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Chean Feasiblity Study Air Quality Assessment Attachment 1 1982
CHENA FEASIBILITY STUDY Alk QUALITY ASSESSMENT ATTACHMENT 1 By Morris—Knudsen Company, Inc November 1, 198? Y.2:.5 OB CONTRACTORS ENGINEERS DEVELOPERS @ MORRISON-KNUDSEN COMPANY, INC. EXECUTIVE OFFICE TWO MORRISON-KNUDSEN PLAZA P.O. BOX 7808 / BOISE, IDAHO 83729/ U.S.A PHONE: (208) 386-5000 / TELEX: 368439 November 1, 1982 Mr. Remy G. Williams Project Manager Alaska Power Authority 334 West-Sth Avenue, 2nd Floor Anchorage, AK 99504 Reference: Chena Feasibility Study M-K W.0. No. 4036 Serial Number MK-OC-022 Subject: Recommended Air Quality Monitoring Program Dear Mr. Williams: As part of Task 03-400, M-K analyzed the expected emissions from each of the four scenarios and evaluated the relative importance of collecting additional air quality monitoring data. Results of this analysis indicate that emissions from the modified Chena Plant will result in ambient concentrations below the criteria for exempting sources from Prevention of Significant Deterioration (PSD) monitoring requirements. Therefore, an ambient monitoring exemption may be appropriate for the refurbishing or replacement scenarios contemplated by the Chena Feasibility Study. M-K recommends that an ambient monitoring exemption be requested from the EPA Region 10 to officially eliminate the need for an air quality monitoring program. A copy of the "Air Quality Assessment" (Attachment 1) prepared by M-K to support an ambient monitoring exemption request is attached for your review and comment. Please evaluate this recommenda- tion and indicate your preferred approach by November 9, 1982. Any questions regarding the air quality monitoring program should be directed to Roger J. Landon or myself. Very truly yours, Chia C. T. McCreedy Project Manager CTM/RJL/shs Attachments ce: -.D. E. Steffen 34.03.01 82.305.0? DRAFT. Mr. Michael Johnston Environmental Protection Agency 1200 Sixth Avenue Seattle, WA 98101 Dear Mr. Johnston: Attached is an analysis of air quality screening modeling conducted for potential modifications to the Chena Power Plant in Fairbanks, Alaska. The modeling was conducted for two scenarios: 1. Existing Units 1, 2, and 3 replaced with one 150,000 pound-per-hour boiler. ee Existing Units 1, 2, and 3 replaced with one 286,000 pound-per-hour boiler. Best engineering estimates and assumed meteorology data, designed to produce maximum 24-hour surface concentrations, were used as input to the PTMTP screening model. The results of modeling for total suspended particulates, sulfur dioxide and nitrogen dioxide impacts indicate that emissions from either scenario will result in ambient concentrations below the criteria for exempting sources from PSD monitoring requirements. Based on these results, M-K feels that an ambient monitoring exemption is appropriate for the two scenarios described above. Please review the screening analysis and determine if you concur with our evaluation. Any questions regarding this request should be directed to Douglas E. Steffen, Manager, Air Quality Service. Very truly yours, C. T. McCreedy Project Manager CTM/RL/k1 Attachment cc: G. L. Rice R. G. Williams Attachment 1 AIR QUALITY ASSESSMENT FOR THE CHENA FEASIBILITY STUDY 1.0 PROJECT DESCRIPTION The Alaska Power Authority has engaged Morrison-Knudsen Company, Inc. to study the feasibility of refurbishing or replacing three utility boilers at the Chena Power Station in Fairbanks, Alaska. The boilers under consideration are part of a six unit complex that is owned and operated by the Fairbanks Municipal Utilities System. Chena 1, 2 and 3 were manufactured and installed by the Babcock and Wilcox Company during 1951 and 1952. Each unit has an identical balanced draft, traveling grate, stoker fired boiler with a steam production design capacity of 50,000 lb/hr at 600 psig and 720°F. The boilers are fired with sub-bituminous coal from the Healy Valley located approximately 85 miles southwest of Fairbanks. Particulate emissions are controlled by separate Western Precipitation multiclone dust collectors located on each unit. Units 1, 2, and 3 have been unable to meet the Alaska particulate emission standard of 0.10 grains per standard cubic foot