPB PPF 1103 - |* 3 83 0 9? 3493 3463 4463 156 R 020 1105 01/29/75 TIME MOX MO SD2. MS H2S THC CH4 CO 03 PPF PPB PPB MPH PPB PPB PPB PPF PPF 1105 10* 15 101 0 104 3493 3444 4465 336 R 020 1106 01/29/75 TIME MOX MD S02 ME H£S THC CH4 CO 03 PPB PPB PPB MPH FPB PPB PPE PPB PPF 1106 11* 16 102 0 103 3495 3442 4436 351 R 020 110? 01/29'75 TIME MOX MO S02 PPF PPE PPF; 110? 6* 11 102 0 103 1827*34 39 4436 356* * ' II C-1436 020 1103 01/29-75 TIME ML)': MO S02 WZ HZi THC CH4 CD 03 PPF PPB PFB MPH ppj. ppb pPB PPB PPF 1103 n ♦ 15 102 0 102 1 7 07* ?4 3? 4436 359 MS H2S THC CH4 CO 03 * MPH PPB PPB PPB PPB PPB 020 11 03 01/29 '75 TIME NOX NO S02 PPB PPB PPB 1103 11* 15 102 WS H2S THC CH4 CD 03 MPH FPU P'PB PPB PPB PPB 0 102 1707* 3439 44 36 359 u FIG. 3 020 110? 01'29/75 TIMC NOX NO S02 PPB PPB PPB 1109 21* 29 R 102 020 1110 01'29'75 TIME NOX NO S02 PPB PPB PPB 1110 25* 40 109 R 020 1112 01/29/75 TIME NOX NO S02 PPB PPB PPB 1112 R 28< 44 118 WS H2? THC CH4 CO 03 MPH PPB PPB PPB PPB- PPB 0 102 1707*2380 44 36 359 WS H2S THC CH4 CO 03 MPH PPB PPB PPB PPB PPB 0 102 1707 1466 2599 359 US H2S THC CH4 CO 03 MPH PPB PPB PPB PPB PPB 0 101 1529 1468 992 360 020 1113 01/29/75 TIME NOX NO S02 PPB PPB PPB 1113 £7+ 43 113 R 020 1114 01/29 ''75 TIME NOX NO S02 PPB PPB PPB WS H2S THC CH4 CO MPH PPB PPB PPB PPB 03 PPB 1114 R 30* 119 020 1116 01/29/75 TIME NOX NO S02 PPB PPB PPB 1116 32* 51 118 101 1435 1466 392 360 US H2S THC CH4 CO 03 MPH PPB PPB PPB PPB PPB 0 117 1435 1451 992 362 WS H2S THC CH4 CO 03 MPH PPB FPB PPB PPB PPB 0 118 1433 1446 989 360 END Y LOST NOX NO $02 H2S THC CH4 CO 03 ft - 1117 CAL 1049 01/29 INPUT PPB: 37 LAST ZERO: - 1 NEW ZERO: - 1049 01-29 INPUT PPB: 37 LOST ZERO: - 2 NEW ZERO: 1049 01/29 INPUT PPB: 121 LPiST ZERO: 0 NEW ZERD: 104 9 0129 INPUT PPB: 121 LAST ZERO: 0 NEW ZERO: 1 04 ? 0 1 29 I NPUT PPB : 34 0 0 LAST ZERO: 667 HEW ZERO: 1049 01-29 INPUT PPB: 3400 LftST ZERO: 21135 NEW ZEPO: 1049 01-29 INPUT PPB: 4499 LAST ZERO: -H561 NEW ZERO: 104 3 01 -29 INPUT PPB: 360 LAST ZERO: 0 NEW ZERO: 1 LAST SPAN: 1 LftST SPAN: 0 LftST SPAN: 0 LAST SPAN! 1 13 0 LAST SPAN: 3449 0 LAST SPAN: 34 34 0 LAST SPAN: 4492 1 LAST SPAN: 353 89 NEW SPAN 83 NEW SPAN 1 18 NEW SPAN NEW SPAN NEW SPAN NEW SPAN NEW SPAN NEW SPAM 113 104 1 15 115 3-13 3 35 1 0 4492 3^3 II C-1437 FIG. 3 020 1120 01 '29' ~ C TIME MOM MQ soa ys WO RH TIM TOUT H2S rm: CH4 CD D? i.i DV FA1M PPB PPB ppb MPH I'EG PCT DGF DGF PPB PPB PPB PPB PPB DEG HDT 1020 0 0 0 5 112 66 62 14 0 1409 1400 939 3£ 2-43 0 1025 0 0 0 4 0 65 64 14 0 14 09 1390 962 51 1 060 ij 1030 0 0 0 2 100 65 64 14 0 14 0? 13 73 943 51 17 07 0 1035 0 0 0 2 98 64 62 16 0 1424 14 02 975 t,2 193 0 104 0 0 0 0 2 93 63 62 18 0 1429 14 04 9 9 9 53 3 03 0 1045 CflL CflL CAL 3 92 62 63 19 CflL CflL CflL CflL CflL 465 0 1050 CAL CflL CflL 2 102 60 64 20 CflL CflL CflL CflL CflL 1614 o 1055 CAL CflL CflL 0 243 59 62 23 CflL CflL CflL CflL CflL 4593 o 1100 CAL CflL CflL 0 52 57 64 25 CflL CflL CflL CflL CflL 300 0 1105 CflL CflL CflL 0 C"0 JO 56 66 25 CflL CflL CflL CflL CflL 334 o 1110 CflL CflL CflL 0 52 54 64 26 CflL CflL CflL CflL CflL 7? 0 1115 CflL CflL CflL 0 64 52 63 23 CflL CflL CflL CflL CflL 443 0 R NO CAL 020 1122 01-29/75 TIME NOX MD S02 PPB PPB PPB 1115 CflL CflL CflL ws WD RH TIM TOUT H2S THC CH4 MPH DEG PCT DGF DGF PPB PPB PPB 64 52 63 CO 03 WDV PfllM PPB PPB DEG HDT 28 CflL CflL CflL CflL CflL 44c START 1123 XS SPAM 0 XS SPAM 1 XS SPAM 14 END - 1145 Y LAST CAL MDX 1123 01 -'29 LAST ZERD: - NO 1123 01 .'29 LAST ZERO: SD2 1123 01. -'3 9 LAST ZERO: H2S 1123 01 '39 LAST ZERO: THC 1123 01^29 LAST ZERO: CH4 1123 01 39 IMPUT PPB: 37 1 MEM ZEPO: - IMPUT PPB: 37 1 MEM ZERD: - IMPUT PPB: 121 0 MEM ZERO: IMPUT PPB: 121 0 MEM ZERO: IMPUT PPF: 34 00 66? MEM ZERO: IMPUT PPB: 34 0 0 LAST ZEPO: 21135 MEM ZERO: CD 1123 01 29 IMPUT PPB: J499 LAST ZEFO: -H561 MEM ZEFO: 03 1123 01 '29 IMPUT PPB: 360 LAST ZERO: 1 MEM ZERO: c LAST SPAN: 45 NEW SPAN: 113 3 LAST SPAM: MEM SPAM: 104 0 LAST SPAN: 115 MEM SPAM: 11- 0 LAST SPAM: 115 NEM SPAN: 11* 0 LAST SPAM: 3433 NEW SPAM: 34 9? 0 LAST SPAM: 3510 NEM SPAM: 34 4 r 0 LAST SPAM: 4-492 NEM SPAN: '14*3 0 LAST SPAM: 368 NEM SPAM:. .. .3^-4 II C-1438 e, - -~ .-- ~ --FIG. 3 - - ' - "... 5 320 114? Qls29'?S ntiE nox no zoa mi md rh tim tout h£S thc CH4 co 03 wdv faim PPB PPB PPB MFH BEG PCT DGF I'GF .FPU PPB PPB PFB PPB BEG HBT 0 CFlL CflL CmL 2 30'3 49 67 2.7 CflL CflL CflL CflL CflL 2151 0 H HI VDL » I ■1 1flN CflL SYSTEM =0 CflL MOX 1151 01/29/75 I JPflM CHFlM = XS SPAM 0 • .'-...• M IftN CflL SYSTEM = 0 CflL MDX 1151 01 '29/75 1 IflN CflL SYSTEM =1 • CflL MO 1151 01/29/75 020 1152 01/29/75 TIME MOX MO SD2 WS H2S THC CH4 CO 03 PPB PPB PPB MPH PPB PPB PPB PPB PPB 1152 0 0 0 0 0 1497 1422 2545 60 1153 01/29/75 i . .£ MDX MO $02 WS H2S THC CH4 CO 03 PPB PFB PPB MPH PPB PPB PPB PPB PPB 1153 0 0 0 0 0 1497 1422 2545 -SO > 020 1153 01/29/75 TIME MOX MO S02 US H2S THC CH4 CO 03 PPB PPB PPB MPH PPB PPB PPB PPB PPB 1153 0 0 0 0 0 1497 1422 2545 60 - 1203 f 020 1154 01/29/75 - , TIME MOX MO >02 US H2S THC CH4 CO 03 ; PPB PPB PPB MPH PPB PPB PPB PPB PPB xl54 0 0 0 0 0 1497 1422 2545 60 :HD - 1154 j «. * . : L \ JMIT 0 PEC 032 .IMIT 1 PEC 032 • J UNIT 2 PEC 000 II C-1439 FIG. 3 . !fXp122XnS^2ND75S02 WS WD RH TIM TOUT H23 THC CH4 CD 03 MDV RAIN TIME PRE PPB m «PH DEG PCT DGF DGF PRE PP8 PPB PPB PPE DEG HDT 1120 CHL ChL CHL 2 73 50 66 11,25 CHL CHL ChL 1 16 50 11 ^0 CHL CHL CHL £ 333 50 1135 CHL CHL CHL 0 £6 50 23 CHL ChL CHL CHL CHL 352 0 67 a? CHL ChL CHL CHL CHL 2013 0 64 25 CHL CHL CHL CHL CHL 655 0 65 26 CHL CHL CHL CHL CHL 3760 0 CHL CHL CHL CHL 2151 0 is t» 0 1353*1353 997 66 1196 0 134 0 8* 11 0 4 134 40 65 32 0 1 36 3* 1 3b5 394 66 1 223 0 1345 10* 11 0 7 160 40 65 31 0 1373 136 3 999 66 653 0 1350 9* 13 0 7 170 39 62 31 0 134?* 1353 999 66 452 0 1355 10* 13 0 7 174 39 64 31 0 134 3*1 34:3 1001 i»6 630 0 1400 11* 13 0 7 165 39 65 31 0 1341 1339 967 66 301 0 1405 Q» 12 0 6 174 39 65 31 0 1334 1329 96 0 66 222 0 1410 9* 12 0 4 162 39 62 31 0 1334 1329 345 65 1 653 0 1415 9* 13 0 4 174 39 64 32 0 1351 1326 945 65 655 0 1420 11* 13 0 7 206 39 66 32 0 1331 1303 926 66 330 0 020 15 20 01 '2?'' 7 TIME NOX na 302 us WD RH TIN TOUT H2S THC CH4 CO 03 MDV PRIM PPB PPB PPB MPH BEG PCT DGF DGF FPB PPB PPB PPB PPB BEG HDT 142S 13* 15 0 4 133 39 63 32 0 1324 1307 913 65 1569 0 >§ 9* 13 0 4 173 39 63 32 0 1336 1314 926 65 573 0 ■w 10* 11 0 c- 197 ■39 65 32 0 1323 1313 913 65 626 0 J 10* 14 0 7 174 39 65 32 0 1331 1312 913 66 1264 0 i.45 11* 13 0 5 173 39 62 32 0 1321 1317 921 65 1F36 0 1450 10* 13 0 c -> 204 39 64 32 0 1 3 33 1 32 1 950 66 1132 0 1455 !£♦ 14 0 4 194 39 65 32 0 1400 1314 921 65 1119 0 1500 10* 14 0 3 120 33 64 33 0 1333 1324 909 66 7114 0 1505 10* 13 0 Zf 132 ■-..-• OC 32 0 1373 1343 921 65 771 0 1510 11* 13 0 0 344 33 64 32 0 1329*1336 931 65 710 0 1515 12* 14 0 3 160 33 66 33 0 1334 1317 909 65 917 0 1520 13*- 15 0 5 173 33 63 Ok- 0 1321 13 03 914 65 1 232 0 ♦ ♦♦•♦♦♦♦♦*♦♦»♦♦♦♦♦♦«•»««•«♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ 020 1620 01 '29/75 TIME MOX HO 302 WS UD RH TIM TDUT H2S THC CH4 CO 03 MDV PRIM PPB PPB PPB MPH BEG PCT DGF DGF PPB PPB PPB PPB PPB DEG HDT 1525 1 1 ♦ 13 0 3 150 33 63 32 0 1343 1324 923 64 1559 0 1530 10* 16 0 5 194 33 65 33 0 1324 13 09 913 65 633 0 1535 12* 16 0 5 206 33 65 33 0 1319 1297 909 65 77cl 0 1540 10* 16 0 2 149 33 62 32 0 1353 1312 923 * 64 1377 0 1545 12* 14 0 4 180 33 64 32 0 1326 1317 93 3 64 315 0 1550 12* 13 0 3 134 33 65 32 0 1351 1312 923 64 998 0 1555 10* 14 0 1 10 38 64 33 0 1563 1370 913 64 3194 0 16JI0 12* 14 0 2 263 33 62 32 0 1424 1375 933 64 2627 0 11* 14 0 3 220 33 65 32 0 1453 134 6 931 64 1010 0 11* 14 0 2 196 33 66 33 0 1395 1407 918 64 4377 0 5 II* 14 0 1 209 33 63 32 0 1321 ♦14m9 911 64 3101 0 ...20 11* 13 0 1 274 33 63 32 0 1 321*134 1 933 64 2333 0 \)' " II C-1441 FIG. 4 TRAILER 021 11ARDCOPY 021 1625 01 -23'75 TIME ID2 -JS blO PPB NPH DE6 3H TIN TOUT H2S UDV RAIN -*CT DSF D3F PPB DEG HDT 1525 3 12 32 66 13 0 953 0 1530 6 1 17 31 63 21 1 2541 0 1535 2 1 123 32 69 21 0 5546 0 1540 0 6 244 34 67 21 0 4243 0 1545 4 5 2?? 30 67 22 0 334 0 1550 0 3 235 73 63 22 0 331 0 1555 3 6 270 75 63 ;> o 0 732 0 1600 £» 6 273 73 67 21 0 773 0 1605 1 3 237 73 66 22 0 1332 0 1610 3 3 275 71 6? 21 0 560 0 1615 5 9 236 70 63 ^2 0 363 1 1620 2 7 232 63 63 22 0 1432 0 RH TIN TDUT H£3 MDV RAIN POT DSr DSr PPB D£6 HDT ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦*♦« 021 1725 01 --22 '75 TIME 3-02 U5 WD PPB NPH DEO 1625 1630 1635 1640 1645 1650 1 655 1700 1705 1710 1715 1720 5 •3 233 63 ©S 21 0 324 0 0 10 230 £3 63 21 0 551 0 5 •3 231 ^» ,' 63 21 1 373 0 2 3 231 .•,7 69 20 0 50 3 0 0 7 236 67 66 20 0 344 0 2 5 305 67 67 19 0 C>4o 0 4 6 322 67 O'Z* 13 0 3 34 0 3 3 33 3 67 63 13 0 262 0 e- 9 32 3 67 67 19 1 276 0 0 7 332 o3 67 13 0 7 3«i 0 4 (., 333 67 63 17 0 503 0 1 6 34 3 67 63 17 0 601 0 ♦♦♦♦♦♦«#>♦♦♦»♦♦•♦♦♦♦♦♦♦♦♦♦♦ ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦♦♦♦♦•♦♦♦♦♦♦♦♦♦ ♦■♦♦♦♦♦♦•♦♦*♦♦♦♦♦♦♦♦♦' II C-1442 FIQ,.4 021 1325 01 '23 '75 TIME 302 M> '-'D RH TIM TOUT H2S *IW RAIN PPB M°H DEG PCT DGF DGF PPB DEG HDT 1725 2 6 332 67 67 17 0 620 0 1730 2 5 342 67 66 16 0 714 0 1735 2 4 2 63 67 14 0 205 0 1740 2 3 340 70 6? 12 0 603 0 1745 3 2 354 71 63 11 0 337' 0 1750 3 3 34 72 •£.6 3 0 777 0 1755 3 1 73 74 67 10 0 426 0 1300 2 a 136 75 63 9 0 3473 0 1305 3 2 132 77 63 7 0 753 0 1310 o .3 141 7? 67 6 0 1033 0 1315 2 3 145 30 66 4 0 926 0 1320 3 4 132 32 67 1 0 1033 0 ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ 021 1325 01/23/75 TIME 302 US WD RH TIN TOUT H2> WDV RrtIN PPB MPH D£5 PCT DGF DGF PPB DEG HDT 1325 ■£> 7 143 32 63- 2 0 232 0 1330 2 3 142 32 69- 4 0 625 0 1335 3 3 123 31 63- z» 0 336 0 1340 4 7 146 32 67- 3 0 1123 0 1345 4 •7 160 32 63- 3 0 294 0 1350 3 7 152 32 70- 2 0 976 0 1355 3 7 144 32 63- 4 0 36 Ci 0 1300 3 6 145 33 63- D 0 541 0 1305 2 7 143 •C* 3 67- 7 0 424 0 1310 4 o 144 32 69- 3 0 4 99 0 1315 D 3 143 32 70- 10 0 575 0 192 0 3 7 153 32 69- 10 0 931 0 ♦♦♦♦♦♦♦♦♦♦♦*♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦'♦'♦♦♦♦♦♦♦♦♦• •♦♦♦♦< 021 2025 01 '2 3 '75 TIME 302 VIS 'JD RH TIN TO'JT H23 WDV PRIM PPE MPH DEG PCT DGF DGF PPB DEG HDT 1925 3 6 160 32 67- 9 0 955 0 1930 3 7 150 32 63- 10 0 465 0 1935 4 3 160 3? 69- 12 0 675 0 1940 4 3 157 31 70- 11 0 733 0 1945 3 7 141 32 71- 11 0 230 0 1950 3 6 152 32 71- 11 0 533 0 1955 3 6 162 32 69- 10 0 991 0 3000 2 7 152 32 63- 12 0 1074 0 2005 4 3 151 31 63- 14 0 1203 0 2010 1 3 14 0 3 3 69- 12 0 643 0 2015 2 5 132 32 70- 12 0 1351 0 2020 3 5 173 32 71- 13 0 1462 0 II C-1442 ' 031 21 25 01 '2§/7 5 FIG . 4 TIME 132 MS WD PH TIM rouT H2S WDV PR I N PP'B MPH DEG PCT •D6F D6C PPB DEG HOT 20=5 4 5 162 31 71- 13 0 4 36 0 2030 0 6 211 34 71- 14 0 46 3 0 2035 3 5 I? 3 32 70- 13 0 1243 0 2040 3 4 133 31 63- 13 0 633 0 2045 1 5 175 •3 3 3*_ 63- 12 0 1334 0 2050 3 4 134 32 6?- 12 0 635. 0 2055 0 4 200 33 71- 11 0 362 0 2100 0 3 135 33 71- 12 0 324 0 2105 5 3 53 32 70- 12 0 6371 0 2110 3 4 157 3 3 Ota 6?- 12 0 742 0 2115 3 4 163 31 67- 12 0 332 0 2120 3 •1 155 32 63- 14 0 1352 0 ♦♦♦♦♦♦♦♦♦♦♦♦♦♦»♦♦ 021 2225 01 '23 '75 TIME 2125 2130 2135 2140 2145 2150 2155 2200 2205 2210 2215 2220 12 MS WD PH TIM ' rouT HE 3 WDV PRIM '8 MPH DEG PCT IiGF I"GF PPB DEG HDT 0 3 190 33 70- 14 0 426 0 2 4 175 32 70- 13 0 675 0 3 4 162 31 71- 12 0 1042 0 1 3 163 33 ?1- 11 0 1547 0 3 3 172 31 71- 12 0 1766 0 4 3 134 32 71- 13 0 315 0 1 3 163 32 72- 13 0 531 0 0 3 133 32 72- 13 0 433 0 5 3 205 73 70- 12 2 154 0 0 3 3 203 31 67- 14 0 441 0 4 2 IPO 73 69- 12 4 331 0 1 3 207 32 70- 14 0 676 0 ♦ ♦♦♦♦♦♦*♦♦♦♦♦♦♦♦♦♦♦♦♦♦«♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■»♦♦♦♦♦♦♦♦♦♦«♦♦♦<►♦♦♦♦♦♦♦•»♦♦♦♦♦♦♦♦♦♦♦♦♦ 021 2325 01 '33 '75 TIME SD2 PPB MPH UID DEG RH &CT TIM D5F T GUT DSi H2s PPB WDV PRIM DEG HDT 2225 2230 2235 224 0 2245 2250 2255 2300 2305 2310 2315 2320 4 216 1 151 0 33 1 161 224 215 72 24 37 251 53 31 31 -*w 33 32 70- 71- 71- n- 7\- 71- 71- ?2- ro- 70- 14 13 13 13 16 17 17 16 17 13 21 20 710 104 5 33 0 4f5 2550 4 39 146? 155 3 0 6c II C-1444 Mlt.i- 8UWHRY POR TPHlLER 021 0t'23'75 Flft 4 J02 30 TIMS 03»?? •JJ 29 111: 0 ?^^ H2S 25 TIME 0335> MAXIMUM PIVE MINUTE ftVE^GES »02 4 TIME is:^o US 23 TIME 0??5 JD 357 hie 1000 RH 34 TIME 1-5*0 TIN 71 TIME 2155 TO'JT 33 TIME 0425 H23 3 TIME 0250 30 MIN'JTE AVERAGES TIME 502 US H23 PR 6 M°H PPB 0000 0 7 . 0 0030 0 3 0 0100 1 3 0 0130 0 3 0 0200 0 7 0 0230 0 4 0 0300 0 1 0 0330 0 2 0 0400 0 3 0 0430 0 5 0 0500 0 5 0 0530 0 5 0 04 0 0 0 7 0 0*30 0 13 0 0700 0 13 0 0730 0 10 0 0300 0 11 0 0330 0 3 0 0300 Ch'_ 14 CfIL 0330 1 10 0 1000 3 3 0 1030 3 1 0 1100 3 2 0 1130 3 4 0 1200 3 12 0 1230 2 7 0 1300 1 1 3 1330 2 6 0 1400 g 3 0 1430 3 13 0 1500 2 4 0 1530 » 4 0 1600 3 7 0 1630 3 7 0 1700 2 6 0 1730 3 2 0 1300 2 3 0 1330 3 7 0 1300 > 6 0 1330 3 6 0 2000 3 4 0 2030 1 4 0 2100 2 3 0 2130 > 3 0 2200 2 2 0 2? 30 3 1 0 2300 ;• 0 0 2330 3 1 0 DAILY AVERAGES ;o2 1 us 6 UD 236 RH 30 TIN 63 TOJT ,H H2S 0 R-^IN M?S SIS -"of o'^^ZECu!" 1 L«-,T !"*« "7 NEU SPAN, U2 TT r^ FIG. 4 021 0025 01-'2r"75 TIME 102 WS WD *H Til tqjt H2S •>IDV PhIN PPB M?H DEG PCT D3F D3F PPB DEG HDT 2325 4 1 130 31 70- 20 0 7437 0 2330 2 1 32 32 71- 21 0 160 0 2335 4 1 44 30 71- 23 0 547 0 234 0 4 » 42 31 71- 24 0 2? 3 0 2345 3 1 26 31 72- 24 0 173 0 2350 1 2 6 32 71- 25 0 234 0 2355 1 1 23 32 70- 25 0 303 0 0000 4 1 11 32 63- 25 0 262 0 0005 3 3 17 31 63- 26 0 106 0 0010 2 3 14 32 6?- 26 0 172 0 0015 3 3 3 32 70- 26 0 133 0 0020 o 3 25 32 70- 25 0 192 0 ♦ ♦♦♦♦♦♦♦♦♦♦■♦■♦•♦■♦♦♦♦♦♦♦•♦♦»♦♦■♦♦♦«•♦♦♦♦♦♦♦♦♦♦♦-♦♦♦♦♦♦♦♦♦■♦♦♦♦♦•♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦«•»■•♦ 021 0125 01 '2? '75 TIME SQ2 :J£: UlD RH TIM TOUT H2S WDV ftflIM PPB r-lPH LEG PCT D3~ D3- PPB DEG HDT 0025 3 ^ 332 70- 25 0 3523 0 0030 4 3 13 30 70- 25 0 161 0 0025 5 4 17 31 71- CO 0 3 33 0 004 0 4 4 10 30 71- 23 0 302 0 0045 3 5 2 32 71- 31 0 214 0 0050 4 4 310 32 71- 30 0 316 0 0055 4 4 337 o z* 71- 30 0 9 04 0 0100 4 6 314 30 71- 2? 1 ": 3.3 0 0105 5 ~> 334 3 ' 70- 31 0 23 3 0 0110 3 c- 1 32 63- 31 0 24 7 0 0115 4 4 15 . 31 63- 30 0 1 06 0 0120 4 3 •7 32 70- 23 0 243 0 021 0203 01/2? '75 TIME SQ2 MS JD RH TIM TOUT H2S WDV RAIN PPB M°H DEG PCT DSF DSF PPB DEG HDT 0205 33 69- 24 32: II C-1446 FIG. 4 | 0?l 022? 01 '2*'?} TIM= S02 'i> •.IP »H TIN roMT H2S MDV PAIN PPB M°M DE'3 eCT P3C D3C PPB D£5 HCT 012? 4 i > 3?7 30 70- 23 0 233 0 0130 1 i to 3 s 71- 23 0 133 0 0155 3 * ♦ 3 32 71- 2? 0 33 0 0140 3 ) 0 31 71- 2? 0 33 0 014? 2 * 357 32 71- 24 0 173 0 0150 3 : ) 10 3» 71- 2? 0 237 0 01?? ? ) 3?4 31 71- 2? 0 24* 0 0200 ? i 12 31 70- 24 0 l?73 0 020? 6 < J 2-5 ?3 63- 24 0 323 0 0210 o : i 6 33 70- 24 0 70 0 021? 4 1 1 4 32 70- 23 0 70 0 0220 1 4 3 31 71- 23 0 30 0 021 022? 0l'2?'7? TIME SO 2 US <>0 PPB N°H D=i3 0220 I 4 3 Y LAST CAL 302 0310 01 '23 LAST 2EP0: H2S 0311 01 '23 LAST 2EPQ: °CT 31 TIN TOUT H23 MOV PAIN P?P D3P PPB PE'3 HPT 71- 23 INPUT = = B: 117 0 MEJ ZSROi - IN°UT P=-B: 117 0 NEJ 2E«0: 90 LAST span: LOST SPAM: 117 NE'd SPAN: U3 117 NEW SPAN: 112 MAN CAL SYSTEM * 2 CAL S02 0301 01'2?'7? 021 0302 01 '2?/7'5 TIME S02 WS H2S PPB MPH PPB 0302 106 10? 021 030? 0l'2?'7? TIME S02 MS H2S PPB MPH PPB 030? 116 R 0 10? 021 0306 01 '2? '7? TIME S02 .IS H2S fPh M=-H PPB. 030^ 122 0 10? 021 03 L? 01 '2?'? 5 TIME 302 oil ..It. -;h TIN TOOT H2 3 :.ipv PAIN PPB M°H I' EG &C T . P3F DSF PPB TE'3 HOT 022? 6 3 12 30 63- 24 3 160 0 0230 4 5 34 3 r2 r>3- 24 0 4 07 0 02 3? 3> 4 322 '3 2 63- 2"? 0 226 0 024 0 ? 5 330 ?5 A^«« 26 0 163 0 024? 1 4 ^4* =>* -;*- 26 0 12J 0 02? 0 ? 3 341 31 63- 26 0 123 0 02?? 3 3 321 p. > 63- 26 0 163 0 0300 •:al 4 31? 31 «> 3— 26 0 4?0 0 030? CAL 3 332 ■ 32 63- 26 0 314 0 0310 •:ai_ 0 333" 33 6?- 2Z 0 427 0 031? •:al 3 7 ,j'j *?- 26 0 £04 0 0320 CAL i 3*? 32 63- 26 0 104 0 II C-1447 021 03 32 01 '2? '75 TIME 502 MS H25 FIG. 4 PPB MPH PPB 0332 - 21 0 10? 021 0335 01'2?'75 TIME 302 VIS H2 5 PPB MPH PPB 0335 94 0 10? R 021 0335 01'23'75 TIME 502 WS H2S PPB MPH PPB 0335 122 0 10? R 021 0336 01'23'75 TIME 502 '0 5 H25 PPB MPH °PB 0336 123 0 10? R 021 0336 01'2?'75 TIME 502 i.J 5 H2 5 PPB MPH PPB 0336 125 0 10? R 021 0337 01 '2? '75 TIME 502 "J 5 H25 PPB MPH PPB 0337 93 0 10? R 021 033? 01/23' 75 TIME S02 U5 H2S PPB M^H PPB 0333 111 0 10? END - 0333 3. ♦ ♦♦<*♦«•♦«*«♦♦♦••♦♦«»«♦*♦♦♦♦♦♦♦♦♦♦♦«. <<4<.»*»*t, <<.«♦♦«.♦»♦*♦♦ «♦«♦♦♦♦♦*♦♦«♦♦*♦♦««*♦.< 021 0425 01 'I? -75 TIME 502 015 WI> ^'H TIN TO'JT H2 5 WDV CRIH PPB MPH DEi3 PCT DSF DSF PPB BEG HDT 0325 Cml 1 3 3? -.' ^ n» 3 — CO 0 631 0 0330 CrV- ^i 331 31 70- ■% - CO 0 134 0 0335 CHL 1 307 30 70- >f. 1 30? 0 0340 5h'_ ^ 23? S ' •> }; — £7 0 233 0 0345 C HI- 1 301 SO "» *B — ^'rt 5 4S3 0 0350 GH'- i* 32? 90 60- 25 :> 242 0 0355 CHL 3 34 0 J3 47- 25 0 33 0 04 00 CHL 2 0 33 42- >er 0 45 0 04 05 2 5 333 34 49- 24 0 221 0 04 1 0 4 1 334 34 60- 1-4 0 106? 0 0415 4 0 46 3 3 64- 23 0 13*1 0 0420 5 1 35 32 65- 23 0 3 : 7 0 II C-1448 FIG. 4 031 05 25 01 '3? '75 TIME 102 '•1? WD 9ri TIN TD'JJ H2> i.lDV PRIN PPB MPH BEG PCT 05F D6F °PB DEG HDT 04 25 5 30 33 65- 23 0 645 0 0430 3 145 33 66- 23 0 205? 0 04 35 3 135 34 66- 23 0 1063 0 04 4 0 7 132 31 66- 23 0 223 0 0445 2 153 33 67- 23 0 437 0 0450 6 ^ 144 34 66- 23 0 31? 0 0455 3 D 136 32 67- 23 0 416 0 0500 5 3 123 33 67- 23 0 315 0 0505 3 .1 331 33 65— 24 0 1233 0 0510 6 » 350 ■32 66 — 23 0 5 36 0 0515 6 2 331 31 67- 23 0 332 0 0520 4 2 320 33 67- 24 0 1045 0 ♦♦♦♦♦♦♦♦♦♦♦♦■»♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦♦♦♦♦♦♦♦♦♦< 021 0625 01 '29 '75 TIME 333 MS WD PH TIN TD'JT H2S aJDV PR IN PPB MPH BEi >CT D3C PPB DEG HDT 0525 4 2 340 31 67- 25 0 5 33 0 0530 6 2 33? 33 67- 2 s 0 336 0 0535 3 3 343 33 63- 25 0 331 0 054 0 4 3 350 22 53— 26 0 237 0 05 45 3 3 33? 32 63- 26 0 241 0 0550 0 ^ 334 33 63- 26 0 7?2 0 0555 5 1 322 33 c*-r' "~ 26 0 652 0 06 00 ■? 3 346 30 63- 26 1 46 0 0605 4 ^ 344 33 57- 2o . 0 537 0 0610 2 1 334 33 67- 26 0 1?7 0 0615 4 0 23 32 35*" 26 0 2??3 0 0620 5 1 70 32 63— Z>—t 0 1270 0 ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦••♦♦♦♦■♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦«■♦♦♦♦♦■♦♦♦■♦•♦♦♦♦•♦♦♦♦♦♦♦-♦♦♦♦♦♦■♦♦♦♦■♦« 021 0725 01 '23^75 TINE 332 MS UD RH TIN TGrJT H23 WDV PR IN PPB NPH DE5 DCT DSF B6C P°B DEG HDT 0625 3 1 60 33 63— 27 0 105? 0 05 30 £» 1 104 33 67- 23 0 2755 0 0635 •*» 1 123 34 53- ;•■? 0 1144 0 064 0 4 1 123 32 6 r» — 57 0 305 0 064 5 5 1 122 33 5 3— 27 0 •173 0 065 0 4 0 30 33 63- 23 0 244 0 0655 5 0 334 32 63- ;» ^ 0 «!' T» ;• *S 0 07 00 5 1 123 33 53- 23 0 254 0 07 05 5 0 140 33 57- 23 0 267 0 0710 4 1 144 32 67- >■? • 0 235 0 0715 5 0 132 32 63- 37 0 2?4 0 0720 4 0 132 33 63- ;»-» 0 215 0 II C-1449 ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦■♦♦♦•♦♦♦^■♦•♦♦♦♦♦•♦••♦•♦♦♦•♦♦■♦♦•♦♦♦♦♦♦♦♦♦'♦■♦♦♦♦♦♦♦♦♦♦♦♦«< 021 0325 01 '2?'75 TINE S02 MS i-'D peg mph D^G 0725 07 3 0 0735 074 0 0745 0750 0755 0300 0305 0310 0315 0320 4 4 5 3 5 4 4 6 1 3 3 4 126 113 120 146 154 150 143 123 150 162 117 4 JIG... 4- 1» i. PCT 93 32 3 3 32 33 32 31 33 34 34 33 33 TIN TO'JT ri25 SJDV R-^IN D3C DSF PPB Dc(5 HLT 63- 63- 63- 63- 63- 63- 63- 63- 67- 63- 63- 63- 27 27 27 27 27 26 25 25 25 24 23 23 457 376 337 •465 165 597 250 467 372 330 3037 2350 0 0 0 0 0 0 0 0 0 0 0 0 «.♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ 021 0925 01 '29 -'75 TIME 30 0325 0330 0335 034 0 0345 0350 0355 0300 0905 0910 0315 0320 ♦ ♦♦♦♦-»♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦*****' U 1 0 US WD RH TIN TOUT H23 WDV RflIM B MPH DES PCT D3F D5r PPB BEG HDT ■4 0 21 32 63- 21 0 610 0 5 1 13 34 63- 20 0 420 0 4 1 354 33 63- 13 0 333 0 4 1 344 31 63- 17 0 673 0 3 2 321 33 63— 13 0 756 0 1 313 33 63- 17 0 872 0 5 1 313 33 63- 17 0 517 0 2 2 344 33 69- 16 0 517 0 9 4 3 2 2 334 34 3 343 30 34 33 1" ( ™" 69- 16 16 15 3 0 0 461 147 43 0 0 0 3 4 335 33 63- 14 0 315 0 ♦ 0325 03 3 0 09 35 094 0 0345 0950 0355 1000 10 05 1010 1015 1020 PPB M-H DEG PCT DGF DGF PPB BEG HDT 5 3 339 4 ;» 354 e: 2 336 1 2 0 5 1 325 3 2 33 3 5 3 339 1 3 331 -? 3 327 3 1 323 4 1 345 ^ > 331 34 31 31 ■5Z. .55 69- 70- 6 9— 70- 70- 70- 70- 6?- 70- 63- 3 ? 7 6 4 -. 0 0 0 0 0 0 0 0 0 0 .0 0 534 176 713 22 9 556 694 363 533 556 1113 153 3 344 0 0 0 0 0 0 0 0 0 0 0 0 II C-1450 021 11.25 01'2?'?5 T11E SD2 US 'JO PPB MPH DEG .^Fica , RH TIN TDJT PCT D'3C DGF H2S JDV PR IN PPB DEG HDT 1025 9 3 353 32 63- 2 0 614 0 1030 0 2 314 35 63- 2 0 463 0 1035 3 3 323 33 63- 1 0 730 0 10-4 0 3 3 336 32 6? 0 0 242 0 1045 3 2 32? 52 63 1 0 517 • 0 1050 1 2 332 31 70 2 . 0 313 0 1055 4 T 332 31 70 5 0 433 0 1100 1 i 66 32 67 6 0 3572 0 1105 4 i 26? 30 67 6 0 2103 0 1110 4 .i 13? 30 63 7 0 7363 0 1115 o 2 133 30 63 3 0 722 0 1120 3 1 143 73 66 11 1 203? 0 1214 01'33'75 5 021 1214 01'23'75 TIME 303 PPB MS NPH IjlID DEG RH PCT TIM DGF TQ'JT D3F H2S PPB UDV DEG RRIM HDT 1210 6 3 162 60 67 30 0 336 2 Y uRST CRL 302 0301 01/23 LAST ZERO: H2S 0311 01 '23 LRST ZERO: INPUT P°B: 117 0 NEU ZZP.Di - INPUT PPB: 117 0 NEW ZERD: LAST SPRN: LAST SPRN: 117 NEU 3PRN: 11. 11? NEW SPAN: 11, UNIT 0 PEC 023 UNIT 1 REC 023 UNIT 2 SEC 000 M MRN CriL SYSTEM = 2 CRL. S02 121? 01 '2? '75 ' N MRN CRL SYSTEM = 5 CRL H2S 121? 01^33/75 R ; 021 121? 01/23/75 TIME 303 MS H3> I PPB M^H PPB 121? 3 0- R Oil 1222 01/23/75 TIME 102 >f< HZS PPB MPH PPB 1222 .403 II C-1451 . ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦<♦♦♦♦♦♦♦•♦♦♦♦♦♦♦«♦♦♦♦♦♦♦♦♦♦«♦♦♦♦♦♦♦♦*♦♦»♦♦♦♦♦♦*♦♦♦♦♦*.♦♦♦♦♦♦♦♦♦♦♦**♦ • TIME S02 US WD CH TIM TOUT H2S JPV PAIN i PPB MPH DEG PCT D?c D5C PPB DE3 HDT 11*3 2 2 13? 7? * 63 13 0 3345 0 11 50 4 ?" 164 75 6? 22 0 3 34 0 1135 3 13 160 70 63 23 5 346 0 1140 2 13 163 67 65 23 0 1111 0 1 1-45 2 12 163 65 63 30 0 301 0 1150 6 13 165 63 6? 30 0 307 1 1155 3 11 171 62 70 2? 0 257 1 1200 1 11 166 61 66 2? 0 633 * 1 1205 4 12 161 SO 66 30 0 731 1 1210 6 9 163 60 67 30 0 336 3 1215 CAL 10 166 5? 63 31 CAL 351 1 1220 CAL 12 164 5? 63 30 CAL 735 0 FIG. 4 021 1225 01 '2?'?5 TIME SQ2 W3 H2S PPB MPS PPB 1225 1 0- I 0 ZERO CHAM -2 0 ZERO CHAM = 3 Y LAST CAL S02 1217 01 '2? INPUT PPB: 117 LAST ZERO: - 2 MEW ZERO: - H2S 1217 01 '29 IM^UT °PF: 117 LAST ZERO: 1 MEW 2EP.3: - R 021 1226 Qls2?s?5 TIME 732 WS H2S PPB MPH PPB 1226 133 0 126 R 021 1237 01 '2? '75 TIME S32 ys H2Z PPB MPH PPB 1227 163 0 123 021 1230 01 '29 '75 TIME S02 MS hzs . °PB MPH PPB 1230 10? 0 119 R 021 1231 01 "-29 '75 TIME 532 MS H2S PPB MPH PPB 1231 111 0 113 R 021 1232 01. '29 '75 TIME 502 MS H2S DPB MPH PPB 1232 114 0 113 R 031 123? 01'2*»'75 TIME 502 :i: "h33 II C-1452 PPB MPH PPB 1233 10? 0 11? 2 LAST SPAN: 117 NEW SPAM: 113 2 LAST SPflM: 117 MEW SPAN: 112 TIME $02 WS H25 FIG. 4 PPB MPH PPB 1233 111 0 115 R 021 1234 01-'2?'75 TIME 532 WS H2S PPB MPH PPT 1234 117 0 116 1 SPRM CHAN = 2 1 * SPAN CHAM = 9 END ■ - 1234 ; 3. H HI VOL = 1 Y LAST COL 332 1217 01 '2? LOST ZEP3: - H2$ 1217 01 '2? LAST ZERO: IN^'JT PPB: 117 2 MEW ZEP3: - INPUT PPB: 117 1 NEW ZERD: - s LRST SPAM: 113 NEW SPAN: 117 2 LOST SPAN! 112 NEW SPhN: 114 END - 1314 ♦ ♦♦♦♦♦♦ ♦^♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦♦♦♦♦♦♦♦■♦■♦♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦■* 021 1: •'25 0.1 '2? '7 5 TIME 302 m s WD RH TIN TOUT H3S WDV PR IN PPB MPH 0E6 PCT DGF D6F PPB BEG HDT 1225 CflL 13 155 59 c.f-. 31 COL 216 0 1230 CHL 11 153 c % 66 31 CriL 672 0 1235 CflL 13 161 57 A"7 30 CRL 337 p 124 0 0 11 147 57 Qi 5 32 .j! 32 3 0 124 5 0 12 151 53 67 32 l 10 37 0 1250 0 *;! 172 -,-? 65 31 0 413 0 1255 0 •3 147 56 66 31 i 303 0 1300 0 •u 153 56 6? 32 4 309 1 13 05 0 ? ISO c ^ rv-I 33 1 936 0 131 0 0 10 174 56 -1,5 33 1 3?4 0 1315 0 7 142 56 67 33 ^ 1124 1 1320 0 >s 147 55 6 3 33 1 3 30 0 II -01453 . JUGv-4. 021 14 25 01 '29'75 TIME 332 •J 3 ■JD *H TIN TG'JT H2S MDV P*IN PPB MPH DEG c-CT D'3C D5F PPB DZ6 HDT 1325 0 7 190 55 63 34 2 322 0 1330 1 9 14? 55 65 34 3 ?2 3 0 1335 0 11 175 55 66 33 1 429 0 1340 0 10 165 54 63 34 2 102 0 0 1345 0 3 160 54 6? 34 A 1026 0 1350 0 10 150 54 66 34 2 3 36 0 1355 0 9 154 54 66 33 2 1567 0 1400 3 10 161 54 67 34 6 1261 2 1405 0 11 16? 54 63 33 0 1031 0 1410 0 11 165 54 66 33 2 369 1 1415 2 ri 146 53 64 33 3 1144 0 1430 0 3 170 54 66 33 0 953 1 ♦ ♦♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦■♦♦♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦ ♦♦♦♦♦♦♦♦♦♦«♦ ♦♦♦♦♦«♦♦♦♦♦ 021 1525 01 '29 '75 TIME S02 US WD RH TIN TOUT H2S MDV P^IN PPB (1PH DEG PCT D'5- DSF PPB DEG HDT 1425 1430 1435 1440 1445 1450 1455 1500 1505 1510 1515 1520 140 123 125 122 117 130 121 125 120 120 93 62 54 53 54 54 54 54 54 54 54 54 54 54 63 63 65 66 67 69 67 65 66 67 69 66 34 33 33 33 33 32 33 34 34 33 34 33 1253 244 1066 675 995 157 952 534 534 730 66?4 1724 ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦♦♦♦♦♦♦♦♦♦■♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦<♦♦♦♦♦ ♦♦♦♦♦♦♦♦♦♦♦ 021 1625 01 '2? '75 TIME 232 WS WD RH TIN TOUT H23 UDV P3IN PPF MPH DZ'3 PCT D5F D3F PPB DEG HDT 1525 0 5 92 55 66 33 0 601 0 1530 0 6 92 54 67 33 o 535 0 1535 0 3 313 35 6? 33 2 226 0 154 0 0 1 C ( o 55 63 34 3 3132 0 1545 0 1 153 zr cr ri~> •*=•. 2 2551 1 155 0 1 3 113 54 37 33 ;» 62 3 0 1555 0 19? 55 6? 34 1 4613 0 1600 1 ^1 246 5 4 63 34 2 6007 9 16 05 0 1 132 55 ^o 34 1 6410 0 1610 0 ^ 103 54 67 34 1 722 0 1615 0 2 125 54 63 33 2 326 1 1620 2 1 199 54 63 33 2 2533 1 < I C -.. \ '■ -"N .- r -v L 1 >. •v_i '•" _ , • •■-■ J\ UNIT 0 PEC 034 UNIT 1 PEC 03 4 UNIT 2 «?EC 000 M VI t V' \ t \ - \ .' \ \ II C-1454 ,v --v ;T7; \ •■■' \" Y FIG. 5 TRAILER 022 HARDCOPY :i >: iru. SD2 us WD RH TIM TOUT H2S MDV PRIM PPB MPH DEG PCT DGF DGF PPB DEG HDT 535 0 £36 93 61 18 0 £43 0 S4 0 0 7 234 92 ££. IS 0 36 0 ! »5 0 6 £94 91 6£ 19 0 162 0 5 JO . 0 5 £99 90 60 £0 0 96 0 555 0 5 305 33 60 £0 0 60 0 ». *0 0 5 302 36 61 £0 0 106 0 i )5 0 4 -> •-* •-! CO -■ O-' 61 £0 0 £16 0 610 0 3 £33 35 6£ £0 0 9 ' 0 C \ 5 0 3 £65 33 62 £1 0 66 0 * >0 0 7 £30 SO 60 £0 0 42 0 6£5 0 10 £94 76 61 £1 0 11£ 0 f"sO 0 9 £93 73 61 £0 0 17£ 0 01- £3 --75 ii IE SD2 i.iJS WD RH TIM TOUT H C -.1- WDV RfllH PPE MPH DEG PCT DGF DGF P PB DEG HDT *. >5 0 7 C'Z'C 74 61 1 9 0 78 0 64 0 . 0 9 s-> •-. •*. i' Z' 6£ 1 Cj 0 £71 0 ■f 15 0 JZ; •-1 !-• *. i* -• 61 1 c- 0 1 03 o i .'• 0 0 C' 281 73 60 1 ft 0 £4 0 655 0 6 C~ O ••* { -J> 60 1 7 I.I £16 0 7 0 0 o 5 £75 74 61 1 7 o 149 0 "i )5 0 4 £75 75 6£ l ■'' 0 106 0 # A 0 0 ^! £74 i *z> 6£ 1 6 0 £0£ 0 715 0 1 C i' •-• i \ 60 15 0 1 5 0 0 ", L'O o 0 £74 79 60 14 o 193 0 i J5 0 1 £54 . i-\ P 61 1 c 0 £125 0 730 o l_ 146 61 11 0 97 o II C-14S5 X&Ji. 022 2135 01 -2? '75 TIME •02 olS UD PH TIM rnitT H2S M DV PRIM PPB MPH DEG PCT DGF DGF PPB DEG HDT 2035 0 11 114 39 60- 3 0 103 0 2040 0 11 lie. 39 60- 4 0 76 0 2045 0 12 121 39 60- 5 0 26 0 2050 0 10 113 33 60- 5 0 20 0 2055 0 7 10* 33 60- 5 0 183 0 2100 0 11 12? 39 60- 7 0 46 0 2105 0 10 121 3? 60- 7 0 146 0 2110 0 8 ll* 39 60- 3 0 161 0 2115 0 12 123 90 60- 3 0 70 0 2120 0 10 122 90 60- S u 33 0 2125 0 11 11? 90 60- 7 0 30 0 2130 0 10 116 39 60- 8 0 92 TIME S02 us MO PH TIM TOUT H2S UT.iV PRIM PPB MPH DEG PCT DGF DGF PPB I'EG HDT 2135 0 9 120 89 60- 8 0 52 0 2140 0 3 120 90 6 0- 8 0 135 0 2145 0 8 120 90 60- 8 0 163 0 2150 0 11 123 89 60- 9 0 152 0 2155 0 12 120 90 60- 9 0 54 0 2200 0 11 117 90 60- 9 0 89 0 £205 0 12 124 39 60- 8 0 123 0 2210 0 13 121 3? 60- 8 0 12 0 £215 0 11 116 89 6 0- o 0 73 0 £220 0 13 113 39 60- 10 0 43 0 2225 0 11 116 90 60- 10 0 0 2230 0 12 117 90 59- 10 0 90 0 ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦♦♦«♦•♦*♦♦♦•♦♦♦♦« 022 £335 01 '23 -75 TIME SD£ WS oi D PH TIM TOUT H2S WDV RftlM PPB MPH DEG • PCT DGF DGF PPB DEG HDT £235 0 12 112 90 59- 10 0 74 0 £24 0 0 12 116 90 59- 10 0 SO 0 2245 0 11 123 . 89 59- 10 0 34 0 2250 0 12 122 39 59- 11 0 42 0 2255 0 15 113 89 59- 12 0 44 0 2300 0 16 120 39 59- 12 0 123 0 £305 0 15 113 90 59- 12 0 94 0 2310 0 13 114 9 0 59- 13 0 21 0 2315 0 12 103 90 59- 11 0 132 0 2320 0 14 10* 89 59- 11 0 36 ■ 0 2325 0 15 104 39 59- 1 1 0 156 0 2330 0 16 106 88 59- 11 0 102 0 II C- 14 56. FIG. 5 DRILY SUMMARY FDP TRfllLEP 032 01'28'75 INSTflMTflNEQU:: MAXIMUM VALUES S02 49 TINE o~33 US 37 TIME 0913 H2S 23 TIME 0712 MAXIMUM FIVE MI MUTE AVERAGES SD2 0 TIME 0005 US 21 . TINE 0940 i WD 327 TINE 06T-5 RH 100 TINE 0130 TIN 62 TIM£ 07 20 1 TDUT 35 TINE 0T45 ! H2S 0 TINE 0010 30 MI MUTE AVERAGES TIME SD2 W3 H2S PPP MPH PPB 0000 0 o c 0 0030 0 8 0 0100 0 5 0 0130 0 £ 0 0200 0 7 0 0230 0 11 0 ' 0300 CflL . 2 CflL 0330 0 9 0 0400 0 5 0 | 0430 0 3 0 0500 0 6 0 0530 0 9 0 Of. 00 0 12 0 0*30 CRL (j CAu 07 00 CflL 2 CflL 0730 0 9 0 0300 0 7 0 0 330 0 3 0 0900 0 9 0 09 30 0 15 0 1000 0 9 0 1030 0 5 0 1100 0 £ 0 1130 0 4 0 1200 0 13 0 1230 0 16 0 ' 1300 0 8 0 1330 0 3 0 14 00 0 6 o- 1430 0 3 0 1500 0 9 0 1530 0 cr 0 1600 0 5 0 1.330 0 7 0 1700 0 2 0 1730 0 1 0 1300 0 4 0 1330 0 4 0 ' 1900 0 6 0 1930 0 11 0 2000 0 11 0 • 2030 o 10 0 2100 0 10 o' 2130 0 9 0 • 2200 0 11 0 2230 0 13 0 230 0 0 14 0 2330 0 15 o ir C-1457 . . «- iv-- r DRILY HVEFhGE> S03 0 tJS 8 i.i L> 193 PH 93 TIN 60 TOUT 18 H3S 0 PRIM 37 --•• FIG. 5 /. LAST CRL S03 0703 01^33 LRST IEPO: H3S 0703 01 '28 LAST ZEPQ: INPUT PPF: 111 5 NEM ZEPD: INPUT PPBs HI 15 HEM ZEPO: 0 LAST SPAN! £ LAST SPAN: 136 MEW SPftHS U£ 111 HEW SPAN: HI ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦♦♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ ♦♦♦♦♦♦♦♦♦♦♦ »♦♦♦♦ ♦ * « ♦ ♦ ► ♦♦♦♦ ► ■»»♦■»» 0££ 00 TIME 35 01 S03 ' £'? ' 7 US i.iD PH TIM TDUT H3S UDV PAIN PPE NPH DEG PCT DGF DGF PPB DEG HDT £335 £34 0 0 0 15 15 104 103 33 39 59- 59— 10 10 0 0 £5 0 0 £345 £350 0 0 16 15 110 110 89 59— 59- 13 13 0 0 10 0 0 £355 0 15 103 39 59- 11 0 113 0 0000 0005 0 0 15 14 103 114 39 89 59- 59— 11 13 0 0 44 34 0 0 0 0 0 0010 0 15 1£1 39 59— 14 0 145 0015 00£0 0 0 17 16 113 113 89 59- 59- 15 15 0 u 15 0035 0 15 130 39 59— 13 0 l ly 0 0030 0 16 131 89 59- 14 0 54 0 „♦♦ ♦.♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ ♦♦♦♦ ••• ♦♦4 ♦«♦♦♦♦♦♦♦♦♦♦♦ 4 ♦♦♦♦ »♦♦♦«- ►♦♦♦♦♦ ♦ ♦ ♦ ♦ 033 01 T I ME 35 01 S03 '39' 7 1,1 L PH TIM TOUT H3S i.mv PRIM PPF MPH LEG PCT DGF DGF PPI: DEG HDT 0035 0 15 118 89 59- 14 0 97 0 004 0 0 15 1 1 3 89 c( Z\ 14 0 1 03 0 0045 0 16 13? 89 59- 15 0 1 0 0 0 0' 0050 0 17 131 9 0 59- 15 0 C. '-' 0055 0100 0 o 16 1* 135 1 £ 1 90 90 53" 15 15 0 0 46 3 0 0 0 0 0 0 0 0 0105 0110 0 0 17 IT 130 133 v 0 90 * z* — t4 14 0 0 70 0115 0130 0 0 16 i? 134 1 3 1 90 P.'r1 c, © — ct - — 13 13 u 0 63 74 0135 0 13 1 1? 89 f- O «- 13 0 1 31 0130 0 17 1 16 89 « ', O — 1? 0 80 — — TINE :o2 Mi Mb CH Tin rciMT H.;,5 M[iV PRIM P^B NFH IE'* *CT 1-9F D*F PPB DE.6 HPT 01 35 0 16 113 39 59- 12 0 94 0 0140 0 17 U6 9-» 59- 11 0 106 0 0140 0 16 116 •J .a 53- 11 0 128 0 0150 0 17 112 38 59- 11 0 113 0 0t55 0 17 Ho 9 3 59- 12 u 92 0 0200 0 1? 123 39 53- 12 u 42 0 02 05 0 16 1 16 £3 58- 11 0 22 0 0210 0 15 114 3? 58- 12 0 112 0 0215 0 14 116 39 58- 11 .0 137 0 0320 0 13 124 89 58- 12 0 120 0 0225 0 14 120 89 58- 12 0 78 0 0230 0 15 116 ■3* 58- 11 0 113 0 FIG. 5 START - 0300 XS ZERO 9 XS SPAN 2 XS SPAM 9 END - 0320 LAST CAL S02 0300 01/29 LA.'T ZEPO: H2S 0300 01 '29 LAST ZE=D: INPUT PPE: 111 0 MEM ZEPD: - INPUT FPP: Ill 2 MEM ZEPQ: - 2 LAST SPAMJ 9 LAST SPAN: 112 NEW SPAM: 124 111 MEM SPAN! 132 022 03 35 01 'i-*'7 ts. TIME SQ2 MS VP CH TIN 7DUT H2S WDV PAIN PPB MPH PEG FCT P6F D6F PPB DEG HPT 0235 0 17 122 89 53— 10 0 18 0 024 0 0 16 117 39 53- 9 0 61 0 0245 0 15 113 39 53— 10 0 103 0 0250 0 15 116 93 58- 10 0 46 0 0255 0 16 117 33 c(o_ 10 0 17 0 0300 CAL 16 113 ■^p 53- 10 CAL 102 0 0305 CAL 13 120 89 53- 10 CAL ?4 0 0310 CAL 1* 117 39 53— 9 CAL t 0 0315 CAL 16 121 33 59— H IE6 CCT 1-6 F D :,f FFl: l'E-5 HPT 0 3 35 0 19 120 33 57- Q 0 32 0 0?4 0 0 13 1 ir 83 58- 9 0 17 0 0345 0 17 1 12 33 57- ■a 0 7r. 0 o ? -:• <"> 0 16 1 10 ?? r^. 3 u K't? 0 0 3 f.5 0 15 1 12 &. i 57- ft 0 85 0 04 U0 0 14 10? ? ~Jt r — _ 3 1 16 0 0 107. 0 13 1 1 2 -: a 57- 3 0 24 0 04 1 0 0 14 i :£ -■U 57- 7 0 23 0 0415 0 15 1 1 3 X-j 57- t- 0 lit) 0 042 0 0 14 1 12 ■_.}> «" T — J < 6 0 30 o 0425 (1 1 3 1 10 -. '-* c "7 — 6 0 ^a 0 04 3 0 0 14 1 14 33 ~J . — 6 0 144 0 II C-1459 FIG. 5 022 05 35 01. '29 '75 TIME $02 MS WD PPE MPH I'E'3 0435 0440 0445 0450 0455 0500 0505 0510 0515 0520 0525 0530 14 15 15 15 15 15 16 14 15 16 16 15 116- 118 nr 117 120 124 1 £8 123 121 124 123 113 RH TIN • rouT H2S WDV PhIH PCT DSF DGF PPE DEC HOT S3 57- 7 0 73 0 S3 57- 6 0 13 0 p o 57- 6 0 6 0 S3 57- 6 0 20 0 S3 57- 7 o 73 0 S3 57- 7 0 84 0 S3 53- 7 0 60 0 S3 58** 7 0 112 0 S9 57- s 0 34 0 39 8 0 53 0 S3 57- S 0 2S 0 S9 57- 9 0 23 0 ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ tlP? i"i k. "-: c, fi 1 ,••■ P -a .•• 7 S ♦♦♦♦♦♦♦♦♦♦♦• 022 06 35 01.--C." '■*■-. C TIME SO£ i-.i WD PH TIN ' FDUT H£S li'DV PRIM PPE MPH DE6 PCT DSF DGF PPE HE 6 HUT 0535 o : c- 117 30 9 0 110 0 054 0 0 125 90 e "7 ■_■ i © 0 oo 0 0545 o ; i6 125 90 ~'7*~ s 0 u 0 055 0 o : 15 117 90 57- 9 0 62 0 0555 0 15 113 90 57- 9 0 90 o 06 0 0 o I *Zf 123 90 57- .-» 0 52 0 0605 0 116 9 0 cr -7__ 8 0 56 o 0610 0 CT 112 9 0 57- 10 0 go 0 0615 0 i5 116 9 0 E^7"" Q 0 12 0 062 0 0 l c- L -' 116 9 0 r *7_ Q 0 92 0 0625 0 I C* 1 12 9 0 3 o 66 0 0630 0 14 112 90 c~ "7_ s u S 0 ♦ ♦♦♦♦♦♦♦♦♦♦«>♦♦♦♦♦ <«««<'««(«4«(«««««««4«««4««»««««««»44««t«««««««*»<««««'««»<««t«« II C-1400 FIG.^ 022 0735 oi-2V75 • uw pf(lh ""* ££ SPH DES PCT Up DSF FP* « HDT 0 14 114 90 7 0 15 0 0635 0 »• »" '? *-. a 0 52 0 *£2 2 4 ita s* ?r- s • « . o Or?50 0 1* »" *»• __ , 0 54 0 0 13 120 88 5? 0655 0 13 ww || • Q l28 o 0700 S \t !.f H '.7- 6 0 125 0 0705 S a Hi 88 57- ^ 0 3? 0 0710 0 14 1--- 88 -»f Q 0715 s 12 til X *E • • « ° 0720 S It - It £- 6 0 112 0 0725 0 13 122 38 ■< Q 0730 0 13 IdO 88 57-3 u 022 03 TIME 55 01' 302 PPB LIS NPH WD DEG RH PCT TIN TOUT JjGF DGF H2S PPE WDV LEG RfilM HDT 0735 074 0 0745 0750 0 0 0 0 14 14 13 13 IIS 120 116 IIS 83 33 88 57- 57- 57- 57- 5 5 4 3 3 0 0 0 0 0 38 90 24 12 17 0 0 0 0 0 0755 0 14 1 1 8 8 < 57- 57— 3 0 11 0 0300 0 14 ldl ■;• < 3 0 52 0 0305 0 13 122 o ( *■ 7 — 0 61 0 0310 0315 0 0 13 13 123 120 S"S 26 57- c 0 0 120 104 0 0 0320 0 13 121 ■i'-j 1 1 0 •rift 0 0325 03 30 o 0 13 11 113 118 8© S6 0 £3 0 PPE MPH DEG PCT D(?F I'L-F ^^ 0335 0 10 102 S5 57_ 0 J 80 0 0340 0 10 1J8 =;5 ^ £ Q 0345 0 11 11 U £, J J 22 0 0350 0 11 92 b4 -_ J 0 §9 0 0355 0 U 92 ;j - I 0 l72 0 0900 0 11 jo-:' ;,:' - 0 0 104 0 0905 0 11 l - ":.: •" £ 0 1 0 0910 0 11 »i* ;- ;:. , 0 5£. 0 0915 0 11 HO ** £ \ 0 90 0 o?20 ° 10 ;* ':'.. c :. 0 o 17 o 0925 0 1-' ** •;; t'.:. ^> 0 24 2 0 0930 0 12 lOi 85 HI VOL = 1 L LIMIT 0 PEC MM IT 1 PEC 01 ill £ KEC 1.1 :• 0 0 :; 0 0 0 0 II C-1461 * FIG. 5 LAST CRL SD2 0300 01'29 IN*U1 PPfc» 111 LRLT ZERO: 0 NEW ZERO: - H2S 0 1-: "J 0 01'29 INPUT PPF: 111 LRS1 ZEFO: 2 NEW ZERO: - M MRU CRL SYSTEM ■ 2 CRL S02 0953 01 ''29 '75 PI MRM CRL SYSTEM = 5 CRL H2S 0953 01'29'?5 022 10 00 01'29'75 TIME S02 MS WD RH TIM TOUT H2S WDV PRIM PPB MPH TEG PCT D6F D»3F PPB LEG HDT 0955 CRL 11 108 84 55 4 CRL 49 0 LRST SPRM: 112 NEW SPRn: 124 LRST SPRNJ 111 NEW SPRM: 132 022 10 05 01 '29/75 TIME S08 WS H2S PPF. MPH PPB 1005 3 0-7 022 10 08 01'29>'75 TIME SC2 WS H2S PPt MPH PPF 1008 1 0 1 0 ZERO CHftN = £ 0 ZERO CHRM = 9 XS ZERO 9 e. R 022 1011 01 "£?'-75 TIME SO£ WS H2S PPF MPH PPF 1011 120 0 121 R 02.2 101Z 01>'29/'75 TIME $02 i.i> H2S PPF MPH PPF ioiz 10-:. o 120 R II C-1462 FIG. 5 022 1013 01 '29' 75 TIME 5 02 MS HiS PPB MPH PPB 1013 R 106 117 0.22 1014 r>l'29'75 TIME £02 MS H2J PPB MPH «PB 1014 R* 106 116 022 1015 01'29'75 TIME S02 MJ HiS PPB MPH PPB 1015 R 104 115 022 1016 01'29'75 TIME S02 MS H2S PPB MPH PPB 1016 R 105 111 022 1013 01'29/-75 TIME S02 US H2S PPB MPH PCF 1018 R 110 107 022 1019 01'29'75 TIME S02 MS H2S PPB MPH PPB 1019 10? 105 022 TIME 10! i2 01 •02 PPB •29 '7 MFH 5 H2S PPB 1022 103 0 113 R 022 TIME 1024 01 S02 PPB '29'7 ••IS MFH H2S PPB 1024 103 0 111 R 022 TIME 1024 01. E02 PPB •/c9'7 MPH Hi S PPB 1024 106 0 111 R 022 Tinr 10. 25 01 J02 PPB - 2 9 '7 MS MPH H2* PPB 1025 107 0 115 R 022 1 I ME 10 27 01 SC2 PPB • J. 3 f~ i.i 5 MPH H2* PPB ioi; 128 1 11 II C-1463 FIG. 5 022 1029 01 • 29 '?5 TIME J 02 Wi HJ ? PPB MPH PRE; 1029 113 110 1030 01^'?'75 R 022 10?0 01'29'T5 TIME -£02 WS H2S PPE MPH PPE 1030 111 110 SPAM CHRH = 2 XS SPAN 2 1 SPRN CHRN = 9 XS SPRH 9 8. END - 1030 Y LOST CRL SD2 0953 01. '29 LAST ZERO: - H2S 095 3 01 '29 LRST ZERO: - IMpi.it PPB: 111 2 NEW ZEPD: INPUT PPE: 111 9 MEW ZEPD: 2 LfiST SPRN: 1 LRST SPAN! 124 MEW SPflNJ HI 132 MEW SPRN: 110 L UNIT 0 PEC 031 UNIT 1 PEC 0 31 UNIT 2 PEC 000 022 10 35 01 ' 2*^ ■' 7 c TIME SQ2 1,1 s WD RH TIM TOUT M2i i.tl'V PRIM PPE MPH DEG PCT BGF D 3F PPE DEG HOT 0935 0 11 0;I; c-*' 4 0 £■^2 0 09-1 0 0 1 1 c*2 8 3 er ■;. 4 0 96 0 094 5 0 1 1 8G 3 3 Cr £. •^ 0 30 0 0950 0 12 1 02 34 5£ 2 0 22 0 0955 CRL 1 1 1 03 94 t r 4 CRL 49 0 1 0 0 0 'I RL 10 1 0 1 2; ".• c • «r CRL 131 0 10 05 C ML 1 0 1 02 ■3 3 53 6 CRL 1 1 2 0 1 0 1 0 '1 RL 1 1 1 04 32 ^ ■■ 7 '".ML 44 0 1015 C ML 1 0 96 32 59 •U C ML 15 0 1020 C RL 1 1 Z.1 31 *^ 5 9 CRL 7 S 0 1025 '".ML 1 1 ~\-U SI «jo O '".ML 5 0 10 30 CRL 10 92 31 •£0 C; CRL 121 0 EMU - 1 oc II C-1464 FIG. 5 022 11 25 01 -29 t 5 TIME £02 w s WD FH 'TIM TC1UT H2S WDV PRIM FPL MPH DE6 PCT D'3F ln5r FPU ICG HOT 1035 2 9 88 81 60 10 0 34 0 1040 ■J 8 8b 79 58 11 0 44 0 10-45 2 I;. 88 77 58 14 0 104 0 1050 G tf. 88 72 58 18 0 216 0 1055 2 6 100 66 60 23 0 73- 0 ttoo o 5 10* 63 60 24 0 206 0 1105 2 5 10* 61 58 26 0 133 0 1110 2 5 110 58 58 26 0 203 0 1115 1 8 11* 53 58 27 0 23 0 0 1120 2 10 113 5* 60 23 0 148 0 1125 2 ii 110 55 60 2S 0 113 0 1130 1 u 112 54 60 23 0 22 0 022 12 35 ( H'28'7 c TIME SDc : i.i s WD PH TIM TOUT H2S WDV PRIM PPI ! MPH DES PCT DSF DGF PPL DE'3 HDT 1135 10 110 53 53 28 0 £6 0 1140 10 122 Z3 60 23 0 204 0 1145 o 108 f i ~J. 60 23 0 144 0 1150 s 116 52 61 28 0 128 0 1155 10 110 tr Zf 58 30 0 161 0 1200 £, 116 S - 60 30 0 2460 0 1205 8 116 c ;. 60 30 0 145 0 1210 7 130 c,£ 61 30 0 233 0 1215 8 122 c *> 60 30 0 32 0 1220 6 113 51 58 3 0 0 •390 0 1225 6 12 3 51 58 31 0 496 0 1230 9 121 51 60 31 0 •^ 0 ♦ ♦♦♦♦•*♦♦♦♦■♦••♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦••♦♦•••♦*♦«♦♦♦♦♦•*♦<•«•♦♦♦♦♦•♦■*♦ 022 13 -■ S fl I -'23 '1 cr T I ME SOS W i i.iD PH TIM TOUT H2S WDV PRIM PPE MPH Dc.h PCT DGF DGF PPL LEG HIiT 1235 5 131 51 53 31 0 609 0 1 24 0 f. 132 51 60 3 i 0 c'lLCL 0 1245 c 126 51 60 31 U 133 0 125 0 7 126 51 61 31 u 33 0 1 Z,c c -; 130 51 6 0 31 0 412 0 1300 s 14 0 er i*| 6 0 32 0 175 3 n 1305 K. 131 5 !''• t 0 $ i^* 0 817 0 1 3 1 0 cr 126 5 0 60 32 o 364 0 1315 i£, 30 3 50 60 j* ^ 0 93 o 132 0 6 160 5 0 61 32 0 24 9 0 0 1 JCJ 7 120 4 8 61 "; t; u T6 1 0 1330 3 80 48 60 Z~' -'• u 0 II C-I465 ♦ ♦♦♦«♦♦♦♦♦♦♦♦♦■*♦♦♦♦♦♦♦' FIG. 5 022 14 35 01 <2.')'7 TIME SU£ ws i.ip FH ' TIN TOUT H5S i.mv PRIM PFP riPH DEG PCT l"3F DSF PPi DEG HDT 1335 0 5 155 43 61 33 0 137 3 0 1340 0 4 o r» 49 61 33 0 1577 0 1345 0 7 155 4? 60 33 u 276 0 1350 0 7 146 43 60 32 0 60 0 1355 0 7 140 43 61 33 0 635 0 1400 0 6 153 49 61 32 0 1164 0 1405 0 5 143 49 60 33 0 512 0 1410 0 3 156 49 61 33 0 t54 0 1415 0 3 130 49 62 34 0 1546 0 1450 0 3 150 49 60 34 0 476 0 1455 0 * 4 137 49 61 33 0 539 0 1430 0 3 343 49 61 33 0 3U19 0 025 15 35 01- '59 '7 5 TIME $05 ws WD RH TIN TOUT H2S WDV PR IN PPD MPH DEC- PCT DGP DGF PPB DEG HDT 1435 0 4 MI 49 60 33 0 1151 0 1440 0 o 116 49 61 34 0 1006 0 1445 1 4 116 49 61 33 0 321 0 1450 1 6 130 49 61 33 0 69 0 0 1455 0 5 137 49 60 33 0 572 0 1500 0 3 154 49 61 33 0 1756 0 1505 0 2 113 49 65 34 0 1575 0 1510 0 2 97 49 60 34 0 634 6 0 1515 0 cf 106 49 61 33 0 451 o 1550 o 5 150 4? 65 33 0 '322 0 1555 0 3 112 49 60 33 0 4 06 0 1530 0 3 103 49 61 33 0 172 0 022 1 6! 35 01 /■p 9 ■ 7 ■er TIME 102 M C; i.i D PH TIM TDUT H53 '.'HV PhIN PPB M PH DEG PCT DGF DGF PPE DEG HDT 1535 0 3 151 49 "£•5 33 0 54 0? 0 154 0 0 1 190 5 0 61 32 0 3200 0 1545 o 1 113 50 60 ~j z* 0 150 o 155 0 0 1 83 51 er c 35 0 5 30 o 1555 0 0 166 c- ;. 59 3 £ 0 C'»l o 16 0 0 0 1 163 c- -. 61 35 1.1 131 0 16 05 1 0 145 er -^ 60 32 0 6 1 3 o 1610 0 1 1 03 c er 6U 31 (1 194 0 1615 5 2 1 16 56 61 3 0 o 594 ri 165 0 0 ;» v- 1 03 5 u 61 59 0 47' 6 0 1655 1 3 150 >!■£• 62 ^ -7 C ( 0 9 1 6 0 1630 1 Q£ 65 63 £?. 0 -■ S '^ 0 L UNIT UMI T o 1 PEC PEC 0 ?• 0 3 '7 • < \ urn r ^ F.EC 0 0 0 \ • II C-1400 FIG. 6 TRAILER 023 HARDCOPY I43n 01 '28/75 023 1432 01/2S''75 TINE MO* MO 302 l-ISl MD1 *'W1 jIrj Tr1P1 pYp H2S THC CH4 CO 0? PRE PPE PPE MPH DEG PCT DGF DGF CCN PPE PPB PPB PPE PPB 1430 n 6 236 100 IS 17 4 142? 1365 1573 TIME WJ2 WD2 RH2 TMPS WS3 WB3 RH3 TNP3 !.i:4 WD4 PH4 TMP4 DTI PT2 PPES MPH DEG PCT DGF M*H DEG PCT DGF MPH DEG CCT PGP HDG HI'G ME-R ? 1430 10 247 91 i 12 242 100 13 12 256 100 IS 31- 399 779 TIME W35 HWD5 VWD5 i.i C€- HiiiB6 VMD6 WS7 HWD7 V'-'D? MPH DEG DEG MPH DEG PEG MPH DEG DEG 1430 50 11 12 234 TIME WDV1 I.IDV2 WDV3 MDW4 HWV5 v'i.iV5 hi.i '...'■£ VWV6 MWV7 VMV7 PhIM DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 1430 4 23 2 03 154 93 0 92 1 5 023 1454 01 -23 '75 TIME NOV MO Z02 '-IE 1 WD1 C'H1 TIN TMP1 PVR H3S THC CH4 CO D3 PPE PPE PPE MPH DEG PCT DGF DGF CCM PPE PPE PPE PPE f!! 1450 6 243 1 00 19 li 6 14 34 1335 1600 4 "J TIME 1450 i'.< 32 WP2 PH2 TMP2 ij : 3 WD 3 PH3 TMP3 1.1: 4 WD 4 MPH DEG P"CT DGF MPH LEG PCT DGF MPH DEG 9 ■-,c"" "• 93 22 1 1 24 7 1 00 13 11 ZiZ- c-H-1 TMP4 DT PCT DGF HP' 100 13 r.) : pf c HPG V.i ■ .' '.' TIME MIS MWD5 V''ID5 W-I6 Hi-ip6 vwi-.' MPH DEG DEG Mr'H DEG DEG 1. 1 17 Ht-'D7 VMD7 MPH DEG PEG 1450 43 10 24 0- 11 24 4 H C-1467 FIG. 6 TIME WDV1 WDV2 WDV3 WD'"'4 HMV5 VMV5 HMVS VW6 H»iv7 VWV7 PHIN PEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HOT \i 1450 £61 >24 60 92 18 137 85 END - 1501 023 15 £3 01 '25 •-: c " TIME NDX no 302 WS1 I.ID1 PHI TIM TMP1 PYP H23 THC CH4 cn D3 PPB PPB PRE MPH DEG PCT DGF DGC CCM PPF PPB PPE fpE PRE- 1430 0 0 2 6 236 1 00 i 2 13 17 4 14£9 1 1573 50 14 35 0 0 4 6 2£S 100 IS 17 E 1424 •1 ^72 ^ o t» 4? 1440 0 0 6 6 £33 100 73 13 16 6 1431 1 ?'?£ ,590 43 . 1445 0 0 6 7 £4£ 1 00 -7 2» 13 17 6 1431 1 ~;C| 2' 59 0 4i ' 1450 0 -0 4 6 £4 3 100 V -• 1? 1? 6 14 34 1 '• •;• c: K. 0 0 4? 1455 0 0 5 £34 100 73 17 17 e 1 426 1 •^.-;. e- 595 4* 1500 0 0 3 5 © T» t> 100 72 17 21 4 1436 1 33? : .617 4;: 1505 0 0 3 5 24 0 1 00 J7 r> 1? 17 4 1 4 09 1 T**-* £ Ci ,^*C" 43 1510 0 0 11 C" £4 1 1 00 c 2 12 15 9 1333 1 363 1 t c- Q 43 1515 0 0 3 5 2 3 6 100 71 13 11 4 1 392 1 3*33 cr ."■*% 47 152 0 0 0 4 7 301 100 72 17 9 5 14 07 1 T'C-c; c *I* "? *»':■ 1425 0 0 3 ^7 236 1 0 0 ?a 19 22 4 14£6 1 363 ! er — er 50 TIME WS2 IJD2 PH£ TMC'£ '■I-" 3 I.ID3 t'H3 TMP3 >'!;4 I,l[i4 PH4 T MP 4 DTI DT2 F M--H DEG PCT DGF MPH DEG PCT DGF M^H DEG PCT DGP HPG HDG • ; p ! 1430 10 £47 31 DO 13 242 1 0 0 1? 12 256 100 13 31- 3?? - 7**-* 14 35 10 £4 1 32 22 1£ 24 0 1 0 0 13 12 ^c^ 1 0 0 13 Z- ""» _ V3 -» " 3 0 144 0 10 £45 93 Op 11 244 1 00 19 12 !»£■ Q 1 0 0 1? 3 0- j 99 7 : i"' 1445 13 252 93 £2 1 3 24? 1 0 0 19 i 5 £62 100 1? 36- '■ \ '.* " : 0 14 5 0 M -ter o 9 3 22 11 247 100 1 •£: 11 -v c't 100 1 '■-■ 32- * ^"i j '•; 0 1455 •u 34? 9 3 £1 1£ 246 1 0 0 13 12 -,c '^t 100 i — I 3 - 39? "" -• 0 150 0 9 £46 9 3 22 11 247 1 0 0 13 11 ^h -! 1 0 0 i 7* 26- '•■'•* u ~ ;. II 15 05 x £5 0 9 3 £1 10 £46 1 0 0 13 to £59 1 0 0 1 7 r- £i .. '■ ~l '-4 " T 0 1510 © £49 '-* 3 £1 9 24 3 1 0 0 1? 10 £ 5 3 100 i •» 29- -■■r, j " -' 0 1515 3 c c* c* 94 £1 3 3 '~' 6 1 0 0 13 ? 3 0 1 100 i 7* :• — ' — "; ■< ^l ~ ': 0 1520 11 3 04 ■"6 £1 1£ 3 0 3 1 0 'I' 17 12 3 1 6 1 0 0 i ■* 32- ' -t •* " 31 14 25 10 £46 91 Zf r» 1£ £44 1 0 0 19 12 £60 1 0 0 1 3 3 0 - '< "3 '■* "7**? • • » II C-1468 FIG. 6 TINE UDV1 I.JDV2 WBV3 MDV4 HMV5 VMV5 HMV6 VWV6 HMV7 VMV7 PP. IN PEG DEG PEG DEG DEG DEG DEG DEG DEG DEG HOT ;"i t u 1450 £61 224 60 92 18 13? 85 END - 1501 023 1523 01 '££'7 5 TIME mox ND S02 MSI MD1 PHI TIN TMP1 PYP H£S THC CH4 CD D3 PPB PPB PPB MPH DEG PCT DGF Due- CCM PPB PPB PPB PPB PPB 1430 0 0 2 6 236 1 00 72 ls' 17 4 14£9 1365 1 1573 50 14 35 0 0 4 6 223 100 73 18 17 c( 1434 1378 1 cr .;. 0 4? 1440 0 0 6 6 py.'i 100 73 18 16 6 1431 1392 1 590 4? 1445 0 0 6 7 242 100 -7 ;» 13 17 £. 1431 139£ 1 159 0 4? 1450 0 -0 4 6 243 100 73 19 18 6 1434 1335 1 6 0 0 4? 1455 0 0 3 5 234 100 73 1? 17 5 1426 1 335 595 4? 1500 0 0 3 5 233 100 72 17 £le 4 1426 1339 1 I 6 1 ? 43 1505 0 0 3 5 24 0 100 *7 z> 19 17 4 1 4 09 1356 ) S *^° 4j 1510 0 0 11 c £41 100 72 18 15 9 1333 1363 : C" C .^. A'. 1515 0 0 3 5 236 100 71 13 11 4 1392 1 36 3 ,555 4? 1520 0 0 4 7 301 1 00 "7 T» 17 9 5 14 0? 1335 1 c '"U ~> •t':' 1425 0 0 3 j? 236 100 72 19 ££ 4 14£6 1363 1 C 7C 50 T I ME US 2 I..ID2 RH£ TMP£ WS3 wr3 PH5 TMP3 1.1 S4 1.1 [14 PH4 TMP4 DTI DT2 ppe : M^H DEG PCT 0 GF MPH LEG PCT DGF MpH BEG PCT DGF HDG HD'5 MBR 1430 10 247 91 22 12 24£ 100 18 12 £56 100 13 31- 39? 779 1435 10 £4 1 9£ £2 12 £4 0 1 0 0 1 '- 12 £56 1 0 0 13 £ 1 39? r 3 0 144 0 10 £45 92 22 11 244 100 1 S 12 P S '^ 100 13 3 0- 399 730 1445 12 i>cr :• 93 c« r» 13 249 1 0 0 1 9 13 £62 100 18 '^tf — "!'-* -* 7 : i"1 145 0 C| p c 0 93 11 £47 100 1 ^! 11 £65 100 18 32- --•95 73 0 1455 9 £4? 93 £1 12 £46 1 0 0 1 "5 1 *-• 12 £59 100 1? 23- 399 7"::: 0 1500 9 £46 93 11 £4? 100 1 !~I 11 £6? 1 0 0 \7 26- 3° ? 73 0 1505 3 £5 0 93 £1 10 £46 1 0 0 1 O 10 £59 1 00 1? 29- ■•■ti t* 7 3 0 1510 C; £49 93 £1 9 £43 100 is 10 •^■cr ■;. 100 17 £9- '.; O Ci 79 0 1515 3 C w •_' 94 £1 9 £86 1 0 0 18 9 301 100 17 ~* 7* — ";-j ^ 73 0 1 52 0 11 304 ?6 £1 12 303 1 0 1? 1 ? 12 316 1 0 0 17 32- 39? 731 1425 10 £46 91 ££ 12 £44 100 18 12 £60 100 13 30- 39? # « r* II C-1468 FIG. 6 i TIME WDV1 MDVS WDV3 MDV4 HMV5 VMV5 HUV6 VWV6 HMV7 VMV7 FftlN I DEG DEG DEG DEG DEG I'EG DEG DEG PEG DEG HDT 1545 5 490 149 359 £73 0 234 11 69 033 1555 01 '2? '75 TINE NOX MO :02 MSI MD1 PHI TIM TMP1 PYP H23 THC CH4 CO D? PPB PPE PPE MPH DEG PCT DGP DGF CCM PPF PPE PPB PPF PPF 1555 4 219 100 71 17 24 3 1353*1409 1595 47 TIME MS2 WD2 PH2 TMP2 MS3 MD3 RH3 TMP3 MS4 '-"04 PH4 TMP4 DTI I>T2 pfp? MPH DEG PCT DGF MPH DEG PCT DGC MPH DEG PCT DGP HDG Hi'G MEF 1555 :34 op 21 10 236. 100 10 244 100 17 23- 299 81 TIME WT5 HMD5 VMD5 ••1.6 HWD6 VMD6 MS7 HMD? VWD7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 1551 3- 50 224- 10 221 TIME WDV1 MDV2 WDV3 WDV4 HMV5 VMV5 HWV6 VWVG HMV7 VWV7 PflIM DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 15! 442 106 250 204 0 24 0 10 II C-1470 TIME MS5 H«D5 VWD5 1.IS6 HMD6 VWP6 I'll? HMD? VWD7 MPH DEG DEG MPH DEG DEG MPH LEG DEG FIG. 6 1430 0 2- 50 11 232- 4 12 234 6 1435 0 2— 50 12 230- 3 12 234 6 144 0 0 3- 50 11 234- 2 12 236 t 1445 0 ^_ 50 13 240- 4 13 f40 6 1450 o 2- 43 10 24 0- 3 11 244 7 1455 0 £— 50 11 236- 2 12 236 8 1500 0 2- 50 11 236- 3 11 24 0 3 1505 0 2- 50 9 236- 3 10 236 7 1510 0 3- 50 9 233 0 10 232 11 1515 0 2- 43 9 271 10 271 11 1520 0 3- 50 12 283- 2 12 284 3 1425 0 2- 50 11 234- 4 12 236 8 TINE WD VI UIDV2 • ■IDV3 I.IDV4 HI.IV5 '• ''•'V5 Hi.iV'6 VWV6 HMV7 VMV7 PAIN DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 1430 433 203 154 93 3 0 92 6 22 * 2 0 1435 341 23 0 224 133 1 0 72 5 168 1 0 1440 574 465 152 62 1 0 286 5 9 2 0 1445 334 604 144 101 2 0 61 7 36 4 0 1450 2-51 2£4 60 92 £ 18 137 4 35 .3 0 1455 36 22 0 212 £36 1 0 133 6 121 2 0 1500 663 213 290 254 1 0 245 3 63 3 0 1505 551 116 224 156 c 0 212 10 73 c 0 1510 346 333 C J* * 176 2 0 279 11 325 5 0 1515 196 754 37 0 0 13 343 11 293 9 0 1530 342 464 131 163 d 0 194 4 134 4 0 1525 SO 539 4 06 250 1 0 419 13 224 5 0 ; 023 1525 01 ^'23 -'75 t TIME NOX NO S02 MSI WD1 RH1 TIN TMP1 PYR H2S THC CH4 CO D3 t PPE PPE PPB MPH DEG PCT DGF DGF CCM PPB P^B PPB PPE PPF \> W- 1525 TIME -0 275 100 71 1? 12 4 1400 1330 1585 43 WS2 WD£ PH2 TMP2 W l 3 WD 3 RH3 TMP3 I.IT4 -ID4 RH4 TMP4 DTI PT2 -•pe: MPH DEG PCT D6P MPH DEG PCT DGF MPH DEG PCT DGF HDG HDG M£c 1525 3 278 96 20 !74 100 17 284 1 00 17 781 OP «C T TIME WS5 HMDS VWD5 WS6 HWD6 VWD6 MS7 HMD? VWD7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 1525 261 253 TIME WDV1 WDV2 MDV3 WDV4 HMV5 VI.IV5 HWV6 VWV6 HWV7 VMV7 RflIN DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 152' 30 539 4 06 250 419 13 224 02? 1549 01 -'23 '75 TIME NOX HD "02 Mil MD1 PHI TIM TMP1 PVR H23 THC CH-4 0 n--: PPB PPE PPF: MPH DEG PCT DGF DGF CCM PPF PFT PPE PPD P*E «i 154' TIME 234 100 16 20 3 1385 1 153: MS 2 i,i D2 RH2 TMF'2 MI 3 WD 3 MPH DEG PCT DGF MPH DEG RH3 TMP3 MS 4 MD4 PCT DGF M°H DEG PH4 TIP 4 DT 1 pT£ pCf" PCT DGF HDG HDG Mf 154' 11 247 21 243 100 IS 100 781 TIME Mi 5 HMD5 VMD5 MPH DEG DEG i.i>; mi. 'DC VMD6 MPH DEG DEG iil7 HMD7 V'MD7 MPH DEG DEG 154 5 2- 50 12 £34- £32 II C-1469 \ TIME MDV1 I.ID'v'2 I'lI'VS WDV4 HMV5 V'MVS HUV6 VMV6 HMV7 VMV7 M'l I H DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG MPT rTr A JfSr16 NDX HD -02 l,n MP1 PHI TIM TMP1 PVP M2S THC CH4 CB R FIG. 6 . time nox pH0 .Ow «i wi pcT DGp rn.p CCM ppp pPl: prB pPB pPB 1610 0 0 2 9 252 93 71 16 19 3 1373*1407 1583 41 tTmc n--3 nn--' PH5 TMP2 11*3 MD3 FH3 TMP3 «S4 WD4 °H4 TMP4 DTI DT2 P*Ej TI ,E MPH K6 PCT DGF MPH DEG PCT DGF MPH DEG PCT DGF HDG HK «» 1610 13 261 86 IS 15 261 96 19 17 274 95 19- 39<=»- 359 7?2 TIME 'J~5 H«D5 VJD5 WSG HMD* V«D6 MS7 HWD7 ¥«D7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 1610 0 2- 50 13 24S- 4 17 243 7 n«##WWl*«WrWWr5w4#HU« VMV9 HI.IV6 VWVG HW7 VMV7 P*IM DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 1610 671 24 133 246 1 0 163 16 193 5 0 !5L D HO S02 US1 MD1 PHi TIM TMP1 PYR H2S THC CH4 CO 33 T PPB PPB PPP. MPH DEG PCT DGF DGF CCM PPB PPB P?B PPB c" „.,„ 0054 286 100 71 17 12 3 1404 1335 1533 47 £21 I ! i 9 252 100 71 17 13 4 1412 1402 1530 48 S| S* 11 2 8 240 100 71 18 17 3 1397*1404 1590 47 UAJ 0 0 3 7 234 100 71 16 20 3 1335 1335 15*3 47 S3 0 0 I 7 234 100 71 18 21 3 1335-1412 1590 43 (CCc n ri 2 4 219 100 71 17 c4 .> l .■-•-* i -»'■'■ i--- ill! ! X 17 241 100 71 19 35 3 1363M402 19 4. JJS CR0 ^0 I X 252 » 7 « 5 3 1^140I «! 47 *!s 0 0 i 8 i*2 95 70 20 30 3 1356*1412 1,07 4| tl| 0 2 2 I So 92 70 22 26 3 1356*1409 1615 4? HIS J ! 2 ^ if 5 100 71 17 12 4 1400 1330 15:5 4, ♦♦♦♦♦♦♦♦♦♦♦.♦♦♦♦ ♦♦♦♦.♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦ • *r:r*:;r*rr**r* t^m* !-- WI.2 PH2 TMP2 '.'S3 UD3 P.H3 TMP3 WS4 WD4 *H4 TMP4 DTI ^T, rc- 1 MPH DEG PCT DGP MPH DEG PCT DGF MPH DEG *CT DGF HDG Hfe «P 1S,.0 ? £S9 os 20 9 285 100 17 10 294 100 17 33- 399 ,: 1535 13 263 94 20 1 100 18 14 27 3 100 17 37- 39? 781 540 1 246 93 20 4 244 100 17 16 254 100 17 32- 399 731 }|J! ^4? *3 • 21 13 843 100 13 13 357 100 17 32- 399 : 1545 11 <--♦« -- -1 *; ... ....... .... ... -.c--. 1,-, n 17 32- .-r1-1 .91 155 0 11 245 92 21 12 £44 100 13 13 252 100 1< 1555 8 234 92 21 10 2 36 100 13 10 2J4 100 17 23- 399 731 a a 600 9 847 90 21 11 2.7 100 3 2 254 100 1605 9 260 e? 22 12 25? 100 9 3 263 ?? a •-; — -« 1610 13 261 St 13 15 261 96 19 7 2;4 ? K ^_ --. - 1615 12 263 84 21 1? Ma 9| *0 5 2. • M ^ -^_ . . ,- , , -. ■-. ■- OS 01 IS Pr"7 P.Q 20 l* £-•«■' -• »■ -•• }?!? 3 273 96 20 9 Ifi 100 17 9 284 100 17 33- 399 73, TIME MS*"- HI.ID5 Vl-H'5 '•' - 8 HWD6 VMD6 MC7 H«>«D7 VMD7 MPH DEG DEG MPH DEG DEG . MPH DEG DEG 1S30 0 2- 5 0 o ?i-'.--i 0 10 866 12 0 2- 50 14 249- 3 15 243 1S4 0 0 2- 50 14 3 3 3- 1 16 1545 0 2- 50 2 3-4- 2 13 isso 0 3- 50 12 2 3 3- 2 13 Z'^ a 1SSS 0 3— 50 9 2 34- 1 10 c'8 1 1600 0 2- 50 11 233- 3 12 838 3 1^05 0 2- 50 11 844 0 13 343 10 !610 0 2- 50 13 24 P.