when fired at 100% load. Therefore, these units have been restricted to operation at 80% capacity. Likewise, Unit 5 is restricted to operation at 90% capacity. Morrison-Knudsen Company, Inc. (M-K) is currently assessing the feasibility of proceeding with one of four plant modification options: Refurbish Units 1, 2 and 3. Replace Units 1, 2, and 3 with one 150,000 pound-per-hour coal boiler. Replace Units 1, 2, and 3 with one 286,000 pound-per-hour coal boiler. Replace Units 1, 2, and 3 with one 150,000 pound-per-hour coal/solid waste boiler. PwNnr Depending on the results of a district hot water heating system pilot project, one of two major alternative courses of action are anticipated. If no additional district heating is elected, Chena 1, 2 and 3 boilers may be refurbished or replaced with a single 150,000 1b/hour boiler. However, if the district heating system is expanded, a larger boiler (286,000 lb/hr) may be installed to meet electric generation and district heating needs. The projected physical stack parameters and emission rates for each scenario are presented in Table 1-1. An air quality modeling assessment was conducted for Scenarios 2 and 3. Emissions for Scenario 2 are considered representative of Scenarios 1, 2 and 4. The results of the analysis are presented in Section 3 of this attachment. 2.0 3.0 Sil 3u2 METEORLOGICAL DATA Meteorological data are available from National Weather Service observations taken at Fairbanks International Airport. Table 2-1 is a statistical windrose based on ten years of data (1961-1970). These data are further summarized in Table 2-2, which presents frequency statistics by atmospheric stability and wind direction. Note that the prevailing wind direction is from the north, with a secondary maximum from the southwest. Northerly winds tend to occur most frequently during stable conditions, while neutral or unstable conditions tend to result in southwesterly flows. The classical diurnal stability cycle suggests that northerly winds and stable conditions would occur during late night and early morning hours. Neutral and unstable conditions generally occur during late morning and mid-afternoon hours. It should be noted that the Climatic Atlas of the United States (NOAA, 1979) reports that the prevailing wind direction is north for each month except June when the winds are from the southwest. Also, the publication reports an annual wind speed of 5 miles per hour. AIR QUALITY IMPACT ASSESSMENT There are two basic purposes for conducting an air quality assessment of the proposed Chena modification: 1. Determine the location(s) of the maximum air quality impact. 2. Compare the projected impact to the significance levels for the PSD monitoring exemption published on August 7, 1980 at 45 FR 52729 (40 CFR 52.21 (i) (8)). Maximum Impact Location Determining the location of the maximum impact was done in a somewhat qualitative manner. The stability wind rose and NOAA climatic atlas both indicate that the annual and short-term (24-hour) prevailing wind direction is from the north. Therefore, it was assumed that the maximum annual and 24-hour impact will occur south of the Chena Plant. The modeling approach used to predict the point of maximum impact downwind from the plant is discussed in Section 3.2. Modelled Air Quality Impacts Two EPA screening models, PTMAX and PTMPT, were used to evaluate the potential impacts of Chena Plant emissions. These models were used in conjunction with artificially-constructed 24-hour meterological scenarios to evaluate potential air quality impacts. Guidance provided by the stability wind rose was used to construct the meteorological scenarios. Table 3-1 is a summary of the meteorological scenario that M-K considers to be typical for the Fairbanks area. The wind speeds, directions and hourly stability variations were based on the wind rose data and assumed changes due to diurnal heating cycles. A value of 1000 meters was used for all mixing depths. The University of Alaska has conducted winter tethersoude studies which indicate that inversions are surface-based in Fairbanks (Bowling, 1982: personal communication). Therefore, it was assumed that copying inversion conditions which restrict vertical plane dispersion, do not exist during