- 4 17 84 3 ? i.MS o •-.- 50 13 256- 1 IG 254 9 11 L 14/1 1620 0 3- 50 14 256- l« 1 •' l-;,25 0 2- 50 3 > ' • ^": 261 0 9 259 FIG. 6 "TIME WDV1 U0V2 MPV3 MDV4 M"V"5 W? H'JV6 VMV-5 HMV7 VMV7 PfitM PEG DCG PEG PEG PEG OSG PEG PEG PEG PEG HPT 1530 4. 4? '<3-T 746 596 I 0 ?73 2 s? ?60 16 0 153? 1?40 290 39 0 144 "'•>4 3*" 1 69 44? 2*2 3 2 0 0 210 260 1? 11 602 303 7 3 0 0 1*4? 490 149 32? 273 a 0 224 11 69 6 0 l??0 3?2 390 237 ?0 0 0 122 8 12 2 0 15?? 442 lf>K 2?0 2 04 2 0 240 10 ?4 ? 0 1600 160? 42 ■p*7 1?9 226 0 0 112 11 29 4 0 741 18 424 261 ,s 0 342 19 239 ? 0 \k\ o 671 24 133 24* 1 0 163 16 199 ? 0 161? 1620 24 404 273 172- ■?2 10? 13? 14? 3 0 0 0 131 77 13 14 103 29 ? ? 0 0 162? 630 26 133 199 2 0 260 14 203 7 0 * 5 . ??ME16?nD°<1^Ma7^-02 MSI ••'PI PHI TIM TMP1 PYP H2S THC CH4 CO 0? PPB PP? PPi HpH PEG PCT PGF DGF CCM PPB PPB PPE P^B PPB 163? 0«. 12 2 7 257 39 70 20 17 4 1351*1400 1590 47 ,♦♦♦♦•♦♦♦♦•♦♦♦♦♦•••♦•♦♦••♦**♦•**•♦•***, T1"E nPH BEG PCT PGF MPH PEG PCT DGF MPH PEG PCT PGF HPG HK M*P 163? 11 244 79 21 14 262 36 19 1? 27? e4 19- 399- 17 7Z2 TIME 163? WS5 MMD5 VMD5 W16 HMD* VUD6 MS7 HMD? VMD7 MPH PEG PEG MPH PEG PEG MPH BEG PEL-. 0 I- ?0 13 248- 3 15 251 7 ttm- LlTil/1 utivs l.mv^ WPV4 HMV5 VMV5 HMV6 VMV6 HMV7 V«V7 PBIM TIMc MDV1 MBV- MW3 DM ^5 ^ ^ ^ ^ ^ ^ 163J PEG PEG PEC 58 543- 203 224 2 0 193 10 82 ^ME^MOr^O; ,, »»l -1 TIJTJPl PVP HK THC CH4 CO « PPB PPE PPE mph PEG PCT DGF DGF CCM PP* PPB m 1640 0. 21 3 3 251 87 70 20 15 4 1346*1397 1597 47 TIME |K SI PC? IGF MPH PEG PCT' 'dGF MPH PEG PCT DGF HPG H» «• 1*40 13 £61 78 20 14 261 84 19 15 273 33 18- 399- 73. ujr*7'U*HWP5*VMP5**'**rH..-P4 VMP6 VIS? H«D7 VMP7 MPH PEG BEG MPH DEG BEG MPH PEG PEG l640 0 2- 50 13 24? 0 15 247 9 ♦•«.•.♦•♦♦♦♦«♦♦*♦♦♦♦♦♦*♦♦**' :;:r#:p;t#Mp"#^r^rH"r::;5"H:.v6 v « h,,^ v.,^ p*™ 7INE DEG BEG BEG BEG BEG BEG BEG BEG PEG BEG HBT 1640 442 409 120 316 0 0 202 10 244 3 0 o'-^ 1707 01 '£8 '75 _.,,, T,,r,. ,..,c. .,-.<■ Tn,- i-H4 ' n n- il^e r.cr< -•-:» ™ %\ ^ 'Zi cen ppb Ei ppb pm. -r 1 7 05 pop F!-f. PPB MPH BEG o 9 4 Z7\ 97 70 13 ? I 363*1 395 15 II C-147'2 TIME USa WD2 FHi' TMP2 W. 3 WB3 PH3 TMP3 MM WD4 PH4 TMP4 DTI DT2 PF r ; MPH DEG PCT DGF MPH DEC PCT DGF MPH DEG PCT DGF HD6 HI'-} KJ P 1705 274 77 I? 10 271 83 17 11 282 32 17- 39? U 732 TIME WI5 Hi.it'T. VMD5 MPH DEG DEG Mt6 HMP6 VMD€ MPH ICG DEG i,r. 7 HMD 7 VI.ID7 MPH DEG DEG 1705 1- 50 9 257- 12 259 TIME WDV1 WDV2 MDV3 MDV4 HMV3 VMV5 HWV6 VMV6 HMV7 VWV7 PR IN DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HUT 1705 I 5 4 33 423 14 0 196 120 50 023 1714 01/23 '75 TIME MOM NO S02 WS1 MD1 PHI TIM TMP1 PYP H2S THC CH4 CO 0? PPE PPE PPE MPH DEG PCT DGF DGF CCM PPB PPB FPE PPE PPB 1710 265 88 18 5 1363*1375 1535 TIME U 32 WD2 PH2 TMP2 MS3 HD3 RH3 TMP3 MS4 WD4 PH4 TMP4 DTI DT = PP£C MPH DEG PCT DGF MPH DEG PCT DGF MPH DEG PCT DGP HDG HDG MF=- 1710 270 19 10 268 34 11 278 32 17- O^Q 3 732 TIME W35 HWD5 VMD5 ••'36 HMD6 VWI«6 WS7 HWD7 V'.iD? MPH DEG DEG MPH DEG DEG MPH DEG DEG i 1710 ,1- 9 254- 12 254 TIME WD VI MBV2 WDV3 WDV4 H».JV5 VWV5 HWV6 VW6 HMV7 VMV7 PflIM DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 1710 362 150 142 232 023 1719 01/23/75 TIME MOM ND 102 "CI Will PHI TIM TMP1 PYP H23 THC CH4 CO D3 PPB PPE PPE MPH DEG PCT DGF DGF CCM PPE PPE PPE PPE PPE 1715 265 18 3 1351 1331 158 45 TIME WS2 HD£ PH2 TMP2 U33 WD3 RH3 TMP3 '-IS4 MD4 RH4 Tl"P4 DT! DTI c = E : MPH DEG PCT DGF MPH DEG PCT DGF MPH DEG PCT DGF HDG HDG NBP 1715 73 19 9 26; B5 17 10 230 17- 339 TIME W35 HWD5 VWD5 w.1'6 HMD6 WD6 i-i 3 r* HI-JD7 VMD7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 1715 1- 50 25 1 ■ 1 2 256 TIME I.IDVI L'DV2 i.lBV'3 MDV4 HMV5 "WV5 DEG LEG DEG DEG DEG DEC HI.IV6 Vi.i'vV-. HMV7 Viivr PAIN LEG DEG DEG DEG HDT 1715 466 60 134 142 10 261 II C-1473 02 3 1723 0! V° 75 FIG. 6 02 3 1 723 01 /23 '75 —— » - -i*l4 — *■•—• '"■* '■ * ■ *— TIME MQX MO :d2 MSI i.IDI PHI TIM TMP1 PYP H2 5 THC CH4 CO 03 PPB P^E PPE MPH DEG PCT DGF DGF CCM PPB PPB PPB PPB FPB 1650 0* o 3 6 261 89 70 20 19 5 1343* 1414 1617 47 1635 0* 12 :> 7 257 39 70 20 17 4 1351* 1400 159 0 47 1640 0» 21 3 8 251 37 70 20 15 4 1346* l?~-*7 1597 47 1645 0 0 3 9 254 86 70 20 13 4 1 351* 14 07 16 07 46 1650 CAL C*L 3 5 267 86 70 19 11 4 1353* 1400 1583 47 1655 CfiL CfiL 3 4 260 $6 71 13 8 4 1 356* 1395 153 0 47 1700 0 0 •» v 4 263 26 70 17 7 4 1351* 1 395 1585 47 1705 0 0 2 4 271 87 70 13 5 5 1363* 1 395 1573 46 1710 1 0 2 4 265 88 71 13 3 5 1 363* 1375 1535 47 1715 2 0 2 4 265 33 70 13 1 3 1351 1321 1535 45 1720 1 0 i 4 260 AA 70 16 1 1351 1331 1533 46 1625 0* 9 4 7 261 90 70 21 22 5 1343* 1397 1627 47 TINE WS2 I.ID2 PH2 TMP2 IrlS 3 Ml" 3 PH3 TMP3 MC4 I.ID4 PH4 TMP4 DTI TT2 pc-E: MPH DEC PCT DGF MPH DEG PCT DGF MPH DEG PCT DGF HDG HDG MEP 1630 11 263 30 21 12 268 86 19 13 279 85 19- 399- 27 732 1635 11 264 79 21 14 362 36 19 15 275 34 19- 3 9 9 — 37 ■ 733 164 0 13 261 < O 20 14 261 84 19 15 273 S3 18- 399- -'O •z c 1645 13 261 73 20 15 260 33 19 16 275 81 13- ^ 'Zt -u _ 25 '0 3 1650 10 371 77 2 0 10 270 33 19 11 232 31 13- 399- 23 " 3 2 1655 9 CvO 77 20 10 271 33 13 11 231 91 18- 3 m 'U — 12 "82 1700 9 275 77 19 10 273 83 18 11 234 31 17- 3 9 "* - 1 ? 32 1705 8 274 77 19 10 271 33 17 11 k-'-'i- 8 2 17- 399 14 ""32 1710 9 27 0 73 19 10 263 34 17 11 278 82 17- 399 9 "32 1715 8 263 78 19 9 267 35 17 10 230 83 17- 399 0 ' 7^2 1720 g 267 79 18 9 267 86 17 11 230 34 17- 399 6 ?ijO 1625 12 267 31 21 14 268 83 19 15 232 86 19- 39?— ji r ^c! TINE WS5 Hi. ID 5 .•'I.ID5 WS6 HWD6 ,'i,iD6 Mi 7 HMD 7 VMD7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 1630 0 50 12 Z»eto 0 14 254 9 1635 0 1- 50 13 243- -r>. 15 251 7 1640 0 2- 50 13 247 0 15 24 7 9 1645 0 o_ 50 14 246- 2 16 251 8 1650 0 1- 50 10 254 0 12 Z* r .;• 9 1655 0 1- 50 10 c _• t 1 12 26 0 3 1700 0 1- 50 10 £6 0— 2 12 263 8 1705 0 1- 50 9 1 12 259 "3 < 1710 0 1- 50 9 254- £ 12 254 cr 7>_ _> 12 Z'Cr O 7 1625 0 -~ 50 13 -' 5 f- 0 16 -« cr .-t 10 TIME I..JDV1 I JDV2 I •JDV3 WDV4 HI. IV 5 .•'.iv5 HI.IV6 VI..IV6 HWV7 V.IV7 PRIM PEG DEG D£i5 DEG DEG DEG DEG DEG DEG DEG HDT 1630 ■^.CT 131 257 ' 216 1 0 174 13 180 3 0 1635 *to r>t- "-" 2 08 224 Zt 0 19 3 10 «:::> 4 0 1 64 0 442 4 03 1 2 0 216 0 o 202 10 £44 ^ 0 1645 392 3 "; 7 1 8 0 104 1 0 80 9 226 r» 0 1650 ■": -"3 156 2 03 16 3 1 0 126 12 121 o 0 1655 74 37" 6 2 1 8 4 9 C 0 267 10 35 3 0 1 7 0 0 *~ Z* 442 1 t 0 158 l 0 1 08 7" 2 03 0 0 t7 05 4 38 428 140 196 0 120 £ 50 p 0 1710 c ;. C"£ o ! 5 0 142 1 0 232 o 33 1 0 1715 466 6 0 134 142- 0 0 196 10 261 c o 1730 7 0 0 592 -•;-; 69 i 0 194 —> < 197 3 o 1725 3 02 64 3 137 ~7 ~* I 1 i 0 193 6 173 c' 0 END - 1743 II C-1474 i'»?3 1323 0 1 timf up:.: i.i .1 1.1 di MM riM Tf-ir 1 PYP 1H' CH4 i'M 023 193? 01/^75 TIME NOX NO 302 PPB PPB PPE FIG. 6 MCI MPH i.iDt ICG PHI PCT TIN TMP1 BGF DGF PVP CCM H2t PPB THC PPB CH4 PPE cn PPF 03 PPB I t730 1735 1740 1745 ! 1750 1755 1800 1305 1310 1315 1330 1725 3* 3* 1* 0* 2* I* 3 0* 0* 0* 0* 3» 5 13 9 24 25 19 0 16 16 20 8 7 257 257 243 224 244 237 24 0 237 213 133 133 261 30 90 91 92 93 92 91 90 91 91 91 89 70 70 70 70 70 70 70 70 70 70 70 70 16 17 16 15 15 15 14 13 13 12 12 IP 1 2 2 2 2 2 2 2 3 3 2 2 1339 1351 1 ?51 1 346 1356 1361 1 346 1343 1 363 1353 1353 133? 1334 134 3 134 3 1341 1341 1339 1331 1326 1 3 39 132* 1309 1339 16 15 16 15 15 15 15 15 15 15 15 15 00 9 3 ii o 3 0 .; •% 35 71 n 71 45 45 45 44 45 45 46 45 4* 4* 46 45 TIME US2 WB2 PH2 TMP2 1,1": I.IB3 PH3 TMP3 MS 4 LIB 4 CM4 TMP4 BT1 [iTJ pfe: MPH BEG PCT BGF MPH BEG PCT DGP MPH "beg PCT BGF HBG Ht"3 MEP 1730 3 264 79 13 9 265 86 16 11 278 34 17- 399 57 73? 1735 •j 263 80 13 10 264 86 17 12 277 34 17- 399 SO i -r» .S 1740 3 260 SO 18 9 264 36 17 11 a?s 34 17- 399 95 7S ^ 1745 5 241 31 17 7 253 37 16 10 263 84 16- 39H 1 33 73 '< 1750 5 253 81 17 8 262 87 16 11 273 34 16- 399 150 -o - 1755 5 247 31 16 9 250 35 15 11 268 33 16- 399 132 7-": * 1300 6 243 79 16 10 254 83 15 12 272 31 16- 399 316 7>' - 1805 6 254 79 15 11 258 82 15 11 275 30 1*- 399 246 7'-' "■' 1310 5 24 0 79 15 10 256 31 15 13 272 79 16- 399 313 JA^ 1315 6 203 79 14 9 229 81 14 11 251 73 15- •"> Ct *3 354 7S ^> 1820 t 214 79 15 11 323 30 15 13 249 1 *Z' 15- oo-z< 210 734 1725 7 267 79 13 9 269 36 16 10 23 0 34 17- 399 33 ' -,-: TIME WS5 HUB 5 '■ "..IB5 MS6 HI.IB6 ' .•'I.IB6 WS7 HWD7 VI.IB7 MPH BEG BEG MPH BEG BEG MPH BEG BEG 1730 0 ' \ - 50 <5 25 0- o 13 256 6 1735 0 1- 50 ^ 249- 13 254 6 1740 n 1- 50 g 248- 1 12 256 7 1745 0 1- 50 i 238— 2 10 845 7 1750 0 1- 50 6 243- 3 10 249 7 1755 0 1- 50 -i *5 .-. 3 11 245 7 1300 0 1- 50 9 242- 4 12 249 6 1305 o 1- 50 9 246- 2 11 253 6 1310 0 1- 50 o 242- 2 12 25 0 6 1315 0 1- 50 8 216- 4 1 1 23 0 6 1320 0 2- 50 10 217- 4 13 226 6 1725 0 o_ 50 9 256- 3 12 253 if. TIME I..IBV1 >>l DV2 WPV3 MBV4 HWV* BEG PE( BEG BEG BEG •'I.IV5 Hi.iV'6 BEG BEG M.JV6 Hl'l'\'7 BEG BEG M.IV7 BEG PflIM HBT 1730 1735 1740 1745 1750 1755 1300 13 05 1310 1315 1320 1 325 92 29 0 7 0 463 172 142 1 r.\Z; 190 353 356 396 343 331 93 133 134 30 110 103 2 00 142 4 02 165 30 325 2 00 166 49 134 122 132 112 170 ".47 509 1 6 ? 39 231 48 8 08 69' 136 100 217 133 165 133 XX 37 1 65 166 106 154 247 34 30? 156 7 124 4 97 4 25 4 2 3 118 124 160 63 34 143 146 > II C-I475 FIG. 6 > ► 023 1 ?2 3 01 <*2§>'7 5 TINE NO:: HO :o2 MSI I.IDI PH1 TIM TMP1 PYP H2? THC CH4 •:o 03 PPB PPB PPB MPH DEG PCT DGF DGF CCM PPB PPB PPB PPB PPB 1S30 0* *! -* 1 4 204 91 70 10 0 2 1363 1299 1534 46 1 335 l« 26 0 3 210 92 71 9 0 2 1359 1295 156 3 46 IS40 I* ■^ i> 0 3 204 92 70 9 0 2 1356 1297 1561 46 1*345 0* 1 o 210 92 70 10 0 3 1363 1290 15 34 46 1350 0* 42 1 3 216 92 70 10 0 3 1370 1 Z> © "• 154 1 47 1355 0* 24 1 2 216 92 71 10 o 3 1363 1293 1563 47 1900 0* 25 1 2 236 91 71 11 0 2 1356 1 5"8 7 1556 47 1905 0* 12 0 242 33 70 12 0 3 1365 1295 1546 47 1?10 I* 25 1 0 230 33 70 12 0 4 I 373 13 07 1551 43 1915 0* 16 1 2 39 S9 71 10 0 4 1375 1304 1556 47 1920 0* 25 I d 2 37 71 12 0 3 1 365 1 299 155 3 47 1325 2* 52 1 3 204 90 70 11 0 3 1343 13 09 15 39 • 46 TIME •■l;2 WD2 PH2 TMP2 I-JS3 t,i D 3 PH3 TMP3 MS4 l.l D4 C-H4 TNP4 DTI DT3 PCET MPH DEG PCT DGF MPH DEG PCT DGF MPH DEG PCT DGF HDG HDG f 1 1 & 1330 9 213 79 13 14 224 73 15 17 240 75 16- 399 449 "34 1335 Cl 213 73 13 14 223 —J "7 t f 15 16 243 74 16- 399 44 0 "34 134 0 3 216 73 13 13 223 76 15 16 342 72 16- 399 4 36 ' "34 1345 7 22 0 73 13 11 2 34 75 15 15 246 71 16- o.oa 441 ~?4 1350 < 223 78 14 11 ■Z> ~>~* 74 15 15 247 69 16- 3 9 9 Z- ~j i ""> 4 1355 t>. 230 7? 14 11 24 0 73 15 15 24 9 67 16- 399 r"34 19 00 6 244 75 15 10 242 72 15 14 ~^2 66 16- 399 3 09 '34 1905 6 24? 74 15 11 246 70 15 14 259 63 16- 399 315 ' "3-* 1910 4 252 74 14 9 69 14 13 267 62 16- 399 36? *S4 1915 4 3S 75 13 C 345 jp :• 12 5 303 64 14- OOZi 256 "34 1920 C" 355 i -' 14 5 331 < c 13 3 293 65 13- 399 13! ' Z •"• 1325 3 212 73 14 12 226 79 15 15 245 76 15- 399 308 734 TIME WS5 HWD5 ' .''•'D5 WS6 HMD 6 WD€ W57 HUD7 v'l.iD? MPH DEG It EG M*H DEG DEG MPH DEG DEG 1330 o 1- 50 14 213- 4 16 219 4 1335 0 2- 50 14 216- 4 16 ccn 5 134 0 0 2— 50 13 216- 4 16 222 4 1345 0 1- 50 11 22 0- 4 14 226 5 1350 0 1- 5 0 10 222- 4 15 2 2 6 4 1355 0 ;»__ 50 11 226— 4 15 •r* -:• o 5 19 00 0 l- 50 10 23 0- 4 14 2 32 5 1905 0 l- 50 11 236- 4 14 233 S 1910 0 2— 50 9 24 0- £ 13 244 7 1915 0 1- 50 c 321- 8 5 C 1 J 9 1920 o 1- 50 4 303- 9 259 6 1325 0 O — 50 12 214- 4 15 224 6 TIME 1330 1335 134 0 1345 135 0 1 355 19 00 1905 1910 1 9 1 5 192 0 1925 l.i D VI DEG 3 02 116 164 4 32 e." ;■ ?•*!' 9 370 "; *Zi C* 54 7 !,ID''2 I.IDV3 MDV4 Hl.ilV5 DEG DEG DEG DEG V'.-I'v' dei; HMV6 VWV6 HUV7 DEG DEG DEG vi.i'.-';" fhim DEG HDT 427 496 414 62 1 264 4 36 169 3?*3 t^ V ":■ -v 142 126 272 25 0 106 192 2 00 133 1 23 66 122 134 2 30 101 1 34 2 30 2 3 0 4 33 13 *L' '-■ 314- 779 94 6 272 17 142 1 13 224 156 224 42 0 193 94 2 120 1 96 2 54 2 13 i 7 y 2 131 -, J. C •-• 2 93 5 4 4 15 293 1 1 652 9 92 > II C-1476 FIG. 6 0 = 3 & 023 01 '23 '7 5 TIME MUX rin tn£ Mil MM PH1 TIM TMP1 PYR H2S THC CH4 CO D? PPF PPb PPF MPH DEG PCT D6F DGF CCM °PF PPE PPB PPB PPP 1930 0» 14 1 0 25 OT> 70 13 0 3 1500 1290 155 3 44 13 35 0 0 1 0 56 97 71 13 0 3 14 35 1290 1563 4S 1940 0 0 t 0 112 36 71 13 0 3 1453 1297 157? 45 1945 0 0 1 0 100 36 70 13 0 3 1441 1302 1553 45 1950 0 0 2 ft 114 36 70 12 0 3 145 3 1299 155 3 44 1955 0 0 g 176 >57 70 10 0 4 14 70 1 3 02 1535 45 £000 0 0 2 152 37 71 10 0 4 1414 1317 1 6 05 44 2005 0 0 121 37 71 10 0 3 14 04 13 09 15 35 4- 2010 0 0 161 37 70 10 0 4 1414 1321 153? 46 2015 0 o 3 156 36 70 9 0 3 14 0? 1329 1535 43 2020 0 0 4 154 36 71 9 0 4 1395 1321 1535 43 1925 1* 1 15 36 70 12 0 3 1402 1309 155 3 44 TIME i.i 1-2 I.I [i£ -H2 TMP2 i.i : 3 MD3 PH3 TMP3 LIT 4 J.ID4 PH4 TMP4 DTI DTS "EI MPH DEG PCT DGP MPH DES PCT dgp MPH DEG PCT PGP HDG HDG HE? 1930 3 q 76 14 4 342 74 13 2 312 63 13- 399 91 ■».;. c* 19 35 1 34 0 76 14 3 3£3 13 3 303 63 13- 399 101 735 194 0 1 336 4 J 14 2 337 71 13 2 325 67 14- 399 '■*7* "34 1945 O 333 74 15 3 337 70 13 3 322 66 14- 39 ? 91 ? 35 195 0 ^ ■r» d 15 3 342 69 14 3 330 65 14- "■ -3 ■% 143 »o cr 1955 4 153 74 13 2 0 69 14 1 336 65 14- 399 243 ' "::c'. £000 4 15 0 13 3 54 70 13 3 4 65 14- 399 234 " "■■- r. 20 05 4 112 75 13 3 64 71 12 3 16 65 13- 399 223 "35 2010 4 15 0 75 13 4 125 73 12 2 43 67 13- 399 2 05 ' "35 £015 6 15£ 75 12 5 116 73 13 2 92 63 13- 399 23 • "35 2020 6 150 74 13 6 1££ 73 13 2 100 63 13- '-: j'j I' »i 7 7£jer 1925 4 -» 75 14 5 353 73 13 4 341 67 13- 399 t£.r, "34 TIME UI5 HMD 5 ' .•".•li 5 l.l * 6 HLID6 ' .•'I.ID6 '.' 3 7 HI..W7 ' .•'I.ID7 MPH peg DEG MPH DEG IiE"5 MPH DEG LEG 19 30 0 1- 50 4 317- 4 2 236 12 1935 0 1- 50 ■~J>t 301- 4 {^ 231 9 194 0 0 1- 50 5 3 04- ^ 2 £36 6 1945 0 1- 50 3 312- 4 3 £95 7 1950 0 1- 50 ■^t 314- 1 3 30 0 6 1955 0 1- 50 i •>2 ■}- o 2 306 7 2 0 0 0 0 1- 50 2 17 o 331 10 £ 0 05 0 1- 50 3 54- 3 £ 356 0 £010 0 1- 50 126- 9 1 30- 4 2015 0 1- 50 4 113- 4 -^ 66— 4 2020 0 1- 50 C 125- 6 £ 74- 4 1925 0 1- 50 er 329- 6 5 317 6 TIME i.iDVl i.lDVc I..IDV3 MDV4 HWV5 VWV5 HWV6 VWV6 HWV7 VMV7 PRIM PEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 1930 37 334 56 432 1 0 4 3 er 24 9 5 0 19 35 579 204 1 04 154 1 0 c*o ^ 136 5 0 194 0 •-. er ^t 312 170 173 1 0 no i 54 1 0 1945 70 134 4? 113 1 0 4 9 £ 6 1 0 195 0 ■-* 7 3 1757 1 06 cc 1 0 144 2 33 1 0 1955 6 2 ^ 3 0 7 £03 36 1 o 5 2 1 1 c' 77 0 0 2 0 0 0 5 03 4 09 3254 1 4 ? '3 ^ 0 3314 9 1 147 9 0 20 05 2033 1 523 :• i ■ j T7 2 9 0 3 i o 275 0 30 ;!r, 3£ 11 0 2 0 1 0 4 7 0 724 3 34 '3 "•'. '*. 1 0 C *■" r^ 9 590 ■j» 0 2 0 1 5 197 335 c.O 44 0 1 o 41 3 450 O 0 2 0 2 0 I'cr 237 ! 4 0 23 1 2* o 34 1 46 ■^ 0 20 35 1' c ■;• 131 n 153 1 0 6 0 1 53 0 0 11 C-1477 12? 01 /c3-'7 €7 .. J?I G fi • 023 2 1 TIME MUM MO :ci2 M3 1 UDI PHI TIN TMP1 PYP H2? THC CH4 r.a 0 3 I °PB PPE pf'B MPH DEG PCT DGF DGF CCM PPP PPl: PPE PPP PPP 2030 0 0 1 3 172 37 70 7 0 4 1392 1334 1597 47 2035 0 0 0 5 160 0 • 70 7 0 4 14 04 1341 1595 43 2040 0 0 2 4 170 36 70 7 0 4 1397 1329 1535 4? 2 045 0 0 2 2 174 87 71 3 0 4 1390 13 31 1605 43 : 2050 0 0 3 133 37 71 7 0 4 1 337 1351 1617 4 3 2055 0 0 2 3 133 39 70 5 0 4 « ^O ""* 1343 1607 47 2100 0 0 1 3 204 39 70 6 0 3 1 395 1334 1593 43 2105 0 0 1 3 212 29 70 £ 0 4 1 395 13 36 16 00 4:3 • 2110 0 0 1 3 206 90 70 5 0 3 1337 1351 1619 49 2115 0 0 1 3 192 39 70 9 0 4 1330 1353 1612 J? 2120 0 0 1 3 193 39 70 8 0 4 1 335 1346 1595 4? 2025 0 0 1 3 120 141- 8 6 104- 4 204 0 0 1- 50 7 1 33- 6 6 104- 3 2045 0 1- 50 6 137- 6 er -> 114 1 205 0 o 1- 50 7 152- 4 5 123 3 2055 0 1- 50 11 1 6 0- C 9 157 1 21 00 0 1- 50 10 161- c: Cl 166 •;» 21 05 0 1- 50 9 17 0- i£, 10 174 2 2110 0 0- 50 Cl 173- 7 10 176 c 21 15 0 1- 50 10 17 0- 8 9 176 0 2120 0 1- 50 10 169- 6 10 170 2 2025 0 1 — 50 8 133- 6 4 10 0- 5 TIME WD VI •ili'v'2 i ,IPV3 i,inv4 HI.IV5 ' .•'i.i'v'5 HI.JV6 VI1IV6 Hl.i'v'7 Vi. IV 7 PRIM DEi? ECG DEG I' EG DEG DEG DEG DEG DEG DEG HDT 3 0 3 0 331 36 1 3 0 c 0 1 0 CO 1 54 2 0 2035 554 '; fZ, -ll 1 33 1 33 1 0 r»r 1 4 36 2 0 204 0 7 ": 20? 72 1 35 1 0 92 1 174 2 0 1'045 ^ .•'. £.' 6 0 42 12 ;» 0 44 2 74 0 0 2 0 5 0 65 130 £'*£• 61 c* 0 14 ^c 1 14 0 0 I' 055 477 5 0 74 2 0 ■;» 0 146 c 5 01 0 0 2 1 0 0 667 391 , j* 6 0 0 0 150 ^ *• '*' r 0 0 21 05 275 70 ?4 174 0 0 t«~! c 513 0 0 21 10 250 454 54 114 1 0 1 38 1 219 0 0 2 1 1 5 3 1 I-: 4 03 186 13 • 0 0 35 1 46 0 0 • 2120 221 453 ";*-* 135 1 0 26 > 420 0 0 2125 43 336 ?3 113 2 0 1 06 2 "j X'-i 0 0 11 C-1478 ■—-—••--•* -.-^-..^^»*.*^.*.* »»^«»*««* 152- er( 7 162 3 . £2 0 0 0 1- 50 7 149- c 7 162 o £205 o 1- 50 r, 143- 6 6 162 2 22 1 0 o 1- 50 t~> 153- er 7 168 p £215 o 1- 50 ~? 173- 6 7* 190 2 2220 o ^_ 50 er 131- e er 176 3 2125 o 1- 50 11 166- cr n 170 ;• T I ME WD VI I.IDV2 ! JDV3 WDV4 HWV5 * .•l.l'-.S Hl..'V6 VMV6 HI.IV7 v'WV7 CHIN It EG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 213 0 5 0 0 501 P'j 173 1 o •;. 0 470 0 0 2135 297 263 c- 142 1 143 1 3 1 6 0 0 i 1 4 0 4 12 ■• t ■-• 23 1 14 1 112 ~» 4 02 o 0 2145 24 5 2 0 6 12-3 1 1 3 1 Art C 44 0 0 0 2150 c OO :"z' 3 150 er 2 117 2 454 o 0 £155 3 0 -v c 12 £10 1 104 0 432 o 0 22 0 0 1 03 ~> 7 1 30 2 0 7 •;* 395 n 0 22 05 1 12 £3. 3 121 149 1 c:^ 2 2 1 9 0 0 22 1 0 63.3 362 ""' O 7fi ^ 13 5 £91 1 0 £215 3 "::: 41 3 1 63 1 34 P 1 4 4 9 0 1 0 322 0 2 0 ? 2 34 94 *!.-> 1 74 er 26 1 0 0 :c c j 241 3 3 0 146 123 0 12 7 60 0 0 I II C-1479 > FIG. 6 0£3 £3 £3 01 / £3 -' ? c TIME nds: MD 30£ MTl MDl PH1 TIN TMP1 PYP H£< THC CH4 CD T, PPB PPB PPF MPH DEG PCT DGF DGF CCM pet. PPE PPB PPT fPB £230 0 0 1 1 130 81 70 6 0 4 140£ 1326 161 ? 4-f. »'jt 0 0 £ 3 136 <=•£ 70 3 0 5 1419 1 35 3 16 34 45 ££4 0 0 0 1 1 £04 93 70 7 0 5 1414 1 3k- 1 1690 45 ££45 0 0 £ 2 ££0 94 70 6 0 140£ 1 356 1 6 9 0 46 ££50 0 o I £ £0? 94 70 6 0 4 1397 1346 16£7 45 ££55 0 0 I I ££3 94 70 8 0 4 140£ 1343 1615 45 £300 0 0 2 £ £1£ 93 70 8 0 K 1419 1 36 1 16 32 45 £305 0 0 i o £0£ 94 70 7 0 5 1419 1263 1644 46 £310 0 0 £ I 21? 93 70 10 0 5 1417 I 3^3 1646 47 £315 0 •0 1 £ 193 93 70 7 0 5 14 09 1351 1632 15 £3£0 0 0 £ 2 £04 93 70 3 0 4 14 09 1 353 1639 45 £££5 0 0 £ 1 1£4 91 70 10 0 5 1297 1341 16 37 4:3 TIME WS£ UD£ PH£ TMP£ i.i : 3 mh3 PH3 TMP3 MS4 WD4 FH4 TMP4 DTI r,T3 p: •"e: MPH DEG PCT BGF MPH DEG PCT DGF MPH DEG PCT DG^ HDG KG MBF ££30 6 157 77 1£ 7 15£ 73 14 6 170 70 14- 399 4 07 735 ££35 6 174 77 1£ i 173 7£ 14 6 189 71 14- "j '"U "U 4?4 - -c. cr ££4 0 4 £1£ 73 10 *Zf 135 73 14 7 £0 0 71 14- 399 541 "•O c- ££45 4 £06 73 13 5 181 73 13 4 194 7£ 13- 399 ; _* c "3 5 ££50 4 £1£ l' •• 1£ 3 173 73 13 3 193 7£ 13- 3??" 321 735 ££55 1 197 13 £ 173 74 13 1 £13 73 1 3- 399 155 ' "?.?. c- £3 00 3 238 13 2 £14 75 13 1 73 13- 399 1 S3 ' -.-. cr £3 05 £04 < -> 1£ £ 184 75 13 1 1 36 74 13- 399 2:9 ■?o c £310 £ £04 77 14 176 75 13 1 116 74 13- '■'"U-Z4 -6 " ?S6 £315 4 £1-:. 77 1£ 3 19£ 75 13 1 £19 74 13- 399 MO " "*t;'rf £3£0 o £04 77 14 3 £00 75 13 3 £4£ 74 13- 3 3? ?3 "*'z'*i £££5 4 141 r 6 13 6 15£ 7£ 13 5 174 70 14- OQd 250 m Cr cr TIME WS5 HI-ID5 * 'WD5 WS6 HWB6 ' VI.JD6 US 7 HWD7 VMD7 MPH DEG DEG MPH DEG PEG MPH DEG DEG ££30 0 £- 50 t 153- 5 •7 161 £ ££35 0 i— 50 7 170- 5 O 176 3 ££4 0 0 £- 50 6 13£- c; -? 185 3 ££45 0 £- 50 4 178- 4 5 130 4 i ££50 0 !■_ 50 ,5 176- 4 4 180 3 ^OC*^ 0 1- 50 p 17£- A 1 176 £ £3 00 o 50 i 196- 4 1 135 3 £305 o 2— 50 £ 138- "7 1 173 3 £3 1 0 0 •2» — 50 £ 176- 6 0 135 3 £315 o 1- 50 c 1 88- 6 1 173 3 £3£0 0 1- 50 ^ 1 ?8- .;» 3 -' ^*£ 1 £££5 0 c-~~ 50 154- 3 6 163 3 TIME WPV1 IJDV2 WDV3 MDV4 HMV5 DEG DEG DEG DEG DEG ££30 f.C J» -' ££4 0 ££45 £150 £ 3 0 0 £305 ?. 3 1 0 £315 2320 60 74 10 73 £ 1 7 103 37 0 £2 0 35 0 3 144 49 £-74 93 £41 331 371 ££4 1 59 3 ^'T 353 124 3 317 5 34 137 35':'4 34 3 150 190 13 7 163 16; 444 145 34 3 347 114 .'i,iv5 DEG 0 0 n o o n 0 0 0 o 0 0 HI-IV6 DEG 143 190 0 13£ C -' i 11 137 £4 37 £49 8£ ''.IV6 HMV7 DEG DEG 1 334 3 34 5 113 4 561 3 160 3 4 4 0 e 1 22 4 £146 1 493 3 "-ic:6 VWV7 PRIM DEG HDT > II C-1480 FIG. 6 DAILY SUMMARY FOP TFAILEP C'23 Ql/23'75 NSTAMTAUEOUC MAXIMUM VOL- ndx 112 UME 05 1 5 no 97 TIME 1344 NC2 223 TIME 14 39 :o2 370 . T I ME 1509 MSI 41 TIME 06 2 3 H2S 943 TIME 1509 THC 3932 TIME 04 1 3 CH4 1563 TIME 0157 CD 17-58 TIME 22 02 D3 54 TIME 1 324 WS2 46 TIME 06 1 7 MS3 47 TIME 0617 US4 52 TIME 0616 MS5 12 TIME 014E' US6 46 TIME 0617 US 7 53 TIME 0616 MAXIMUM FIVE MINUTE AVERAGES NOX 6 TIME 0110 MD 52 TIME 1325 S02 10 TIME 1505 WS1 go TIME 062 0 WD1 34 0 TIME 0 055 RH1 100 TIME 0 0 0 0 TIM 72 TIME 1 3 35 TMP1 34 TIME 0205 PYR 34 TIME 1555 H2S 8 T I ME 1505 THC 1499 TIME 1925 CH4 1421 TIME 1 6 0 0 CD 1690 TIME O "*•"■ ^ 03 51 TIME 14 05 WS2 29 TIME 062 0 MD2 354 T I ME 1915 RH2 97 T I ME 1215 TMP2 36 TIME 02 05 l.J S3 34 TIME 062 0 'JD3 352 TIME 192 0 RH3 1 0 0 TIME 0 0 0 0 tmps 34 TIME 020 0 I.I 24 o» 7 TIME 0615 I.JD4 34 0 T I ME 192 0 PH4 100 TIME •Q 0 0 0 TMP4 34 T I ME 02 05 TT1 4 92 TIME 0 1 0 5 t«T2 5S9 TIME 2 055 pre: 726 TIME 2 345 i>! "^ 0 TIME 0 3 1 5 HMD? c TIME 0 3 1 5 Vi. ID 5 - 43 T I ME 1445 W S6 C* J' TIME 062 0 SIMI'6 -"• i.c« T I ME 192 0 V'.i D6 •^» T I ME 0 0 35 ••i:7 "^'-^ TIME i"1-; 15 u:.iii7 T«cr £r TIME 2 0 0 0 V'iJI'7 13 T I ME 035 0 II C-148I 30 MINUTE RVEPRGES FIG. 6 TIME mcix MD S02 Mil H2S THC CH4 CD D3 WS2 WS3 M34 1.1 S 5 MjS '•'17 PPB PPB PPB MPH PPB PPB PPB PPB PPB MPH MPH MPH MPH 1PH MPH 0000 4 0 0 4 1362 1331 1531 34 7 9 12 0 g 12 0030 4 0 0 6 1372 . 3 3 3 1536 34 9 12 15 0 11 15 0100 4 0 0 2 1392 .250 1 54 3 33 5 6 7 0 "5 4 0130 1 0 0 S 1355 "'.'-* ": 1536 35 13 16 19 0 16 19 0300 1 0 0 13 1343 .3 09 1524 36 19 24 0 31 24 0230 3 0 0 4 1375 I 345 cr -. ^. 33 7 10 12 0 9 12 0300 o 0 0 Q 1343 1321 529 35 14 13 21 0 17 21 0330 4 0 0 14 1333 1314 .529 3:6 2 0 23 26 0 ■ aa at- 04 00 CRL CRL CRL 14 CRL CRL CRL CRL CRL 19 22 £5 0 21 25 0430 COL CRL 0 17 0 1 ■"• ■? Q 1321 ' 1463 35 23 27 30 0 26 ". 1 05 00 CRL CRL 0 13 0 1 33*r» 1336 : 1 34 3 34 19 21 24 0 21 24 0530 CflL CRL 0 11 0 1343 13 31 ' 1536 34 17 20 22 0 19 22 0600 0 1 0 19 0 1331 ) 1321 1541 36 O"? 29 32 0 33 06 30 0 2 0 12 0 1331 1 326 1 L541 •"■"? 17 20 C C 0 19 il. c 0700 0 2 0 13 0 1323 1 1311 : 1533 33 13 ^2 25 0 21 ^cr 0730 0 3 0 16 0 1316 2 7 0 1 1497 39 22 *- 1 30 0 26 3 0 0300 0 0 0 13 0 1314 ! c' t cl .509 39 13 22 24 0 21 C -* 033 0 1 0 1 15 c 1326 1 c! 3 7 ' 1 53 1 4 0 20 24 CO 0 ** -t 27 0900 p 0 I 9 3 1 *3 "!'~! £•^7 ' L543 39 14 17 13 0 16 13 09 30 4 0 3 10 5 1414 1 I 326 1543 41 15 13 19 0 16 13 10 00 Q 0 3 7 5 14 33 1 319 1 c -. Q 42 11 13 13 0 12 14 1030 3 0 ^» 3 3 1414 1 L 3 04 ] 1531 42 6 7 7 0 ^ 7 1100 4 0 1 3 •> 14 06 1 232 499 41 6 7 6 0 6 7 1130 3 0 1 c 2 1 392 ] 2 ■*> f 14:39 42 ej 6 6 0 6 7" 1300 ^i 0 ■2 Q 4 14 0* 1 2 6 0 ! 1472 42 13 14 14 0 14 15 12 30 CflL CflL 4 © er 1416 1 270 : 1499 44 13 14 15 0 13 16 1300 CRL CRL ji 10 4 1421 1 301 1 519 49 14 16 16 0 15 1 7 1330 0 13 4 ■9 1 5 1424 1 3 2 3 1 53 1 49 11 12 12 0 11 1 3 1400 CRL CRL o 7 4 1424 1 .343 1 err c 50 10 12 12 0 11 12 1430 0 0 4 6 5 1423 1 . ;;77 1 595 43 9 11 11 0 11 1 1 1500 0 0 4 4 4 1399 -. — cr 1 -• i J 1 c- r. cr 47 *-• 3 Cl 9 0 j 10 1530 0 1 c •7 3 1334 1 4 0£- ] , 53 0 47 10 12 13 0 12 13 1600 0 Zf 2 7 4 1360 4 09 1 597 47 11 13 14 0 12 15 1630 0 2 £ 4 135 0 : X 'J Ct 59 0 46 10 12 13 0 11 1 3 1700 1 1 1 ~j 1350 : 350 1 cjo 7 45 7 •ji 10 0 S 1 1 1730 1 15 0 ct 135 0 : 340 1 59 0 44 6 3 1 1 0 •j 1 1 1300 0 Z. i 0 £fc <2* 1353 : 3 1 9 1 cc cr 45 6 11 1 3 0 10 1 3 1330 0 31 0 2 c 1 362 c?2 1 [553 46 1 11 15 0 11 14 1 9 0 0 o 20 0 ' i 3 1397 ) 3 0 1 1 c S ~' 46 4 <-, 7 0 r-. 1rt 1930 0 0 1 o o 1453 3 0 1 1 c "■ *' 44 '-' ■2» C c 0 ;» Z £000 0 0 1 o 3 1 399 3 2 3 cr c« ~> 46 5 5 9 0 4 3 2030 o 0 1 o 3 1394 1 "; "; C; .599 47 Q O 6 0 Cj 6 2 100 0 i) 1 ■~; 3 1 3 '•* .-' 35 0 1 .607 43 6 10 Q 0 C| u 2130 0 0 1 C 4 1 '"•*, -* 7* 34 0 1 624 47 -j 9 ■r» 0 9 ''-'■ 22 0 0 0 o 1 1 4 14 06 1 34 3 1 643 47 5 6 cr( 0 5 •f. 22 30 0 0 1 1 4 1 4 0 9 35 3 643 4 5 3 4 ^» 0 ,-i ■? 23 0 0 0 0 1 1 4 1416 1 ^^r ■: 3 3 45 -. c 2 --> c 0 2 23 30 0 0 £ 1 4 1 4 26 1 t'w C 64 1 45 4 4 4 0 4 4 II C-1482 FIG. 0 DRILY RVEPRGES NDX 1 nq 3 S02 1 MSI t UD1 215 RHi 96 TIN 71 TMPl 20 PYR 5 H2S 2 THC 1377 CH4 1326 CD 1551 D3 42 WS2 11 WD2 221 RH2 86 TMP2 23 MS3 13 WD 3 219 RH3 91 TMP3 22 WS4 14 WD4 230 RH4 90 TMP4 22 DTI 35 BT2 - 191 PRES 778 US 5 0 HWD5 1 VI.ID5 - 49 WS6 13 HWD6 212 VWDS 3 ws? 15 HUD? 212 VWD7 C PR IN 23 LHST CRL NDX 14 07 01'28 INPUT PPB: 39 LRST ZEPC: 0 NEW ZEPD: HD 14 07 01/-23 INPUT PPB: 89 LAST ZERO: 0 NEW ZERO: SD2 054 7 01 -23 INPUT PPT: 116 LHST ZERO: 0 NEW ZECG: H2S 0419 01-83 INPUT PPB: 116 LRST ZEPD: n NEW ZEPC: THC 041? 01-23 INPUT PPB: 34 0 0 LAST ZEPD: 1881 NEW ZEPC: CH4 041? 01-83 INPUT PPB: 5400 LRST ZE&O: 0 NEM ZE*L1: CD 04 19 01 -'23 INPUT PPB: 4499 LRST ZEFD: 13636 NEW ZEPD: 03 041? 01 28 INC'UT PDB: 380 LRST ZEPD: 0 NEW ZE^D: 3 LHST SPHN: 86 NEW SPHN: 86 3 LRST SPRN: 86 NEW SPAN: 80 0 LAST SPHN: 119 NEW SPAM: 1 19 0 LHST SPHN: 116 NE'-I SPHN: 1 19 0 LOST ■SPHN: 3400 NEM SPHN: 3415 0 LHST SPHN: 24 NEW SPAN: 54 00 0 LHST SPHN: 1143 NEM SPHN: 4499 c LHST SPHN: 320 NEW SPAN: '■: .-: > II C-1483 FIG. 6 TIME MOX ma 2 as 1.1? 1 MB1 PHI TIM TMP1 PYP H2S THC CH4 CQ 03 PPB PPB PPB MFH BEG PCT BGP BGF CCM PPB PPB PPB PPF PPP 8330 0 0 1 1 194 94 70 3 0 5 1417 13-: 5 1646 45 £335 0 0 £ 1 162 93 70 9 0 4 1412 1356 16 39 46 £34 0 0 0 £ 2 137 93 70 9 0 4 1414 1 356 1629 -45 £345 o 0 2 3 152 93 70 10 0 5 1439 137 0 1644 45 £35 0 0 0 3 2 166 93 70 :? 0 6 14 36 1 33 0 1654 45 £355 0 0 3 3 15£ C| Zf 70 10 0 5 1422 1368 1 6 4 9 45 0000 0 0 £ 2 143 31 70 11 0 5 1419 1 35 3 1-137 46 0005 0 0 2 p 14* 90 70 10 0 4 1417 1353 16 32 44 0010 o 0 3 2 131 90 70 12 0 6 1451 1 38 3 1646 45 0015 o 0 3 1 IIS 90 70 12 0 6 1444 138 0 1656 46 0O£0 0 0 4 o 1£1 90 70 11 0 7 1439 1375 1659 46 £3£5 0 0 2 2 193 94 70 3 0 5 1431 1383 1641 45 TIME MI 2 •...ID 2 PH£ TMP2 u\\ 3 i,i p -< PH3 TMP3 '.J 8 4 MD4 PH4 THP4 BT1 DT£ &cE : MPH beg PCT BGF MPH BEG PCT BGF MPH BEG PCT BGF HDG HOC MPS' £330 4 £00 ?? 12 4 202 75 13 5 219 74 12- 389 176 736 £335 4 173 t 1' 14 4 133 76 12 4 216 74 1 2- ~J Ztlt "''-I 7 '"; *■"• £34 0 4 133 i < 12 5 169 76 12 5 202 74 12- 399 130 7- ■ •-■ £345 5 145 77 13 5 174 76 13 er 204 74 1 ^*— 309 131 — ■- >-'. £35 0 c- 154 ? 7 14 4 158 76 13 4 193 74 1 c* — 339 123 ~" :-• -' £355 5 150 -»-» r i 14 5 146 76 13 4 133 74 1 3- 390 76 7'-''- 0000 4 142 76 14 4 150 75 13 3 194 73 t "^»— 399 34 ?'" •'■ 0005 5 13? 76 13 4 1£4 76 13 £ 15 0 71 i ^*— 399 117 72' 6 0010 4 110 76 14 3 93 76 13 2 11? 73 i 3- 399 '-* *! f -z • 0015 4 33 76 14 3 74 76 13 o 39 73 14- 339 143 7 8 6 00£0 4 113 77 14 5 73 76 13 3 92 73 14- ':■■?? £72 "*'" 7 £325 3 19? 1 i 14 3 193 75 13 5 £21 74 13- 399 106 ' '-^ TIME WS5 HMDS * 'WB5 l.'.i;6 H'-IB6 \ ;i.i B6 '•ll? HMD? Vl.lD? MPH BEG BEG MPh BEG BEG MPH BEG BEG £330 0 1- 50 4 197- 5 er 203 4 £335 0 1- 50 4 184- 6 4 206 5 £34 0 0 1- 50 4 163- 5 5 134 er £345 0 1- 50 4 172- •^» 5 19? 4 £35 0 o C~" 50 4 152- 4 4 193 4 t»-",cr, s o £- 5 0 A 149- 6 4 132 3 00 0 0 0 1- 50 •5, 152- 5 3 185 3 00 05 o l- 50 3 131- -> £ 146 3 0010 0 2- 50 3 1 06- 8 £ 132 o 0015 0 2— 50 3 84- — o 9? 1 00£0 0 2— 50 4 74- — 2 100 3 3 •-> ■-. c- 0 1- 50 -■> 194- 3 C 210 5 T I ME i/.iDVl WPV2 ! IBV3 l,l[i'.-'4 HI.IV5 ' !\ |',,'5 HMV6 Vli.'V£ HI.JV7 VI, IV 7 PRIM DEG BEG BEG PEG BEG DEG DEG DEG DEG BEG HDT £330 218 544 34 c." cl P 1 0 er 6 92 x» 0 • £3 35 50 335 •a 3 24 1 0 181 4 170 5 0 £24 0 669 60 90 1 0 ISO 4 481 2 0 £34 5 2 24 267 -;■:; £6 3 £ 0 1*cr 5 1 13 1 0 £350 523 £ 3 6 10£ "H ~* 0 0 150 ~; 333 1 0 -. -. cr t" 23 3 462 T ~J. 307 1 0 1 06 3 5 38 0 0 0 0 i.l 0 304 4 33 74 2 2 3 1 o 197 ^! 2 1 3 fi 0 00 05 5.2 2 3£ 42 60S 1 0 66 3 633 o 0 0 0 1 0 '■'~* r* 1 03 7 0 .-. c tr 1 o 56 4 1 16 o 0 0015 170 157 4 56 1 1 0 1 03 cr 24 0 1 0 00£0 *-* ~ r« £04 3 2 i ►-. *-. 1 0 158 cr 531 3 o 0025 1 52 27 0 10 tr Z- -• 1\ 0 1£5 2 l". C 1 0 023 0050 01 • lc< 75 TIME MO'I r<0 302 '.'"l I-' D 1 PHI TIM TMP1 PYP PPB PPB PPfc MP'H DEG PCT DGF BGF CCM H£8 THC CM4 Cn D3 PPfc pt-'f PPB PPB [ PF 005 0 n 0 A 1 12 •an 7 0 1 1 7 1489 1265 1654 46 11 C-1484 TIME Mi 2 1.1 D ')y^ DC K'H2 TM'"2 •-'? up 3 -u3 TMF'3 MI4 PUT BGr MPH BEG PCT BGF MPH 1.1 B 4 PM4 TMC-4 dec- PCT r:-c HDC B T£ c ■■ l Ml' % 'I : "''05 0 110 14 ?4 13 14- FIG. 6 TIME '.1:5 NMD«j vw['*f. u:e huD6 V«D$ i.r.r HMD7 VMD7 MPH DEG DEG MPH DEG ['EG riPH DEG DEG 0050 3- 50 93- 92 TIME MliVl WDV2 MUV3 WDV4 HMV5 wi.i'..'5 HWV6 VMV6 HMV7 WW? FhIN I'EG I'EG LEG DEG DEG DEG DEG I'EG I'EG DEG HDT 0050 44 0 114 34 13* 117 3 03 023 Oil? 01'29'?5 TIME NO:; NQ SD2 WS1 WD1 PHI TTIM TMP1 PYR H23 THC CH4 CO S3 PPF PPB PPE MPH I'EG PCT DGF DGF CCM PPE PPE PPE PPE t*T Oil' 124 69 11 6 1333 135S 16 3 7 45 TIME W32 1.1 D 2 RH2 TMP2 Id : 5 WD3 FH3 TMP? t.l 34 I.ID4 PH4 TNP4 DTI it; ppe. MPH DEG PCT DGF MPH DEG PCT DGF MPH DEG PCT DGP HDG hl'Q MtF oir 138 75 13 6 1 03 TO 12 120 71 13- 3?? ?2S 73* TIME MS5 H'-iD5 VMD5 WS€ HWD6 VWD6 W37 HWD7 VWD7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 0115 1- 112- 116 TIME WDV1 I..IDV2 WPV3 WDV4 HWV5 VWV5 HWVG VWV6 HWV7 VWV7 ?flIN PEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 0115 571 1? 44' 36 26; 023 01 C C' 01 / cl'-*.y 7 cr T I ME MUX HD 302 1-13 1 WD 1 PHI TIM TMP1 PYR H2S THC CH4 CD u :' P f£: PPE C-PD MPH DEG PCT DGF DGF CCM PPF PPF PPB FP$ FOB 0030 0 0 O 3 150 39 70 11 0 6 14 34 13t.5 164 4 45 0035 0 0 3 112 39 70 12 0 6 1 443 1333 18T4 jj 004 0 0 0 0» 1 10? 39 70 10 0 7 1444 1333 1654 Jk 0045 0 fl 4 2 112 90 70 9 0 7 1434 137 0 1659 J^. 005 0 0 0 4 2 112 90 70 11 0 7 14 29 1385 1-I54 ■»8 0055 0 0 3 2 116 39 69 10 0 3 1424 1388 165 1 « c 0100 0 0 3 c 113 89 69 10 0 6 1419 1 393 1 6 7 1 -»-• 0105 0 0 d 102 39 89 10 0 c 1 395 137 3 167? 4S OHO 0 0 c c' 12 0 39 89 10 0 ^ 1 33:: 1 353 1654 j-;. 0115 0 0 2 3 124 39 69 1 1 0 6 133 3 1 353 1 1 3 7 -» .< 0120 0 0 2 122 37 69 10 0 4 1 337 1 358 16 34 44 0025 0 0 4 c 131 89 71 1 1 0 7 1434 1 385 1654 4;- TIME !.•< "",£■ 1.102 PH2 TMP2. w I 3 1JTJ3 PH3 TMP3 1.1 : 4 I.IP4 -H4 TMP4 DTI :-i- pet : MPH DEG PCT DGP MPH DEG PCT 08- MPH DEG PCT DSF HDG ur„; f..rc 0 0 3 0 er 142 »*6 1? A 1 03 76 12 C:( 0.^ 1 *_• 13- ?=■? * :-^ 7* r — 0035 4 123 77 13 8 1 06 76 12 r> 98 1 3- 3 "* ■* • r«" * :■ — 00 4 0 5 116 — ~* 12 3 '"*? 76 13 7 84 73 14- jt'-i ^ ■ >■" "*'-' 7" 0045 6 113 ■ <■ 12 7 93 75 13 »> 3 0 73 14- 3 "- "- 3i 3 _ . — 005 0 6 110 *»7 14 ■• 34 74 1 :•: 5 89 72 14- "•: -' % N ; K - ", "" 0055 5 117 — ,", 1 3 6 ?4 74 13 4 101 71 14- 3*9 : -.^ '■? ' f'l 00 5 11 3 76 1?. 7 30 - ■> 13 4 1 03 71 14- "-: "- 3 ■ 'hi _ _ .. 0105 f;. 1 03 ••C" 12 7 30 T* "> 1 3 3 128 71 14- ji'j - -. t1 01 10 r-t 122 T5 12 c 102 i" j« 12 3 112 7 0 14- 3'r* f* "- '- *v ■ 0115 r- 123 *'C 12 *\ 103 7""-! 12 4 120 71 13- ": --3 ". ':►*. -~ r 0120 c; 1 ?1 71;' 13 5 1 13 74 1 2 4 1 8 0 70 13- ~: *« ^ : m 0025 4 123 1 ' 1? 6 84 76 14 3 98 73 14- 3 "■• "* :. -: 4 - ' II C-1485 FIG. 6 MPH I'EG DEG MPH DEG DEG MPH DEG PEG 00 50 0 £ — 50 5 112- 7 6 98 1 003*3 0 50 7 1 09- 5 6 92 £ 00-40 0 3- 50 7 mo- 6 t 85 1 004?. 0 c.— 50 7 97— 7 7 32 1 0050 0 3- 50 6 93- 3 5 92 0 0055 0 2— 50 6 93- 3 4 101 0 01 00 0 2 — 50 6 9 3- 7 4 106 0 0105 0 2- 50 6 93- 7 3 120 0 0110 0 l- 50 6 106- 3 3 112 0 0115 0 1- 50 (C, 112- 6 4 116 1 0120 0 1- 50 5 123- 3 4 113 0 0025 0 50 5 36- 7 3 101 2 TIME WD VI WDV2 MDV3 I.IDV4 Hi.iV5 '• /I.IV5 HMV6 VI.IV6 HI.IV7 VMV7 PRIM DEG DEG I'EG DEG DEG DEG DEG DEG DEG DEG HDT 0030 263 134 154 414 1 0 9 4 32 0 0 0055 85 60 1 33 362 1 0 5 C 4 04 0 0 004 0 173 ^1'fZ 5 410 1 0 17 1 266 0 0 0045 463 193 36 532 1 0 14 2 257 0 0 0050 440 114 34 158 0 0 117 4 303 0 0 0055 •^ * A 164 76 94 0 0 50 0 230 0 0 0100 452 163 25 262 0 0 £8 3 74 0 0 0105 15 335 54 1910 1 0 73 £ 530 o c 0 0110 113 345 5>0 646 0 13 2 337 2 0 0115 571 17 56 445 2 0 36 4 262 1 0 0120 733 446 £31 637 0 0 16 6 66 3 0 01 £5 331 1103 33 434 1 0 ■c* 3 384 £ 0 M MAN CRL SYSTEM = 0 CflL NDX 0133 01 '29^75 M MAN CRL SYSTEM = 1 CRL MO 0133 01 -'29/75 023 0134 01 '29 '75 TIME NDX MED 502 MSI H2S THC CH4 CD 03 MS2 MS3 US4 PPB PPF PPF MPH PPB PPB PPB PPB PPB MPH MPH MpH 0134 R 0* 1 2 1397 1329 1524 0 023 0135 01 '29 '75 time mox no ;d: ••IS 5 MPH MS6 MPH M?7 m=h i.i si H2: THC CH4 CO 0 3 PPB PPB PPF MPH PPF PPF PPF PPF PPF 0135 1-1 0 0 £ 1397 1329 1524 38 y ; £ HS 3 LIS 4 '.■•55 i.i -: -:• ' ' ' 7 MPH MPH MPH MPH mph MPH 02 3 0136 01 '29 75 TIME NOX MO iDc i.i I 1 H2 IMS CH4 CD 03 M « ,15' II C-1486 i.i-: 4 PPF PPB PPF MPH PPF PPE pf'F PPF FPB MPH MPH MPH 0136 0 0 0 0 £ 139? 1329 1524 33 0 0 0 M MRM CRL SYSTEM = 2 CflL i02 0137 01 '29 '75 M MAM CRL SYSTEM - 3 CRL 0 3 0137 01'2?'75 M Mmii CRL SYSTEM •■ 5 CRL M2S 01 37 01 '29/75 i.'S 5 MPH I.I'" £ MPH M.f H 0 PIC. 6 "ME opB P"S ppb" m U ppb PPB ppb PP» riP« r*»M mph hph mph hph 0137 . 3- 5 5 0 I 1397 132? 1524 13 0 0 0 0 0 0 . R : ™" H'Ta s& m ss % s. % sn ss s; S3 a ss 0133 1- R 2 1337 132"? 1524 11 JlV^^r/V MSI H2S THC CH4 CO D3 "52 WS3 US4 WSS KM J£7 TI'E PPB FP? PPB HPH PPB PPB PPE *PB PPP HPH MPH MPH MPH MPH MPH 0133 2-220 R 2 1397 132? 1524 9 0 0 0 0 0 0 ^"bTFsS SIS S E S3 S. B. S3 S3 S3 S3 K S3 PPB PPB 0140 1 0 ZEPD CHAN = 0 0 ZERO CHhN = 1 0 ZERO CHftN = 2 0 ZERO CHAN = 5 R 0 1397 1329 1524 *«" =5"S"s S3 Sf K S3 S. S. S3 S3 S3 S3 IK 55 PPE PPB PPB MPH 0142 83 1397 1329 1524 L UNIT 0 -EC 018 UNIT 1 PEC 018 UNIT 2 PEC 0 00 023 0144 01 '29 -'75 ^ ,.-* .JS4 u$ LAST ZEPD: 03 0137 01 '2? LAST ZEFQ: INPUT PPF : 39 3 HEM ZEPO: INPUT PPt : 89 3 NEW ZEPD: INPUT PPE 116 o NEW ZEPD: INPUT PPE : 116 0 NEW ZEPD: INPUT PPE: : 34 00 l£3i NEW ZEPD: INPUT PPE : 34 00 0 NE'^i ZEPD: INPUT PPE : 449? 13636 NEW ZEPD: INPUT PPE : 330 0 NEW ZEPD: 0 LRST SPfitii 86 0 LAST SPAN: 86 £ LmST SPAN: 11? 0 LAST ZPfWi 116 0 LAST SPPN: 3400 0 LAST SPAN: 24 0 LAST SPAN: 1248 2 LAST SPAM: 330 NEW SPAN: 86 NEW 3PRN: 30 NEW SPAN: 11? NEW SP*N: 119 NEW iP*N: 3415 NEW SPAN: 34 00 NEW SPAN: 44?? NEW SPHN: 383 023 014? 01 '29 '75 TIME NDX NO SD2 WS1 WD1 PPE PPE PPE MPH DEG 0145 CflL CflL CRL 123 PHI TIN TNP1 PYR H2S THC CH4 CD D? PCT DGF DGF CCM PPE PPE PPE PPF PPE 71 10 CRL 1 356* 1363 1607 CrtL TIME UIS2 WD2 PH2 TMP2 WS3 MPH DEG PCT DGF MPH 0145 133 76 12 WD3 PH3 TMP3 WS4 WD4 CH4 TMP4 DTI DT2 FFEI DEG PCT DGF MPH DEG PCT DGF HDG HDG M:P 1 28 154 70 14- 39? 373 7S6 TIME WS5 HMDS VWDS WS6 HWD6 VWD6 WS7 HMD7 VWD7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 0145 1- 50 131- 146 TIME WDV1 WDV2 WDV3 WDV4 HWV" DEG DEG DEG DEG DE« 0145 472 52 441 'MV5 Hl.i'vV. VWV6 Hi.iV7 VWV7 PiilN DEG DEG DEG DEG DEG HDT ?7 117 023 02 01 01 '2? '75 TIME NDX MD 502 MSI WD1 PHI TIN TMP1 PYR H2S THC CH4 CD 03 PPE PPE PPE: MPH DEG PCT DGF DGF CCM PPE PPE PPE PPE PPE 0200 136 71 11 2 1263 134:3 1" 31 TIME 02 00 MS 2 MD2 PH2 TMP2 i.i Z 3 i,i D 3 PH3 TMP3 1,1 14 I.ID4 PH4 TMP4 I>T! MPH DEG PCT DGF MPH DEG PCT DGF M^H DEG PCT DGF HDG DT2 F" '■ 145 14 1?2 14- hd<: 3 04 Ml 9. T I ME 02 0 0 W "5 HMDS VMDS 1.136 HMD* VWD6 MPH DEG DEG MPH DEG DEG 1- 50 153- W37 HWD7 V«D7 MPH DEG DEG 6 176 2 TIME WDV1 MDV2 MDV3 MpV4 HMVS VMVS HMV6 VMVt HMV7 VMV7 PP1N DEG DIG DEG DEG DEG DEG DEG DEG DEG DEG HD1 02 00 364 12 274 H C-1486 ii.'' V (\:- . ■■ ": 01 FIG. 6 023 0 22? 01 29-7 K TIME rin:-: MD SD2 i.ri l.l PI PHI TIM TMP1 PVR hs: THC CH4 Ct) n? PPB PPB PPB MPH BEG PCT D6F BGF CCM PPB FPU PPP PPB PPB 0130 CHL CHL 4 1 112 9 3 70 9 0 5 1363* 1330 16 37 39 0135 CHL CHL ChL 3 C 104 33 70 11 0 CHL 1 in .8*1 37 3 1*02 C*L 0140 CfiL CHL C ML 1 122 87 71 1 1 0 CHL 1 36 3 1 356 15 '-3 chl 0145 CHL CHL CHL 3 123 17 71 10 0 CHL 1 356* I 36 3 1 6 0 7 ChL 0150 ChL ChL CHL 2 114 87 71 11 0 CHL I 346 ♦ 137 3 1618 ChL 0155 C 0 0 2 130 33 71 12 0 3 1353*1363 1 6 02 30 0200 0 0 0 2 136 Q7 71 11 0 ■> 1 363 1343 159 3 31 0205 0 0 0 3 149 87 70 11 0 t» 1363 1 343 16 07 31 0210 0 0 0 4 146 ^6 70 12 0 2 1373 1 36 1 1*41 32 0215 4 0 0 3 149 35 69 12 0 3 1 33 3 137 0 1659 022 0 7 3 0 4 160 37 69 13 0 3 13 37 1365 1-r' 61 : o 0125 0 0 2 1 148 37 69 9 0 5 1373 1363 1641 *;Ci TIME i.i 3 2 WD2 RH2 TMP2 1.133 MB 3 PH3 TMP3 MS 4 M['4 PH4 TMP4 I'Tl DT2 p^e: MPH BEG PCT H G F MPH BEG PCT DGF MP-H PEG PCT BGF HOG Ht'G Npe 0130 4 106 76 12 7 109 74 13 4 120 7 0 14- 399 7 8 6 0135 4 109 76 12 7 It2 73 13 4 123 70 14- 39? 374 7 - ■- 0140 4 120 76 12 6 1 09 73 12 5 122 70 14- ■*: -u 'i* -. ;. -» 726 0145 G 13 3 76 12 3 123 73 12 5 154 70 14- 399 37 "• 7 - •-■ 0150 £» 129 13 8 136 73 13 5 136 70 14- 399 351 7 : •- 0155 8 132 75 13 8 1 33 73 13 5 184 70 14- ■J ■ J Q 3 02 "»Oif 0200 8 145 75 13 7 157 73 14 5 192 70 14- 3 39 304 7 - ' -* 0205 7 161 75 14 -> 174 72 15 6 202 70 15- 3 9 -1 53' — "v. 0210 < 143 74 16 7 152 72 15 6 130 70 15- ^* 'j Ct 112 7 : 6 0215 7 154 74 16 7 146 72 15 6 170 70 15- 399 140 7 -• rr- 0220 P, 150 74 15 3 141 73 15 7 156 71 15- 3 39 161 — : »" 0125 4 142 76 11 6 112 73 12 3 122 70 13- 399 426 -? ;■ - TIME MS 5 HMD 5 ' •''•■PS WS6 hWBS v MB6 MS 7 HWD7 VMP7 MPH BEG BEG MPH BEG BEG MPH PEG PEG 0130 0 1- 50 £ 112- 6 4 1 1 6- 1 0135 0 2- 50 •£, 1 1 6- 9 4 181 0 014 0 0 1- 50 £ 112- £ cr 113 1 0145 0 1- 50 7 131- Cl 5 146 0 0150 0 1- 50 c, 1 33- 9 5 172 2 0155 0 1- 50 8 142- -? c J 163 3 rij 0 0 0 1- 50 6 159- 8 6 176 ^v 02 05 0 1- 50 8 174- 7 134 4 02 1 0 0 1- 5 0 6 152- < 6 166 1 0215 o i2.~ 50 8 149- 8 6 158 3 022 0 0 £*"■ 5 0 7 142- 8 7 143 1 0125 0 i- 50 cr 116- 5 3 113- 4 T I ME WDVi WBV2 I IBV3 I.IPV4 HI.IV5 ^ 'i,i'.'5 HMV6 VMV6 HI.JV7 VMV7 CHIN PEG beg BEG BEG BE G BEG BEG BEG PEG BEG HDT 0130 5 OS 226 66 4 02 1 0 104 4 cr t» T» 5 0 0135 173 2 1 3 32 9 05 1 0 21 3 8 03 1 0 014 0 774 100 41 26 •- 1 0 70 10 22 4 0 0145 4 72 472 rr ;. 441 1 0 97 7» 1 17 2 o 0150 2 0 0 1 14 23 0 621 1 o 272 2 0 13 •4 0 0155 291 s - s 206 432 1 0 170 C 359 I o 02 0 0 364 12 274 1 0 25 ;» ?s 1 o 02 05 2 0 1 J -. cr 2 34 1 k^, 1 0 5 -. o cr 2 04 1 0 02 1 0 157 4 07 93 4 34. 1 0 269 7 24 3 3 0 0215 533 374 1 35 23 0 1 0 01 3 377 2 n 0220 513 492 >>, 126 0 o 102 c 385 0 0 0225 O c- O 56 3 72 374 1 0 8 5 377 2 0 02 3 08 32 01 ■'2n "75 Tinr rtn:: no "D2 m: i MP 1 PPE PPB FTP MPH BEG PHI TIM TMl" ! PYP n:-;\ THC CH4 'ID U'i PCT BGF DGF CCM PPB FPB PPP PPB FTP 0230. 2 0 0 4 156 37 69 12 0 3 1400 1353 1666 33 i 11 C-1489 I FIG. 6 > TIME W * 2 MD2 PH2 TMP2 MIT 3 l.l [i 3 PH3 TMP3 M-!4 1.104 PH4 TMP4 DT1 DTI1 PF E I i MPH DEG PCT DGF MPH DEG PCT DGE MPH DCG PCT DGF HDG HDG MPP ! 0330 e 144 75 14 8 144 74 15 7 164 72 15- 399 193 736 TIME ••' : 5 HMD5 '••'i.i D 5 i.i ; is HMD's VMD-5 W I 7 HMD? VMD7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 0230 1- 50 144- 152 TIME MDV1 MDV2 MBV3 UDV4 HMV5 VWV5 HMV6 VWV6 HMV7 VMV7 PRIM DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 0230 1 1 7 4 06 2 313 56 433 END - 0233 > > 023 o:- 23 01 '29-75 TIME NDX HG S □2 WS1 l.l Dl PH1 TIM TMP1 PYP H2S THC CH4 CD 03 PPE PPB PPB MPH DEG PCT DGF DGF •CCM PPB PPE PPB PPB PPB 0230 2 0 0 4 156 97 69 12 0 3 1400 1353 1646 33 0235 f, 2 0 3 130 69 12 0 2 1395 1 36 1 1876 3* 024 0 6 1 0 4 1 35 83 £3 10 0 2 1 397 1368 1871 32 0245 5 1 0 4 144 39 69 11 0 3 1 4 02 13 £3 1659 32 0250 6 5 0 5 154 89 £9 1 1 0 o 1397 1346 1859 32 I 0255 7 5 0 er 156 39 89 14 0 p Km 1402 1353 1 8 S 9 0300 3 3 0 5 156 39 69 14 0 1 14 04 1369 | £ cr * 32 0305 G 3 o 4 143 88 89 13 o 1 1 392 137 0 1 * c *• 32 0310 ■£. 3 0 4 156 Qd 69 13 0 1 1400 1 356 184-r- 32 03 1 5 5 1 0 4 152 39 89 13 0 0 1395 134 3 164 4 •% ;, 032 0 6 •^J 0 4 146 QO 69 14 o I 1 4 09 1351 1 K 4 I 31 0225 6 l— 0 ^ 146 87 63 13 0 4 1335 1348 1854 ■% ;. T I ME MS2 I.ID2 PH2 TM=-2 ''133 i.i DI: PH3 TMP8 M34 WD4 PM4 TMPd DTI DT2 P-EC MPH DEG Pi ;t DGF MPH DEG PCT DGF MPH DEG PCT DGF HDG hdg r.l~: 0230 G 146 ;»5 14 3 144 74 15 7 164 ' c 15- 399 1 93 7 : 6 0235 "7 134 ?5 14 6 131 74 14 6 152 78 14- 399 348 736 024 0 7 14 0 O 13 r 144 74 14 7 164 •» ■. 14- 399 : 35 7 ; r;. 0245 ■7 146 * 16- ~: 0315 3 14 3 -*cr 15 o 146 74 16 7 163 (- "_2» 16- ■"; ~-t Zi 348 032 0 o 145 f6 15 9 140 pf- 15 3 16 0 T .r* 16- ~>-u u 890 7 : •; 0225 G 142 ~4 14 i' 129 7^ 14 £ 1 38 71 14- - '■ : £10 7 -: 6 T I ME ••i Z 5 Mi. IDS V I • i 35 m:6 HMD6 ' /MP6 MS? HMD? •SUV? MPH DEG Di rG MPH' DEG DEG MPH DEG DEG 0230 0 1- ' 5 0 -> 144- j. C; 152 ^ f'3 35 0 1- ' 50 »£, 1 3 3- 6 6 145 0 024 0 o 1- ' 30 £ 144- -> t 154 1 0245 0 1- * 30 ~? 150- 6 •a 1 8 0 1 . 02 V 0 0 1- ' Q i «--, £> 1 o :■• o o 0 c — 3 0 ';! 154- G © 166 C 03 05 o 1- ' 50 -? 143- 7' cj 1 8 0 i 0 3 1 0 o I- ' 50 C; 150- <£. C; 15 3 l (■ 3 1 5 0 1- 50 C; 146- 6 J" 15r 2 0 32 0 o ;. _ < 50 :.-: 14 1- ■p C. 152 1 0225 0 1- ' 50 £ i:-m- 5 £, 1 31 2 • I I C-1490 FIG. 6 TIME (,![.•/ 1 MDV2 U0V3 ".■I.W4 H'.IV3 VMV5 H'.i'vV. Vi.IVk HIIV7 vi.>v'7 trtlfi ['CO PEG PEG DEG PEG DEO PEG DEG PEG PEG MPT 0230 117 406 3 318 0 0 36 3 4jl 1 0 02 33 344 ?03 22 142 1 0 121 3 381 0 0 f'240 440 194 'J 224 0 0 34 1 314 0 0 0245 21 ? 346 140 »"?4 1 0 12? 2 83 0 0 025 0 212 lc'4 118 2*H 1 0 43 1 441 0 0 0253 2^4 414 77 136 1 0 18 I 77 1 0 0?00 3?l 253 84 190 1 0 54 3 280 0 0 0303 4 ">7 104 90 130 0 0 74 1 166 0 0 0310 194 446 el 1 99 1 0 144 2 49? 0 0 0313 3?1 39 rs 362 0 0 34 1 327 0 0 033 0 242 219 14 116 1 0 150 o 136 0 0 0323 51? 39 46 286 1 0 61 3 453 0 0 § 023 04 23 01 '29s? 5 TIME tiOA no :d2 i.l 5 1 i.i PI PHI TIN TMP1 PYP H2* THC CW4 CO Gt PPt PPP PPB MPH PEG PCT PGF PGF CCM ppp «>PE FF* PP£ PPP 0330 6 3 0 5 145 88 69 13 0 0 1397 1351 1 63 ! o» 0335 3 3 0 2 137 83 69 13 0 0 14 09 i : -. 5 ,673 \-> 0340 7 o 0 2 126 39 69 12 0 0 1422*142- 727 32 0345 8 3 0 1 106 39 69 13 0 0 1426*1475 ~> *• * •>5 0350 6 4 0 g 83 39 69 12 0 0 1424»14?5 7.5 • »9 0355 5 0 0 3 104 ■=>o 69 12 0 0 1429* 15 05 7 *. - ?3 0400 6 3 0 2 103 90 69 12 0 0 1422« '1503 I :' i' ' ?2 04 05 7 1 0 3 152 91 63 13 0 0 1422»14?3 77: 31 0410 6 o 0 3 146 90 69 12 0 0 1419* 144 ? 7 ?2 j2 0415 6 o 0 4 14? 90 6? 12 0 0 14 0? 1395 -. ': '. ^2 0420 5 0 0 4 154 39 69 12 0 0 1414 1341 1 6 37 32 0325 7 3 0 5 142 38 69 13 0 0 1407 1353 1 ■? .•':■ -^ TIME WS2 MP2 RH2 TMP2 WS3 '•103 PH3 TMP3 i.i -34 I.IP4 FH4 TMP4 DTI PT2 FF-:: MPH PEG PCT PGF MFH PEG PCT PGF M»H PEG PCT PGP HPG MP3 ^•:- 0330 3 150 76 15 10 141 75 15 10 150 73 15- j-ij l?* T-.-i 03 35 7 144 76 15 8 137 75 14 10 146 73 15- 39? 220 ~ : - 034 0 5 135 t t 15 6 125 77 14 3 133 74 15- '.• j ^ 1 33 " • -_ 0345 4 12 3 77 14 6 125 73 13 3 133 74 14- 2 ?? 2?4 "". K 035 0 5 104 78 14 6 116 73 13 3 131 74 15- 39? 24? "\ i 0355 5 112 f c. 14 t 117 79 13 10 129 74 15- ? ? "- 335 " : ■: 04 00 4 120 78 13 7 112 7? 13 10 123 74 14- T-i-a 307 ~ : 5 04 05 5 142 7S 13 3 124 79 13 10 135 74 15- ?~~- 402 " : 3 0410 o 150 73 14 ^ 131 79 14 10 133 73 15- 39? 357 "*: •: 0415 C; 150 78 14 10 132 78 14 10 136 j*2 15- "-: ■ a a 2-: ? * : •■ 04 2 0 7 150 77 14 10 1 32 ^7 13 10 145 72 15- 3 a ,;i 13? "z -. 0325 Cj 148 76 15 10 142 75 15 10 156 73 16- 3. . 261 ":r TIME MS 5 HWD5 I/UP5 i.i ; i-\ HLID6 < "JD6 i.i! 7 HMD7 V'l'1 P 7 MPH PEG DEG . MPH PEG PEG MPH PEG PEG 0330 0 1- 50 9 142- 7 11 145 0 03 35 0 1- 50 3 133- 4 10 140 2 034 0 0 1- 50 5 12-3- 7 .3 133 1 0345 0 ?- 50 5 123- 5 3 126 2 035 0 0 2- 50 & 113- 5 10 125 1 0355 0 1- 3 0 6 1 2 fl- 5 10 122 1 04 0 0 0 1- 50 r*. it ?- 5 10 121 1 04 05 0 1- 50 ft 125- 6 11 12? 1 04 10 0 1- 50 •u 13 3- ■;. 10 1 32 1 0415 0 1- 50 Q 134- t. ! 0 130 1 0420 0 1- 50 10 13 3- 6 10 1 37 1 0325 0 ^~ 50 3 144- 6 11 150 1 TIME JPV1 .![.•..•:■ ■IPV3 l.i PV4 Hi.i'.":. \ «.IV5 HMV6 v'mv: M'.iV7 ■i.r.'7 pMlfl pro PEG PEG PEG DEG DEG DE G PEG PEG PEG HOT 0330 96 356 •f. ■^ * 0 1 33 2 401 0 0 0335 11 166 •1 6* 0 102 3 2<^9 0 0 034 0 ro 4 f>5 4^ £51 0 ?4 1 343 0 0 0345 3?? 445 65 54 0 0 7 3 4 05 0 0 0350 4 :•■ o 450 44 73 0 7? 2 13 0 0 0355 131 7 32 :<74 0 7 4 4 28 0 0 0 1 0 0 g 56 74 7:? 0 1 66 13 Ir '.- 0 0 0 105 1 I ap 161 ?57 0 146 ►, 2 30 0 0 04 10 33 377 *".4 9 7 2 0 ro 2 1<;- 0 0 04 15 372 ?7 0 60 4 A 0 53 > 1 06 u 0 04 .-" o 4 0 0 J i'i ft 1? :>' .9 0 103 g 92 0 0 ••4:5 121 3*9 ?6 157 0 157 2 4 6* 0 0 II C-1491 FIG. 6 I 7£P0 NO CmL 0 zeso mo cal man cal system « 0 CAL MOX 0437 01 '29' 75 M MAM CAL SYSTEM ■ 1 CAL MO 04 37 01 '29'?? 0=3 0438 01'29'75 TIMF M0-- MO r02 MSI H2S THC CH4 CO 03 >)Z2 'J?3 U?4 MC? '•''-6 ppB ppp ppp MPH PPB PPB PPB PPB .PPB MPH MPH MPH MPH MPH '•'C7 04 39 8 E END - 04 33 83 93 1397 1329 1524 375 023 05 =■3 01 '29x75 TIME r»ax ND :o2 ii S 1 I.1D1 PH1 TIN TMP1 PYP •42? THC CH4 CO 03 PPB PPB CPF MPH DEC PCT DCF DCF ccr PPB PPB PPB PPB FPB 0430 7 0 0 4 154 39 89 12 0 0 1404 1270 153 3 r> > 0435 7 3 0 4 154 89 89 12 o 0 1412 1252 1553 31 044 0 CAL CAL 0 4 150 89 89 12 0 0 1404 1241 15 4* " 0445 CAL CAL 0 4 133 83 89 12 0 0 1375 124* 1588 045 0 CAL CflL 0 4 13* 3 9 c-o 13 0 0 1390 125 3 15 71 ;; 0455 CAL CflL 0 4 144 3? 8 3 1 2 0 0 1404 124 3 1553 *- 05 0 0 0505 CflL CAL CflL 0 0 3 4 133 89 83 11 11 0 0 o 0 14 00 1335 1253 124* 1571 - 7 0510 0515 052 0 04 25 CflL CflL CAL 5 CflL CmL CflL 3 0 0 0 0 3 4 122 113 114 152 33 89 33 39 83 83 83 89 10 11 11 12 o o ft 0 0 0 0 0 13 35 14 04 1392 1414 1243 12*0 1255 13 02 157 3 1535 1*02 :<3 - ~j #♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦«♦♦♦♦♦♦*♦♦■♦♦♦♦*♦ ♦•♦♦♦♦♦♦♦♦••♦•♦•♦♦•« •♦•«♦•«♦••«»♦* TIME w;2 WB2 rH? TMP2 ••' I 3 i.i 03 PH3 TMP3 '•i -: 4 1.1I14 = H4 IMP J DTI 1'Ic l->t . MPH DEC PCT DCF MPH DEG PCT D8F MPH TEC =>CT dcf H D'3 HDC M r P 04 30 9 153 . t 14 10 145 7* 14 n !50 71 15- >oo 230 7"* 04 35 9 15* 77 14 11 14 0 7*^i 14 u 150 71 15- ' : ' 1 ? - • S 1 - • 0440 0445 04 5 0 9 150 142 134 t i 76 14 14 14 11 10 11 135 1 35 123 75 75 15 15 14 10 10 10 14* 14? 14* 71 71 71 15- 15- 15- - 39 ? - 3"99 250 78* 3 '> 1 7 - •: 0455 05 0 0 05 05 0510 05 1 5 052 0 0425 •3 142 135 1 2 3 125 120 ? t 13 13 13 13 1 3 12 12 11 to 9 125 120 11? 1 14 1 13 75 74 14 14 14 13 13 12 11 10 Q C; 141 i:-7 ! 3 3 137 1?* 72 -» -> 72 73 14- 14- 14- 14- 14- - 3 9 3 - 399 - -; va 2 •- 1 7 . ' 31* ri-. C; 117 152 i < 12 14 ■a 11 1 14 142 77 12 14 O 11 138 J52 73 72 14- 15 - 3-99 iT* 71: TIME i.i :*, H'.'l»5 ' ,■1.105 i.i ; * Hl.lt'-' .•i.i p8 I.I ~7 Hi.iDr •"■• t'7 MPH DEC DEC Mr H DEC DEC MPH DEC l'E'3 0430 0 I- 50 10 t4 5- 5 11 144 1 04 35 0 1- 50 10 141- 8 1 1 14 2 1 04 4 0 0 1- 50 11 1 38- 5 1 1 13: 1 0445 0 2- 50 10 1 38- 5 10 141 1 045 0 0 £- 50 10 130- 6 1 0 1 37 1 0455 ri 1 - 50 11 128- £. 12 1 3 3 1 05 '10 0 J" — 5n 1 1 \:\- o 11 1 ':■ 'J 1 n*-\ 05 0 0- 5 0 10 11 '-:■' ■9 10 12* 1 05 1 0 0 2- 50 u H '■:■- * ■a 1 3 0 1 05 1 5 0 1- 5 0 ':■ 118- •a 129 1 0520 0 1- 50 o 1 18- !j 9 129 1 04 25 o 1- 50 10 14*- 3 12 14* 1 J 1 C-1492 . YIQ 6 .* TINE Uli VI hIDVi I»ID"*J i.'I>'M HMVS V".iw«l HUV* V'.** MMV7 VMV7 PFItM BEG BEG C'Fi'. BEG PF6 ['CO TEC- 0E6 &f<~. t.CG HPT IT C-1493 043 0 556 178 24 30 1 0 14 a 4 02 0 0 04 35 15 133 9 i"<*i 3 0 33 2 12>? 0 0 044 0 I "3 130 42 252 2 0 102 3 19 0 0 044? 426 8S 36 •34 1 0 60 3 12 1 0 04 ro 2 0 3 213 10 4-3 6 0 0 96 4 543 0 0 0455 2*4 422 5 305 ■> 0 10 2 123 0 0 05 0 0 221 397 104 314 1 0 1 34 1 40? 0 0 050? 462 4 35 13 257 1 0 93 1 212 0 0 0510 24 3 416 g a 4 33 0 0 36 1 372 0 0 051? 20 299 100 3 35 2 0 79 3 199 0 0 052 0 335 90 49 232 •a 0 72 8 267 0 0 0523 176 92 29 4S6 1 0 54 7 8? 0 0 END - 0536 M MAN C*L SYSTEM - 0 CfO. NOX 054 3 01 '29 '75 M MflM CHL SYSTEM - 1 * CHL MO 0543 01 '29 '75 R 023 0544 6l'29'75 TIME MOM MO S02 MSI H2S THC CH4 CO 03 US2 WS3 m*4 MT5 i-'36 PPB PPB PPB MPH PPB PPP PPB FPB PPB MPH MPH MFH MPM MPH 0544 67 51 33 0 93 1397 1329 1524 375 0 0 0 0 0 R 023 0544 0l-'29'75 TIME NQX MO 502 US 1 H2S THC CH4 CO 03 U>2 US3 W:4 1.1:5 ".'"6 PPB PPB PPB MPH PPB PPB PPB PPB PPB MPH M^H MFH MPH N^H 0544 79 53 S3 0 93 1397 1329 1524 375 0 0 0 0 0 R 023 0545 01 -'29 '75 TIME MOX MO $02 MSI HI'S THC CH4 CO 03 '.IS2 Mi3 i.t~4 1.1:5 uS6 PPB PPB PPB MPH PPB PPE PPB pPB FPB MPH MFH MFH IIP" MFH 0545 94 63 83 0 93 1397 132? 1524 375 0 0 0 0 0 R 023 0547 01 -'29 '75 TIME NOX NO S02 Mil H2S THC CH4 CD 0? MS2 '1^3 M34 '.< !5 M"6 PPB PPB PPB MPH PPB PPF PPB PPB PpB MPH MPH MFH MPH MFH 0547 91 74 33 0 93 1397 1329 1524 375 0 0 0 0 0 R 02? 054S 01>'29'75 TIME NDX MO SQ2 MSI H2S THC PPB PPB PPB MFH PPB PPB 0543 89 79 83 0 93 1 397 1 R 023 0549 0 1, -29 '75 TiMe fin1: mg :oi- PPB PPB PPB 0549 84* 83 8? 0 93 1397 1329 1524 375 0 0 0 P 0 0 R 033 0550 01'29'75 TIMC 'KV: UU :n.:: MSI M2S THC CH-4 CO 0? '-!'.£ '-i"3 MS4 MS 5 '■' > '•' T PP,B PPB PPB H'H PPB PPB PPB PPt flV MFH MFH MFH 'i1 k< MFH MFH 055 0 ??♦ 9 3 8 3 0 9 3 1 397 1 32? 1 524 3 75 0 0 0 0 0 0 R 02 3 0551 Ot 29'75 TIMr M0.-4 mo .n: 1.1:1 H2S THC CM4 en 03 1.1:2 '-'"3 <•*'■* u;5 u>, ••"." pr-t fPF PPB mvh CPf ppn FPF IPl Mf M»H MPH Ml'H H«H 'I'M r\< M OS-51 8/ 36 33 0 93 1397 13^:9 1524 -»75 0 0 0 0 0 0 R — • CH4 CO 03 1,132 US 3 I.K4 1.1 r 5 MS6 PPB PPB -'FF MPH MPH MFH MFH MFH 329 1524 375 0 0 0 0 0 1.1 : 1 H2-: THC CH4 CO 0? '•i:2 MS 3 1.1:4 m : =. '■1 • 6 MFH FPp PPB PPB -•PB PPB MFH MPH MPH Ml H -If'H FIG. 6 U23 Ur>U4 01 '29^75 TIME MUX HO S02 PPB PPB PPB 0604 - R 83 023 06 05 01 '29 '75 time no:: no T02 PPB PPB PPB 0605 - R 3- 33 023 04 07 01 '2? -75 TIME NOX NO T02 PPB PPB PPB 0607 - R 5- 83 023 06 0? 01 '2'? .'75 TIME MOX HO S02 PPB PPB PPB 33 060:3 1- 0 ZERO CHhN = 0 0 EERO HHhH = 1 0 ZERO CHAM = 1 E END - - 06 03 m:i H25 THC CH4 CO 03 Mi: 2 M33 1.1 : 4 M<~F '■!'►. MPH PPB PPB PPB PPB PPB MPH MF'H MPH MPH MPH MPH Li SI MPH "•IS 1 MPH 93 1397 132? 1524 375 H2S PPB H2S PPB 93 THC PPB CH4 PPB CO PPB 03 PPE WS2 MS3 WS4 W^5 MPH MPH MPH MFH 93 139^ 1-329 1524 375 H28 THC CH4 CO 03 MS2 MS 3 MS4 M35 PPB PPB PPB PPB PPB MPH MP'H MPH MPH 93 1397 1329 1524 375 0 0 0 0 THC PPB 1397 CH4 PPB CO PPB 03 PPB 1329 1524 375 WS2 MPH 'JS3 MPH MS 4 MS5 MPH MPH MI6 MPH MS6 MP'H WS6 MPH '•I 7 7 '■'S7 MPH '•IS 7 nPH n C-149S 023 06 £3 01 / :• •- ,- '■ C7 TIME no:: MO .02 i.i S 1 .."P 1 PHI TIN TMP1 F'YP H33 TMC CH4 CC 0? PPB PPB PPB MPH BEG PCT DGF BGF CC1 PPB PPB PPB PPI PPB 053 0 CfiL ChL 0 •^» 113 89 68 10 0 o 1 4 04 3 <^ *' I53i"' 33 0535 CHL CPL 0 120 90 •£•'? 10 o 0 14 02 .25^ -, ■: c, ■-. ^i 054 0 CHL ChL 0 2 123 9 0 *£•'? 10 o 0 13? 5 -.IT C r '— '*! ;-;,£ 0545 CF1L CHL 0 ■2> 14 0 39 63 10 0 0 1 4 02 ] 1 253 , ^ 7 ';. 32 0550 CHL CHL o 3 131 39 •£•£■ 10 0 0 1 4 0 0 .255 15 7 1 •. % 0555 CRL ChL 0 r- 113 39 i-'i' 1 1 0 o 1392 I't." o c- -. r o ^ 06 0 0 ChL ChL 0 2 110 39 63 11 0 0 1395 1 253 c ;• ~. 32 0605 Chi. ChL o 1 114 3? r~.'z'. 1 1 o 0 1 330 2 5 5 c — r- 5; 06 1 0 C ML ChL o -*'-: 89 6S ? 0 0 1 337 1 263 5 9 j' ••; ^ 06 1 5 CmL CflL o d 126 S'Hl 68 10 0 0 1335 1 T> cr O 588 .'' C. 0620 o 0 o ■2i 145 39 6§ 1 1 0 o 1 335 1 Zf c •-• 5 '" 0 3 3 0525 CflL ChL 0 2 10? OQ 63 1 1 o 0 1 397 1 r-c-r -'•^ T I ME '•'• ~ 3 Mt'2 PHI- IMPS i ■ : ? MI'3 PH.: TMP3 l.i v- 4 l.»D4 PM4 1 'Mc"4 in l [>i : pf 3 : MPH BEG PC T DGF MPH BEG PCI DGF MPH L'EG PCT DGF Ul>C- n in , h! ' £■ 05 3 0 Cj 1 1 3 78 12 ■p 110 77 12 C; 138 -i ^> 14- ja-a 401 7 " ""• 0535 c~ 123 ~ -; 1 "■ C; 113 77 12 9 1 35 i j» 15- 39 ? •tr.,4 — . .* 054 0 »£. t 3 3 "?o l l 10 135 77 12 11 133 — ;> 14- :-■ ? ? 4 .; •;• 7 : 5 0545 r. 145 "*C| l£ o 1 34 7 r 12 10 1 32 ■pz- 14- 39 ? -i 17 7 : 5 055 0 r\ 1 3? -•.-» 12 :? 131 ?:": 11 11 i :■• 0 7Z 14- 3 :' :' 390 *• .- i 0555 r'\ 1 33 7~- 12 10 1 I ■'■ 7'": 12 1 I i . 3 P2 14- "■■!.■. ■i 3 0 — * » t 06 0 0 ►-", 1 -t; 79 12 10 113 • 70 1 3 1 I 13? 7,*' 14- "> '.* Is 11 3 "■ \ c 06 05 1 132 **o 12 Q 1 1 2 73 12 13 13'". 72 14- O ■!.■ j 4 > 3 — ■ * -". 