stable atmospheric conditions. These data were input to PTMTP. The model was run assuming a generic emission rate of 1.0 gram per second. The actual 24-hour average maximum concentration for each pollutant is given in Table 3.2. A copy of the model output is given in the Appendix to this attachment. Running PTMAX revealed that hourly concentrations were maximized for "moderate" wind-speed, neutral or slightly stable conditions. Therefore, it was felt that another 24-hour meteorological scenario should be created which might simulate "worst case" pollutant dispersion conditions. This scenario assumes that the wind blows from one direction for every 16 of every 24 hours. The meteorological parameters for the sixteen hours are given in Table 3-3. A copy of the model output is given in the appendix to this attachment. The worst-case 24-hour concentration for each pollutant is given in Table 3-4. Persistent wind direction and hourly dispersion assumptions designed to maximize surface concentrations were used to calculate the concentrations presented in Table 3-4. The possibility of the assumed meteorological conditions occurring is remote. Therefore, the chances of the maximum concentrations presented in Table 3-4 occurring are equally remote. It should be noted that the calculated concentrations are below the significance levels for the PSD monitoring exemption. TABLE 1-1 Physical Stack Parameters and Emission Rates (Per Unit) Emissions (tons/year) Stack Volumetric Exit Scenario Height (ft). Flow Rate (SCFM) Temperature (°F) Particulate S02 NOx 1 120 50,200 305 189 341 326 2 120 50,200 305 189 341 326 3 150 73,800 305 180 650 622 4 130 62,150 305 210 341 461 Fairbanks International Airport TABLE 2-1 Stability Windrose Stability A Wind Direction 1-3 4-6 7-10 N 0.00009 0.00000 0.00000 NNE 0.00009 0..00000 0.00000 NE 0.00009 0.00000 0.00000 ENE 0.00009 0.00000 0.00000 E 0.00009 0.00000 0.00000 ESE 0.00009 0.00000 0.00000 SE 0.00009 0.00000 0.00000 SSE 0.00009 0.00000 0.00000 S 0.00009 0.00000 0.00000 SSW 0.00009 0.00000 0.00000 SW 0.00009 0.00000 0.00000 WSW 0.00009 0.00000 0.00000 W 0.00009 0.00000 0.00000 WNW 0.00009 0.00000 0.00000 NW 0.00009 0.00000 0.00000 NNW 0.00009 0.00000 0.00000 11-16 17-21 >21 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 Wind Direction NNE NE ENE ESE SE SSE SSW SW WSW WNW NW NNW Fairbanks International Airport TABLE 2-1 Stability Windrose Stability _B 123 4-6 7-10 0.00235 0.00038 0.00003 0.00195 0.00031 0.00014 0.00312 0.00055 0.00007 0.00289 0.00086 0.00017 0.00362 0.00106 0.00034 0.00187 0.00069 0.00017 0.00270 0.00092 0.00014 0.00233 0.00082 0.00021 0.00490 0.00281 0.00058 0.00192 0.00106 0.00038 0.00143 0.00062 0.00007 0.00091 0.00041 0.00007 0.00076 0.00051 0.00007 0.00050 0.00031 0.00003 0.00072 0.00034 0.00007 0.00070 0.00024 0.00003 11-16 17-21 >21 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 Wind Direction N NNE NE ENE E ESE SE SSE Ss SSW SW WSW W WNW NW NNW Fairbanks International Airport TABLE 2-1 Stability Windrose Stability _C eooCcoooCoCCoCCCOCCCOCCo 1-3 4-6 7-10 .00861 0.00226 0.00120 . 00806 0.00332 0.00120 . 00804 0.00432 0.00158 .00583 0.00336 0.00226 .00592 0.00284 0.00202 . 00230 0.00185 0.00120 . 00372 0.00202 0.00069 . 00330 0.00230 0.00099 .00674 0.00483 0.00216 00383 0.00260 0.00185 .00204 0.00164 0.00236 .00216 0.00106 0.00144 -00221 0.00096 0.00171 .00147 0.00058 0.00072 . 00196 0.00079 0.00031 .00263 0.00096 0.00103 oooooc;»*”jnoooooonc;oo 11-16 l7s2i >21 - 00007 0.00000 0.00000 .00007 0.00000 0.00000 - 00003 0.00000 0.00000 .00014 0.00000 0.00000 -00014 0.00000 0.00000 . 00003 0.00000 0.00000 . 00000 0.00000 0.00000 . 00000 0.00000 0.00000 . 00007 0.00000 0.00000 . 00003 0.00000 0.00000 .00010 0.00000 0.00000 -00021 0.00000 0.00000 . 00003 0.00000 0.00000 .00007 0.00000 0.00000 . 