06 1 0 rj 1 03 73 13 ■"i 112 -o 12 12 133 72 14- \' -4 ■ '■* -l • . i'i 7 ~ ' . 06 1 5 6 133 7"^ 1 1 i i 1 17 73 12 14 133 — *• 14- 3 ..T ■. 4 ": '.■ 7 : * • 0620 ._. 1 33 >' ;; ic- 1 1 1 13 7 — 12 i ~» 1 : C; *> > 14- 3 ? ' 426 t\ 0525 '-' 1 14 7 7 12 -* I 13 * 76 1 3 C| 131 1 ■ 14- 33 3 .'71 ' '■ ' ' 023 0552 0l-d?^?Z Mb. o jiME nn : rin ros uzi H2? thc cim «:n o? ■•)-:? «S3 m:4 m:5 u:: W>7 PPB PPF PPB MPH PPB PPB PPB PPB PPB MPH MPH MPH MP" ~PH MPH 0554 44* 47 33 0 93 1397 1329 1524 375 0 0 0 0 0 0 * R 023 0555 01'29'75 TIME MOX MD S02 WS1 H2S THC CH4 CO 03 M?2 MS 3 WS4 WS5 '•'>:■ '.'27 PPB PPB PPE MPH PPB PPB PPB PPB PPB MC>H MPH MPH MPH rPH MPH 0555 16* 20 S3 0 93 1397 1329 1524 375 0 0 0 0 0 0 023 05 TIME 59 01 MOX PPB /23 '7 MD PPE 202 PPB MS 1 MPH H2S PPB THC PPB CH4 PPB 055 3 JJl C 1 S3 0 93 1397 132? R CO 03 M?2 MS3 M?4 MS5 '■■'.*■ l-i 7 T PPB PPB MPH MPH MPH MPH f-H MPH 524 375 0 0 0 0 0 O 023 0559 01 '29 '75 TIME MDX MD :02 W II H2S THC CH4 CD 03 WS2 US3 US4 WS? '■':* '•' : 7 PPB PPB PPB MPH PPB PPB PPB PPB PPB MPH MPH M^'H MPH ::H MPH 0559 2 2 S3 0 93 1397 1229 1524 375 0 0 0 0 0 0 R 023 0600 01 -'29 '75 TIME MDX MD :D2 MSI PPB PPB PPB MPH H2S THC CH4 CD 03 MS2 i.i S3 MS4 MfS i.i ' £ i.l 2 7 PPB PPB PPB PPB PPB MPH MPH MPH MPH •;-H MF H 0600 3 1 33 0 93 1397 1329 1 524 375 0 0 0 0 0 1 • R 023 Oi 0 1 0 1 s -• -Zt ..-■ ~ - cr TIME MDX MO :d2 LI'S 1 H2S THC CH4 CD 03 Wi 2 '■I " 3 MS 4 1.1 : 5 i.!>;. ••I : ; PPB PPB PPB MPH PPE PPB PPB PPB PPB MPH MPH MC'H M- H ": H Mf r o-;. o i 4 1 O "' o_ 9 3 1 397 1329 1524 375 0 0 0 0 0 I R • • 023 o--: 02 01 s Z' Cj ' ™ '5 T I ME MDX MO :g2 i.i : i h:-:~, THC CM 4 CD 0? '•l " 2 1.1 S3 1.1:4 1.1 ; s ■ :► m ; ■ PPB PPE PC'B M^'H c-PB PPP PPB PPB PPB MPH M^H MPH MF H *'- H Mf" v do 02 0- 2 33 0 93 i ? :-• r 1 329 1524 ■^» -»Cr 0 0 0 0 0 R • LI C-1494 02 3 01: 0 ':■ 0 1 2'-' , "5 * TIME MDX MD TD2 1 - 1 7 1 H3~ TMC CH4 CD D 3 MS2 MS3 '•' .* 4 M " 5 PPB f'P'B PPF MPH PPF PPB PPE PPB PPB MPH MPH M='H M'H 0603 3 0 S3 0 93 1397 1329 1524 ??5 0 0 0 0 P FIG. 6 TIME M35 H'.ll'*". < •'i.'05 l.l : f. HI.ID6 ./I.ID6 WS7 HMD 7 VI.ID7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 07-30 0 I- 50 3 112- 6 9 121 1 05 35 0 l- 50 3 120- £ 10 123 1 " 05-4 0 0 l- 50 9 126- 6 11 131 1 0545 0 l- 50 9 126- 6 11 125 1 0550 0 1- 50 S 122- 6 12 123 I 0555 0 1- 50 9 12 0- i£> 11 124 1 0600 0 1- 50 10 116- 6 11 121 1 0605 0 1- 50 3 112- 7 12 120 1 0610 0 u. — 50 «> 114- «3 12 121 1 0615 0 l- 50 10 113- p • 14 120 0 0650 0 1- 50 10 120- i 14 121 0 0525 0 50 3 113- 6 9 123 1 TIME WD VI MDV2 WDV3 l.l DV 4 Hi.l'.'5 VMV5 HLIV6 VI."V6 HWV7 VMV7 PRIM DEG DEG DEG I' EG DEG DEG DEG DEG DEG DEG HDT 0530 245 30 3 142 422 1 0 46 7 134 0 0 05 35 523 446 4 0 121 0 0 1 6 60 * 0 0 054 0 275 123 65 53 1 0 72 4 433 0 0 0545 216 39 166 54 1 0 13 3 232 1 0 0550 370 434 17 22 0 1 0 61 5 213 1 0 0555 1 22 133 83 453 0 0 s.1 L_ 3 337 0 0 0600 425 216 6? 344 1 0 ■»0 t c 4 449 0 0 06 05 34 106 30 c- C* 1 0 153 3 496 0 0 0610 299 117 3 217 0 o 4 11 422 0 0 0615 4 36 170 11 416 0 0 35 3 259 0 0 0620 93 466 66 13 1 0 70 4 3 0 0 0625 34 52 33 4 03 1 0 49 4 117 0 0 & '■' 5 023 0634 01/,29<'?5 TIME HOX MD ?02 1.131 UD1 &H1 JIN TMP1 PYP H2S THC CH4 CO PPB PPB PPB MPH DEG C'CT DGF DGF CCM PPE PPP PPE PPE 03 PPE 0630 ChL ChL 134 63 11 0 1335 126 0 159' cf»l TIME WS2 WD2 PH2 TMP2 MS3 WD3 RH3 TMP3 MS4 MD4 PH4 TMP4 DT! DT2 -CEI MPH DEG PCT DGF MPH DEG PCT DGF MPH DEG PCT DGF HDG HBG MEF 0630 132 12 12 1, 13 137 71 14- TIME i...':5 HWB5 VI.ID5 W26 HMD6 VWD6 WS7 HMD7 VWD7 MPH DEG DEG MDH DEG DEG MPH DEG DEG 0630 1- 50 11 124- 12 130 TIME l.lLVl MPV2 WDV3 WEV4 KMV5 VMV5 HMVG VMV6 Hi.iVT ViJV7 PftIN DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 06 30 152 454 120 263 3 AV 02 3 0641 01 '29 7^ TIME NDX MCI S02 MSI- MD1 PHI TIM TMP1 PYP H2S THC CH4 C 0 03 PPE PPE PPD MPH DEG CC T DGF DGF CCM PPE PPE PPE PPE ^PE 064 0 ChL 134 1 1 0 1333 1263 1590 TIME W22 MD2 PH2 TMP2 •••£? ME 3 PH? TMP3 MS 4 M[M PH4 TMP4 [iT 1 D.T2 pc'FT MPH DEG PCT DGF MF'H DEO PCT DGF MPH DEG PCT DGF HDG mI-G Ml ' 064 0 123 12 1 , 1 16 1 2 1 33 71 15- 399 4 33 11 C-1496 TIME. i.i 15 Ht.iD5 V'-'D5 M >'• HME6 VMD6 WI7 H'.'D7 V'MD7 MPH I".G DEG MPH PEG DEG MPH DEG L'CG (V..) 0 1- 50 12 US 12 13 1 FIG. 6 tine 064 0 1.1 D VI MDV2 MDV3 MDV4 HU"5 VWV5 HM\'6 VMV* hmv 7 "i.iv? &«IN DEG DEG t>LG DEG DEG DEO DEG DEG DEG PEG HOT 199 53 >93 68 3TJ9 END - 0642 Y LAST CfiL NO\' 054 3 01<-29 Lfi?T 2EP0I MO 054 3 0 1 - 2 a LAST 2epoi C02 0137 01 '29 lost TEP-D: H2S 0137 01 '29 lh:t ZECO: THC 0419 01 '23 LfiFT TEPO: CH4 0419 01 '23 LfiST ZEPQ: CO 0419 01^2:? Lftrr 2EF0: 03 0137 01 '29 i ! 1 LfiST 2EP0: INPUT P«>Fi e? 0 MEM TEPO: - INPUT PPF l 6 9 3 MEM ZEPQ» - INPUT PPB: 116 0 NEW ZEPO: INPUT PPP: 1 16 0 NEW ZEPOl INPUT Pfp: 3400 1331 MEM TEPO: IMPUT PPP: 34 0 0 0 MEM 2EPQ: IMPUT PPP: 4499 3636 NEM 2EFCJ: INPUT PPP: 3?0 0 NEW ZEPOi 1 LfiST SPfiNi 96 3 LAST SPHNi so 2 LfiST ZPfmi U9 0 LfiST SPfiNJ 116 0 LfiST SPfiN: 3400 0 LfiST SPfiN: 24 0 LfiST SPfiN: 1248 2 LfiST SPfiN: 390 NEM SPfin* 39 NEM SPfiN: 89 NEM :p&m: 119 MEM IPPtfi: 119 NEM SPPim: 34 1?. NEM ipfrn: ?4 00 NEM SPPiM: 44-9 NEM tPfi'f: 3?? 023 o; "23 0 1 '£9''7 5 TINE MOX NO SD2 1,151 MD1 PH1 TIN TMF1 PYP H2S THC CH4 ca 03 PPB PPE PPP MPH PEG PCT DGF DSr CCN PPF- PPB P^P PPF peg 0630 CfiL CfiL 0 3 134 33 63 11 0 0 13S5 12-f 0 1 5 9 3 rt-L 0635 CfiL CfiL tf 4 132 39 69 12 0 0 1390 1 2-: o 1585 i:-'- 064 0 5 g CfiL 3 134 39 69 11 0 0 1333 1263 1 5 "- 0 : 3 0645 7^ 9 CfiL 4 125 89 69 12 0 0 1378 12-: ? 15: 3 " 3 065 0 c 0 0 4 120 59 69 11 0 0 1330 125? I '. e : :? 0655 0 0 0 4 122 99 70 10 0 0 1375 12-35. 15-: i J 3 0?00 0 0 0 3 114 39 70 1! 0 0 1373 1 2:5 ? 155? 33 0705 0 0 0 3 116 83 70 11 0 0 13-35 124r 1544 ;4 0710 0 0 0 3 113 33 70 11 0 0 1 363 124 1 15 34 i ■> 0715 0 0 0 3 106 •I'O 70 12 0 0 1?75 124 3 154 1 .4 072 0 0 0 0 4 106 8,? 71 12 0 1 1 3 35 124 3 155 : * -, 0625 0 0 0 2 142 89 68 10 0 0 1397 126 0 15 3 3 r -l TIME i.i ;. 3 MD2 FN 2 TP1P2 MS 3 MD3 PH3 TMP3 i.i -; 4 I.IIM FM4 Tf-<"4 DTI I'T3 - L : NPH DEG PCT DGF M^H DEG PCT DGF MPH DEG PCT I"3c: HDG Hi 3 .": c 0630 7 132 7.? 12 12 122 77 13 12 137 71 14- r-3-3 377 7?5 0635 7 123 i 8 13 13 1 16 76 13 12 133 71 15- 3^ - : :5 7 -: c 064 0 y 129 7? 12 12 116 76 1 3 12 1 33 71 15- 39? 4:3 ~:. "■ 064 5 a 123 77 12 13 1 17 75 14 1 1 1 35 71 15- * U Zi •i :c 7 : c. 065 0 •a 1 17 77 13 11 122 74 15 1 1 137 70 15- 3 '? ■> ?i^ — ; c 0655 9 121 77 13 12 124 74 15 12 142 70 15- 389 it ; 725 07 0 0 ? i a o 77 13 11 1 26 74 14 1 1 142 70 15- 39 s 3 = 1 7 ■ 5 07 05 7 1 1 ? 76 13 11 123 74 14 12 142 70 1 5- 3 ? '* : : *"• — : ■* 071 ft 9 u"? 7r-\ 1? 12 129 7 3 IS 1 1 143 70 1 5- ■ -j w S3: *■ ' 0715 8 1 09 76 15 10 1 1? 73 15 u 136 70 \ - - ": j ~~* ;■ 4 7 ' ■" 072 0 •a 10? 75 15 11 1 03 7 3 15 10 125 70 1 ••- 3 H4 2 1 ': -- . c_ 0625 6 137 ' ? 12 11 120 * -: 12 13 132 7 i 14- ■^ a "-. 4 -7 ■ : .• TINE u : 5 HMP5 ' r'Ml.S I.I l r. HMD* ' MM '■i : r »> itr i-'i.i I' 7 MPH DEG DEG NPH DEG DEG MPH DEG DEG 06 3 0 0 1- 50 1 1 124- 7 12 1 3 0 0 06 3 5 ft 1- 50 12 117- 7 12 125 0 f'640 0 1- 50 12 1 13- 7 12 31 0 IV. 4 ?. 0 3_ 50 12 120- f; 1 1 r* r> 1 0650 . 0 1- 50 1 1 124- 6 1 1 : 02 3 OS 123 01 ' c." '** '' T s TIME tier; ML] :D2 i,i-: i win PHI tim TMP1 PVR K -• T* THC CH4 cn D3 PPE PPE PPI: MPH DEG C'CT DGF DGF c •: m PPE: PPE PRE PPE PPE 07 3 0 0 0 0 o 106 37 71 1 0 0 1 1 37 3 2 3 8 56 3 34 07 35 0 o 0 3 1 16 27 7 0 1 1 0 0 1 380 I 24 1 f * ' fc" .4 07-10 n 0 0 £ 1 £ 0 37 7 0 1 1 i 0 1 3": 8 2 36 " ' ' 34 i'i r-»T' n 0 o o 1 16 37 7 0 1 1 3 o 1 3 36 2 2 9 5 7 ! r4 0750 0 o 0 3 1 14 8 7 7 0 12 3 0 1 326 229 1 '.' 7 1 34 0755 0 0 o £ Q J 87 7 0 1 1 4 lj 1 3 3 ? 2 3 3 ,. - . ,- 23 0800 !• £ 0 3 94 37' 7 0 12 #-, 1 1 356 34 6 5 7 *' - r 0 3 05 0 0 o c- 101 86 71 i 3 »-» 0 1 3 4 3 I 34 3 5 ' '. .' 0310 0 0 0 4 1 06 25 71 1 3 Cl 1 1 3 39 I £51 5': • c 0 3 1 5 c. o 0 4 -C; .-.c- 7 0 1 3 10 1 1 ^ *"2i I34v- 5 7 5 .'-4 0320 0 0 0 4 80 O O 71 14 12 1 1 3 5 3 -• ^i s 607 • c* 0725 0 1.1 o 3 1 13 27 71 1 1 0 1 1 ■> "i ■> i. 3 3 553 *:s 1 I C- 1493 FIG. 6 TIME 10:3 '•it' 3 PH2 TMP2 1.1 S3 '•ID 3 PH? TMP3 l.l '4 I.ID4 PH4 TMP4 DTI TJT3 P&E : MPH deg PCT DGF MPH DEG PCT DGF MPH DEG PCT DGF HOG H[>'3 Ml* 0730 *^ ^03 75 13 11 93 73 14 10 113 70 15- 399 ?-«! 735 0735 8 lie T 13 10 103 14 10 117 70 15- 399 *■ EC — .- e 0740 -> 113 ^cr 14 11 103 73 14 11 117 7 0 15- 399 • .^ w ~" € c 0745 117 -*e- 14 10 102 72 14 10 121 70 15- 3*9 293 ■■ ; r 0750 t 110 75 13 10 97 72 14 9 114 70 15- 399 34 1 7 '-■ 5 0755 7 ?7 75 14 10 92 72 14 8 112 70 15- 399 j ;ct 735 0300 3 101 75 14 18 93 73 14 11 112 70 15- 39? 259 ™C «", 0:305 10 103 74 15 11 1 00 72 15 11 117 70 15- 399 133 ~" - *\ 0310 103 74 15 10 100 « c 14 9 114 70 15- 399 \ :-i T* - c< 0915 9 36 74 15 12 34 72 14 10 101 70 15- 399 i->c. 785 0320 o 33 74 15 11 92 72 15 10 104 70 15- 399 137 — - C 0725 :3 130 75 14 10 114 73 14 9 125 70 15- 399 354 71^ TIME '•1-5 HI.ID5 i..'WD5 1.1:9 HLID6 ' /1.1D6 1.1:7 HMD 7 VI.ID7 MPH DEG DEG MPH DEG DEG MPH DEG DEG • 0730 0 1- 50 10 103- 5 11 103 2 0735 0 1- 50 10 1 06- if. 1.0 113 2 ■ 074 0 0 g«. 50 11 104- 2 11 118 3 0745 o p_ 50 9 106- 6 10 116 2 0750 0 1- 50 10 101- 6 9 109 1 0755 0 2- 50 9 94- 6 3 103 z> 0300 0 o_ 50 11 102- 4 11 103 4 0:305 o 3- 50 11 104- 5 11 112 1 0310 0 ^_ 50 9 108- 9 9 110 4 0815 o 2- 50 11 83- 6 10 93 1 0320 0 2— 50 10 94- 9 10 101 2 0735 0 1- 50 9 116- 6 10 120 1 TIME WI'Vl I..JDV2 I ■IDV3 l.l DV 4 HI.IV5 '• .'i.r..":, HM'v'6 VWV6 MWV7 VI.IV7 PR I H r, >-» 0 0745 54 518 16? 633 1 0 7C 6 42 1 0 0750 31 357 64 496 3 0 30 6 132 2 0 0755 34 -i ?> . -> 44 65 3 1 0 4 0 133 4 0 0300 2 36 306 19? 261 1 0 166 6 334 3 0 03 05 435 501 9£ 1 0 104 9 33 0 3 0 03 1 0 g95 45 138 466 0 0 £43 11 78 6 0 0315 -' ■— cr cr Q 135 31 0 0 0 63 ? 230 3 0 033 0 4 13 465 6 244 1 0 62 3 163 3 0 0335 34 456 20 59 0 1 0 13 4 336 4 0 » 023 09 23 01 29 - 7 cr T I ME nq'>: MO 3D2 l.l : 1 i.iPi PHI 1 IN TMP1 PYP H2S THC CH4 co C ".■ PPD PPD PPE MPH DEG f'CT DGF DGF ■: c n PPB FFl PPF PPP c cl 03 3 0 0 0 0 4 £9 '-' r . 71 14 17 £ 13 4 }: -■ ^ s , ■: 0 3 ;>-. 03 35 0 0 0 5 68 ." cr 70 14 £3 -> 351 .:'5 3 , T 90 35 034 0 0 0 0 c 84 86 71 15 34 4 36 3 368 r l"l 1 . 36 084 5 0 0 0 4 7 ^ 84 71 15 19 --> 1 356 -. — c- 1 •: 1 -"' 0350 0 0 0 4 so 84 71 15 c z* -» ;:*.■ -• -' -' ci ►-■. - r ',.C 0355 0 0 0 4 66 -• 1; 7 0 15 ; r. ■5 36 1 -• O "^ - ; ■ ?■? 0900 0 0 0 4 39 ::: '■'. 71 17 48 4 j. 1. 8 3 1 9 •-'. c. :* :-. 09 05 0 1} 0 3 7 ": 91 70 16 3^> 3 "•■ ' :: 3 3 :' ! , "■,*. ; s 09 1 0 1 n 0 5 35 81 7 0 1 8 43 9 398 368 7 0 c.' :•; 09 1 5 0 0 0 4 112 31 71 19 49 **, 39 0* ■..■it 1 7 •'' ". ~ 0920 0 0 0 r 78 81 . 71 17 47 j» 3 7 0 ♦ 3 35 7 -' "■: ?6 0385 0 0 0 4 74 86 71 13 13 . ^ 1 35-.. 1 36 0 1 .93-4 -"-• II C-1499 FIG. 6 > . TIME 1 WS2 UI'3 PH2 TMP2 1.1:3 ••ID 3 PH3 TMP3 1.1:4 l.i D 4 PH4 TMP4 DT1 t'Tj p-f : 1 MF'H deg PCT DGF MPH DEG PCT DGP MPH DEG PCT D*P HDG HI"} MIP 1 0330 cj 76 74 15 11 77 71 15 9 90 70 15- 399 194 ■•oci • 03 55 11 73 74 15 13 73 71 15 10 34 69 15- 399 i-:2 7:5 ' 034 0 <* 34 74 15 11 *»o 71 15 10 33 69 16- 399 174 7:5 0545 9 33 73 16 11 36 71 15 10 102 69 15- 399 113 "* ~' C" 035 0 9 34 16 11 35 71 15 10 104 69 15- 39C 94 "■».-. c- 0555 9 76 73 17 11 30 71 15 10 97 69 15- 399 54 734 0900 7 100 73 17 9 96 71 15 3 116 69 16- 399- 11 -»•:• c 0905 3 34 73 17 10 36 70 15 9 102 69 15- 399— 16 794 0910 C; 35 75 13 10 33 71 16 9 103 69 16- 3??- 60 "*■;■ «=■ 0915 7 104 73 IS 3 93 71 16 8 104 70 16- 399- . t ^ *-• ■! c^zo g 33 73 13 10 30 71 16 9 93 69 16- 399- T;C| 734 0325 7 34 74 15 10 84 72 15 7 too 70 15- 399 157 -*.-. CT TIME MS 5 HMD5 .'I.ID5 M T 6 HIID6 ' ."•106 1.137 HI.ID7 VI.ID7 , MPH DEG DEG MPH DEG DEG MPH DEG DEG . 0330 0 l- 50 11 80- 6 9 89 1 • 0335 0 2- 50 13 73"" "7 10 84 2 , 034 0 0 2- 50 11 CO — 6 10 86 2 ' 0345 0 50 10 9 0- 4 10 93 4 0350 0 C*_ 50 10 33- 2 10 101 5 , 0355 0 3_ 50 11 c. =— 4 10 96 3 0900 0 2~ ■ 50 :3 QS— 4 9 112 C 0905 0 O — 50 9 90- 6 9 93 3 09 1 0 0 2- 50 9 36- 6 9 104 4 1 0915 0 2_ 50 •7 96- 5 9 101 5 0930 0 1- 50 9 33- 6 9 93 3 ! 0335 I 0 1- 50 9 33- 9 8 97 0 TIME wnvi i,i DV3 WDV3 I.IDV4 HWV5 < •'i.i'v'5 HWV6 VI.IV6 H»..iV7 VWV7 c-HlM ' DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HOT 0330 30 174 43 646 3 0 32 £. 154 1- 0 03 35 395 334 3 0 634 1 0 rv 72 1 0 . 034 0 *r,c-* ■-. c -» 113 433 0 0 154 10 101 2 0 0345 433 303 30 3 03 1 0 34 13 4 9 0 •c* 0 035 0 3 '', 49 0 193 797 1 0 142 9 460 5 0 0355 £95 33^ 160 397 0 0 204 9 113 ■£. n • 09 0 0 3 09 653 443 353 1 0 362 451 10 0 0905 363 £9 ~: 106 573 0 0 1 03 12 173 6 0 0 910 55 0 616 *.QC 571 1 c 334 3 0 :3 9 0 09 15 1 S3 166 143 33 0 1 0 150 11 4 10 4 0 0930 CQ 93 *%*-. 339 0 0 132 g% 343 O 0 0935 113 331 130 473 3 0 82 12 2 03 ^1 0 106101 COS 0 - 1007 1777- -4 Ch3 1 - 1 009 134100 C H S 1 - 1010 L ? L uruT 0 C'EC 026 W I T 1 PEC 037 UHIT £ PEC 0 0 0 c & Cm? DD»..iM • 1 01: 134100 C Ft .. 1 - 1 017 L UN 1 T 0 PEC 0 36 t.ir t 1 t 1 P-EC 023 Lit * 1 1 C. ' •PEC 0 0 0 5 03 3 1031 01 '29 '75 TIME H'lX fin r.[J2 M31 UDl PHI PPfc PPB PPE MpH DEG PCT TIM TMP1 PVP H2V THC CM4 CD D3 DGp DGF CCM PPE PPl PpD PPP P"PP 103 0 ri 149 71 61 1 157 0 1314 lCV'J II CM 500 , FIG-.J& - -.- TIME M:= WD2 PH? TMP2 M?3 WD3 PH3 TMP8 ».»^-4 I-IP4 FH4 TMP* DTI DT2 PPEC MPH DEG PCT DGF MPH DEG PCT DGF MPH DEG PCT DGF HDG HDG PUP 1030 11 152 69 24 146 21 12 160 66 22- 39?- 6* 724 TIME HS5 HMD5 Vt.il'5 1.1*6 HWD6 V'.'D6 W37 HWD7 VWD7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 1020 1- 50 12 146- 12 150 13 TIME WBV1 MDV£ I.I0V3 I.IDV4 hi.iV5 VW«5 HMV6 VWV6 HMV7 VWV7 PhIM DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 1020 435 73 £4 363 84 023 10 23 01 • 2 3 s~? c* TIME NDX mo SD2 Mil WO 1 PHI TIN TMP1 PYR H2S THC CH4 CD a? PPB PPB PPB MPH DEG PCT DGF DGF CCM pe>B PPB PPB PPB PPB 0330 0 0 0 4 93 81 71 17 45 5 14 07 1343 1690 33 0335 0 0 0 3 30 80 71 18 47 4 1330 1 356 1717 ^■C O940 0 0 0 3 72 80 70 17 47 3 1 337 1 36 1 17 38 35 0345 0 0 0 5 70 31 71 19 50 4 1337 1356 1693 36 0350 0 0 0 3 56 80 71 18 51 4 14 00 1334 1673 35 0355 0 0 0 3 56 81 71 19 52 3 1436 1 33 1 1633 3-f. 1000 0 0 0 3 54 80 71 19 54 o 14 02 1334 166 3 ?A 1005 0 o 0 2 65 80 71 19 56 "ji 1444 1353 1795 37 1010 0 0 0 3 123 80 71 81 53 3 1370 1314 178 3 33 1015 3 0 0 7 153 T'c' 71 23 59 3 1 333 1388 1654 3 >' 102 0 0 0 0 7 143 71 83 61 l 137 0 1314 1656 2-9 0925 0 0 0 4 £•■-' 30 70 IS 44 4 14 00 1373 17 0 0 35 TIME WS2 WD£ PH2 TMP2 WS3 I..JD3 PH3 TMP 3 W84 WD 4 PH4 TMP 4 DTI DT8 F'l MPH DEG PCT DGF MPH DEG PCT DGF MPH DEG PCT DGF HDG HDG ' 'IIP 0330 7 93 ?a 13 3 86 72 16 •^ 101 70 17- Q3 "»OC 0335 < 32 72 13 o 77 78 16 7 96 70 16- ?•'??"" i •>:. ■ "34 034 0 7 77 72 13 -? 72 73 16 6 89 71 16- ^;mw — '"•tl "34 0945 3 69 72 19 3 66 73 17 7 93 72 17- 39?- ■:• < r>4 0350 7 60 72 19 -? 72 73 17 5 133 72 13- 3?? 4 3 "94 0355 6 65 72 19 6 90 73 13 5 134 71 19- ~>,'~A~4 76 7 34 1000 6 64 73 20 5 90 73 19 6 148 71 19- yuu 41 "84 10 05 5 77 72 21 6 102 73 20 5 14 0 71 2 0- ": -u u — 11 ~?4 1010 6 142 T?0 C C o 150 73 20 9 178 70 81- ~-> ^i-^t — 17 -34 1015 10 160 70 34 12 157 70 83 11 174 67 r**r» — "•; U -a — J4 ■34 108 0 11 158 63 34 13 146 63 21 12 160 ^6 23— 7£QC| _ 6 3 "34 0925 •p 34 72 13 8 85 72 16 8 ?e- 7 6 8? 10 034 5 0 £— 50 < 70- 3 7 93 15 095 0 0 C ~~ 50 3 76- 2 5 126 21 0955 0 £- 50 e- 9 3— 4 5 123 19 1 0 0 0 o 1- 50 4 94- 10 6 135 13 10 05 0 =; 12 149 66 O "? 13 165 63 cl2- 3 ? 9 - r ■-. 7 34 1045 10 150 ^.k *~,e~ 1 1 145 66 11 .57 6 3 2 3- 399— *^c 7 34 105 0 10 150 66 •-. c 12 146 65 23 12 165 £2 23- •": 'Zi q — ti 7? 4 1 055 10 156 66 Z' c 12 149 65 w .5 12 v£ •^ ^i 23- ": o **4 — .; a 7 : -i 1 1 0 0 10 157 65 ■;-c- 11 150 K-5 24 10 ^ c 63 -* ~i— 399- 90 ~3 4 1 1 05 Q 152 65 26 11 146 65 C 2* 10 L61 *z- S ?-j_ 3 ? 9 - ?4 73' J 1110 n 156 64 26 12 152 64 24 11 166 62 24- 3 -a a _ -■ a i ~ *• 1115 £ 176 65 26 ■t> 1 64 24- 399- ill 7 ■ 4 1120 9 £02 64 "•~* 10 202 ^ c 35 10 : 0 ? 52 ;. c-_ 3 9 9 — ; c 784 1 025 11 14? 68 24 13 144 *7 21 11 1 6 3 64 ■Z. J." O . . 50 r: 4 TINE WI5 ! HW05 ' 'l.l'iS '•I 1 6 HW06 ' 'MD6 W?7 HMD7 VMD7 NPH DEG DEG NPH DEG DEG NPH DEG DEG 1 0 3 0 0 1- 50 11 • 150- 6 1 *> 152 3 10 35 0 £ — 5 0 1 1 152- 4 11 154 o. 1040 0 ;»__ 5 0 1 1 1 5 C« - ji 1 ■'• 154 ■S 104 5 o 1- 50 1 1 145- 4 12 14? ? 105 0 o 1- 50 11 146- f 1 2 154 2 1 055 0 2- 50 11 149- •A 1 2 152 ^ 1100 0 1- 50 10 150- C* 10 154 4 1 1 05 0 1- 5 '"i 10 146- * . 1 0 150 7. 1110 0 1- 5 0 \ \ 1 5 3 - 6 1 1 lc.4 3 1115 o 1- 50 7* 162- 1 8 16 ? 4 1120 0 1- 50 M 196 0 • 10 193 i 1 025 0 £_ 50 12 146- C> 12 152 5 - • - - ■- - II C-1502 WDVl MDV2 WDV3 MBV4 H'.l f. TIME •.'5 •• 1-155 HMV6 VMV6 HWV7 VWV7 CAIN PEG PEG BEG peg n E6 DEC DEG I'EG DEG DEG HDT 1030 440 258 61 397 I 0 6 335 2 0 1035 11 263 34 345 0 0 65 P 370 2 0 10-40 2 03 66 106 4 09 0 0 i c 9 50 o En 0 1045 3S? C;c; 60 369 2 0 109 10 230 3 0 1050 69 353 113 453 2 0 15 5 395 1 0 1055 190 AC 73 344 0 0 213 5 236 1 0 1100 17 3 357 69 80 1 0 92 10 92 5 0 1105 €■£ 104 16 230 1 0 124 10 196 1 0 1110 1302 181 184 3ftS 2 0 212 12 4 0 1115 198 644 261 469 1 0 126 15 437 4 0 1120 0 442 264 289 2 0 233 15 395 r 0 1125 206 321 373 216 1 0 202 13 233 5 0 023 1 223 01- / 2-5x7 5 TINE NOX MD SD2 MSI WB1 PH1 TIN TMP1 PYP H2S THC CH4 CD 03 PPB PPB PPF MPH DEG PCT DGF DGF CCM PPB PPB PPE ppp PPB 1130 0* 2 0 7 133 68 71 26 62 1 1343 1302 1659 42 1 1 35 0 0 0 o 136 68 71 27 73 1 1343 1 892 1641 43 1140 0 0 0 7 196 67 71 26 S3 1 1 35 1 1233 16 £9 4 3 1145 0 0 0 9 194 67 71 27 CgO 1 1353 1287 16 £9 4£ 1150 0 0 0 11 190 67 72 27 O"? O i 1 1351 13*0 1649 44 1155 0 0 0 11 135 67 71 CO 34 1 1341 1 885 1651 43 1 2 0 0 0 o 0 9 133 67 ■? r* 27 0>~? 1 1341 189 0 1654 44 12 05 0 0 0 12 170 £ 7* 72 27 ;->;:> 0 1343 1895 1663 44 1210 o 0 0 18 174 £"? "2 83 ©*D 1 1 343 1899 1654 44 1215 o 0 0 11 132 67 72 :>-? 87 0 1339 1 392 1644 44 1820 0 o 0 12 134 67 71 23 86 0 1334 1 895 1654 44 1125 0 0 0 6 190 67 71 26 *"2 1 1346 1390 1651 48 TIME WS2 WB2 PH2 TMP3 WS3 WD3 PH3 TMP3 1,134 l.'P4 c;H4 TMP4 DTI PT£ ppES MPH I'EG PCT DGP MPH DEG PCT DGF MPH DEG PCT DGF HDG HDG IBP 1130 11 197 63 37 13 198 64 -,C. 12 204 68 35- 399 — i ":• 734 1135 12 193 63 07 14 193 .64 25 13 203 62 -,Ci — 399- 7,=l 7 •-: J 1140 11 804 63 I»T> 12 197 64 c!5 12 804 63 85- 393- r < 784 1145 13 8 04 63 CO 14 196 64 25 15 206 68 26— 399- ?6 734 1 1 5 0 15 196 £w S3 16 1 33 63 26 15 202 61 26— 399- •Z\ "; 734 1155 15 194 •S 2 oq 17 190 63 36 17 204 61 26- 399- 7? 734 12 0 0 13 190 *£.•— £'8 16 1 34 63 26 17 193 61 26- 399- o, ** 784 1805 16 176 62 £9 16 172 6 3 19 185 61 26- 399- 1 08 734 1810 16 ISO ij2 £9 13 176 63 26 13 133 61 co— 39 ?— 1 06 ?•': 4 1815 15 1 9 0 62 29 13 183 63 C"7 13 £06 61 •V M -1 — *^CT 7 34 182 0 16 192 ■; ^» 89 13 1 S3 63 26 13 80 0 61 86— -',-U Ci — O f 7 34 1125 10 20 0 63 c'7 11 192 64 11 £03 62 25- 39?- 7 3 734 1 1 ME I..II5 \ 1MD5 < .•'•! 05 l.t £6 H'.ID6 ' ,-MD6 1057 HMD7 v'l.lDT- MPH I'EG DEG MPH DEG DEG MpH PEG DEG 1130 0 &■" 50 12 133 0 12 135 o ... 1 1 35 0 1- 50 13 192 0 13 139 8 114 0 0 c 50 12 182- 4 18 133 6 1145 0 8- 50 , 13 1 8 0 o 15 133 •J 1150 0 2— 50 15 134- C 15 134 4 1 1 55 0 ^»_ 50 16 138- 4 18 183 4 1 8 0 0 0 c "" 50 15 131- 1 17 130 6 12 05 0 £ — 50 17 17 0- 4 19 178 c( 1210 0 2- 50 17 174- 4 19 176 4 1 2 1 5 0 • 2- 43 17 184 0 ' 18 133 9 182 0 0 2- 50 17 134- 5 19 134 4 1185 0 c_ 50 11 133- 3 11 189 5 II C-1503 TIME. MIiVl "MDV2 WDV3 MDV4 Hi.iV5 •."•>V5 HMVe VMV6 HW7 V'-'V? Pf(IM DEG PEG I'EG PEC-. DEG DEG DEG DEG PEG DEG HDT FIG. 6 1130 226 e' "* T* 286 2 56 0 0 170 26 4 53 12 0 1135 4 73 4 1 •! 204 376 2 0 170 21 233 14 u 1140 145 <^-» ^ 146 417 2 0 231 14 356 3 0 1145 27"? 150 230 55'? 2 0 221 IS 241 9 0 1150 ■eo 110 ?7 4 £2 0 0 123 15 462 10 0 1155 C -■ 123 35 101 1 0 120 12 --••S3 3 0 1200 1 06 154 145 ^62 2 0 61 13 473 6 (J 1205 611 132 13 104 0 0 141 9 416 4 0 1210 615 ■• T* *> < c 323 2 0 257 10 360 4 u 1215 recj 212 310 444 3 13 117 21 240 9 0 1220 8£ 104 2 36 ISO 2 0 133 7 21? 3 0 1225 313 513 102 130 I 0 112 12 163 5 0 023 1 TIME 32 3 01 NOX • 29 -'7 S02 1.131 ".ID 1 PHI TIN TMP1 PYP H22 THC CH4 CO 33 PPE PPE PPB MPH DEG PCT DGF DGF COM PPE PPE PPE PPE PPP 1230 0 0 0 12 185 66 72 23 35 1 1326 1292 1637 45 1235 1240 (1 0 0 10 186 67 ~?^ 28 34 1 1331 127 0 1610 -,- 0 0 0 3 173 67 73 23 86 0 1336 1253 16 05 44 1245 1250 1255 1300 13 05 1310 1315 1320 1225 0 0 n 0 0 0 0 0 0 3 •a 133 136 173 66 66 67 7 3 73 74 27 C ( C •-' 32 73 77 0 0 2 1326 1331 1339 1265 1265 1263 1607 16 05 1597 44 45 45 0 o 0 n n o 0 0 o 0 0 o o 0 0 9 3 7 3 134 176 134 193 2 0 0 66 66 65 *»0 •' -' 74 74 74 74 27 z\"?- 28 30 31 72 69 71 0 o 0 o 1 1331 1329 1331 1317 1312 124 3 1246 1255 1265 1273 1535 153 0 1597 1 6 1 7 44 4 5 44 44 4 5 0 o 0 12 173 67 "7;I» £>0 /-.cr 1 1 334 1302 1661 4j ♦♦♦♦♦♦♦♦♦♦♦♦♦* ♦«♦♦♦♦ ♦♦♦♦♦♦♦♦♦♦♦♦*♦♦♦ TIME W32 I.-IE2 PH2 TMP2 WS3 WES MP'H DEG PCT DGF MPH BEG 1230 1235 1240 1245 125 0 1255 1 3 0 0 1305 1310 1315 1320 1225 15 14 12 11 10 13 15 12 11 1 29 1 9 0 185 2 02 197 134 197 19 0 12 204 13 203 16 185 62 63 r. .;! 62 62 62 61 29 29 29 29 ■-»C 30 29 29 29 29 ?<* 17 16 14 12 11 14 16 14 12 13 14 17 134 134 131 194 197 1 83 1 93 1 35 136 2 02 2 04 134 PH3 jmp3 1,1.54 ..'D4 PH4 TM°4 DTI D'L f c E " PCT DGF 63 27 64 27 64 27 64 23 64 22 64 27 PH DEG PCT DGF HDG HI'1? M 19 193 61 399- ;. c* — 17 197 61 27- 3 9 9 — ?i 14 197 61 C i 399— •?4 r 13 303 0 7_ 399- 37 7 12 213 A -" 27— 3?9— °5 7 14 206 »£.£ JJA ■},■!) Zi — '3 5 7 16 2 06 61 i^'7— * Cj -U — •u z* 7" 14 2 0 8 61 27- • .; •-! •-* — : : ' 12 2 04 61 27- 'j'Zt Zt — £' :: 12 209 61 -* 7— 339- 54 7 14 214 61 "' 7— **•!< -I — ':'. 17 2 0 0 61 26— ^ 'U ' J — - - , 7 1ME i.i - «r HUB 5 '• 'Ml' 5 M'16 HMD6 ' •i,iD6 U'l 7 hi.il'7 VI.JD7 MPH I'EG DEG MPH DEG DEG MPH DEG DEG 1230 0 •^_ 50 16 182- 5 19 181 ■~< 1235 0 £■*— 5 0 15 132- 3 17 130 cr 124 0 0 c — 50 13 173 0 14 1 8 0 '-* 1245 0 £- 50 12 190- 4 1 3 139 6 125 0 o 2— 50 11 192 0 12 193 9 1255 0 £— 50 13 194- - 15 1 3 8 r 1 3 0 0 0 *%m* 50 15 138- 2 16 189 Cj 1 3 05 o 50 13 134- 4 14 186 4 1310 o 5 0 I 1 134- 2 1 3 135 t* 1315 132 0 o ^ _ 50 12 1Q7- ■^ 12 192 6 0 £_ 50 1 5 193- 2 . 15 I *J 6 5 1255 0 c'_ 50 16 133- 4 17 134 4 II c- FIG. 6 TIME l-'DVl WBV2 MDV3 MLW4 HMV5 VMV5 HMV6 VMV6 HMV7 V«V7 PflIN DEC PEG DEG DEG PEG DEG DEG BEG DEG DEG HOT • 1330 333 30 166 373 1335 1S40 1345 1350 1355 1300 1305 1310 1315 1330 1335 17 674 317 341 547 3«%s 5*4 379 286 104 72 1 642 133 506 744 518 3 is 50 34 47 £6 >0 03 34 09 34 73 9 30 ?3 1 3 1 306 50? 6197 316 345 66 63 33 143 130 300 330 60 73 395 314 307 13 9 15 13 17 32 15 11 13 19 14 31 382 56 666 386 43 3 424 102 394 204 655 590 494 3 5 14 10 10 3 3 7 6 6 5 H HI VOL =3 • 5 023 1355 01 '29 '75 TIME MOX M3 80S MSI WB1 RH1 TIM TMP1 PYR H2S THC CH4 CD 3? PRE PPBBFNH PPB MPH BEG PCT BGF BGF CCM PRE PPB PPB p'pB PRE 1350 189 64 74 ?* 1 1314 1295 163' 43 TIME WS2 WB2 KH2 TMP2 MS 3 WB3 PH3 TMP3 1.1-4 1,1 D 4 RH4 TMP4 DTI DT3 PP'E* MPH BEG PCT BGF MPH BEG PCT BGF MPH DEG PCT BGF HBG HBG HEP 1350 11 202 60 30 12 2 02 61 12 212 60 28- 399- TIME WS5 HWB5 VMB5 MS6 HWB6 VWB6 MS7 HMD7 VMD7 MPH BEG DEG MPH DEG DEG MPH DEG DEG 1350 50 11 193 12 194 TIME MBV1 MBV2 MBV3 MBV4 HMV5 VMV'5 HWV6 VMV6 HWV7 VMV7 PRIM BEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 1350 405 116 174 21 31 10 17 & ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦»•♦♦♦♦♦♦♦♦♦♦♦♦«♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦«■<•♦♦♦♦<♦♦♦♦♦♦♦♦♦♦♦♦«♦•♦♦♦** 023 148? 01^29^-75 TIME HOX MO iD2 MSI WB1 PHI TIM TMP1 PYR H?l TMC CH4 CD D3 PRE PPB PPB MPH DEG PCT BGF BGP CCM PRE PPE PPB PPB ^?- 1330 1 o 0 6 194 £ C 74 30 -?**» 1 1381 i y ~* [834 4? 1 335 0 0 0 7 1 88 65 74 89 75 1 309 1 - 1 -■ 1687 44 134 0 0* I 0 7- 190 84 -•c £3 65 £ 1314 1 Z' •"' *? 184 9 45 1345 0 0 0 7 808 84 74 29 71 2 321 1 2,:,7 •5 49 4 3 1350 o 0 0 i 1 39 84 74 C - ^ C" 1 314 1295 [ 6 3 7 4? 1 355 0 0 0 K 19 0 84 T4 ,^» Z4 81 4 317 1 8 '~A '~* r . -', ,-" 4 ':■ 1 4 0 0 0* Jl 0 ^, 197 84 i z'. 89 60 1 312 1 ^.^c >-; 24 ■«3 14 05 1* •s 0 5 202 64 71 29 53 2 312 1 - O ~ i: 4-1 4> 1410 4» 5 0 o 194 85 70 30 c ;. 1 3 1 9 1298 1 -J n 4}: 1415 c C" 0 1 192 84 71 3 0 54 2 "'•T^ 1297 ►" *^t c" J s 1420 2 1 0 6 2 0 0 64 71 ^•^1 59 1 1 3 34 1 304 ;• i 3 44 13?5 0 o 0 4 194 65 P4 29 7*9 1 1 319 r. 32 44 »«(M(cMi»Mii(HtmiMHMttMMtmt > TIME w:2 WD2 PH3 TMP3 (.123 WD 3 FH3 TMP3 MS4 MD4 PH4 TMP4 DT1 DT.3 PPE : MPH DEG PCT DGF M^H DEG PCT DGF MPH DEG PCT DGF HDG HIG MES 1330 3 30 0 61 30 10 193 62 28 10 212 60 28- 399- 35 r*p "s; 1335 10 134 61 30 11 19 3 63 23 10 212 60 28- 399- i*.t ' ? "*■ 134 0 10 30 0 60 30 13 197 63 2S 11 213 60 399- 86 7 z '■ 1345 10 303 61 31 13 2 06 ,: z> 23 12 221 60 2'~^— 399- 10.3 ■ -■:■-■ 1350 11 302 60 30 13 2 03 61 23 12 212 60 23- 399- Off ~ 3 l' 1355 10 133 60 31 12 194 62 23 10 212 60 il o — 399- 3? 732 1400 10 206 60 30 11 2 03 61 23 11 213 60 23- 399- 100 '33 1405 9 212 60 31 10 313 61 29 10 223 60 2>>- 399- 39 ■* ^ > 1410 10 133 60 30 13 193 61 39 13 213 6 0 •»«— 399- ;-;'-' »0 5 1415 10 136 60 31 11 196 62 39 11 212 6 0 23- 399- 30 -O 5 1430 Cl 213 60 31 10 3 09 62 39 9 222 60 39- 399- 31 ". C'C 1325 3 132 61 30 9 300 63 33 9 214 60 28- 399- 37 ' '3 3 TIME MT5 HMD 5 .•''•ID 5 M.6 HLID6 v'MD6 MS 7 HMD 7 VMD7 M^H DEG DEG MPH DEG DEG MPH DEG DEG • . 