00000 0.00000 0.00000 .00000 0.00000 0.00000 Wind Direction NNE NE ENE ESE SE SSE SSW SW WSW WNW NW NNW Fairbanks International Airport TABLE 2-1 Stability Windrose Stability _D 123 4-6 7-10 11-16 17-21 >21 0.01396 0.02117 0.02144 0.00613 0.00024 0.00003 0.00815 0.01305 0.00665 0.00480 0.00058 0.00017 0.00785 0.01274 0.00815 0.00284 0.00065 0.00034 0.00574 0.00880 0.00528 0.00308 0.00021 0.00003 0.00497 0.00716 0.00411 0.00130 0.00003 0.00000 0.00350 0.00483 0.00199 0.00096 0.00000 0.00000 0.00280 0.00349 0.00127 0.00024 0.00003 0.00000 0.00311 0.00469 0.00144 0.00034 0.00000 0.00000 0.00781 0.01425 0.00702 0.00182 0.00014 0.00000 0.00662 0.01442 0.01723 0.00575 0.00048 0.00000 0.00680 0.01195 0.02172 0.01298 0.00120 0.00014 0.00321 0.00627 0.01319 0.01079 0.00195 0.00031 0.00300 0.00541 0.00747 0.00514 0.00062 0.00010 0.00151 0.00319 0.00291 0.00137 0.00003 0.00000 0.00324 0.00514 0.00411 0.00137 0.00007 0.00003 0.00529 0.01069 0.01589 0.00322 0.00003 0.00000 Wind Direction N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW Fairbanks International Airport TABLE 2-1 Stability Windrose Stability _— 1-3 4-6 7-10 0.00000 0.02644 0.01034 0.00000 0.01391 0.00401 0.00000 0.01093 0.00199 0.00000 0.00435 0.00086 0.00000 0.00209 0.00017 0.00000 0.00092 0.00003 0.00000 0.00106 0.00000 0.00000 0.00120 0.00003 0.00000 0.00411 0.00048 0.00000 0.00384 0.00038 0.00000 0.00438 0.00065 0.00000 0.00281 0.00051 0.00000 0.00212 0.00024 0.00000 0.00168 0.00017 0.00000 0.00298 0.00031 0.00000 0.00873 0.00644 11-16 17-21 >21 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 Wind Direction N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW Fairbanks International Airport TABLE 2-1 Stability Windrose Stability _F 1-3 4-6 7-10 0.02688 0.02418 0.00000 0.01524 0.01459 0.00000 0.01289 0100973 0.00000 0100642 0.00336 0.00000 0.00376 0.00140 0.00000 0.00190 0.00062 0.00000 0.00191 0.00051 0.00000 0.00168 0.00041 0.00000 0.00409 0.00127 0.00000 0.00340 0.00116 0.00000 0.00389 0.00123 0.00000 0.00229 0.00069 0.00000 0100320 0.00075 0.00000 0.00227 0.00075 0.00000 0.00379 0.00147 0.00000 0.00769 0.00469 0.00000 11-16 T7=21 >21 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 Wind Direction N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW Fairbanks International Airport TABLE 2-1 Stability Windrose Stability _& 1-3 4-6 7-10 0.02 534 0.00000 0.00000 0.01349 0.00000 0.00000 0.01260 0.00000 0.00000 0.00473 0.00000 0.00000 0.00507 0.00000 0.00000 0.00247 0.00000 0.00000 0.00171 0.00000 0.00000 0.00137 0.00000 0.00000 0.00226 0.00000 0.00000 0.00185 0.00000 0.00000 0.00260 0.00000 0.00000 0.00205 0.00000 0.00000 0.00342 0.00000 0.00000 0.00233 0.00000 0.00000 0.00459 0.00000 0.00000 0.00678 0.00000 0.00000 11-16 17-21 >21 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 TABLE 2-2 WIND DIRECTION - STABILITY SUMMARY Stability Wind Direction A B Cc D E E&G Total N 0.00009 0.00276 0.01214 0.06297 0.03678 0.07640 0.19114 NNE 0.00009 0.00240 0.01265 0.03340 0.01792 0.04332 0.10978 NE 0.00009 0.00374 0.01397 0.03257 0.01292 0.03522 0.09851 ENE 0.00009 0.00392 0.01159 0.02314 0.00521 0.01115 0.05510 E 0.00009 0.00502 0.01092 0.01757 0.00226 0.01023 0.04609 ESE 0.00009 0.00273 0.00538 0.01128 0.00095 0.00499 0.02542 SE 0.00009 0.00376 0.00643 0.00783 0.00106 0.00413 0.02330 SSE 0.00009 0.00336 0.00659 0.00958 0.00123 0.00346 0.02431 S 0.00009 0.00829 0.01380 0.03104 0.00459 0.00762 0.06543 SSW 0.00009 0.00336 0.00831 0.04450 0.00442 0.00641 0.06689 SW 0.00009 0.00212 0.00614 0.05449 0.00503 0.00772 0.07559 WSW 0.00009 0.00139 0.01441 0.03572 0.00332 0.00503 9.05996 W 0.00009 0.00134 0.00518 0.02174 0.00236 0.00737 0.03808 WNW 0.00009 0.00084 0.00284 0.00901 0.00185 0.00535 0.01997 NW 0.00009 0.00113 0.00306 0.01396 0.00329 0.00985 0.03138 NNW 0.00009 0.00034 0.00462 0.03512 0.01517 0.01916 0.07450 TOTAL 0.00144 0.04650 0.13803 0.44392 0.11816 0.25741 1.00546 NNE NE ENE ESE SE SSE SSW SW WSW WNW NW NNW TABLE 3-1 Average 24-hour Meteorological Scenario Wind Wind Mixing Hour Stability Direction Speed (mps) Depth (m) 01 6 360 20 1000 02 6 360 2.0 1000 03 6 360 2.0 1000 04 6 360 2.0 1000 05 6 345 2.0 1000 06 6 022 2.0 1000 07 5 360 3.0) 1000 08 5 022 310) 1000 09 4 360 350) 1000 10 4 360 3.0) 1000 11 4 022 4.0 1000 12 4 225 4.0 1000 13 4 225 4.0 1000 14 3 245 3.0 1000 15 3 245 2.0) 1000 16 3 225 20) 1000 17 4 225 3.0 1000 18 4 345 Sol!) 1000 19 4 360 4.0 1000 20 5 360 3.0 1000 21 5 022 3.0) 1000 22 6 360 20) 1000 23 6 360 2.0) 1000 24 6 360 ZO) 1000 TABLE 3-2 Maximum Pollutant Concentrations (ug/m?) for Average 24-Hour Meteorological Scenario Pollutant Concentration 1 ee ike) Particulates Soy les) 9.0 Sulfur Dioxide Geosmaind 9.0 Nitrogen Oxides 6.0, 4.5 9.0 Direction From Plant South South South 1. The first value for each pollutant corresponds to emission scenario 2, while the second value corresponds to emission scenario 3 (see Table 1-1). 