1330 0 3- 50 9 194 0 10 194 11 1335 0 3- 50 10 139 0 11 193 10 1 34 0 0 3_ 50 11 194- 4 11 193 6 1345 0 3- 50 11 202- 3 13 302 6 1350 0 C»— 50 11 193 0 13 194 9 1355 0 o_ 50 11 192- 6 10 194 4 1400 o 2- 50 11 197- 5 13 30 0 3 14 05 0 3- 50 10 303 0 10 303 s 1410 0 50 11 133- 3 13 194 6 1415 1 3- 50 to 193- 1 11 193 3 1430 0 3- 50 9 204- 5 9 203 4 1 325 0 3- 50 p. 196- 7 3 197 4 TIME WD VI WDV2 WDV3 WDV4 Hi.i'..'5 l.i'v'V5 Hi.i'v'6 Vi.i'v'6 HI.IV7 VMV7 ► HlH DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 1330 434 346 35 335 1 0 4 34 496 C» 0 1335 345 er JUL- -'S"* 1 0 135 30 410 1 0 o 134 0 313 ■> — 316 3 '~* *■■ 1 o "5 12 6 c» 0 1345 24 0 -' O 't* 54 1 0 44 10 93 c 0 1350 jftTfl 4 05 116 174 1 o 31 31 10 17 0 1355 647 137 33 313 c 0 93 13 O "' c. -? 0 14 00 r -•-■ 376 93 "' 7 - 2 0 336 17 CC'3 7 0 14 05 l? 74 116 343 2 0 102 19 563 Q 0 1410 4 03 '£' £ i;. 130 163 1 0 34 13 433 7 0 1415 310 130 363 173 ■Q 0 7 16 5 01 © 0 141-0 230 OQ 34 2f -* ■-■ 1 0 32 13 236 7 0 1435 764 93 13 cl c' S 2 0 334 16 434 *2- 0 ♦ ♦♦•♦♦♦*«-« 02 3 1533 01 TIME NDX PPE ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦it** 4 ..-..-. . •? c: *>♦♦♦♦♦•♦♦♦♦«•♦♦♦♦♦♦«♦•• '39 MD PPE 302 f-TT: M S 1 MPH MD1 DEG PCT TIM TMP1 DGF DGF PVR CCM H23 PPE THC PPE •:h4 PPE PPE 33 RPfc 14 30 14 35 144 0 14 45 14 5 0 1455 1 5 0 0 1505 1510 1515 1520 14 25 1 0 0* 1* 0 0* 0 3* 0* 1 10 10 • 1 1 10 1 1 9 9 10 10 1 1 192 194 133 188 186 134 203 196 139 133 193 123 64 64 6 3 64 64 64 64 64 64 64 71 7 0 70 7 0 7 0 7 0 7 0 7 0 70 7 i.i 71 71 30 30 46 45 43 4 3 41 39 41 4 0 1 1? 0 1 3 o i :• 0 1 3 3 1 3 3 1 3 3 13 £ 1 3 3 13 4 t 3 4 i : 1 1 3 39 1321 3 1 1317- 31 1314 31*1326 26 ♦ 1 34 3 36*1 361 51 ♦ 1 37 0 ?9 ♦ I 37 0 4 ■-: ♦ l '■■ - 3 63*14! A 73*1434 29 1304 ful 54 71 1 0 17 4 3 4 3 4 :.' 4 J: 41 41 41 41 41 41 43 4 3 II C-1506 FIG. 6 TIME 1430 14 35 1440 1445 1450 1455 1500 1505 1510 1515 1510 1425 MPH 14 14 16 14 15 1? 12 15 14 14 13 9 Ml" 2 PEG 199 20 0 20 0 1 94 1?? 204 206 197 199 197 200 139 PH2 TMP2 PCT P'3F 60 60 59 5? 59 60 60 59 59 59 59 59 31 ?1 31 30 30 31 30 31 30 ?1 31 31 1,1:3 MPH 16 17 12. 16 12 16 15 13 17 16 14 11 MD3 PEG 193 19?' 196 192 139 1 93 193 190 192 194 194 1 33 FH3 TMP3 PCT DGF 61 61 61 60 60 61 61 61 60 61 61 61 29 30 2? 23 29 3 0 29 £9 29 30 £9 29 1.1:4 MPH 16 13 19 17 19 16 16 19 17 17 16 12 MP 4 PEG 20-: 12 06 06 02 10 13 04 06 06 02 02 FH4 PCT 6 0 60 59 59 59 59 59 59 59 59 59 60 TMP4 OGF PT1 HI' 6 29— 999- 30- 399- 23- 399- 23- 399- 23— Jj'j — 29- 399- 29- 399- 23- 399- 29- 299- 29_ 319- 29- 399- 29— DT2 HI'G 2 3 74 76 79 71 71 •■3 70 70 70 MI :P 7Z: :-■ 3- 33 TIME WS5 HMDS V.IP5 WS6 HWP6 MPH PEG PEG MPH PEG .'1,1 D6 PEG 1.1 S 7 HI-IP7 VWD7 MPH PEG PEG 1430 1435 1440 1445 1450 1455 1500 1505 1510 1515 1520 1425 3- 3- 2- 2— 3- 2- •^ c 2- 3- 4- 3- 43 50 50 50 50 50 50 50 50 43 43 50 15 16 17 15 17 15 14 13 139- 192- 190- 133- 135- 194- 194- 136- 16 133- 15 190- 14 19 Ct- 10 194- 16 13 19 17 19 16 16 19 17 17 16 12 192 192 133 133 136 193 194 123 123 129 192 135 TIME MPV1 1,1 PV 2 WDV3 WPV4 HWV5 PEG PEG PEG PEG PEG .•I.IV5 HIIV6 PES PEG •'I.IV6 PEG. HI..IV7 PEG yi,iV7 PEG PR IN HPT 1430 £04 25 5« 292 1435 455 ■^» 54 299 144 0 3 7 0 253 192 421 1445 334 131 291 342 1450 695 267 12 196 1455 342 74 242 141 1500 70 T?"7 2 00 345 1505 490 124 2 1 2 305 1510 20 29 3 190 223 1515 230 139 2 34 1 13 1520 1 33 142 164 ■~> ■*■ er 1525 539 144 126 265 13 0 0 0 0 0 0 0 0 1 33 13 132 13 272 0 135 224 76 241 257 212 50 13 10 S 11 13 10 10 10 12 9 10 12 56 1 23 421 17 30 -. -. -» c 50 473 342 160 •♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦«•♦♦♦•♦♦♦♦*♦■*♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦<■♦♦♦♦♦•♦♦♦■•♦♦♦♦♦♦♦ • ♦ ♦♦♦»♦♦♦♦« 023 162 3 01 .-'99 --75 TIME MD:: NO :02 WS1 MD1 P.H1 TIM TMP1 PYP H2"S THC CH4 CG Q? PPI: PRE PPB MPH PEG PCT PGF PGF CCM PPB PPB PPB PPE c 1 1 15 30 1 0 0 9 192 64 70 29 34 1 1 353* ! 32 3 176-1 4 0 1 535 1 1 0 io- 2 0 0 64 7 0 2*-1 -T* J* c 362: ♦ 14 0 0 79 1 -51 154 0 0 0 0 9 204 64 71 -9 23 3 [365 ♦132 7 775 4 i'i 1545 3 0 4 7 204 £ '"i 71 3 0 c •_• 0 373M335 1 7"-. -• 4 0 155 0 ;» 1 r rr 197 6 3 7 0 29 fc-.'f."* 2 3*1*1373 1 " ": r > ^ 1555 *> 0 4 4 204 64 71 30 97 9 375*1 395 1 7^ ~. 4 0 1 6 0 0 1 0 3 9 197 64 71 2 u 26 7 1 365*14 07 """•": ►" : ? 1605 0 0 3 6 2 32 64 71 2 3 24 f. 363* 14 07 1 -* 7 7 " :■ 1 6 1 0 0 0 4 '% 216 64 71 29 2^. •-• 363*133? 1 7=~. 1 "' U 1 6 1 5 0 0 5 ^J 257 64 71 29 13 c* 363 1??1 1 712 4 0 162 0 1 0 5 ? 24 0 64 71 30 21 C; 37? 1190 ! 6-: 3 -. 5 1525 0* 1 0 9 134 64 ' 70 - CO 1 1 351 •1392 ] " " 4 0 II C-1507 FIG. 6 > TINE l,l "5 l.![l£ FH2 TMP2 UC3 WD 3 PH3 TMP3 W34 UD4 PH4 TMP4 DT1 DT2 PPE^ MPH DEG PCT [l^F MPH DEG PCT DGF MPH DEG PCT DGF HDG HDG MI P 1530 12 200 59 31 14 193 61 29 16 £10 59 £9- 399- 67 73£ 15 35 14 203 60 31 17 204 61 30 17 214 59 £9- 399- 70 ■"■•r* Zt 1540 13 203 59 31 15 204 '60 29 15 213 59 £9- 399- t c •' r- c 1545 10 203 59 31 12 204 61 £9 13 213 59 29- 399- 64 7" - 3 1550 9 £10 60 31 10 2 03 61 ^? 10 819 53 28- 399- 64 i ^ c* 1555 3 214 60 31 10 2 09 62 30 9 216 60 29- 399- 61 782 1600 *Zf 210 60 31 p 206 61 29 9 219 60 £?- 399- 72 7 32 16 05 10 59 31 11 230 61 29 10 236 60 29- 393- 69 7*0 ;. 1610 6 Z> Z' Z* 59 31 a 214 62 30 7 226 60 29- 399- 73 7 -r 2 1615 5 241 59 31 6 234 61 3 0 6 832 60 29— t;Ci z» — 63 7- ° 1620 6 241 59 31 p 332 62 3 0 7 £42 60 3 0- 399- 69 782 1525 13 194 59 31 15 194 61 30 16 £03 59 £9- 399- *j'j 72 2 TIME U Z 5 HMDS ,'i.ili5 u £6 HWD6 ' ,'i.iD6 1.1.-7 HUD 7 VI.ID7 MPH DEG DEG MPH DEG DEG MPH DEG DEG 1530 0 £- 50 14 194- 3 16 192 3 1535 0 C[_ 50 16 198- 4 17 196 3 1540 0 3- 50 14 197- 4 15 194 3 1545 1 3- 50 11 193- £( 13 194 5 1550 0 3- 50 10 20 0- 5 11 202 5 1555 1 4- 50 9 302- 4 9 193 5 1600 0 3- 50 -> i £02- 5 9 20 0 5 1605 0 50 10 219- 5 10 216 5 1610 0 3- 50 ■? 203- 3 7 206 7 1615 0 o_ 50 6 C £L •£• *" 1 6 20? 6 1620 0 3- 50 3 224- 6 7 219 5 1525 0 •3~~ 50 15 133- 4 16 190 4 T I ME MDV1 I.IDV2 i >'DV3 I.IDV4 Hi.l'"'5 LIVVS Hi.lVG VI.JV6 H'.IV7 Vl-iy 7 C'rllM DEG DEG DEG DEG DEG DEG DEG DEG DEG DEG HDT 1530 334 2 0 0 266 132 P 0 102 10 70 6 0 1535 70 186 62 277 3 0 CO 7 129 2 0 154 0 70 2 36 241 1 0 212 C; 224 •"; 0 ■ 1545 326 12 1 36 216 c 0 200 12 294 cr 0 155 0 1 03 168 142 360 2 0 2.-7-7 a 2 36 6 0 1 555 44? 463 496 *^\c "* 1 0 425 12 345 C 0 16 00 2 z' S 394 516 1 o 9 3 1 1 6 3 0 C 0 1605 244 78 22 ££3 Zy 0 247 12 4 07 10 0 1 6 1 0 122 196 £42 361 l 0 290 1 3 146 Q 0 1615 150 r* •;■ c, 120 534 l o 157 84 213 1 0 0 162 0 73 £'3'5I cr £ 530 2 0 129 1 1 154 c 0 1625 12 44 1 223 360 -^ c o 1 14 14 317 4 ^0 >. J > ^ V \T I r .uJ-'iV. I '7<(\ II C-1S0S FIG. 7 TRAILER 024 I1ARDCOPY OUTSIDE LIGHT ON - 1329 j I i 024 1331 01 '27/75 TIME S02 WS ''ID F'H TIM TOUT H2S PPES WDV PRIM PPB MPH DEG PCT DGF DGF FP6 MBR DEG HDT 1325 CflL I 31S 72 75 29 ChL 795 1012 0 024 1337 01. --27/75 TIME £02 WS MD PH TIM TOUT H2S PPES MDV RflIM PPB MPH LEG PCT DGF DGF FPE MBR DEG HDT 1330 CHL ,1 304 72 75 29 CHL 795 623 0 ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦'*** 024 1423 01-27-75 TIME S02 WS WD FH TIM TDUT H?S PCES WDV PHIM ppg rlpH p£5 pct DGF PGF PPB MBP DEG HDT 1325 CHL 1 313 72 t J 29 CHL 795 1 0 1 2 0 1330 CHL 1 304 • f'C* 75 29 CRi_ 735 62 3 0 1335 CHL c £^£ -7 Z* 75 29 ChL 735 5-»2 0 134 0 4 1 c"?0 71 ?5 2'~* o 735 1375 o 1345 4 2 '-,Ci "' 71 29 o 735 166 0 1350 5 1 254 71 75 30 0 795 1445 0 1 355 4 3 243 70 75 30 0 •jqc? 453 0 1 4 0 0 !jl £ 254 70 30 0 795 273 o 14 05 4 0 *"; £>Q 7 0 75 30 0 795 316 0 0 1410 4 c 24 0 70 76 31 o 795 432 o 1415 5 1 3 0 0 ro 76 31 o 7rl5 177 0 o 1310 0 1 313 74 23 0 795 1 1 02 0 ♦ «♦♦*♦♦♦♦♦♦♦♦♦♦♦♦♦♦«♦♦ » !♦.♦.♦♦ • •♦♦.♦<►.•„♦.♦.♦♦♦♦•♦♦♦♦•♦•♦♦*♦♦*♦♦♦•♦♦♦*♦♦♦*' II C-1509 FIG. 7 » 024 1 513 01 '2?--, 5 • TIME SD2 w: UD PH TIM TOUT H52 PPES MDV PR Hi PPB MPH DEG PCT DGF DGF PPB MBR I'EG HDT 1450 4 5 545 69 76 31 0 795 963 0 1455 3 3 180 69 76 31 0 795 4 06 0 1430 4 2 299 69 76 31 0 795 413 0 1435 4 4 557 69 76 31 0 794 . 193 0 144 0 5 3 554 69 76 31 0 795 156 0 1445 4 3 556 69 76 31 0 795 c63 0 1450 3 3 259 69 76 31 0 795 370 0 1455 4 3 563 69 76 31 0 795 247 0 1500 4 4 545 70 76 31 0 795 306 0 1505 4 •4 551 70 76 31 0 795 359 0 1510 4 5 550 70 76 31 0 795 7S 0 1515 3 5 557 70 76 31 0 795 141 0 > 024 16 23 01 '' 5 1 ' / 1 5 TIME S05 MS WD PH TIM TOUT H5S PRES MDV PRIM PPB MPH he g PCT DGF DGF PPB MBR DEG HDT 1520 4 5 553 70 76 31 0 794 131 0 1555 5 5 565 70 76 31 0 795 180 0 1530 c- 5 254 70 76 31 0 795 513 0 1 535 4 6 250 70 76 31 0 794 176 0 154 0 3 6 70 76 31 0 794 551 0 1545 4 c 251 71 76 31 0 795 334 0 1550 5 6 554 70 76 31 0 794 158 0 1 555 C( 6 257 70 76 31 0 795 £00 0 1600 4 *5 546 70 76 31 0 795 573 0 1605 3 6 550 71 76 31 0 795 SO o 1610 4 8 245 71 76 31 0 795 156 0 1615 4 9 550 71 76 30 0 795 C •-• c* 0 > ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦«♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦••♦♦♦■♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦»♦ 054 1753 01 .'57' 75 TIME SD5 MS WD PH TIM TOUT H2S PPES MDV PRIM PPf: MPH DEG PCT DGF DGF FPB MBR DEG HDT 1650 5 -7 t 246 71 76 30 0 795 156 0 1 655 5 6 545 7c! 76 30 0 795 104 0 1630 3 5 551 T5 76 30 0 795 143 0 1635 3 6 556 < 5 76 3 0 0 795 545 0 1 64 0 4 >-. 546 7o 76 30 o 794 101 o 1645 4 5 545 74 76 59 o 795 518 0 165 0 5 CT 536 74 76 r.-p 0 794 5 38 0 1 655 c- O 536 — c- 76 2? 0 795 50:3 0 1700 O h, 536 75 76 c'8 0 795 5 06 0 17 05 3 c- C' C1 c. 7" 6 76 53 0 7 7*^1 -,cr X 0 1710 4 t" cl S- » 76 76 C- O o 794 69 0 1715 4 5 CCv it 76 c'o' I.I 795 78 0 II C-1510 FIG. 7 i 024 1 853 01 '27' 7 5 TIME £02 Wi (.ID PPB MPH BEG 1720 5 6 332 17£5 5 6 330 1730 4 5 323 1735 3 5 232 1740 3 4 230 1745 4 4 232 1750 4 5 232 1755 5 5 232 1800 5 5 234 1805 4 • 5 223 1810 3 5 230 1815 3 4 220 PH PCT 78 73 79 79 73 80 SO 31 82 33 34 TIM TOUT B6F B6F W2S PPES PPB MBP WPV PRIM BEG HDT 76 76 76 76 76 76 76 76 76 76 76 76 28 27 27 27 27 27 27 27 26 26 £6 26 735 ??5 794 795- 795 795 795 795 795 794 795 795 141 226 53 232 112 73 93 169 271 243 125 197 024 1 923 01 r'2 T y 7 C TIME SD2 1.0 ? ml PH TIM TOUT H23 FPES i,l BV PR I H PPB MPH BEG PCT BGF DGF PFB MBP BEG HBT 1820 4 4 314 34 76 26 0 795 162 0 1825 4 5 216 35 76 25 0 795 149 0 1830 KT 4 221 86 76 25 0 794 233 0 1335 5 6 226 86 76 25 0 795 74 0 1840 5 5 226 86 76 25 0 795 27 0 0 1345 4 4 £06 86 76 25 0 795 236 0 1850 3 4 204 y*£. 76 25 0 794 74 0 1 355 3 4 221 26 76 ■-*e- C. —' o 795 138 0 1900 4 5 2£6 86 76 25 0 236 0 1505 4 222 36 76 £LJ 0 7'? 5 66 0 1910 S 3 £13 87 76 25 0 794 £44 0 1915 5 3 £24 87 76 £5 0 795 £12 0 024 £ j£3 01 ■•£ 7/7 C TIME SD2 I.I \ i.i B PH TIM TOUT H23 PPES UftV PRIM PPB MPH BEG. PCT DGF 03F PPB MBR BEG HBT 19£0 c 3 222 87 76 ;.cr 0 795 *=" Q 0 19£5 5 4 37 76 £5 0 794 £16 1930 ^ 5 £3 0 37 76 £4 o 794 ££6 1935 3 c £4 0 37 1 1- £4 0 795 £59 194 0 ^» 6 £49 S3 7*~. £4 0 794 193 1545 4 5 £50 S3 76 £4 o 795 170 1950 K 4 £51 S-* 76 £4 0 7'~|C~' ££1 1 555 3 24 3 89 76 £4 0 "T'li^ 163 £ 0 0 0 er 3 L_ Z'C 89 76 £4 0 795 30 2 0 05 5 ^ CC "• 99 76 £4 n 795 1 73 £010 4 4 £41 90 76 24 0 1 . -■ £36 £015 3 3 9 0 76 £4 0 795 143 0 II C-1511 ..♦♦♦♦♦♦♦♦♦♦♦♦♦ ♦*♦♦♦♦♦♦• • ♦♦♦♦♦♦♦«4*»**«.**4*»4;*«***«4*«.»*«*4**.«««»*»»^«» FIG. 7 0£4 £1£3 01 '£7V75 TIME SC12 i.i*. i.JD PH TIM TQUT H£S PPES M DV PF.IM PPB NPH BEG PCT DGF DGF PPB MBR DEG HDT 20£0 3 4 £36 90 76 24 0 795 174 0 £0£5 4 5 243 90 76 £4 0 794 £<*•? 0 £030 4 5 £49 90 75 £4 0 795 £4 3 0 £035 5 4 £46 90 < .' £3 0 794 1£3 0 £040 5 4 £46 90 76 £3 0 794 ' 117 0 £045 5 4 £43 90 76 £3 0 795 182 0 £050 5 2 £50 90 76 £3 0 795 3££ 0 2055 4 4 £4 3 90 76 £3 0 795 £58 0 2100 3 4 242 90 75 £3 0 795 104 0 2105 3 .3 £4£ 90 75 £3 0 795 £30 0 2110 4 3 £4£ 90 75 £3 0 795 123 0 2115 4 1 238 89 75 £3 0 795 1233 0 0£4 £ ££3 01 '27'? 5 TIME SO£ US WD PH TIN TOUT H£S PPES* WDV PRIM PPB MFH DEG PCT DGF DGF PPB MBR DEG HDT 21£0 5 0 33 39 75 £4 0 795 £614 0 £1£5 er 1 £03 39 i -> £4 0 795 £311 0 £130 5 0 350 89 76 £4 0 794 1 049 0 2135 5 1 313 39 76 23 0 794 935 0 £140 3 £ £8 3 90 75 23 0 795 £13 0 £145 3 3 £74 90 75 £3 0 795 313 0 2150 3 4 £54 91 £3 0 795 1 33 0 £155 4 £ £30 90 < ■*> 23 0 795 8 < d. 0 ££0 0 4 -4 165 34 30 0 795 1£54 0 ££05 4 5 153 I < 75 33 0 795 1594 0 ££10 cr 10 133 *? T« -?1? 36 0 795 £ 3 6 0 ££15 5 11 146 69 75 39 0 794 1306 0 ♦ ♦♦♦♦♦*♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦-♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦••♦ 0£4 2323 01 -£7/75 TIME SD£ Wi LID PH TIM TOUT H2S PPES WDV PR IN PPB MPH DEG PCT DGF DGF PPB MBR DEG HDT ♦♦♦♦♦♦♦«♦♦♦♦« £££0 5 £ £36 71 •*c 31 0 794 16£9 0 £££5 O 4 77 27 0 795 531 0 ££30 3 4 £59 •I* j» t ( _' *. er C J 0 795 346 0 ££35 3 5 £6 0 C;7 75 £4 0 795 150 0 ££4 0 4 6- £51 90 T>C r»-t* 0 795 120 0 ££45 4 4 £51 91 £3 o 795 C ■_• O 0 ££50 5 i £5 0 93 75 ^_ ji 0 795 £45 0 5 o £54 Cli? 75 c? 0 795 138 0 £ 3 0 0 4 9 '""£ £ 3 0 795 4V o £305 3 9 £6 0 Q -• Ct- 0 795 £6 3 0 £310 3 8 £63 p 3 75 -. -1 cc fl 795 £ 3 0 0 £315 3 3 £4 0 9 3 T5 c c • 0 795 1££ 0 «♦♦♦•«♦♦♦««•»«*♦♦♦♦♦♦«« .♦♦♦♦♦♦♦♦♦♦♦*♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦+♦♦♦♦♦♦♦♦♦ ii c-i5i: •FIG."?"' ~ r I»AILY SUMMARY FOR TRAILER 024 01' 27-V5 IM!TANTANEOUi MfiXlMUM VMIUES £02 93U TINE 1323 US 24 TIME 221? H2S 1000 TINE 1328 MftMIMUM FIVE MINUTE FiVEPhGET $02 wi k'D RH TIM TOUT H2S RRES 30 MINUTE AVERAGES 4 TINE 1350 11 TINE 2215 349 TINE 2130 93 TINE 2345 75 TINE 15S0 38 TINE 2215 0 TINE 134 0 795 TINE iri5 TIME SD2 U? H2S PPB MPH PPB 0000 0030 0100 0130 0200 0230 0300 0330 0400 0430 0500 053 0 0600 0630 0700 0730 0900 023 0 0900 0930 1000 , 10 30 1100 1130 1200 1230 1300 CFiL 0 CFiL 1330 4 1 0 1400 3 1 0 1430 3 3 0 1500 4 4 0 1530 4 5 0 1600 4 6 0 1630 4 5 0 1700 3 5 0 1730 3 4 0 1800 3 4 0 1930 4 4 0 1900 4 4 0 1930 3 4 0 2000 4 3 0 £030 4 3 0 2100 3 2 0 2130 3 2 0 £200 4 6 0 ££30 3 5 0 £300 3 e 0 233 0 4 2 0 tifllLY AVERAGES S02 4 US 4 bHi 23? RM 80 TIN 75 TC1UT 26 H2J ' 0 F-RES 794 RAIN II C-1513 i ;tl2 07t,v, ££.'£! IMMJT f-^n LA"T rEf-Cl: it* hem rfRdi U LACT SPAN: 376 HEW SPAN: 114 H£5 0263 -m -6 INPUT «*i, ,,4 Im;t 7f.PD« p "S^ ^CPUi o LOST tPAtH 5 NEW SFftNl 1 1 -i FIG. 7 > 024 00£3 01 '28 '75 TIME SO 2320 2325 2330 2335 234 0 2345 2350 2355 0000 0005 0010 0015 2 WS MD RH TIN TOUT H£S PPES WDV RfilH E MPH LEG PCT D5F DGF PPB MBR I'EG HDT 4 4 241 93 75 22 0 795 675 0 4 3 196 93 75 22 0 795 760 0 5 2 156 94 75 23 0 795 1533 0 5 3 114 93 75 23 0 794 2632 0 5 4 74 92 75 24 0 794 0 4 2 112 94 27 0 795 521 0 3 1 345 96 75 29 0 795 P S 3 ^~» 0 3 1 132 97 c 5 29 0 795 56 09 0 3 1 334 99 75 23 0 794 19 37 0 4 3 304 97 75 24 0 795 E'c'c! 0 4 3 309 QO 75 23 0 795 7 0 0 5 3 283 99 75 23 0 795 132 0 ♦ ♦♦♦♦♦♦♦«♦♦♦♦♦♦♦♦♦■*♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦♦♦♦♦■♦♦♦♦♦♦♦♦•♦'•♦♦♦♦♦■»♦♦♦♦♦ 024 0123 01. '23*' 75 TIME SD2 WS WD RH TIM TOUT H£S PPES WDV PRIM PPE MPH BEG PCT BGF DGF PPE MER DEG HDT 003 0 5 2 £71 99 75 23 0 794 110 0 0025 4 1 293 99 75 25 0 794 334 7 0 0030 ^t 1 143 93 75 31 0 795 £133 0 00 35 3 5 £06. 94 75 31 0 795 1318 0 004 0 3 4 £4 7 96 i -' 26 0 795 1 04 0 0045 4 6 £44 *-■:-: 75 ;>rr 0 795 193 0 0050 4 c- 237 C|9 75 25 0 795 £6 0 0 055 5 4 £52 1 00 t *f» £4 0 7'~*c"t £4 0 0 0100 4 5 £69 1 0 0 T**r C* $ 0 735 48 0 0105 4 tr £74 100 75 £2 0 795 43 0 01 10 i_ 3 £52 100 75 0 735 1475 0 0115 3 0 ££ 100 • -• 23 0 795 1345 0 > 4 ♦ « •»* »- ' II C-1514 FIG. 7 024 0223 01/£3-'75 w • TIME ~ci£ WS M D PH TIM TOUT H3T PPES i.l DV PhIM PPB MPH beg PCT B6F BGF PPB MBR DEG HOT 0120 3 1 74 100 75 24 0 795 585 0 01 £5 4 2 78 100 75 23 0 795 58 0 0 0130 4 2 84 100 75 26 0 795 537 0 0135 4 2 64 100 75 28 0 795 42 0 0140 4 1 56 100 75 30 0 795 410 0 0145 4 1 176 100 75 31 0 795 752 0 0150 2 3 208 87 75 30 0 795 1397 0 0155 .3> 7 £68 83 75 25 0 795 161 0 0200 3 6 224 98 75 27 0 795 760 0 0205 3 .4 223 95 75 23 0 795 120 0 0210 4 2 237 96 75 23 0 794 4044 0 0215 4 4 249 96 75 27 0 795 1937 0 TIME SO£ WS (.JD PH TIM TDUT H£S PP'ES WBV Rfi I M PPB MPH BEG PCT BGF P6F PPB MBR BEG hut 0220 4 3 £71 99 75 £3 0 795 33£ 0 0225 4 5 £80 100 75 £3 0 794 9£ 0 023 0 3 7 £63 100 75 22 0 794 135 0 0235 C 11 £59 1 0 0 -?cr £1 0 794 1£4 0 024 0 3 £64 100 t _' £1 0 795 369 0 0245 3 5 £74 100 75 £1 0 795 £06 0 025 0 4 3 £6£ 1 0 0 75 21 0 794 493 0 0255 . 4 £ ££6 100 r -_• — C* 0 795 795 0 03 0 0 4 '£ 178 100 75 £6 0 795 1333 0 0305 4 £ 176 100 75 £9 0 795 1415 1 03 1 0 3 C| 158 99 75 0 795 864 0 0315 £ 14 164 9£ 75 36 0 795 '■$'-•7 0 ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦♦♦♦♦♦♦♦♦♦♦♦«■•♦♦♦♦♦. 024 042 3 01 -£8- 75 TIME $□£ MS WD RH TIN TOUT H2S PPES WDV PRIM PPB MPH BEG PCT DGF BGF PPB MBR BEG HBT 03£0 C 11 169 89 *7« C < J 36 0 795 943 0 0325 ^1 1£ 17£ 88 < V 36 0 795 799 0 033 0 3 10 152 34 i 5 36 0 794 £6£ 0 0 335 4 1£ 148 83 75 36 0 795 174 0 03411 4 17 138 84 75 36 0 785 £5 0 0345 4 18 130 91 75 35 0 735 182 0 0350 3 17 129 98 < _• 34 0 794 1 3 3 0 0355 £ 15 130 100 75 34 0 795 £36 0 04 0 0 Cm 14 137 1 0 0 75 34 I.l 795 46 o 04 05 £ 1£ 131 1 00 75 34 0 795 1 0 04 1 0 3 10 125 1 0 0 75 34 0 795 3£0 0 04 1 5 3 14 116 1 0 0 75 34 ' 0 795 84 1 1 •! I * ! II C-1515 FIG. 7 ' 024 0523 01/23-75 l TIME SD2 MS UU PH TIN TOUT H2S PRES WDV RAIN PPB MPH BEG PCT B6F DGF PPB MBR . BEG HDT 0420 4 15 114 100 75 34 0 795 88 0 0425 4 16 124 97 75 35 0 795 216 0 0430 4 16 140 94 75 35 0 795 54 0 0435 2 20 140 90 75 35 0 795 210 0 I > 044 0 2 18 150 75 35 0 795 370 0 0445 3 19 142 35 75 35 0 795 42 0 0450 3 21 140 84 75 35 0 795 210 0 0455 3 17 142 86 75 35 0 795 1 66 0 0500 3 13 131 83 35 0 795 189 0 0505 4 14 126 91 75 34 0 794 123 0 0510 2 15 124 91 75 34. 0 795 1 0 0515 1 14 128 91 75 34 0 795 24 0 & M MAN CfiL SYSTEM = 2 CfiL SD2 0534 01 -'28/75 M MAN CfiL SYSTEM = 5 CfiL H2S 0534 01/28/75 R 024 0536 01/23/75 TINE SD2 WS H2S PPB MPH PPB 0537 1 0 0 0 ZERO CHfiN = 2 0 ZERO CHfiN = 9 END - 0537 Y LfiST CfiL S02 0534 01/28 INPUT PPB: 114 LfiST ZERO: 0 NEW ZEPQ: H2S 0534 01/23 INPUT pp£: 114 LfiST ZERO: 0 NEW ZERO! L UNIT 0 PEC 091 UNIT 1 PEC 091 UNIT 2 PEC 000 1 LfiST SPAN: 376 NEW SPAN: 114 0 LfiST SPAN: 5 NEW SPAN: 114 K L UNIT 0 PEC 000 UNIT 1 PEC 00 0 UNIT 2 PEC 000 C L UNIT 0 PEC 001 UNIT 1 PEC 001 UNIT 2 PEC 000 II C-1516 FIG. 7 c L UNIT 0 PEC 003 UNIT 1 PEC oos UNIT 2 FEC 0 0 0 K 0 RECO = noo RE CI = OOO REC2 = 000 L UNIT 0 PEC 0 0 0 UNIT 1 PEC 0 0-0 UNIT £ PEC 00 0 C L UNIT 0 PEC 001 UNIT 1 PEC 001 UNIT £ PEC 000 L UNIT 0 PEC OOS UNIT 1 PEC 0 02 UNIT 2 PEC 00 0 H HI VOL = 2 L UNIT 0 PEC 002 UNIT 1 PEC 002 UNIT 2 PEC 000 5 024 0610 01 '£3/ 75 TIME SO£ WS WD PPB NPH DE« 0605 PH Tin TOUT H£5 PRES l.'DV PR IN PCT BGF DGF PPE MBR DEG HDT 20 !26 91 75 795 178 ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦*♦♦***♦ 024 0 6 £ 3 0 1 -' £ 3 ' 7 5 TIME S02 1.13 lid PH TIN TOUT H2S PPES UDV PRIM PPE MPH DEG PCT DGF DGF PRE MBR DEG HDT 0520 o *— 13 123 91 34 0 795 66 0 0525 3 14 1£4 93 34 o 795 102 0 0530 O 13 1£1 95 34 0 795 1 1 3 0 0535 CflL 13 113 97 75 33 CRL 795 20 0 054 0 p 15 1 03 97 75 34 0 795 173 0 0545 o c 16 114 92 75 34 0 795 120 0 0550 £ 14 114 92 75 34 0 795 18 0 0555 2 16 109 93 75 54 0 795 35 0 0600 2» 17 113 9? 75 34 ' 0 795 110 0 0605 l. £0 1£6 91 75 34 0 795 178 0 0610 £ £2 1 36, 90 75 34 o 794 18 0 0615 3 24 133 89 75 33 0 795 £86 0 END - 0634 II C-1517 FIG. 7 024 o; '£3 01 -'23 - '? 5 . TIME SD2 iii : MI. PH riM TOUT H1Z PPES MDV PhIN PPB mph DEG PCT DGF DGF PPB MBP DEG nrtT 06,20 3 24 157 30 75 33 0 795 18 0 0*55 3 19 134 92 75 32 0 795 247 0 0630 4 13 131 92 5 cr < J 32 0 795 9 0 0635 4 15 123 93 75 32 0 794 45 0 064 0 3 12 131 96 75 32 0 795* 44 0 0645 2 10 125 96 75 32 0 795 158 0 0650 2 11 125 95 32 0 795 102 0 0655 3 11 13-3 95 75 32 0 795 291 0 0?00 3 13 152 93 75 32 0 795 773 0 0705 3 J6 166 86 75 33 0 795 824 0 0710 4 1? 16? C; If 75 33 0 795 931 0 0715 4 15 180 SO 75 33 0 795 1377 0 024 OS !£3 01 -'23''? C TIME S02 ws WD PH TIM TOUT H2S PPES I.IDV PtilM PPB MPH DEG PCT . DGF DGF PPB MBP DEG HDT 0720 2 14 181 79 75 33 0 795 1661 0 0725 2 16 154 74 75 34 0 794 362 0 0730 2 15 157 1 c 75 35 0 795 550 0 0735 3 18 144 69 75 35 0 795 85 o 074 0 3 21 165 69 75 35 0 795 707 0 0745 3 18 133 71 34 0 795 1 078 o 0750 4 19 172 ?A 75 34 0 795 1 032 0 0755 2 22 154 > i 1 •_' 34 o 795 432 0 0 300 1 *18 149 81 f 3 33 0 794 4 07 o 08 05 1 16 135 84 75 33 0 794 114 0 03 1 0 Zf 16 142 90 75 32 0 795 14 0 0 0815 3 10 134 35 75 31 0 795 192 0 ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•«♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦••♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦«♦♦♦«♦♦♦'• 024 092 3 01- -23 '75 TIME SD2 WS WD PH TIM TOUT H2S PPES MDV Rfi I N PPB MPH DEi? PCT DGF DGF PPB MBP. DEG HDT 032 0 3 £; 128 97 75 31 0 795 66 0 0 325 3 10 141 97 » 5 31 o 795 426 0 033 0 3 12 146 92 76 32 0 794 427 0 0335 1 20 14 c: 86 ?>i- 3 3 0 795 C* * 0 034 0 1 19 142 ;.c "*t"i 33 0 794 CCl 0 0 345 £ 15 152 84 •*CT 33 0 795 236 o 035 0 13 152 8 3 75 33 o 794 313 0 0355 3 13 173 31 -*f 34 0 794 8 2 6 0 09 0 0 13 182 T'~* Ft* 34 o 795 1071 0 09 05 ;» 12 19-1 81 7& 34 o 795 881 0 09 1 0 1 11 202 ,-, ^i •*c 34 0 794 346 0 0915 1 16 251 C'C, 75 31 0 795 86 0 II C-1518 » FIG. 7 024 10 23 01 '2&'7 CT m TIME :d£ i.i: MH PH TIM TC1UT H2C PPES MPV PRIM PPB MPH DEG PCT DGF DGF PPB M£:p DEG HOT 0920 a 18 2-:' 4 93 75 26 0 • 795 50 0 0925 2 1? 263 98 75 25 0 795 200 0 0930 3 15 270 100 75 25 0 795 259 0 0935 3 22 100 76 25 0 795 150 0 094 0 3 21 253 100 76 24 0 794' 112 1 0945 1 18 262 100 76 24 0 794 330 1 0950 1 15 26 0 100 75 23 0 795 196 1 0955 2 13 261 100 75 23 0 795 32 0 1000 2 11 270 100 23 0 795 106 0 1005 3 m 9 270 100 23 0 795 102 1 1010 3 " 9 252 100 75 24 0 795 120 0 1015 4 11 24 0 100 76 24 0 795 58 0 024 11 2 3 01 / ;. £| , — cr TIME 502 MS WD PH TIM TOUT H2S PPES MDV PRIM PPB MPH DEG PCT DGF DGF PPB MBR DEG HDT 1020 3 11 241 100 76 23 0 794 149 0 1025 2 13 24 0 100 76 £3 0 794 33 1 1030 2 10 24 0 100 *7C 0 795 61 0 1035 c 7 230 100 *■? c 24 0 795 193 0 1040 3 6 2 33 1 0 0 7C 24 0 795 50 0 1 045 4 3 £52 100 75 24 0 795 33 1 1050 4 3 25 0 1 0 0 ■^c 24 0 795 C*c 0 1055 4 3 26 0 1 0 0 76 24 0 795 245 0 1100 3 , p 246 100 ••e 24 0 795 28 0 1105 3 2 206 1 0 0 75 24 0 795 42 0 1110 3 4 193 100 T*C 24 0 795 192 0 1115 4 5 194 100 J1"— # £4 0 795 4 36 0 ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦*♦♦♦♦♦♦♦♦«■♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦ 024 1223 01 •■23-75 TIME ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦■♦••♦ SOc PPB MS MPH WD DEG PH PCT TIM TOUT DGF DGF H2S PPB PPEJ MBP MDV PRIM DEG HDT 1120 1125 1130 1 1 35 114 0 1145 1 150 1 1 55 1 2 0 0 1205 1210 1215 10 3 3 11 11 20 192 130 193 206 224 241 263 £43 25 0 £51 250 1 0 0 100 100 100 1 0 0 93 9"1 1 00 100 1 0 0 1 0 0 100 < D < .• 76 76 76 75 76 795 795 794 795 795 795 794 795 795 795 795 795 189 542 764 132 46 0 11 190 60 42 34 197 ♦ ♦♦♦♦•»*♦♦♦♦♦♦♦♦•♦♦♦•♦♦ ► •♦<•♦*«♦♦♦♦«♦♦♦♦♦« ♦ ♦ O ««<»«*« 4«.*««»4»»««««C»«*»«* II C-1519 FIG. 7 75 TIME SO£ MS i,l D PH TIN TOUT H2T PPES ..IDV Pfi 1 N PPB MFH DEG PCT DGF DGF PPB MBR DEG HDT 1220 2 18 £42 100 75 21 0 795 173 0 1225 3 23 341 100 75 2! 0 795 176 1 1230 3 IS £4 3 100 75 20 0 794 116 1 1235 4 20 £43 100 76 20 0 794. 173 0 1240 4 20 £38 1 00 75 20 0 794 2£6 0 1245 4 1? £34 100 76 20 0 795 1£6 1 1250 3 17 £34 100 76 20 u 795 11£ 0 1255 2 13 232 100 7 t> 19 0 795 139 0 1300 3 10 £38 100 75 19 0 795 £97 1 1305 3 .9 £50 100 75 £0 0 795 97 0 1310 4 7 £40 100 20 0 795 193 0 1315 4 12 £30 100 75 20 0 795 85 1 ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦■•♦♦ 024 14£3 01/2S/75 TIME SD£ I...IS WD PH TIN TE3UT H£S PRES WDV RfllH PPB MPH DEG PCT DGF DGF PPB MER DEG HDT 1320 4 15 230 100 75 20 0 795 £ 0 13£5 4 15 £34 1 0 0 75 20 0 795 17U 1 1330 3 14 ££8 100 75 19 0 795 150 0 1335 3 10 ££S 100 75 19 0 795 15£ 0 134 0 3 11 22*o 100 ( •-' 20 0 795 £64 0 1345 4 9 223 99 75 20 0 795 1£3 0 1350 4 8 £3 0 93 75 £0 0 795 188 0 1355 4 7 £4 0 97 75 20 0 795 4 06 0 1400 4 ' 7 £59 97 7cj £0 0 795 130 0 14 05 4 5 '-'c>7 95 7C £0 0 795 4 0 1410 3 3 £43 96 t _< 20 0 795 416 0 1415 3 2 9 95 75 £0 0 795 3246 0 024 1523 01. -' £ 8 '' 7 cr TIME SOS W'S WD PH TIN TOUT H£S PPES WDV PH I N PPB MPH DEG PCT DGF DGF PPB MER DEG HDT 1420 3 3 £66 95 *7 cr i J £0 0 795 37 0 0 1425 4 6 •"• z> "? 94 75 £0 0 "•gc 4 1 0 1 1430 er 10 £16 ■••"? 7cr 20 0 795 13? 0 1435 5 10 £34 34 7-=, £0 0 794 137 o 144 0 er 8 2 '-• 0 66 ^C7 £0 0 795 160 o 1445 4 7 £4 0 38 **er 19 0 795 £7 0 0 145 0 4 9 £63 90 ■^cr 19 0 795 133 0 1455 4 12 £69 Ci '; ?5 13 0 795 144 0 150 0 4 11 £63 ?5 *7tr 17 0 79cr» 134 o 1505 CT 15 £56 9*"- ">cr 17 0 795 173 0 1510 5 15 T-c- • 37 75 17 0 795 110 0 1515 6 9 £59 97 17 ' 0 796 £14 0 II C-1S20 FIG. 7 > TIME SC12 W j i,l I. PH TIN TCUT H2-? PRE 2 t.iDV PmIM PRE: M^H DFG PCT I'GF DGF RRB MER LEG Hl'T 1520 6 6 248 98 75 17 0 795 374 0 1525 4 6 234 97 75 18 0 795 312 0 1530 4 9 aiz 95 75 16 0 795 364 0 1535 5 10 azs ^■9 75 19 0 795 89 0 1 54 0 5 7 222 87 75 19 0 795 ' 284 0 1545 5 6 219 86 ~?^ 19 0 795 290 0 1550 6 5 22* 85 75 19 0 795 236 0 1555 6 8 226 82 ?C 20 0 795 33 0 1600 5 8 236 80 75 20 0 794 274 0 1605 4 14 24 3 76 75 20 0 795 502 0 1610 4 13 244 73 75 21 0 795 204 0 1615 5 9 24 3 72 75 21 0 795 124 0 TIME S02 LIS WD PH TIN TOUT H2S PRES WDV PP. IN PRE: MPH DEG PCT DGF DGF PRE HER DEG HDT 1620 5 12 245 70 75 21 0 795 184 0 1625 5 13 250 69 75 20 0 795 74 0 1630 5 11 245 68 20 0 242 0 1635 g 10 243 68 75 20 0 795 149 0 164 0 5 10 246 *jT 75 20 0 795 164 0 1645 4 9 250 67 19 0 795 121 0 1650 4 9 250 63 75 19 0 795 109 0 1 655 4 8 C JC 63 75 13 0 795 132 0 1700 5 ' 9 252 68 75 IS 0 795 93 0 1705 5 c> 249 69 75 13 0 794 1 06 0 1710 5 *j 243 70 ?er 17 0 794 145 0 1715 5 8 246 70 7t> 17 0 795 224 0 ♦ ♦♦♦♦«•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ 024 1323 01/28-' 75 TIME S02 WS WD PH TIN TOUT H2S PRE Z WDV RhIN PRE: MPH DEG PCT DGF DGF PPD MBR DEG HL'T 1720 4 6 247 71 7C 16 0 795 7 0 0 1 725 4 6 24 7 7 c 75 16 0 795 204 0 17 30 4 5 254 73 "?C" 16 0 795 4 0 0 1 735 C" 4 25 ~J- 74 7S 15 0 7 9 5 186 0 1 74 0 4 254 75 75 15 0 795 2 04 0 1745 c 3 248 f _< 75 15 o 795 157 o 175 0 rf. 3 24 5 ?