2. The maximum concentration was calculated to occur at the same location for each emission scenario. TABLE 3-3 "Worst Case" 24-Hour Meteorological Scenario Hour Stability Wind Speed (mps) bepth” mn) 01 5 2c) 1000 02 5 2.0 1000 03 5 2.0 1090 04 5 0) 1000 05 5 200 1000 06 5 20 1000 07 5 2.0 1000 08 5 2.0 1000 09 5 20) 1000 10 4 4.0 1000 11 4 4.0 1090 12 4 4.9 100- 13 4 4.0 1990 14 4 4.0 1900 5) 4 4.0 10090 16 4 4.0 1909 TABLE 3-4 Maximum Pollutant Concentrations (ug/m?) for "Worst-Case" 24-Hour Meteorological Scenario Distance From Pollutant Concentration 1 Plant (km) Particulates 6525; 340 6.0, 9.0 Sulfur Dioxide ie 2elOao 6.0, 9,0 Nitrogen Oxides 10°75 1054 6.0, 9.0 1. The first value for each pollutant corresponds to emission scenario 2, while the second value corresponds to emission scenario 3 (see Table 1-1). AN AIR QUALITY DISPERSION MODEL IN SECTION 4. MODELS OF HISTORICAL INTEREST. IN UNAMAP (VERSION 4) DEC 80 An SOURCE: FILE 18 ON UNANAF MAGNETIC TAPE FROM NTIS. DBTS1 VERSION 78010 PTMTP.DAT CHENA SCENARIOS 2 AND 3 XX SOURCES kX ~ NO Q (G/SEC) HP (M) TS (DEG-K) VS (M/SEC) D(M) VF(MEK3/SEC) R (KM) 8 (KM) Lie 1.00 36.6 425.0 1.0 1,00 34.9 5.000 10,000 i. 2. 1.00 45.7 425.0 1.0 1.00 65.4 5.000 10,000 KeEeRECEPTORSX#* . NO. RREC(KM) SREC(KM) Z «MD 1. 5.000 4.500 2.0 . 2 5.000 4.000 2.0 3. 5.000 3.500 260 ae 5.000 3.000 2.0 ~ Ss. 5.000 2.500 2.0 Ss 5.500 5.500 2.0 a 6.000 6.000 2.0 ~ 8. 6.500 6.500 2.0 : 9. 7.000 7.000 2.0 10, 7.500 7.500 2.0 ~ fis 5.500 5.300 2.0 + 12 6.000 5.500 2.0 13. 6.500 4.000 2.0 2 14, 7.000 6.500 2.0 . 15. 7.500 7.000 250) , 11S 4.900 4.500 2.0 7 is 4.700 4.000 2.0 ' 18, 4,300 3.500 2.0 \ 19, 4.000 3.000 2.0 x 20. 3.800 2.500 2.0 21. 5.000 5.000 250 22. 5.000 1.000 2.0 z 23. 10,000 15.000 2.0 24, 11.000 16.000 2.0 25. 12.000 17.000 2.0 ~ 26. 13.000 18.000 2.0 27.0 14,000 19,000 2.0 28, 15,000 20.000 2.0 3 KeEEMETEOROLOGYR** NO. THETA(DEG) U (M/SEC) KST HL (MH) T (DEG-K) PCHRD is 360, 2.0 4 1000, 273.0 0.0 7 eK KERECEPTOR NUMBER Xk kk 1. 2. 3. Ae Se 6. 7. 8. 75 10, up lr: SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*x3) 96.4 7.460E-07 8.777E-07 9.999E-07 1.111E-05 1.193E-06 3.675E-10 1,592E-22 0.000E+00 0.000E+00 0.000E+00 7.040E-10 119.8 1,037E-07 1,421E-07 1.844E-07 2,.294E£-07 2.487E-07 3,A412E-11 1,124E-23 0,000E+00 0,000E+00 0,000Et00 7.179E~-11 TOTAL CONCENTRATION (G/M¥X3) <3 a i tab iteaeddece tla oii 8.497E-07 1.020E-06 1.184E-04 1,341E£-06 *eX RECEPTOR NUMBERKK 12, 13. 14, 1S. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&x3) Ss 96-4 1.888E-19 0.000E+00 0.000E+00 0,000F+00 2. 11948 1+752E-20 0,000E+00 0,000E+00 0,000E+00 TOTAL CONCENTRATION (G/H#3) 2.063E-19 0,000E+00 0,000E+00 0,000E+00 *eeRECEPTOR NUMBERKKK 2355 24, 23. 26. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXx3) is 9644 0,000E400 0.000E+00 0.000E+00 0.000400 2. 119+8 0,000E+00 0,000E+00 0,000E+00 0,000E+00 TOTAL CONCENTRATION (G/N&K3) 0. 000E+00 0,000F+00 0.,000E+00 0,000E+00 KKEMETEOROLOGYXX* NO. THETA(DEG) U (M/SEC) KST HL (Mm) = T (REG-K> 2. 360. 2.0 4 1000. 273.0 KeKKe RECEPTOR NUMBER X 1s 2. 3. As SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&K3) As 9644 7.460E-07 8.777E-07 9,999E-07 1.111F-06 Bie 119.8 1.037E-07 1.421£-07 1.844E-07 2,.294E-07 TOTAL CONCENTRATION (G/MXX3) 8.497E-07 1,020E-06 1+184E-06 1.341F-04 KeERKRECEPTOR NUMBERXXX 12, 13. 14, 15. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXx3) 1. 9644 1,B88E-19 0.000E+00 0.000E+00 0.000E+00 2s 119.8 1,752E-20 0,000E+00 0.000E+00 0.000E+00 TOTAL CONCENTRATION (G/M¥E2) ' 2,063E-19 0,000E+00 0,000E400 0,000E+00 Ke KRECEPTOR NUMBER * k * ih 1.462E-06 16. 6+145E-07 8,.541E-08 7.000E-07 0.000E+00 0,000E+00 0.,000E+00 F (MB) 0.0 Se 1,193E-06 2.587E-07 1.462E-06 16. 6.146E-07 8,541E-08 7+000E-07 a ess 4.017E-10 17. 1.929E-07 3.123E-08 2.241E-07 0.000E+00 0.000E+00 0.000E+00 b 3.675E-10 3.A12E-11 4.,017E-10 17> 1eV22b=07 3.123E-08 i) N r ALE-07 1.704E-22 0.000E+00 Aiea ba ts 18. 19. 20. 7615E-10 2.935E-12 1,405E-10 6,058E-13 9.433E-14 6.078E-07 2,12S5E-14 7,.038£-08 1.379E-06 3,830E-07 9 O20E-10 3.541E-12 1.156EF-13 6.781E-07 1.762E-06 7. 