*> 75 15 o 795 1 9 0 0 1 755 c „> 249 Tk* 75 15 0 7" ~* ^ *-.*-* 0 1 S 0 0 4 3 261 TV — cr 14 o 795 112 o 1305 4 249 T'~* T5 13 o 7<~*cr' 5 0 0 1 8 1 0 4 3 2J.' 3 79 75 14 0 7 '•'^ 206 0 1 3 1 5 5 4 190 i c* 75 14 " 0 795 672 0 II C-1521 ■ i .-EIC.J, 0£4 l'?i TIME 1930 IS25 18 2:0 1835 184 0 1845 185 0 1855 1900 1905 1910 1915 18 i.i r MO PH •TIN TOUT H8S PPES UDV PHIN B NFH I'EG PCT DSF DGF PPJ Ml:p BEG HOT 5 3 194 74 75 14 0 795 1135 0 5 5 185 71 75 13 0 795 429 0 5 e 3 184 69 75 14 0 795 317 0 5 5 186 67 75 14 0 795 73 0 6 5 186 66 75 14 0 795- 136 0 6 3 218 65 75 13 0 795 18 39 0 6 0 380 65 75 11 0 795 995 0 6 3 389 e-7 75 11 0 795 96 0 4 4 342 68 75 12 0 795 170 0 4 4 353 71 75 10 0 795 74 0 4 • 3 345 73 75 11 0 7?5 Set 0 5 1 354 75 75 10 0 795 274 0 024 2 02 3 01 -'£3 '7 J TINE SQ2 ws: WD PH TIN TOUT H2S PPES l.iDV PR IN PPB NFH BEG PCT DSF BGF PPE: MBR BEG HDT 1920 5 0 18 77 75 10 0 795 332 0 1925 5 2 72 79 75 10 o 7^c 438 0 1930 5 2 80 80 75 10 0 795 30 0 1935 6 2 60 30 75 •a 0 795 35 0 194 0 6 3 60 80 75 9 0 795 3 0 1945 6 3 82 80 9 o 795 10 0 195 0 6 3 100 73 75 9 0 795 120 0 1955 6 3 102 76 75 9 0 795 6 0 2000 6 3 93 73 75 10 0 7 95 74 0 2005 6 4 106 71 7C 10 0 795 11 0 2010 6 5 112 70 f J> 10 0 795 46 0 2015 6 5 104 68 75 10 0 794 12 0 ♦ ♦♦«♦♦♦««■♦■«♦«♦■««♦♦♦•♦«♦♦»♦♦♦♦♦♦■♦♦♦♦*♦♦♦♦♦♦«♦•♦.♦♦♦♦*♦♦<■•♦♦♦♦♦♦♦♦«•♦■♦♦♦♦♦♦«♦*♦♦♦*«♦«• 024 8183 01 - £3 75 TIME SD2 l.l: WH PH TIN TOUT H2S PPES WDV RftIN PPB MPH BEG PCT BGF DGF PPB MBR DEG HDT £02 0 6 6 112 67 i •5 8 0 795 3 0 2025 6 7 116 67 ; "5 »-. 0 795 1 1 0 803 0 6 < 118 66 i ?5 « 0 794 68 0 2035 6 5 106 65 ; t q o 795 131 0 2 04 0 6 4 1 03 66 1 ■»cr 7 0 795 39 0 2045 6 5 118 if. 6 i '5 7 0 7 "*c". 83 0 2050 t. >3 1 36 66 i ■?c o o 794 6 0 0 2055 t. < 128 63 i ?c 1 3 1." 795 1 3 3 o 210 0 ►% 6 132 6i ; ■*c 13 0 794 1423 o 2105 6 2 > 6i ; ?«-- ' 5 0 795 1 0 03 o 2110 6 3 42 6 3 i ?c~ ^ 0 794 cr o 0 2115 6 C" 69 65 ; -C 0 0 795 897 0 177774 CfiS 1 - £8 0? II C-1522 ««♦«♦ 5 93 31 £ 0 795 30 0 2310 6 5 102 31 75 £ 0 795 58 0 £315 6 5 97 81 75 3 0 795 104 0 ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦»♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦«•♦••♦ DRILY SUMMARY FDR TRAILER 024 01^28^75 INSTANTANEOUS maximum values S02 7 TIME 2313 WS 37 TIME 0619 H2S 0 TIME 0006 MAXIMUM FIVE MINUTE AVERAGES SD2 i£. TIME 2}:i5 MS 24 TIMF i>. 2 0 i.m 357 T I ME 1905 PH 100 T IMF. 0 1 05 TIM — .(- TIME Oft 30 TOUT 36 TIME fi "■ -■*■" H2S 0 TIME i'h.i 05 PRE:" 795 T iMt: , ., ,1. . — 1 5 1 5 II C-1523 30 MinuTE AVEPA6ES PIG. 7 TIME SOd •j: N2S PPP MPH KPfr 0000 4 > 0 On ill 3 4 0 01 nn 3 2 0 0130 3 2 0 0200 3 4 0 0230 3 5 0 O300 2 e 0 0330 3 14 0 04 0U 3 13 0 04 3 0 2 id 0 Of. 00 2 13 0 0530 2 14 0 G*00 2 21 0 Oc 30 2 12 0 oroo 2 15 0 0.'30 2 18 0 0*00 2 13 0 0530 2 15 0 0900 1 14 0 033 0 2 1? 0 1000 2 10 0 1030 3 5 0 1100 3 3 0 1130 3 7 0 1200 3 15 0 1230 3 1? 0 1300 3 11 0 133 0 3 q 0 14 00 3 4 0 1430 4 9 0 1500 5 10 0 1530 5 7 0 1600 4 11 0 1630 4 9 0 1700 4 7 0 1730 5 3 0 1800 4 3 0 1330 5 3 0 1900 4 2 0 1930 5 2 0 2000 5 4 0 2030 6 6 0 2100 6 . 3 0 2130 6 4 0 2200 6 6 0 2230 5 4 0 2300 6 5 0 2330 6 6 0 DAILY AVERAGES SQ2 3 US 9 WP 183 RH 87 TIN 75 TOUT 21 H2S 0 PFES 794 PA I N 2 0 LftiT CAL $02 Of. 34 01/-2S LFOT ZEFO: H2S 05 34 01 • i 3 LAST ZEkD: INC"JT FC£: H4 0 NEW IEFC: INPUT FPl: 114 0 NEW ZE?0: 1 LAST fF-MfS: 0 LAST fFAN: "6 NEW SPAN: 114 5 MEW SPAM i 114 1777T4 1 1 4 1 C 1 134100 ' 104 301 OS t - no no n : i - ii o ii l "- l - u 0 Hi Ml l - 0001 II C-1524 — frH UN Ul"l h F ^ 1 f n if* ni4 oo £3 01 '£■? -*r C ■J ] TIME :o£ i.i: WD PH TIH TOUT H£I FFES WDV FhIM PP£ riPH DEG FCT ' DGF DGF PPfc mip DEG HDT £220 6 5 10£ 80 75 4 0 794 30 0 £3£5 7 6 98 80 75 5 0 795 60 0 £330 7 7 93 78 75 5 0 794 77 0 2 3?5 6 7 104 79 75 5 0 794 8£ 0 a :■■■•* o 6 6 10£ 73 75 5 0 795 1£ 0 £345 6 i£. 101 73 75 5 0 795 135 0 £350 6 5 94 73 75 5 0 795 90 0 £355 6 5 90 78 75 5 • 0 795 3£ 0 0000 6 4 S3 77 5 0 795 117 0 0005 6 3 86 73 75 5 0 795 6£ 0 0010 6 3 73 7S 75 4 0 795 74 0 0015 6 ' 4 70 79 75 3 0 795 85 0 M6TT 177774 CHS 1 - 0109 0£4 01 £3 01 '£9 '7 er TIME SD£ US l,l D RH TIM TOUT H£S PPES WDV Rfl I M FPB MPH DEG PCT DGF DGF PPB MBP DEG HDT 00£0 7 5 78 79 75 3 0 794 26 0 0025 6 4 78 79 75 3 0 795 10£ 0 0030 7 4 80 79 75 o 0 795 68 0 0035 6 4 84 79 i -> 3 0 795 136 0 004 0 6 5 64 79 t ^» 3 0 795 13 0 0045 6 5 73 79 ?c £» 0 795 5 0 0050 6 5 SO 79 75 o 0 795 1 0 0 055 6 . 4 78 79 75 o 0 795 £5 0 0100 6 4 76 79 i J o 0 794 54 0 0105 6 4 74 79 75 £ 0 795 66 0 0110 6 4 74 79 75 £ 0 795 54 0 0115 6 4 76 79 75 £ 0 795 4£ 0 114101 CflS 1 - 0£00 134100 ChI: 1 - 0£00 104301 ChS 1 - 0200 ♦ *♦«♦♦♦*♦■»■«•♦♦•♦•■♦«■♦«*♦♦<♦♦♦•♦*«•■»♦«■«■«■«♦*♦♦♦«•♦•*«•«•♦♦♦•♦♦♦■«**«♦♦«-•♦■■*■♦«♦•«♦■»■«.♦♦♦♦♦♦♦<« 0£4 0££3 01 .'-£9-' 75 TIME SD2 WS WD PH TIM TOUT Hii PPES WDV PfilM PPT: MPH DEG PCT DGF DGF PRE MPR DEG HDT 01£0 6 5 7 0 73 t» 0 795 5 0 0 01 £5 6 5 73 78 ■per ,ji 0 795 64 ij 0130 6 5 7 0 ->t» 7S 4 0 795 3*S 0 0135 6 5 66 76 75 4 0 795 4 0 0 1 4 0 7 4 8£ 76 T5 5 0 794 38 0 0145 i 4 i y 76 ?CT c 0 795 45 0 0150 6 4 73 r*cTi "?C 6 . 0 795 54 0 0 1 55 6 5 69 ?5 7 S 6 0 795 15 0 0200 6 5 62 T 75 c- 0 7F<5 £4 0 0205 6 4 t o 76 ~*c* B7 o 7C45 15 0 02 1 0 6 C 61 TV. t»c- cr 0 795 35 o 0215 r. 4 60 7T "7*X 5 0 7 '"***■ 18 0 17; '4 CffS 1 - 0309 II C-1525 034 0 3.?? 01 '89 '75 FIG. 7 time :o8 iii : i.iD PH TIN TOUT H.-;S ppes UPV PftlH ppe MPH DEG PCT • DGF DGF PPD MIR DEG HDT 0880 6 4 66 78 75 4 0 795 174 0 0885 6 3 o* 78 ^5 6 0 734 97 0 0830 6 3 84 * f 75 6 0 ?'? 5 37 0 08 35 6 3 76 77 75 5 0 794 113 0 084 0 6 5 85 77 75 6 0 795 93 0 0845 6 5 93 76 75 7 0 795 8 0 0350 6 4 93 76 75 e 0 795 37 0 0355 6 3 78 75 75 8 0 794 103 0 0300 6 4 60 76 75 6 0 795 6 0 0305 6 5 70 77 75 7 0 795 66 0 0310 13 5 78 78 75 6 0 795 53 0 0315 6 . 4 84 77 75 8 0 795 38 0 114101 CHS 1 - 0400 134100 Cm3 1 - 04 00 104301 CHS 1 - 0400 034 04 33 01 ''39' 7 ie TIME SD3 WS WD PH TIM TOUT H2S PPES WDV PR I M PPE MPH PEG PCT DGF 06F PPB MER DEG HDT 0330 6 3 84 73 75 7 0 795 46 0 0335 6 3 O 3 79 75 6 0 795 86 0 0330 G 4 88 78 75 8 0 795 13 0 0335 6 5 S-S 78 75 9 0 795 13 0 034 0 6 6 93 77 75 9 0 795 33 0 0345 (£■ i 93 77 7~< 9 0 795 6 o 0350 6 ■ 5 93 77 75 7 0 794 10 0 0355 6 6 96 73 75 0 794 14 o 04 0 0 7 6 94 7o 75 t 0 795 136 0 04 05 7 6 98 79 ( .1 I" 0 795 70 0 0410 6 6 104 79 75 s 0 795 15 o 0415 5 6 101 1 o 75 9 0 795 43 0 177774 COS 1 - 0509 ♦ ♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦«■♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦*♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦ 034 053 3 01 '89 -'75 TIME SC13 WS WD PH TIM TOUT H2S FCE: WDV Rfi'lN PPE MPH DEG PCT DGF DGF PPE MER DEG HUT 04 30 er 6 98 73 *^c 8 0 ">Citr 14 0 0435 5 4 109 77 i J 9 0 794 39 0 04 30 6 •J 104 r ^* i 5 9 0 795 46 0 0435 6 4 96 76 7 ~< 9 0 i r .» 9 0 044 0 6 4 84 76 i 5 9 o 795 54 0 0445 6 4 80 76 ~?C7 9 0 795 131 0 0450 6 4 78 76 7^ ,-v o 0 795 76 o 0455 6 4 74 76 75 8 0 ^MC", 53 0 050 0 6 4 74 76 ?c-, 7 0 795 56 0 0505 G 4 8 8 76 75 7 0 795 43 0 051 0 t. 4 90 76 -?cr 7 0 7'-|C"t 188. o 0515 6 5 90 76 r 0 795 54 0 114101 cr: 1 - 0600 1341 0 0 i»; 1 - 0600 104 301 CflS 1 - 06 00 II C-1526 ► 024 06 £3 01 '29'? '5 TIME :m i.l i i.i n PH TIM TOUT H2I PPES i.lDV PmIN PPB MFH r>EG PCT • DGF DGF PPL NIT I'EG HOT 052 0 6 5 90 76 75 7 0 795 19 0 0525 6 5 82 76 • 0 794 141 0 0530 6 5 85 76 75 r o 794 aa 0 05 55 6 6 8? 76 75 0 794 18 0 054 0 6 6 85 76 r ■_> r 0 795 25 0 0545 6 7 82 76 75 8 0 795 50 0 0550 6 6 85 76 75 7 0 795 42 0 0555 6 6 78 77 75 7 0 795 49 0 0600 6 7 7$ 77 75 7 0 795 90 0 0605 6 r 82 77 75 6 0 795 129 0 0610 6 7 84 77 75 6 0 794 64 0 0615 5 . 8 82 77 75 7 0 795 86 0 FIG. 7 177774 CRS 1 - 0709 024 072 5 01 /P 9' 75 TIME $02 1.0 s WD PH TIN TOUT H23 PRES I.lDV PR IN PPB NPH DEG PCT D6F DGF PPfc NIP DEG HDT 0620 5 8 82 77 75 7 0 795 103 0 0625 5 < 84 76 75 8 0 795 2 0 0630 5 7 88 77 75 7 0 795 C i^ 0 0635 cr 8 85 77 75 8 0 794 26 0 064 0 6 8 86 76 75 9 0 795 15 0 0645 6 9 80 74 75 10 0 795 30 0 0650 ij. 9 82 73 75 10 0 795 28 0 0655 6 o i y 73 -^ 10 o 794 101 0 07 0 0 6 * 9 76 72 75 11 0 795 35 0 0705 6 O 80 71 "?c-. 10 0 795 35 0 0710 6 7 64 70 75 12 0 794 165 0 0715 6 8 ?a 69 75 12 0 795 34 0 114101 CRS 1 - OS 5 0 0 134100 CflS 1 - 0? s 0 0 1043C il ChS' 1 - 0-: :'■ 0 0 L UNIT 0 PEC 02 '< UNIT 1 PEC 01 ■» UNIT C PEC 00 o C L UN I T 0 PEC- 02 4 UNIT 1 PEC Oil -. UNIT 2 PEC 0 0 0 0 PECO = 2o PEC1 = 17 REC£ = 00 G COS UP - OS •20 r L • UNIT o PTC 02 4 " UNIT 1 PTC 01 s ' UNIT 2 PEC 0 0 o Q PECO = 2 3 PEC 1 = 17 RFC 2 = 00 . IT C-1527 o5 32 0 0725 6 6 70 63 75 11 0 795 56 0 0730 *», 6 77 *3 75 11 u 795 6-=> 0 0735 6 7 78 IJ.M 75 10 0 795 63 0 0740 6 7 73 69 75 11 0 7^4 39 0 0745 6 6 *9 63 •»*_ It 0 795 20 0 0750 e 5 77 '28 LAST ZEPD: H2S 0534 01'28 LAST ZEPD: M NAN CAL SYSTEM « 2 CAL SD2 0829 01'29-'75 M MAM CAL SYSTEM = 5 CAL H2S 0329 01'29'75 IMPiJT PP*: 114 0 NEU ZEPD: 1 LAST SPAN: 376 MEU SPAM: 114 INPUT PPfc: 114 0 MEU ZEPD: 0 LAST SPAM: 5 MEU SPAM: 114 024 0834 01 -'29/75 TIME S02 WS H2S PPfc MPH PPB 0334 5 0 0 R 024 0334 01 -'29/75 TIME SD2 i'"S H2S PPB MPH PPE 0334 £00 * 024 0334 01/23-T5 TIME SD2 US H2S PPt: MPH PPE 0334 0 0 0 ZEPD CHAN = £ 0 ZEPD CHAN = 3 ENP - 0334 E EMIi - 0334 «. H HI VOL «= 3 ft 03-4 034»:'. Ml '29'' 75 TIME :Oc' i.i". MD PPU MPH PEG 0 54 0 0 fH TIM TOUT H£« PPEt UI1V PAIN PCI I''.-F pGp FF'{: MI P t'Et? HM 14 795 • 124 II C-1S2! hi FIG. 7 TIME *oa MS MD RH TIN TOUT H2S PPES UDV PR I r« PRE MPH BEG PCT D6F D6F PRE MBR BEG HDT 0320 m 5 74 69 75 11 0 794 66 0 0325 Cfil • r 66 68 75 12 ChL 794 60 0 0330 CflL 6 65 67 75 13 CflL 794 92 0 0335 CRL 7 64 67 75 14 CHL 795 112 0 034 0 0 r> 69 67 74 14 0 795 124 0 0345 0 7 65 66 74 15 0 795 93 0 0350 0 3 65 65 74 16 0 794 117 0 0355 0 7 58 64 74 17 0 795 £5 0 09 00 0 7 60 63 74 17 0 795 94 0 0905 0 7 58 63 74 IS 0 795 113 0 0910 0 7 58 63 74 19 0 794 45 0 0315 0 7 56 63 74 19 0 794 56 0 END - 0929 TIME SD£ ws M D PH TIN TOUT Hi >s PRES i.IDV Rfi I n PPB MPH TEG PCT DSP D6F PF "B MBR DE6 HDT 0925 0 t 50 H 74 20 0 795 117 0 0930 0 6 52 62 74 10 0 795 SO 0 0935 0 o 46 61 74 20 0 o 094 0 0 £, 46 61 74 20 0 795 56 0 0945 0 £ 45 61 74 £1 o 795 61 o 095 0 0 5 37 60 74 21 0 795 *",C." 0 0955 0 5 37 60 74 a 0 794 Ct£' 0 100 0 o 4 37 60 74 ?p 0 < 9 j MS' 0 10 05 0 4 42 6 0 74 i 3 0 794 185 0 1010 0 4 35 59 74 23 0 795 15 0 0 1015 o 4 53 60 74 24 0 795 -?cr ■? i .' r 0 1 02 0 0 6 101 59 1 .' -tcr 0 795 2 0 0 0 II C- 1521V FIG-."? 0.24 J |, S3 01 '59'? 5 TIME ; De- MS UD F.H • TIM TOUT HSS f-FEZ i.lliv PAIN pp e MPH DEG PCT DGF DGF PPB HBP DEG HDT 10.25 0 7 103 58 75 -.cr 0 795 313 0 1050 0 8 103 57 75 55 0 794 174 0 1035 0 8 105 56 75 ae 0 795 Aty 0 104 0 0 8 105 56 75 56 0 735 146 0 1045 0 10 153 56 75 56 0 795 336 0 1050 0 8 116 55 75 56 0 794 595 0 1055 0 11 116 54 75 57 0 795 519 0 1100 0 3 11? 54 75 57 0 795 130 0 1105 0 8 116 53 75 57 0 795 146 0 1110 0 7 114 53 75 27 0 795 570 0 1115 0 . S 153 53 75 S3 0 795 543 0 1120 0 8 138 55 75 S3 0 795 176 0 177774 CflS 1 - 1 3 0? 134100 CmS 1 - 1 510 034 1 sss oi '59' 7 c TIME S02 MS MD PH TIM TOUT HS3 PPES MDV PRIM PPB MPH DEG PCT DGF DGF PPB MBP DEG HDT 1135 0 6 151 53 75 £8 0 795 198 0 1130 0 7 130 55 75 33 n 795 33 0 1135 0 6 135 51 75 59 0 795 77'S 0 1140 0 5 141 51 r O 30 0 795 1157 0 1145 0 7 150 51 75 30 0 795 458 0 1150 0 8 144 51 75 30 0 795 634 0 1155 0 11 154 51 < ~« 30 0 795 956 0 150 0 o 16 1 33 51 75 30 0 794 465 0 15 05 0 10 136 50 75 S3 0 795 176 0 1 £ 1 0 0 15 155 50 75 30 0 795 693 0 1515 0 14 163 5 0 75 30 0 794 585 0 155 0 0 9 146 50 75 30 0 795 550 0 177774 CHS 1 - 13 09 ♦ ♦♦♦♦♦♦♦♦«-♦♦♦♦■♦♦♦■♦■♦♦♦♦♦«♦♦♦♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦♦«♦•♦♦ 054 1353 01- 5?'75 TIME SOS M" MB PH TIM TOUT H5S PPES PPB MPH DEG PCT DGF DGF PPB MBP ♦*♦♦♦#♦♦♦♦♦♦♦♦♦♦♦♦•♦♦♦♦♦♦♦♦«♦♦«♦ MDV PP. IN DEG HDT 1555 153 0 1535 1 54 0 1545 1550 1555 1 3 0 0 1305 1 3 1 0 1315 1 ?5 0 1 0 15 1 1 1 0 10 9 154 144 163 1 33 144 133 145 146 154 1 4 0 154 138 5 0 50 50 50 5 0 4? 49 4 9 49 43 75 75 30 30 30 30 3 0 31 31 31 31 31 31 31 795 675 7 ?*:• ZC6 795 1403 795 ISO 795 505 794 170 794 4 76 735 367 795 183 795 518 795 371 114101 CR5 1 - 14 00 134 100 Cm: l - 1400 104501 CHI. l - 1400 TT C-1533 FIG. 7 fv:4 1423 01'23<75 TIME >02 "JJ '.ID PH TIN TOUT H?.r. PFEI UDV PAIN PP6 MPH I'EG PCT t>GF C'GF PPf MfcR IiEG HDT 1325 0 6 166 43 75 31 0 794 10 34 0 1330 0 7 161 43 75 32 0 795 533 0 1335 0 7 154 49 75 32 0 795 5*9 0 134 0 0 5 165 43 75 32 •o ??4 679 0 1345 0 5 166 43 7«j 32 ii 795 773 0 1350 0 4 166 4-3 75 32 0 795 1057 0 1355 0 6 164 47 75 32 0 795 1177 0 1400 0 6 1S4 47 75 32 0 795 1103 0 1405 0 6 164 43 75 32 0 794 967 0 1410 0 9 157 47 75 32 0 795 779 0 1415 0 t> 173 47 75 32 0 795 1 357 0 1420 0 9 150 47 75 32 0 795 122 0 177774 CAS 1 - 1509 024 15 £3 01 '21=* ' 75 TIME S02 US 1.1 D PH TIM TD'JT H3S PPES WflV PhIN PPB MPH DEG PCT dgf DGF PPB MFP DEG HDT 1425 0 12 149 47 75 32 0 795 85 0 1430 0 11 166 47 75 32 0 795 53 3 0 1435 0 13 174 47 75 32 0 795 1 054 0 1440 0 11 156 47 75 32 0 795 330 0 1445 0 11 154 47 75 3S: 0 795 726 0 1450 0 11 170 47 75 32 0 795 9 35 0 1455 0 11 176 47 75 32 0 795 999 0 1500 0 11 164 47 7S 32 0 795 >i-i>i 0 1505 0 10 165 47 75 32 0 795 4 07 0 1510 0 10 152 47 r j 32 U 795 317 0 1515 0 11 166 47 75 32 0 795 565 0 1520 0 ' a 154 47 75 32 0 794 62 0 114101 CAS 1 - 1600 134 100 Cm" 1 - 1600 104301 CmS 1 - 1600 L UNIT 0 PEC 029 UNIT 1 PEC 02 0 UNIT 2 PEC 00 0 C L UNIT 0 PEC 03 0 UNIT 1 PEC 021 UNIT 2 PEC 000 DAILY SUMMARY FrJP TRAILER 024 01'29'7' INSTANTANEOUS MAXIMUM VALUES SOS 921 TIME 0--27 Ml 25 TIME 12f'2 H£S 1000 riME (>-"±? MAXIMUM Five MINUTE AVE F AGE! : ii2 i.r. Mil RH 1 IN TOUT nas FKCS 15 Tint: T IME 11 1'l 1 1 1 1 11 1.1 1'1 1 95 T iMf 1 6 1 0 79 T INC r . ii : *, 75 T I r if i' "•.. 32 TIMI l' 15 0 Tint Hlii'. 795 T I Mb. 0215 II C-1531 FIG. 7 30 MINUTE fiVOMCES TINF -.02 hi J H2S r>Pb flFH PF* On 00 6 4 0 0030 <-. 4 0 01 00 «3 4 0 0130 h 4 0 0200 6 4 0 0530 6 3 0 o?on 6 4 0 0330 6 5 0 04 00 5 5 0 0430 5 4 0 0-50 0 5 4 0 0530 6 5 0 0600 5 7 0 06 3 0 5 8 0 0700 5 7 0 0730 6 6 0 0300 CflL 6 CflL 0830 0 6 0 0300 0 7 0 0930 0 6 0 1000 0 4 0 1030 0 8 0 1100 0 ? 0 1130 0 7 0 1200 0 11 0 1230 0 8 0 1300 0 9 0 13 30 0 5 0 1400 0 8 0 1430 0 11 0 1500 0 10 0 1530 0 7 0 IihtlLY AVERAGES SD2 3 US 6 UK 103 PH 64 TIN 74 TOUT 17 H2? 0 PF.'ES 794 RAIN LAST CflL S02 0S£9 "1'29 LrtST ZEPCI: H2S 0:329 01 29 Lfii-T ZEPQ: INPUT F°I: 114 1 NEM ZEPD: INPUT cs>f.S 114 0 f'E.i ZEf-D: 0 Lfl^T SPhN: 0 LfilT JCMN: 376 NEW SPAN: 1 14 5 NEW SPAN: 114 I 024 It 2? 01 ■ 2 "■-T 5 TINE SO£ I.I MB PH TIN TOUT n2 r PSE* MP« f*:n PPF Mf'H PEG PC T 6 5F DGF f PF Mfcp DEG HOT 1525 0 o 154 47 rs j:- 0 795 226 0 1530 0 «"a 1 S5 47 75 -n ^ 0 795 1 301 0 1535 0 S 176 47 rs \ > 0 795 91 3 0 15 »0 0 i 166 47 75 ~Sl' 0 7':'5 0 1545 0 7 176 47 7?. ££ 0 795 69 i 0 1550 0 7 1 •"-. i> 47 75 ;ii (1 794* 9 6 0 0 i '.•'•;• 0 5 1 64 4 7 75 5^ 0 795 32"** 0 1600 0 5 190 4 7 75 33 0 79c"- 1053 0 1605 0 ^ 173 4 7 76 33 0 794 9 c 0 1) 1 1. 1 0 0 3 1 96 47 75 3,2 0 795 •'-■ 0 1 0 1615 0 1 121 4 7. 7*5 ?;-, 0 795 1714 0 162 0 0 2 1*4 4 7 76 3 3 0 795 1 074 0 II C-1532 R o co pi W W 00 cog o o r^H HH ** r-H r— 1 Oh E-" CO a: ; o,oco /-— > - tv. LO 00 ** O CNJ CM CO (nj o o p v— 'to ^E: *tf r-- ^r «* LO oo CO to ^i- cnj (nj CNJ (Nl r-H i-H rH (NJ i— i o\° CO O oo C3 CO S i — i i — i S o C_J CO E- cni i (NJ CM (NJ (NJ 1 (NJ 1 (NJ 1 t-t 1 (NJ 1 (NJ 1 l l i— 1 i Q W IX, Uh PU w w u U. w PU w w w en Cn vo vo (NJ LO to VO LO oo oo O (NJ CO LO to vO LO (Nl CD O CT> vO o LO rsj CNJ vO OO en en t>. en en to rH en r^ en o en en 00 oo CO en en oo co CO en CO CO vO vO OO (NJ CD LO (NJ (NJ C5 cd LO CNJ .€fc 'CD LO (NJ (Nl OO (NJ o « © o o LO LO (NJ (NJ vO © © <=» o o CD to to to © © e> ea, © o © CD CD CD CD CD CD CD LO CO OO OO OO LO lO CNJ . — 1 i— 1 — 1 r-H CNJ r-H W W W W m W UJ en o O CD O o CD o CD o o CD CD CD CD CD CD CD CD CD CD O CD o vO r*» CO en CD rH CNl to ** CD o CD o CD c M rH t— 1 rH CNJ CNJ CNJ CNJ CNJ rH (NJ to «d- LO o II C-1535 •> S 7T. O i-t X 9- W

c o u CO cj 1 — \ ft, o CO & a u« H CO o l-H H I-H o to vO © o cm cm cm cm cm cm Q co oo o CM CM CJ Q Q vO to in Cn O LO vO CM VO o *3" r^ o r^ vO vO o \o LO en en O o i-H i-H tH iH CM CM r~^ CM CT> r-^ to o o t~- vO *3" in •^ CO CO CO CO r-- vO vO vO vO vO to r-^ r-~ en o en CM CM CM CM to CM CO ^_y © ^ — ' v — / © CD © © « o LO O CD o in CM LO LO lo CM CM CM CM LO © e © © © tO CD CD CD CD CD r — \ CO CO CO UO LO o /■ — s / — ^ , — s , — ^ rH rH rH rH rH I— 1 O o o O ■"»>, rH rH i-H i-H CD O CD CD O vO h- r» to to rH rH rH rH rH O v ' v > v — ' V — 1 r- 1 rH rH rH rH o 53 /3 © © v — ' v — / v * v — ' V — ' lo 3 'o CD o © e & & © CM m LO to LO CD CD CD CD CD W CM CM CM CM to to to to to W W w W W M W W w ty CD O CD O CD CD O *^, i o CD CD CD CD CD CD CD CD CD M o O CD O r— 1 CM to "=* LO vO HI r- CO O) rH rH rH rH rH rH rH II C-1S54 FIG. 9 HOURLY METEOROLOGICAL OBSERVATIONS AT TRACT C-b TIME ADDITIONAL COMMENTS 1600 CIRRUS and few CU NW-N TCU E-SE 1700 TCU OMTNS E, few CU W, S-E CI NW 1800 Few CU DSNT E 2300 CI South 0000 CI S, CS moving N 0100 AC, CI GVHD, CS South, ring around moon 0200 Moon and Stars visible thru CI ring around moon, AC Deck South 0300 AC $ AS Deck S-W, Jet stream cloudiness, ring around moon 0400 Moon and stars visible, as S-SW ring around moon 0500 Clouds have band; streaky structure 0600 AC South and OVHD, CC ALQDS 0800 CI LENTICULARIS ALQDS, CI thicker NW 0900 CI thicker NW 1000 CI thicker NW 1100 CI thicker S-SE 1200 CS and AC SE-S-SW, few CU north VIRGA SW 1300 CS and AC thicker south and southwest few CU, VIRGA 1400 CS thick S and SB, some VIRGA 1500 Few CU N, W, SE; thick CS SW-SE sun dimmed by CI, AS SE 1600 Few CU ALQUDS, CS W-S-E, AS SW, some VIRGA II C-1535 FIG. 10 METEOROLOGICAL CONDITIONS AT GRAND JUNCTION, COLORADO COVERING TIE 24 HOUR PERIOD PROM 1600 HOURS, JANUARY 28th TO 1600 HOURS, JANUARY 29th, 1975 (MST) TIME CLOUD AND SKY CONDITIONS HORIZONTAL VISIBILITY MILES BAROMETRIC PRESSURE (MILLIBARS) 1600 450700 60 1012.1 1700 50(5 70 1012.9 1800 50 70 1020.7 1000 2800 70 1019.6 1100 280© 70 1039.5 1200 250(5 70 1018.3 II C-1536 FIG. 10 cont. (MST) TIME CLOUD AND SKY CONDITIONS HORIZONTAL VISIBILITY MILES BAROMETRIC PRESSURE (MILLIBARS) 1300 250$ 70 1016.4 1400 E250$ 70 1015.2 1500 12O0E25O8 90 1015.0 1600 5O012O(DE25O® 80 1014.6 1700 50(D1200)E250© 70 1014.2 II C-1557 FIG. 10 cont. METEOROLOGICAL CONDTTONS AT GRAND JUNCTION, COLORADO COVERING TIE 24 HOUR PERIOD FROM 1600 HOURS, JANUARY 28th to 1600 HOURS, JANUARY 29th, 1975 • (KNOTS) (INCHES) (MST) F° F° WIND ALTIMETER TIME TEMPERATURE DEW POINT WIND DIRECTION SPEED SETTING 1600 34° 14° 250° 18 29.88 1700 33° 12° 270° 15 29:92 1800 28° 8° 270° 06 29.91 1900 26° 8° 240° 05 30.00 2000 23° 5° 310° 03 30.02 2100 23° 8° 350° 03 30.03 2200 23° 8° 00° 00 30.04 2300 19° 7° 00° 00 30.05 2400 17° 9° 30° 06 30.07 0100 18° 11° 360° 02 30.07 0200 20° 12° 110° 04 30.08 0300 19° 11° 110° 04 30.07 0400 19° 10° 120° 05 30.06 0500 21° 10° 120° 06 30.05 0600 19° 9° 100° 07 30. OS 0700 19° 9° 110° 09 30.04 0800 22° 10° 90° 12 30.03 0900 21° 9° 100° 10 30.03 1000 26° 12° 120° 12 30.01 1100 29° 13° 130° 07 30.01 1200 32° • 12° 90° 07 29.98 1300 35° 13° 100° 02 29.93 II C-1B38 FIG. 10 cont. > (MST) TIME F° TEMPERATURE F° DEW POINT WIND DIRECTION (KNOTS) (INDIES) WIND ALTIMETER SPEED SETTING 1400 35° 15° 310° 09 29.91 1500 33° 15° 300° 07 29.89 1600 33° 15° ' 270° 04 29.89 1700 33° 15° 320° 04 29.88 > > II C-1539 FIG. 10 cont. METEOROLOGICAL CONDITONS AT GRAND JUNCTION, COLORADO COVERING Till: 24 HOUR PERIOD FROM 1600 HOURS, JANUARY 28th TO 1600 HOURS, JANUARY 29th, 1975 TIME (MST) REMARKS OF OBSERVER Few SC 229 1500 Few SC 1600 SMI OMTNS E and SE 1700 RADAT 33057 1800 1900 2000 2100 2200 2300 2400 0100 0200 THN SPTS BINOVC/108 1037 0300 0400 Few AC 0500 Few AC RADAT ZERO 0600 0700 Few AC in S QUADRANT 0800 807 1001 0900 1000 1100 1200 II C-1540 FIG. 10 cont. TINE (MST) REMARKS OF OBSERVER 1300 1400 Few SC 729 1507 1500 1600 BINOVC SWU ONfTNS E 1700 SWU OVR HIR MTNS RADAT 45049 II C-1541 FIG. 11 SYNOPTIC RETORTS FOR GRAND JUNCTION, COLORADO DURING THE 24 HOUR TEST PERIOD (1700 MST) , •29/0000Z 72476 12715 • 89018 12901 15700 61232 68481 70151 20004 44332 (2300 MST) •29/0600Z 72476 00000 84020 20357 00900 64210 68521 20004 44319 (0500 MST) •29/1200Z 72476 71206 84022 20156 10938 62708 6/521 90401 20004 44317 (1100 MST) •29/1800Z 72476 71307 89032 19552 00901 61/05 60508 20001 42917 II C-1542 g HO> H Lij - H, 5< O O o 8 £ l I I ! I'M _;■ ;; ; i i ■ 1 1 ' > +40 i ; • :: ..!: ..:*.•( -i_i-ir- --.-^"T _.I '". .;,......!. :....;..-.:....: . ..: T-- -r- iw •. +30 +20 +10 0 -10 -20 - 1 'i :j t o • VhR'l'iuAL ' COmI'ONiAiT oV "WIND DIRECTION (DOG) 30 i • f — "■ — ' § Q rsj Uh l — l • H « ►— I U-J - Pi Z o O o 8 £ S ■ ■ • i ! FIG. 13 MEAN VERTICAL COMPONENT OF WIND DIRECTION $ STANDARD DEVIATION 1 MINUTE AVERAGE 100' LEVEL DATE TIME (MST) MEAN VERTICAL COMPONENT (DEG) (DEG) STABILITY CLASS USING 04 1/28/75 1630 2 10 D 1700 -8 7.5 D 1730 0 7.5 D 1800 -3.5 3 E 1830 -2 2.3 E 1900 -4 3 E 1930 -5.5 1 F 2000 -20' 4 E 2030 -5.5 , 1.5 F 2100 -7 1.3 F 2130 -9 1 F 2200 -6 1 F 2230 -6 2.5 E 2300' -5 1 F • 2330 -8.5 1.2 F 2400 -8.5 1.5 F 1/29/75 0030 -6 1.5 F 0100 -9 1.25 F 0130 -11 3.5 E 0200 -6 2 F 0230 -9 2 F 0300 -10 1 F 0330 -5 II C-1545 2.5 E FIG. 13 cont. DATE TIME (MST) MEAN VERTICAL COMPONENT (DEC) (DE&) STABILITY CLASS USING o* 0400 -6 1.5 F 0430 -5 4 E 0500 -5.5 1.5 F 0530 -10 3.7 E 0600 -7.5 6.5 D 0630 -10 2.5 E 0700 -9 3.5 E 0730 -15 8 D 0800 -4 8.3 D 0830 -10 3.8 E 0900 +2 7.5 D 0930 -6 7.3 D 1000 -19 11 C 1030 -15 6.5 D 1100 -4 6.8 D 1130 0 9.5 C 1200 -5 6.8 D 1230 -6 7.5 D 1300 -17 9.8 C 1330 +2 8.5 D 1400 -22 11. C 1430 -8 6.5 D 1500 -15 9 C 1530 -5 • 6.5 D 1600 -5 II C-1546 9.5 C FIG. 13 cont. NOTE.; STABILITY CLASS oa RANGE (DEG) F 0-2 E 2-6 D 6-9 C 9-15 B >15 ASSUMPTION: Extremes of trace over 1 minute duration taken = 4 a a II C-1S47 FIG. 14a EFFECTS OF AVERAGING TIME ON oa (DEG) (100' Level) (MST) TIME 15 SEC 30 SEC 1MIN 2 MIN 5 MIN 1350 7.5 (D) 7.5 (D) 11.5 (C) 13.8 (C) 19.5 (B) 1400 4.8 (E) 7.5 (D) 11 (C) 11.3 (C) 18.8 (B) 1410 6.3 (D) 10.8 (C) 10.8 (C) 10.8 (C) 17.5 (B) 1420 4.8 (E) 8.3 (D) 8.3 (D) 10.5 (C) 12 (C) NOTE: ( ) = Stability Class c ■-■<• :*§i i a % i " sS ■ : w :^A :?;■ :i^., ■"tir-: ■;-.•;; . v'/ • ; j 7/ ^•^r;^:. ■• -V. ■ -vf- /r r.-:i"*:<-~.l ;-^-.- -e -"*« r-'r. . ■ J w °>l '■ ! • £ -1 ! O I ! ■ u. 1 . ' ' ■ O ! " , X - • "•" - ... -ii: : ' • 1: - 1 I .4 «..•-.•-■ c-v-ir S » ' V. . .*. w-VV—V. i y\ i :. • ««A ' — --^ » to '*-> p-"o •T< LO LO I - v«> 'lO l • ' (■ " ... !'*.«? , > I tO' ro 10-. .-.-• - O c^ ;., lo I--: :.v;-l. LO c ,.- ...1 ._:.V-. .|....-«.. :2T o ^ I / •^ I" I CJ V o < IS.' 1 1 1 i 1 U ! 1 • "^ * 1 A — - • .-,"> . - ' .' ' ' i . •. ( Cu B w vO U i—l >— 1 pS o • W i — i g ^ Uh 5_j O 8 8 u t-H H V) P O t; < Cw3 I!DV:i>inS FIAOHV IHOIrEI fa i M I- LO 1 ! ' ! i i 1 i i , i iri a , / / 1 ?_ i <_ i t \ ' FIG. 17 ACOUSTIC SOUNDER TEMPERATURE INVERSION HEIGHTS AT COLONY January 28th - 29th DERE CABIN RIDGE TIME HEIGHT (M) TIME HEIGHT (M) TIME HEIGHT (M) JAN. 28 — 2230 125 I 0900 200 T 1200 — 2300 50 I 0930 130 T 1230 — 2330 50 I 1000 130 T 1300 — 2400 100 I 1030 130 T 1330 — JAN. 29 1100 130 T 1400 — 0030 200 I 1130 275 T 1430 200 I 0100 225 I 1200 275 T 1500 75 I 0130 225 I 1230 . 275 T 1530 175 I 0200 200 I 1300 250 T 1600 75 I 0230 150 I 1330 200 T 1630 50 I 0300 120 I ' ' 1400 150 T 1700 60 I 0330 100 I 1430 100 T 1730 90 I 0400 120 I 1500 200 T 1800 40 I 0430 100 I 1530 250 T 1830 40 I 0500 130 I 1900 90 I 0530 100 I 1930 50 I 0600 80 I 2000 40 I 0630 80 I 2030 60 I 0700 SO I 2100 75 I 0730 130 I 2130 150 I 0800 225 T 2200 125 I 0830 225 T NOTE: T^Top of turbulent layer (M) I -Top of inversion layer (M) II C-1552 nc. is acoustic souxnr.R THMPKRATUUI: INVERSION 1 11:1(1 HS AT TRACT C-h MliT TOWHR SITE JANUARY 28th :mc! 29th time T200' T100' T8 W200 W100 W30 nincirr --TIMMIR ATURH (°I:)- — --WIND srr.i.n (mpii )--- CM) JAN. 28 1700 18 18 18 11 10 9 • \ 1730 17 17 16 11 9 8 160 1800 16 15 13 * 11 10 6 120 1830 16 15 9 16 14 9 200 1900 16 15 12 .14 n 6 110 1930 13 13 13 2 3 1 200 2000 14 13 10 3 3 4 340 2030 13 13 7 5 9 9 290 2100 14 14 6 9 , ,10 7 180 2130 15 15 9 9 11 8 170 2200 15 34 9 7 7 6 290 2230 14 14 6 6 7 6 160 2300 13 13 8 1 2 2 450 2330 12 13 9 5 4 4 370 2400 13 13 11 3 4 5 350 — - — . — ~ JAN. 29 0030 13 12 11 6 8 5 360 0100 14 13 10 4 7 5 370 0130 14 13 11 4 7 4 3S0 0200 14 14 11 5 7 7 350 0230 15 15 ' 12 - . 7 8 7 300 II C-1553 FIG, 18 cont. TIME T2001 TWO' T8 W200 wino W30 --WIND SPM-H (MI'll)-- mucin- CM) 10 14 15 13 13 12 14 12 14 11 12 10 12 11 12 11 13 11 13 11 15 14 15 16 16 18 16 17 20 19 1030 - 1600 No inversions 0300 16 0330 15 0400 15 0430 15 0500 14 0530 14 0600 14 0630 15 0700 15 0730 14 0800 9 0830 9 0900 16 0930 16 1000 20 8 9 10 8 10 7 11 10 11 12 8 9 11 10 12 12 11 11 10 10 10 11 9 10 8 8 8 8 6 5 8 7 5 9 8 5 6 7 8 8 9 8 7 7 6 ->o «.ji 180 330 350 370 400 400 360 330 370 390 360 350 300 200 II C-155A .^- CH CI ^ Vv r « ^ - ^ .,?..,;■? ,;.?, :,:,.: .,- -,m 1 ■.■■■■■■■: ';' ,:"iri11:1 ': ' :" ':' *r "j "j '1' t 2 2"* ^ II C-1S55 r*- o Va vO l C< ** rt 0> 3 Jl. r V • 0 « 0 o 2 BiMfflilSMiiW ■£ d? ^ II C-1556 FIG 21 3 ;. 1 "7 126. 12U- 122- 120- 119" ii a- ii£ f ii i| -I iobL f 105- poa-; loci fa i to98- Q W r- §96, «9^ «92l o , W «_90~ 8a. 8^ L I 80* L 78- "4 I 72,. 70_ 69-' 66- 67- 66- 1 I ' : ; J ■ ! . I : l_„ 1 C-b TEMTERATURE SOUNDING Ob:?1) MIST 1/29/75 (MET. TOWER 06980') :;. II C-1557 .! -20 -19 -18 -17 -16 -J -111 -13 -12 -11 TEMPERATURE (°C) _10 -9 -8 -7 -6 -5 ?57 -u FIG 22 fr 90 p w L w r g E 88 L » fa L" i°86L J CO tf Q ... ^: « 8U !r. Q w [-. * § 82 ~ r w 80 o B 78 w 76 7'. - 72 L A 70r 9 68 1 i 66; 65i _ csn 63 \ C-b TEMPERATURE SOUNDING 08:20 MST 1/29/75 i:: •; .:.:.!:. :;■ :.j :.. . :i : :..: I ,■ • ■ ; ' • ■[■:::: : i , . . . ( ........ — TOP OF TOW --19 -18 .17 -16 -15 -111 -13 -12 -li TEMPERATURE (°C) 10 -9 -3 -7 -6 -5 -li -3 II C-1558 FIG 23 12. ?r 12,6- U2.1r C-b TEMPERATURE SOUND LUG 11:30 MAT 1/29/75 I?- [ j 11.8- 11. 6u 11.4 h 11.2- 11 . 10.81 10.6: • I io. 4 10.21" 10 - 9.8' 1 | 9.6, ~9-^ j .i CO - s9.a. EH , ! w r g9 L fc ' r 5 °8.8- :< en L w Q .# £8.6- ^ P r • bu is-H" h< * eh8.pL W ! o h £8 +*-* 7.8 - 7.^f YJl r 7-3 6.e. 6.6t 11 C-1559 FIG 2»» 127- 126- 12hl 122- 120- 118- ll6r L lli*- i- 112L 4 108- • > 106- ioiT 102- h 100- i 98* • 9b- 91- X— >* ». '. p to 92- ; s ; Eh W 90- - 8 Ph 8a « o 1 CO ■' p 86- * w »_ i k • L! P Blr ;; B »- . * w 82- Eh *~ 8o- M W 78- 7* 70- C-b TEMPERATURE flOUNDTWr 17:20 MST 1/29/75 r j i ; ■ i ;!;_ _ ! : I . . ; ; . 4_ TOWER TCI -111 -13 -12 -11 -10 ■9 -8 -7 -6 .-5 TEMPERATURE (°C) -1« -3 -2 r-1 0 1 II C-1560 FIG. 25 TRACT C-b TEMPERATURE SOUNDING 05:25 1/29/75 SPIRAL DOWN FROM 13,000 FT. MSL ELEV (1000 0 13,000 TEMP (°C) -14.4 12.95 12.9 -14.5 12.85 12.8 -14.3 12.75 -14.15 12.7 -14.05 12.65 -13.9 12.6 -13.9 12.55 -13.9 12.5 -13.8 12.45 -13.6 12.4 -13.55 12.35 -13.50 12.3 -13.3 12.25 -13.05 12.2 -12.9 12.15 -12.8 12.1 -12.7 12.05 -12.5 12,000 -12.5 11.95 -12.55 11.9 -12.2 11.85 -12.05 11.8 -11.9 ELEV aoooo 11.75 TEMP (°C) -11.8 11.7 -11.7 11.65 -11.5 11.6 -11.3 11.55 -11.2 11.5 -11.0 11.45 -10.9 11.4 -10.8 11,35 -10.75 11.3 -10.6 11.25 -10.45 11.2 -10.4 11.15 -10.1 11.1 - 9.9 11.05 - 9.75 11,000 - 9.6 10.95 - 9.4 10.9 - 9.2 10.85 - 9.2 10.8 - 9.1 10.75 - 9.1 10.7 - 9.1 10.65 - 9.05 10.6 - 9.1 10.55 -8.S II C-1561 ELEV aoooo 10.5 TEMP (°C) -9.1 10.45 -9.6 10.4 -9.7 10.35 -9.2 10.3 -8.5 10.25 -8.4 10.2 -10.1 10.15 - 9.95 10.1 - 9.6 10.05 - 9.25 10,000 - 9.3 9.95 -10.1 9.9 -10.4 9.85 -10.4 9.8 -10.45 9.75 -10.3 9.7 -10.2 9.65 -10.15 9.6 -10.0 9.55 - 9.9 9.5 - 9.8 9.45 9.4 - 9.75 9.35 - 9.6 9.3 - 9.7 FIG. 25 cont, 9.25 -9.9 8,000 -8.8 9.2 -9.9 7.95 -8.8 9.15 -9.75 7.9 -8.5 9.1 -9.7 9.05 -9.55 9,000 -9.6 8.95 8.9 -9.65 8.85 8.8 8.75 8.7 -9.4 8.65 -9.2 8.6 -9.2 8.55 -9.15 8.5 -8.95 8.45 -8.9 8.4 -8.85 ■ 8.35 -8.95 8.3 -8.95 8.25 -8.85 8.2 -8.95 8.15 8.1 -8.8 8.05 -8.8 ■ II C-1562 FIG. 26 TRACT C-b TEMPERATURE SOUNDING ELEV TEMP 08:2° V29/75 CLOOOO (°C) spIRAL DOWN PROM 13,000 (JjJooD Jgq 13 -11.2 -11.2 12.9 -11.2 -11.1 12.8 -11.0 -10.9 12.7 -10.85 -10.8 12.6 -10.8 -10.8 12.5 -10.9 -11.0 12.4 -11.0 12.35 -11.1 12.3 -11.0 -11.1 -10.7 12 -10.65 ■10.35 ELEV (1000 d TEMP (°C) 11.8 -10.15 -10.1 11.7 -10.0 - 9.95 11.6 - 9.85 - 9.8 11.5 - 9.7 - 9.6 11.4 - 9.6 - 9.5 11.3 - 9.5 - 9,5 11.2 - 9.65 11.1 - 9.7 11.05 - 9.85 11.0 -9.85 - 9.7 10.9 - 9.5 - 9.35 10.8 - 9.25 - 9.3 10.7 -9.3 -9.2 10.6 -9.0 -9.0 10.5 -8.9 -9.0 10.4 -9.3 -9.3 10.3 -9.25 -9.3 10.2 -9.3 -9.15 10.1 -9.2 -9.25 10 -9.15 -9.1 12.2 -10.95 99 _91 -10.85 .92 12.1 -10.8 9a8 _9>2 -9.2 9.7 -9.1 9.0 -10.55 11.9 -10.4 9.6 _9 9.7 II C-1563 Fig. 26 cont. 9.5 -9.6 ■ -9.6 9.4 -9.45 -9.55 9.3 -9.4 -9.4. 9.2 -9.35 -9.3 9.1 -9.3 -9.6 9 -9.55 8.9 -9.25 -9.35 8.8 -9.4 -9.45 8.7 -9.2 -9.2 8.6 -9.2 -9.2 8.5 -9.05 -9.2 8.4 -9.5 -9.1 8.3 -8.8 -8.80 8.2 -8.8 -8.90 8.1 -8.95 -9.2 8.0 -9.05 7.9 -8.5 -8.5 7.8 -8.8 -9.2 7.7 -9.1 -9.0 7.6 -8.80 7.5 -8.35 -8.35 7.4 -8.45 -8.3 7.3 -8,1 -7.75 7.2 -7.75 (tower top) 7.1 -7.6 -7.75 7.0 -8.0 -8.4 II C-1564 6.9 -9.2 -10.0 6.8 -11.9 -12.5 6,7 -13.4 -13.8 6.6 -15.3 6.5 -17.1 -19.6 6.4 -20.45 -20.35 6.3 -20.2 FIG. 27 ELEV (1000*) 13 TEMP (°C) -11.3 12.95 12.9 -11.2 -11.0 12.8 -10.8 -10.6 12.7 -10.5 -10.4 12.6 -10.3 -10.2 12.5 -10.2 -10.25 12.4 -10.25 -10.2 12.3 -10.1 -10.1 12.2 -10.05 -10.05 12.1 -10.0 -9.85 12 -9.8 -9.7 11.9 -9.65 -9.55 TRACT C-b TEMPERATURE SOUNDING 11-30 1/29/75 SPIRAL DOWN PROM 13.000 IT. MSL ELEV TEMP (1000') (°C) 10.6 -9.8 10.5 -9.85 10.4 -9.55 -9.4 10.3 -9.45 -9.4 10.2 -9.55 -9.6 10.1 -9.75 -9.6 10.0 -9.8 -9.55 9.9 -9.5 -9.5 9.8 -9.5 -9.1 9.7 -9.4 -9.05 9.6 -8.9 -8.8 9.5 -8.65 -8.6 ELEV (1000 •) 11.8 TEMP (°C) -9.45 -9.3 11.7 -9.2 -9.05 11.6 -8.9 -8.8 11.5 -8.65 -8.6 11.4 -8.55 -8.55 11.3 -8.5 -8.5 11.2 -8.65 -8.9 11.1 -8.8 -9.00 11.0 -9.35 10.9 -10.1 -10.1 10.8 -10.2 -10.0 10.7 -9.7 II C-1565 FIG. 27 cont. 9.4 -8.6 -8.4 9.3 -8.4 -8.15 9.2 -8.1 -8.05 9.1 -7.95 -7.65 9 -7.55 -7.4 8.9 -7.3 -7.15 8.8 -7.0 -6.9 8.7 -6.85 -6.6 8.6 -6.45 -6.0 8.4 -5.85 -5.7 8.3 -5.6 -5.6 8.2 -5.5 -5.3 8.1 -5.1 -4.95 8 -4.7 6.6 -.95 -4.6 -.9 7.9 -4.5 6.5 -.8 -4.35 -.5 7.8 -4.05 6.4 -.6 7.7 -3.9 -3.7 7.6 -3.55 -3.5 7.5 -3.15 -2.9 7.4 -2.8 -2.7 7.3 -2.5 -2.4 7.2 -2.25 (tower top) 8.5 7.1 -2.2. -2.05 7.0 -1.95 -1.8 6.9 -1.7 -1.55 6.8 -i.a -1.2 6.7 -1.25 -1.05 II C-1566 TIG, 28 TRACT C-b TOIPIiRATUR!: SOUNDING J7:20 1/29/75 SPIRAL UP TO 13,000 IT. ELEVATION TftlP ELEVATION T1WP EL13VATION TEMP (1000 IT) (°C) (1000 IT) (°C) (1000 IT) (°C) 7.2 --,1 8.5 -4.0 9.7 *7,0 - .4 -4.2 .6,8 7.3 - .6 8.6 -4.4 9.8 -6,8 - .6 -4.5 -6.8 7.4 . .8 ' 8.7 -4.6 ■ 9.9 -6,9 - .9 -4.9 -7.0 7.5 -1.1 8.8 -5.1 10. -7.1 -1.2 -5.2 -7,3 7.6 -1.4 8.9 -5.4 10.1 -7.6 -1.4 -5.6 -7.7 7.7 -1.7 9. -5.7 10.2 -7.8 -1.8 -5.8 -8,0 7.8 -1.9 9.1 -6.1 10.3 -8.1 -2.1 -6.0 -8.3 7.9 -2.3 9.2 -6.2 10.4 -8.4 -2.4 -6.4 -8.6 8 -2.6 9.3 -6.4 10.5 -S.7 -2.8 MSG -8.8 8.1 -3.0 9.4 -6.5 10.6 -8.9 -3.2 -6.6 -9.0 8.2 -3.2 9.5 -6.8 10.7 -9.0 -3.3 -6.7 -9.1 8.3 -3.4 9.6 -7.0 10.8 -9.3 -3.6 ' MSG -9.4 8.4 -3.'7 -3.9 II C-1567 FIG. 28 cont. ELEVATION (1000 FT) TEMP (°C) ELEVATION (1000 FT) TBIP (°C) 10.9 -9.4 12.1 -11.3 -9.4 MSG 11 -9.3 12.2 -11.4 -9.4 -11.4 11.1 -9.4 12.3 -11.4 -9.5 -11.4 11.2 -9.6 12.4 -11.4 -9.7 -11.5 11.3 -9.8 12.5 -11.6 -9.7 -11.6 11.4 -9.9 12.6 -11.8 -10.1 -11.8 11.5 -10.2 12.7 -12.0 -10.3 -12.2 11.6 -10.4 12.8 -12.0 -10.6 MSG 11.7 -10.8 12.9 -12.0 -10.8 MSG 11.8 -11.0 -11.1 13 -12.0 11.9 -11.2 -11.3 12 -11.4 -11.4 II C-156S FIG. 29 TRACT C- ■b PILOT BALLOON SOUNDING 05:02 1/29/75 (MIN) TIME . (DEG) • AZIMUTH (DEG) ELEVATION (FT) X (FT) Y (FT) Z (DEG) HEADING (MPII) VELOCITY 0 0 0 0 0 0 307 8.97 .5 307.2 37.2 -315 239 349 10.39 1 329.9 37.0 -399 689 001 L2.64 1.5 342.7 32.6 -388 1246 16 16.58 2 354.4 31.5 -191 1949 31 17.2 2.5 4.3 29.9 195 2601 19 20.82 3 8.2 27.2 500 3467 20 28.51 3.5 11.3 23.9 929 4647 28 33.28 4 15.3 21.5 1624 5937 32 27.86 4.5 18.1 20.2 2280 6975 37 34.98 5 21.3 18.8 3201 8210 41 33. 5S 5. 5 24.1 17.9 4172 9326 42 36.87 6 26.5 17.0 5254 10538 52 32.51 6.5 29.2 16.6 6382 11420 75 57.07 7 33.9 16.4 7949 11844 57 29 . 84 7.5 35.8 16.2 9060 12562 71 28.29 8 38.3 16.2 10240 12966 57 30 . 25 8.5 39.7 16 11361 136S4 63 28.75 9 41.2 15.9 124S7 14263 65 25.95 9.5 42.5 15.9 13518 14753 72 30.82 10 44.3 15.8 14809 15175 60 32. OS 10.5 45.3 15.6 16058 15871 60 28.9S 11 46.1 15.5 17148 16502 11.5 48.2 14.5 II C-1569 FIG. 30 TRACT C- ■b PILOT BALLOON SOUNDING 08:02 1/29/75 OlIN) TIME (DEC) AZIMUTH (DEG) ELEVATION (FT) X (FT) (FT) •Y Z (DEG) HEADING (MTU) VELOCITY 0 0 0 0 0 326 8.90 .5 325.9 37.41 -220 325 354 13.19 1 342.90 32.42 -278 903 9 18.68 1.5 355.23 27.61 -143 1715 17 20.15 2 2.48 25.05 111 2565 23 21.97. 2.5 8.02 23.25 487 3247 26 20.36 3.0 11.73 22.47 885 4261 28 25.46 3.5 15.10 21,12 1416 5249 32 33.05 4.0 18.68 19.33 2191 6481 39 33.80 4.5 22.35 18.12 3137 7631 35 37.79 5 24.52 16.89 4100 8989 , 39 37.97 5.5 26.58 16.00 5149 10292 41 39.97 6 28.45 15.23 6299 11625 52 38.07 6.5 31.09 14.79 7628 12650 54 39.27 7 33.42 14.38 9023 13673 66 45.97 7.5 36.90 13.95 10877 14487 44 42.53 8 37.52 13.51 12167 15845 63 40.77 8.5 39.60 13.28 13773 16649 66 40.01 9 41.51 13.10 15379 17377 68 34.88 9.5 43.10 13.05 16803 17956 68 47.65 10 44.98 12.75 18743 18756 57 47.82 10.5 45.83 12.43 20501 19916 65 52.77 11 47.26 12.1 22610 20894 11.5 II C-1570 FIG. 31 TRACT C-b PILOT BAllOON SOUNDING 11:00 1/29/75 (MIN) TIME (DEG) AZIMUTH (DEG) ELEVATION (FT) X (FT) Y (FT) Z (DEG) HEADING (MP11) VELOCITY 0 0 0 0 0 336 6.93 .5 336.0 44.5 -124 279 13 8.04 1 356.2 43.85 - 41 623 11 18.65 1.5 4.43 32.1 111 1430 16 27.01 2 9.63 24.68 437 2575 7 33.95 2.5 8.59 20.07 613 4080 13 22.18 3 9.48 19.51 837 5011 21 21.18 3.5 11.29 19.30 1174 5881 20 38.17 4 13.19 17.39 1749 7461 24 39.77 4.5 15.13 16.04 2451 9086 30 41.93 5 17.52 15.01 3368 10669 38 38.69 5.5 20.22 14.46 4423 12008 42 32.75 6 22.42 14.28 5394 13075 43 30.66 6.5 24.22 14.20 6323 14056 45 37.59 7 26.20 13.90 7493 15228 49 42.16 7.5 28.38 13.53 8888 16453 49 53.42 8 30.61 12.92 10654 18008 51 58.28 8.5 32.78 12.32 12643 19632 63 64.67 9 35.98 11.80 151 86 20917 43 65.36 9.5 36.68 11.23 17149 23024 54 66 . 29 10 38.23 10.78 19500 24754 54 66. 8 S 10.5 39.55 10.39 21878 26494 66 76.19 11 41.85 10.01 24947 27853 40 79.26 11.5 41.68 -9.5S 27185 30533 II C-1571 FIG. 32 TRACT C-b PILOT BALLOON SOUNDING 17:10 1/29/75 (MIN) TINE (DEG) AZIMUTH (DEG) ELEVATION (FT) X (FT) (FT) (DEG) Y Z HEADING (MPII) VELOCITY 0 0 0 56 3.85 .5 55.5 60.5 140 96 47 2.25 1 52.34 65.92 212 164 325 2.15 1.5 33.24 72.19 158 242 345 3.43 2 17.12 71.32 119 388 35 6.91 2.5 25.01 64.95 296 635 27 10.63 3 25.92 57.0 511 1051 32 16.25 3.5 28.32 48.13 893 1657 34 17.28 4 29.84 42.26 1314 2291 35 18.51 4.5 30.95 38.01 1776 2962 29 32.20 5 30.34 31.62 2461 4205 32 40.04 5.5 30.72 26.44 3390 5705 33 36.08 6 31.19 23.64 4259 7035 32 47.97 6.5 31.4 20.67 5385 8823 37 35.03 7 32.15 19.48 6318 10052 II C-1572 a: P-. 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H C-1573 sr/.r nir/rnTmrnoN or aiup.orni: PAirncw.ATr matttr in Tin: Ki:.".i'iRAi',i.i: rancks at thr c;-h tract Sampling Time = 21 hours and 15 minutes Total Particulate Matter Collected = 15.1 mg Size Kanae (micron;:)* 7.0 - Above 3.3 - 7.0 2.0 - 3.3 1.1 - 2.0 0.01 - 1.1 Concentrations (jig/m ) .. 1.77 1.89 6.G2 2.13 5.44** * Aerodynamic diameter of the particulate matter. ** Although this represents particulate matter of 0.01 - 1.1 microns aerodynamic diameter collected on the back-up filter (8"xl0"), at least two soot particles of much larger diameters were observed on the filter. This may have happened due to "particle bouncing phenomenon" — ■ a common occurrence in almost all particle sizers. II C-1574 FIG. 36 SLOPE OF TEMPERATURE VS ALTITUDE (°C/100M) 1/29/75 ELEVATION HEIGKr ABOVE 0525 0820 1130 1720 (FT ABOVE SL) SURFACE MST MST MST MST 6970 0. +3.6 - .82 -.98 (F) (D) (D) 7170 200 - .46 - .82 -.98 (E) (I>) (D) 7370 400 - .30 - .82 -.98 (E) (D) (D) 7570 600 -1.15 -1.05 -.98 (D) (D) (D) 7770 800 - .131 - .95 -.98 (E) (D) (D) 7970 1000 -.0491 - .131 - .95 -.98 (E) (E) CD (D) 8170 1200 -.0491 - .131 - .92 -.98 (E) (E) (D) (D) 8370 1400 -.0491 - .131 - .85 -.98 (E) (E) (D) (D) 8570 1600 -.426 - .131 - .95 -.98 (E) (E) (D) 0» 8770 1800 -.426 - .131 - .85 -.98 (E) (E) (D) (D) 8970 2000 -.148 - .131 - .85 -.89 (E) (E) (D) (D) 9170 2200 -.148 - .07 - .75 -.89 (E) (E) (D) (D) 9370 2400 -.141 -0.1 - .62 -.46 (E) (E) (D) (E) 9570 '2600 -.141 + .30 - .62 -.07 (E) (E) (D) (E) 9770 2800 -.524 + .03 - .46 + .10 (D) (E) (E) (E) 9970 3000 +4.92 - .13 - .07 -.72 (G) (E) (E) (D) NOTE: STABILITY CLASS dT/dz (°C/100M) A <-1.9 B -1.9 to -1.7 C -1.7 to -1.5 D -1.5 to -0.5 E -0.5 to 1.5 F 1.5 to 4.0 G > 4.0 11 l-i^7d tO E- e _ hWg »— * (J WO 1 8 STABI CLA FR i W Q Q ^& ►JHW H Jt/) 3 £H < £^d y-t w Q Q < H CX, CO N OC oo o CM r*- < o ^ cm Cn to CO r-^ S.HH i — • • • • E- \C0 Q to rH o o < U ^3 1 i o o to i CM t— 1 r-» vO CM — E- r-~ CM r^ r^ -— vO 5 to rH i 1 co o rr: cm P < 2 - R o g tO ~i i rH en en en cn frj — E- CTl Cn en en ^— 'O 5 to to to to o 1 1 i i 1— ( o to E- » U rg o cm CM %^ + i 1 o a CM .. o r— N tO H H ' U i— t o CM CM CO < ► _J + i ' S o w o o cn CO P o •^f **■ t-O • i \-n • 0\ ' p rsj Cu i— i rH oo eg r^ CM rH r— 1 £ rH CM t£ h ^j < - , — ^ , — \ o to rH <2J O to to to • LO • en t— 1 & £ T—i I— 1 OO eg oo Cn] u? rH CM o f — N , — v •- O ^r pj o CM fvj LO • r- rH g to £4 rH rH OO rsj co to | r-i r^j CC /"—> / — >> M - rH CNI LO £a co pH "^r • o • en rH rH OO co co fxl g rH Cs] -4> v ' * — / S§t2 to o o O 03 O c-j cm to o ►— I J? 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VS ALT. SOUNDING E D D E E E D E *Based on the assumption that these wind speed catagories equate to the Pasquill classifications. II C-1578 2000 28- JAN • »t»»M ««»»•<. 0400 29 JAN -" •c:r-z'~--''-^'—T'.-\r=r' O imliiiu iihiiiI I" .*-£:-■'■•■:— '• — — "* FIG. 40 DIURNAL VAUIATIONS1N KIND VELOCITY I I C-1579 FIG. 41 HORIZONTAL TliMH-RATURI! VARIATIONS IN PICKANCU CRIiliK 29 JANUARY 1975 40- .1 - •■ ..-.'. X-- 30 m 20^ . - .... 1 4 ___/3©e>. op h sT '■.r~ :_:.:_.: ■"::.:._ ... .:. . - — ----■'■ T"c.*v s p e r?! ;,-e >'°° ,. ' 10. 'F ^ f -'" -" „-' 0 - ,.--"" -"" 10.°° , #"*■* -10 - -20 ^ ^■'\ ,x '..-0 ' *" *■ , . • • *""_ -30 1 t.3£!9-$ Iff. oo._ - -o 'C ■- -+ -x ROCiJ SCIKX1L HORIZONTAL I) I STANCH ALONG PICHANC1- CPJ-I-K (MI) 2 *3 4 A 5 0 KliDD RANCH 7t iS • f G. 0LDIA\;V UANGi II C-1SC0 FIG, 44 12000 ;_- II C-1S81 AIR TEMPERATURE INVERSION CHARACTERISTICS PICEAMCE CREEK BASIN, WESTERN COLO, REPORT # I Prepared for ATLANTIC RICHFIELD CORP. C-b OIL SHALE LEASE TRACT March 12, 1975 by William E . Marl a t t KARLATT & ASSOCIATES 3611 Richmond Drive Fort Collins, Colo. II C-1582 TABLE OF CONTENTS PAGE INTRODUCTION II C-1584 DATA ANALYSIS II C-1584 DISCUSSION II C-1587 TABLES I Air Temperature Inversion Characteristics II C-1585 II Frequency Analysis - Duration II C-1586 III Frequency Analysis - Onset Time II C-1586 IV Frequency Analysis - Breakup Time II C-1587 V Inversion Comparisons - Characteristics tj C-1589 VI Inversion Comparison - Duration II C-1589 VII Inversion Comparison - Onset & Dissipation II C-1589 FIGURES I Acoustic Radar Trace for night of Dec. 8, 197*» II C-1588 II C-1585 AIR TEMPERATURE INVERSION CHARACTERISTICS PICEANCE CREEK BASIN, WESTERN COLO. I. INTRODUCTION In order to answer questions about the climatology of air temperature inversions over the center of the Piceance Creek basin in the vicinity of the C-b tract, an acoustic radar (Aero- vironment, Inc.) was installed near the weather tower and air quality station on the C-b tract on December 6, 197^. This instru- ment is designed to transmit a sound pulse vertically at 12 second intervals to measure the height of inversion layers. The maximum altitude of measurement is 750 meters above the instrument. The radar has been in operation on a nearly continuous basis sir.ce that date. This report summarizes the acoustic radar measurements obtained between December 7, 197^ and February 22, 1975. II. DATA ANALYSIS Data reduction and analysis of the acoustic radar data have been more difficult for the C-b site than was experienced for either of two units operated at other sites by the author. In part, this has been the result of not having the facimile chart trace adjusted for maximum sensitivity. In addition, the echo is many times not well defined; often it is questionable v/hether the echo is of an inversion layer or a turbulent mixed layer. On several occasions the radar dish had an accumulation of snow which also made the record more difficult to interpret. II C-1S84 16 22 14 18,5 15.2 15.3 225 280 288 25 30 22 3 1 3 Air temperature inversions below 750 meters were recorded on 52 occasions during the 77 day interval between Dec. 7, 197** and Feb, 22, 1975 (including 7 days missing data for some hours). Table I shows the number of inversion periods, their average duration and height above the surface. There were five occasions when a multiple layer inversion was noted. Table I, Air Temperature Inversion Characteristics. C-b Tract near Meteorology Tower, Dec. 7, 197*» - Feb. 22, 1975. Dec. Jan. Feb. Number of Inversions Ave, Duration (hrs.) Ave Height (meters) # of days of measurements # of days missing data Table 2 shows the frequency of duration of inversion periods measured. From this table, it is determined that S0% of the periods lasted between 7 and 21 hours and that h6% of the inversions lasted more than 12 hours. The longest single period of air temperature inversion lasted from 1700 on Dec. 19 until 1200 on Dec. 21, a total of *»3 hours. Tables 3 and k summarize the times of onset and breakup of the air temperature inversions. From table 3, it may be seen that the most frequent time of onset was late afternoon with Qh% of all inver- sions forming between 1300 and 2100 MST and S^% forming between 1600 and 1830 MST. The most frequent time of breakup was between 0700 and 1230 MST (72%) with k0% of all inversions dissipating between 0700 and 0930 MST. Figure 1 shows a portion of the air temperature radar record for the period 2200 Dec. 7 and 0700 Dec. 8, 197z». II C-1S85 Table 2, Frequency Analysis of Air Temperature Inversion Duration. C-b Tract near Meteorology Tower. Dec. 7, 197^ - Feb. 22, 1975 Inversion Duration (hrs) Dec. Jan. Feb. Total 0-3 4-6 7-9 10-12 13-15 16-18 19-21 22-24 25-30 31-35 r> 36 0 1 0 1 2 2 0 h 3 1 2 6 0 2 k 6 1 3 k 8 5 7 1 13 1 5 1 7 0 0 1 1 2 0 0 2 1 0 1 2 2 1 0 3 Table 3. Frequency Analysis of Time of Onset of Air Temperature Inversions. C-b Tract near Meteorology Tower. Dec. 7, 197** Feb. 22, 1975 Time Period (MST) Dec. Jan. Feb. Total 1300-1530 1600-1830 1900-2130 2200-0030 0100-0330 0^00-0630 0700-0930 1000-1230 3 3 3 9 8 11 8 27 1 4 2 7 0 2 0 2 3 0 0 3 1 1 0 2 0 0 0 0 0 1 1 2 11 C-1S86 Table k. Frequency Analysis of Time of Breakup of Air Temperature Inversions. C-b Tract near Meteorology Tower. Dec. 7, 1 97^4 Feb. 22, 1975 Time Period MST) Dec. Jan. Feb. Total 1300-1530 1600-1830 1900-2130 2200-0030 0100-0330 0400-0630 0700-0930 1000-1230 1 0 0 1 0 0 0 0 0 1 0 1 1 1 1 3 1 1 2 k 0 2 4 6 9 7 5 21 k 10 2 16 111. DISCUSSION From the data collected at the intensive study period in late January, it wes found that, on that occasion, while there was a slight inversion noted at the C-b meteorology tower on the morning of January 29, it was diffucult to detect with certainty on the acoustic radar chart. Furthermore; it was difficult to understand why an air temperature inversion should persist at that location when the wind was blowing at an average velocity of around 8-12 mph. Comparison of the air temperature at the tower and at the air quality station at Rock School in the bottom of Piceance Creek valley indicated a ^3 F temperature inversion in the 780 feet elevation difference between the two stations. Aircraft measurements of the air temperature profile confirmed this extremely steep inversion and showed that the acoustic radar was at an elevation at or just above II C-1587 ( SVC? ~ .../;.x.-» .'•.•,•-;• • JS-ys^-. -lw •/■•••..• -:;-.--t j,:|> ,-*;•• •••''.•%• ! v ".•;':<>•'•.■; o'7 Qn «-'-' '• "-T V "' • \' .'*• '.- "•":' •i'' "•'•.v :"'-' ;:"'W-i ■ '. » • - ■■+ ■■ -."■ ..•■-'** >-■ .} ;- • * .•"•'■ ■ • •' . 1 fifJS&e i«y:t; — ^ r-*fc^f" ) ti — - !*:1 — ' — T — ; ;i,v'-vvV--|-:;t.>::.Vt-'-t' •'•'* '.••»•'••■ U -"■ -,'•.- \ m^mi^m^p- ■&# : -I -i-V ..h' !%{ -..-. d;:.} : ';,-,;• if.lt.^:iJXi,i-''i ft*- ;•:>- V*-* :>"--to ; — J ';•''• i ' ' '"»'• ;;^>^v«,.l. ;..•-;..-*-, ..^ «..:. } rii^n - .< S J*.r V <- !."• •«^w :-v=--v . **c?*r"r. .'..} *";r. i A. »l ■»•••'• ^v>» . vr^ •\A ■■;■•-.'!? -t V';?."&4i •.?-"»*"" c-^4 ;-.• ■:?■-•>;• •■■., • ^ -*!»■■• *-VJ'~--;rAZ~="-"--^r.; *"^v ' '•'«* -'*■£> I \ = -r •**T'-tV: -T •' '■''^y-Ji-:. *~7i ' S"; -« *S^J. • ." ^.— ^-iJ*t^r\^:-Cr? f ;*» ! . ! .'• : - , -• *■■ ].-'';:'-*; ■'.':;.vv:-,"'v; l.^-t^v4."^ ;' • T '• ;;- vtf^jv:-::-:::,!. ■....: -;:\r 5..?.. , ,■.-.■ :,.-... .. -. :• ..! 1 SXVX .:^«.,W '••'1A7-C-7-- • »-:---•.-?- - ■■■•• -; 5%^;y.^.f, {-■' - ■■--.■ ---'-i iU II C-1588.; -r ><^ ;4:^-^---. ^^-:! ^ * ■ --."-■7 the inversion. It is recommended, therefore, that the acoustic radar presently located at the Dere1 Cabin Ridge station on the Colony property be moved to the Rock School location as soon as weather permits. A second acoustic radar was operated during the same period on the southern ridge of the Piceance Basin above Parachute Creek. A forthcoming report will include a detailed comparison of the measurements from the two locations. The following tables for the month of December are included here to provide a preliminary eval- uation of the similarities and differences in the enversion char- acteristics measured at the two sites. The radar unit at the Dere* Cabin Ridge site measures to a maximum altitude of 500 meters and the data were reduced at hourly intervals only. Table 5. Comparison of Air Temperature Inversion Characteristics at the C-b Tract and the Dere1 Cabin Ridge Sites. Dec. 1971*. Characteristic C-b D.C.R. Number of Inversions 16 23 Average Duration (hrs) 18,5 13 Average Height (meters) 225 198 U c -1589 the inversion. It is recommended, therefore, that the acoustic radar presently located at the Dere' Cabin Ridge station on the Colony property be moved to the Rock School location as soon as weather permits. A second acoustic radar was operated during the same period on the southern ridge of the Piceance Basin above Parachute Creek. A forthcoming report will include a detailed comparison of the measurements from the two locations. The following tables for the month of December are included here to provide a preliminary eval- uation of the similarities and differences in the enversion char- acteristics measured at the two sites. The radar unit at the Dere1 Cabin Ridge site measures to a maximum altitude of 500 meters and the data were reduced at hourly intervals only. Table 5. Comparison of Air Temperature Inversion Characteristics at the C-b Tract and the Dere' Cabin Ridge Sites. Dec. 197^. i Characteristic C-b D.C.R. Number of Inversions Average Duration (hrs) Average Height (meters) 16 23 18.5 13 225 198 II C-1S89 Table 6. Comparison of Air Temperature Inversion Duration and Frequency Statistics. C-b Tract and Dere' Cabin Ridge. Dec. 197*» Inversion Duration (hrs) C-b D.C.R. 0-3 4-6 7-9 10-12 13-15 16-18 19-21 22-24 25-30 31-35 36 Table 7. Comparison of Times of Onset and Dissipation of Air Temperature Inversions. C-b Tract and Dere1 Cabin Ridge. Dec. 1974. 0 1 2 6 3 3 0 4 1 3 5 1 1 3 0 1 2 0 0 1 2 1 Time Period (MST) onset c- -b breakup D. onset ,c .R. breakup 3 1 1 7 8 0 3 1 1 0 5 1 0 1 4 1 3 1 7 5 1 0 2 2 0 9 0 4 0 4 1 2 1.300-1530 1600-1830 1900-2130 2200-0030 0100-0330 0400-0630 0700-0930 1000-1230 II C-1590 * 8 APPENDIX TABULATION OF DATA II C-1591 DECEMBER 1974 Start Date Time MST End Date Time MST Number of Hours Highest Level (meters) Lowest Level (meters) Average Level (meters) 12/7 1630 12/8 1230 20 440 150 306 12/8 1630 12/10 0930 41 360 50 211 *12/8 1900 12/8 2300 4 365 110 296 12/11 1500 12/12 0700 16 320 80 157 12/14 0130 12/14 0830 7 210 100 159 12/14 1530 12/15 0900 17.5 415 90 251 12/17 1830 12/18 0800 13.5 390 140 285 12/19 1700 12/21 1200 43 750 150 389 12/22 2100 12/23 0300 6 220 140 182 12/23 0530 12/23 1000 4.5 250 155 197 12/2 4 0200 12/24 0930 7.5 310 70 157 12/24 1300 12/25 1400 25 410 90 208 12/25 1600 12/26 0030 8.5 180 90 130 12/26 1700 12/27 1130 18.5 370 75 217 * 12/27 0630 12/27 1130 5 570 440 537 12/27 1600 12/28 0900 17 570 230 366 12/28 1630 12/29 0930 17 390 80 264 * 12/29 0730 12/29 1230 5 220 130 180 12/31 0200 1/1 0800 30 250 70 118 * Multiple Layer II C-1592 10 JANUARY 1975 Start End Number Highest Lowest Average Date Time Date Time of Level Level Level MST MST Hours (meters) (meters) (meters) 1/2 1030 1/3 0730 21 200 80 121 1/3 1500 1/4 1000 19 460 100 297 *l/3 0530 1/3 1000 4.5 410 330 377 1/4 1600 1/5 0930 17.5 470 100 234 1/6 2200 1/7 1100 13 640 380 513 1/7 1830 1/8 0030 6.5 400 50 143 1/10 1630 1/11 1100 18.5 340 75 221 1/12 0030 1/12 0730 7.5 450 140 273 1/12 1500 1/13 1100 20 450 220 346 1/13 1600 1/14 1100 19 390 170 307 1/14 1730 1/16 0630 37 450 120 317 1/16 2030 1/17 1000 13.5 400 100 283 1/17 1530 1/18 1000 19 420 110 286 1/18 1700 1/19 0930 16,5 400 120 274 1/19 1600 1/20 0900 17 540 260 391 1/20 1600 1/21 0200 10 500 370 449 1/21 1700 1/22 1000 17 400 120 199 1/22 1600 1/23 1000 18 450 250 356 1/23 1700 1/24 0900 16 350 150 231 1/26 2000 1/27 1000 14 500 110 303 *l/26 2000 1/27 0330 7.5 750 450 656 1/28 1930 1/28 2030 1 450 250 367 1/29 0430 1/29 0900 4.5 400 300 370 1/31 2000 2/1 0600 10 240 60 137 * multiple layers II C-1593 0 ! ' j* > -\ ,.' ■ • > ■", 2 v -■ < I' i • c % 11 FEBRUARY 1975 Start End Number Highest Lowest Average Date Time Date Time of Level Level Level MST MST Hours (meters) (meters) (meters) 2/1 1100 2/2 1000 23 320 75 187 2/2 1930 2/3 1000 14.5 450 100 305 2/3 1630 2/4 0930 17 650 130 299 2/4 1700 2/5 0400 11 410 no 297 2/6 1730 2/7 0500 11 500 120 346 2/8 1430 2/9 0930 19 600 240 404 2/10 1500 2/11 0630 15.5 280 60 182 2/11 1630 2/12 0130 9 590 50 367 2/13 1530 2/15 0030 33 550 80 326 2/15 2030 2/16 0830 12 620 70 305 2/1 & 1800 2/17 0230 8.5 525 120 378 2/18 1800 2/19 0930 15.5 330 60 147 2/20 1800 2/21 0600 12 350 110 182 2/21 1830 2/22 0800 13 410 80 301 II C-1594 } 4