8. 9. 10. 11. 0.000F +00 22 0.000E+00 3 0.000E+00 0.000Et00 0.000E+00 0.,000E+00 7.040E-10 7.178E-11 1.592E 1,.124E 1.704E-22 0.000E+00 0.000E+00 0.000E+00 7.758E-10 18. 19. + S79E-06 3,.8350E~-07 9 -ASSE-14 125E-14 &.078E-07 7.038E-03 7+615E-10 1,.405E-10 2.935E-12 6-058E-13 2 9,020F-10 3.541E-12 1,156F-13 6.781E-07 1,7462E-06 ak bee bed + 1 i aha Hcy yall sloanney) Soya SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MKX3) 9544 0.000E400 0.000E+00 0.000E+00 119.68 0,000Et00 0,000Et00 0.,000E+00 O.000E400 0.000E+00 0,000E+00 0,000E+00 ne TOTAL CONCENTRATION (G/MKk3) 0. 000E+00 0.,000Et00 0,000Et00 0,000E+00 0.000E+00 *eeMETEOROLOG Y * kk NO. THETA(DEG) U (N/SEC) KST HL (M) T (DEG-K) P (MB) 3. 360. 2.0 6 1000. 273.0 0.0 ¥xXKXRECEPTOR NUMBER kX xk 1. 2. 3. ae S. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/NKK3) 1. 9664 7,460E-07 8.777E-07 9.999E-07 1,111F-06 1.193E-06 2s 119.8 1,037E-07 1,421E-07 1.844E-07 2.294E-07 2.4687E-07 TOTAL CONCENTRATION (G/M¥#3) B.497E-07 1,020E-06 1,.184E-06 1.341E-06 1.462E-06 KEeEXRECEPTOR NUMBER * kk 12, 13, 14. 15. 16. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&&K3) 1. 96+4 1,88BE-19 0,000Et00 0.000E100 0.000E+00 4.146E-07 2. 119.8 14752E-20 0,000Et00 0.000E+00 0,000E+00 8,.541E-08 TOTAL CONCENTRATION (G/N¥43) 2+063E-19 0,000E+00 0.000E+00 0.000E+00 7.000E-07 *EYRECEPTOR NUMBER * kX 23. 24. 25. 26. 27. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXx3) 1. 9644 0.000E400 0,000E+00 0,000E+00 0,000E+00 0,000E+00 2 119.8 0,000E+00 0,000E+00 0,000E+00 0,000E+00 0,000E+00 TOTAL CONCENTRATION (G/M**3) 0+ 000E400 0,000EH00 0,000EF00 0,000E+00 0,000E+00 *eK EMETEOROLOGY xX ** 4 ‘ NO. THETA(DEG) U (M/SEC) KST HL (mM) T (DEG-K) =P CME) 4. 340. 2.0 é 1000. 273.0 0.0 ¥KReRECEPTOR NUMBER * * k Ha eed 0.000E+00 0.000E+00 0-000E+00 oe 7 8. 9. 10. 0.000E+00 0.000E+00 0.000E+00 0, 000Et00 0.000E+00 3.475E-10 1,.592E-22 a 0.,000E+00 3.ALQE-11 ALOL7E-10 1,.704E~22 0,000E100 0,000E+00 0.,000E+00 17. 18. 19. 9. 433E-14 2e125E-14 1.929E-07 3.123E-08 7.615E-10 1,.405E-10 2.935E-12 6,058E-13 6.078E-07 7,038E-08 2+241E-07 9,020E-10 3,541E-12 1,156E-13 6.781E-07 0.000E+00 0,000E+00 0.,000E+00 Lae, 7.040E~-10 Pel VSE=a1 7. 758E-10 n nD 1.379E-04 3.830E-07 1,.762E-06 <a EB ite fr ?, alae eee pee ls fda aul: SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/Mk«3) 96+4 7.460E-07 8.777E-07 9.999E-07 1.111E-06 119.8 1,.037E-07 1.421E-07 1.844E-07 2.294E-07 te TOTAL CONCENTRATION (G/M*3) 8.497E-07 1,020E-06 1.184E-06 1.341E-06 22eRECEPTOR NUMBER * * k 12. 13. 14. 15. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&x3) is 96.4 1.888E-19 0,000E+00 0.000E+00 0.000E+00 2. 119.8 14752E-20 0,000Et00 0.000Et00 0,000E+00 TOTAL CONCENTRATION (G/M*%3) 24063E-19 0,000E+00 0,000E+00 0, 000E+00 *eEKRECEPTOR NUMBER XXX 23. 24. 25. 26. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M%*3) 1. 9564 O,O000Et00 0-000Et00 0.000Et00 0.000E+00 2. 119.8 0,O00Et00 0,000E+00 0.000E+00 0,000E+00 TOTAL CONCENTRATION (G/MK*3) 0,000E#00 0,000Et00 0-.000Et00 0, 000E+00 xxX¥*e METEOROLOGY * kk NO. THETA(DEG) U (KH/SEC) KST HL (M) T (DEG-K) Se 345, 2.0 6 1000. 273.0 K*EKFRECEPTOR NUMBER * kk 1. 2. 3. ay SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M443) 1. 96.4 1,894E-25 1.044E-25 5.805E-26 3,266E-26 2. 119.8 2.468E-26 1,592E-26 1,.013E-26 6.402E-27 TOTAL CONCENTRATION (G/M*%3) 2.141E-25 1,.203E-25 6.818E-26 3.906E-26 *EKEYRECEPTOR NUMBER k Xk 12. 13. 14. 15. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/Mk3) 1.193E-06 2.587E-07 1.462E-06 16, 6+146E-07 8.541E-08 7,000E-07 0.000E+00 0.000E+00 0.,000E+00 P (MB) Se 1.847E-26 3,984E-27 2+245E-26 16. 7.040E-10 Teas eit 0.000Et+00 0-000E+00 3.675E-10 1,.592E-22 3.412E-11 1,.124E-23 0.000E+00 0.000E+00 0.000E+00 0-,000Et00 A.O17E-10 1.704E-22 0.000E400 0.000Et00 0.000E+00 7.758E-10 17. 18. 19. 2.93S5E-12 6,058E-13 9.433E-14 2.125E-14 6.078E-07 7.038E-08 1.379E-06 3,830E-07 1,.929E-07 3,.123E-08 7.615E-10 1,.405E-10 D 2+241E-07 9.020F-10 3.541E-12 1,156E-13 6.781E-07 1.762E-06 0.000E+00 0.000E+00 0.,000E+00 be a 8. 9 10. 11, 0.O000E+00 0.000E+00 3.178E-13 O.000Et00 0,000Et00 3,196E-14 7S21E-13 3.115F-07 2.525F-12 6,901E-14 2,365E-08 1,534E-13 8.211F-13 3.351E-07 2.479F-12 0.000E+00 0.000E+00 3.498E-13 17. 18. 19. 20. 21. 22. TOTAL CONCENTRATION (G/N*¥*3) 1.873E-07 1.913E-09 4.214E-24 0,.000E+00 x**e RECEPTOR NUMBER X Xk k 23. 24, 25. 26. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MX3) 1. 9664 0,O00ET00 O.000Et00 0.000E+00 0,000E+00 2. 119-68 0,000Et00 0,000E+00 0.000Et00 0,000Et00 TOTAL CONCENTRATION (G/NK%3) O-000Et00 0.000E+00 0.000E+00 0.000E+00 Kee METEOROLOGY * xk NO. THETA(DEG) U (M/SEC) KST HL (MM) T (NEG-K) 6. 22. 2.0 6 1000. 273.0 *K¥KXRECEPTOR NUMBERX¥ EX 1, 2. 3. 4, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MK&3) 1. 96.4 0.000E+00 0.000E+00 0.000Et00 0.000E+00 2. 119.8 0,000Et00 0,000Et00 0.000Et00 0,000Et00 TOTAL CONCENTRATION (G/M*K3) 0, 000E+00 0,000Et00 0.000Et00 0.000E+00 *eReRECEPTOR NUMBERX® kk 12. 13. 14, 15. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&x3) 1. 9544 O,O00EF00 0.000E+00 0.000E+00 0.000E+00 . 119.8 0.000E400 0,000Et00 0.,000Et00 0.000Et00 TOTAL CONCENTRATION (G/M*K3) 0.,000Et00 0,000Et00 0,000Et+00 0.000F+00 *e*RKRECEPTOR NUMBER KX 23. 24, 25. 266 SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M¥K3) 1. 9644 0,000E+00 0,000E+00 0,000Et00 0.000E100 2. 119.8 O0,000E#0O 0.,000EF00 0,000Et00 0-,000E+00 TOTAL CONCENTRATION (G/Mk*3) 3.406E-28 275 0.000F+00 0, 000E+00 0-000E+00 F (MB) 0.0 Se 0.000E+00 0. 000E+00 0,000E+00 16. 0.000E+00 0.,000E+00 0.000E+00 0.000E+00 0,000Et00 0.000E+00 28, 0.000F+00 0, 000E+00 0.000E+00 be 0.000E+00 0,000E+00 0-000E+00 17. 0.000F +00 0.000E+00 0.000F+00 0.000E+00 0.000E+00 0.,000E+00 0.000E+00 0.000E+00 3,833E-25 8. a 10. 0.000E+00 0.000Et00 0.000E+00 0.000E+00 0, 000Et00 0,000E+00 0-000E+00 0.000E+00 \ \ 0, 000E+00 0-000E+00 G.000E+00 0.000E+00 18. 19. 2.249E-28 3. 936E-29 2-419E-23 3.117E-21 4,851E-24 6,909E-22 0.000E+00 0,000E+00 2+642E-28 2,.904E-23 3,.808F-21 0.,000E+00 iia 0.000E+00 0.,000E+00 0. 000E+00 to ro 0.,000E+00 0.000E+00 0.000E+00 i fc domeeedts eey~ |g : a2. its, : bd Sh Sub L ioe vlc! K*KEMETEOROLOGY**x* NO. THETA(DEG) U (M/SEC) KST HL (M4) T (DEG-K) F (ME) 7. 360. 3.0 Ss 1000. 275.0 0.0 x*KXKRECEPTOR NUMBER * XX 1. 2. 3. Aa. Se SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/Mkx3) 1. 99.5 1.792E-06 1+791E-06 1.775E-06 1.747E-06 1.712E-06 2. 123.6 8.161E-07 8.715E-07 9.131E-07 9.430E-07 9.432E-07 TOTAL CONCENTRATION (G/MXK3) 2+608E-06 2.663E-06 2.688E-05 2.690E-05 2.675E-06 *EeEKRECEPTOR NUMBER * k k 12. 13. 14. is. 16. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/NX*3) 1. 9946S SeSS4E-12 B8,.926E-22 0.000E+00 0.000F+00 1.645F-06 7 123.6 2.120E-12 3,0146E-22 0.000E+00 0.000E+00 7,489E-07 TOTAL CONCENTRATION (G/NE#3) 7+674E-12 1,194E-21 0.000E+00 0.000E+00 2.394E-06 Ee XRECEPTOR NUMBER *X* 23. 24. 25. 26. 27. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*x3) 1. 99.5 0,000Et00 0.000Et00 0.000E+00 0.000E+00 0.000E+00 2. 123.6 0.000E#00 0.,000Et00 0.000Et00 0.000Et00 0.000E+00 TOTAL CONCENTRATION (G/NKK3) 0-O00Et00 0.,000Et00 0.000Et00 0.000Et00 0.000E+00 *EKXMETEOQROLOGY*® kk NO, THETACDEG) U (M/SEC) KST HL (M) T (DEG-K) P (MB) 8. 22. 3.0 Ss 1000. 275.0 0.0 RKEKRECEPTOR NUMBERX* Xk 1. 2. 3. 4a, Se SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MEX3) . 1. 99.5 4.718E-25 2.210E-25 1.069E-25 5.334F-26 2.734E-26 2. 123.6 2,018E-25 1,015E-25 5.220E-26 2.741E£-26 1.470E-26 TOTAL CONCENTRATION (G/NE%3) Pinch : v vevevervey vvverVE ay 7 8. ve 10. its 7+237E-O08 2,.656F-13 5.538E-26 0.000E+00 0.000E+00 9.317E-08 2.762E-08 8.973E-14 1.5465E-26 0.000E+00 9.000Et00 3.704E-03 9.99B8E-O8 3.553E-13 7.104E-26 0.000E+00 0.000E+00 1.302E-07 17. 18. ioe 20. 21. nN nd 9.1GSSE-07 7.371E-08 5.897E-09 1.220E-09 4.ASSE-07 3,792E-08 3,183E-09 6.866E-10 1.770E-06 1.585E-06 7+445E-07 9,823E--07 1.116E-07 9.079E-09 1.907E-09 2.515E-06 S7E-06 a 1.361E-06 rd 0.000E+00 0.000Et00 0.000E+00 0.000FE400 0.000F +00 0.000F+00 0.000F+00 0.000E+00 0.000E+00 O-O000EtO00 0.000EtH00 0.000EtH00 0.000EtH00 0.000Et00 0.000Et00 tieeg Sle soi itadl X**eXYRECEPTOR NUMBER * xk kK SOURCE 1. 2. 12. 13. 14, 15. 16. FINAL HGT PARTIAL CONCENTRATIONS (G/M*3) 99.5 O.O00Et00 0-000E+00 0.000E+00 0.000E+00 3.387E-23 123.6 0,000Et00 0,000Et00 0,000Et00 0.000E+00 1,.458E-23 TOTAL CONCENTRATION (G/N¥X3) 0. 000Et00 0, 000E+00 0, 000E+00 0-000E+00 4.845F-23 *KKRECEPTOR NUMBER * k k SOURCE 1. 2a 23. 24. 25. 26. 27. FINAL HGT PARTIAL CONCENTRATIONS (G/MX*3) 9945 O,000E+00 0,000E4+00 0.000E400 0.000E+00 0,000E+00 123.46 0,000E#00 0,000E+00 0,000Et00 0.,000E+00 0,000E+00 TOTAL CONCENTRATION (G/Mk43) 0.000Et00 0.000Et00 O.000Et00 0.000Et00 0.000E+00 *eKEMETEOROLOGY **k THETA(DEG) U (M/SEC) KST HL (MW) T (DEG-K) P CHE) 360, 3.0 4 1000. 280.0 0.0 *eKRECEPTOR NUMBER & Xk * SOURCE 1. 2. 1, 2. 3. ay Se FINAL HGT PARTIAL CONCENTRATIONS (G/i4k*3) 144.1 1.094E-06 1.079E-06 1,.055E-06 1.025E-06 9,920E-07 211.8 2.795E-07 3,161E-07 3,4451E-07 3.700E-07 3,884E-07 TOTAL CONCENTRATION (G/M4%3) 1.373E-06 1,.325E-06 1.401E-06 1.395E-06 1.380F-06 **eXRECEPTOR NUMBER * kk SOURCE 1. 2. 12. 13. 14. 15. 16. FINAL HGT PARTIAL CONCENTRATIONS (G/MxXx3) 144.1 9,034E-10 2,917E-15 4,498E-25 0-.000E+00 1,042E-06 211.8 1,587E-10 3.927E-16 4.261E-27 0,000E+00 2,664E-07 TOTAL CONCENTRATION (G/M4%3) ‘ 1.062E-09 3.310E-15 4.924E-24 0.000E+00 1.309E-06 HX RKRECEPTOR NUMBER Xk kx POE BR de Meee oor 17. 1.746E-20 8.239E-21 2+S89E-20 0.000E+00 0.000E+00 0.000E+00 6. 1.819E-07 3.195E-08 2.138E-07 17. 7411E-07 2.170E-07 9.S81E-07 a3 18. IDs 20. 4.673E-16 7,355E-14 5.968E-13 2.351E-16 3,.921E-14 3.332E-13 7.024E-16 1,128E-13 9.301E-13 7. 1.616E-10 2.176E-11 1,834E-10 18. 1.777E-07 5.827E-08 2.359E-07 8. 1.256E-17 1,190E-18 1.375E-17 19. 4,231E-08 1.527E£-08 5.758E-08 0.000E+00 0,000E+00 0.000E+00 20. 1.713E-08 5+708E-09 2.384E-08 ease 1.044E-24 4.099E-25 1.454E-24 10. 0.000E+00 0.,000E+00 0.000E+00 21. 1,093E-06 2.36SE-07 1.330E-06 4.253E-27 2.537E-27 6.790E-27 11. 2.101E-07 4,035E-08 s) 26504E-07 br nm rw 8.859E-07 4.176E-07 1.304E-06 giisce: Moods aa. , 7 Bi tas ee HS bdo okie so Lal iiss ed edi SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*xk3) ~ 1, 144.1 0,000Et0U 0.000E+00 0.000E400 0.000E+00 0.000E+00 0.000F+00 “ 2% 211.8 O.000EtOO 0,000Et00 0.000E+00 0,000Et00 0,000Et00 0.000Et00 ~ TOTAL CONCENTRATION (G/M*#3) O-OO0DEHOO O.000E+00 0.,000Et00 0,000Et00 0,000Et00 0.000Et00 *eEEeMETEOROLOGY * kk NO. THETA(DEG) U (M/SEC) KST HL (NM) = T (DEG-K) P (MB) 10. 360, 3.0 4 1000, 280.0 0.0 *KEFRECEPTOR NUMBER xk xk * 1. 2. 3. 4, Se ry a0 8. 9 10. 11. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&x3) 1. 144.1 1,094E-06 1.079E-06 1-055E-06 1,.025F-06 9.920FE-07 1,.819F-07 1.616E-10 1.256F-17 0,000E400 0.000E+00 2.101E-07 2. 211.8 2.795E-07 3.1461E-07 3,.461E-07 3.700E-07 3,.984E-07 3.195E-08 2.176E-11 1.190E-18 0.000Et00 0.000E+00 4.035E-08 TOTAL CONCENTRATION (G/NK43) 1,373E-06 1.395E-06 1.401E-06 1.395E-06 1.380E-06 2.138F-07 1.834F-10 1,.375E-17 0.000E+00 0.000E+00 2.504E-07 xe eKRECEPTOR NUMBER * * * 12. 13. 14. 15s. 16. 17. 18. 19. 20. 21. 22. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*X3) 1. 144.1 9,034E-10 2.917E-15 4,.498E-26 0.000E+00 1.042E-06 7,411E-07 1.777E-07 4.231E-08 1.713E-08 1.093E-06 8.859E-07 2. 211.8 1.587E-10 3.927E-16 4.261E-27 0,000Et00 2.464E-07 2,170E-07 G.827E-08 1.527E-08 4.708E-09 2.365E-07 4.175E-07 TOTAL CONCENTRATION (G/MKx3) 1,.062E-09 3.310E-15 4,.924E-26 0,000E+00 1,.309E-06 9,581E-07 2.359F-07 5.758E-08 2.384E-08 1,.330E-06 1.304E~-06 *KEYeRECEPTOR NUMBER * * * 23. 24, 25. 26, 27. 28, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXX3) 1. 144.1 0.000E+00 0,000E+00 0, 000E+00 0.000E400 0.000E+00 0.000E+00 ae 211.8 0,O000E+00 0.000Et00 0,000Et00 0.000Et00 0.000Et00 0.,000E+00 TOTAL CONCENTRATION (G/N&X3) 0-O00EH00 0.,000Et00 0.000Et00 0.000Et00 0.000Et00 0.000E+00 K¥FMETEOROLOGY* XX . ~ NO. THETA(DEG) U (M/SEC) KST HL (MH) oT (EG*K) F (MB) 11, 22, 4.0 4 1000, 285.0 0.0 KEKXRECEPTOR NUMBER * kk ~ a ita » at ava ke eronrad oy He aoe obsstyeag PE eae :' G SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&x3) . 115.1 5,193E-17 3,.212E-17 2,029E-17 1,307£-17 8.568E-18 3,303F-24 . 167.7 2.0$SE-17 1,.401E-17 9.551£-18 6,562E-18 4,546E-18 9,.535E-25 TOTAL CONCENTRATION (G/N¥3) 7.258E-17 4.612E-17 2,984E-17 1.963E-17 1,311E-17 4.256E-24 x**e eR ECEPTOR NUMBER * * k 12, 13. 14, 15. 16. 17. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXX3) 1, 115.1 0.000E+00 0.000E+00 0,000E+00 0,000E+00 5,4658F-16 1.764E-14 2. 16747 O,O00Et00 O,O000Et00 0,000E+00 O,000Et00 2,2468E-16 7.845E-15 TOTAL CONCENTRATION (G/M¥X3) O.,O00E+00 0,.000Et00 0.000E+00 O.000E+00 7.926E-16 2,548E~-14 XXX RECEPTOR NUMBER * k k 23. 24, 25. 26, 27. 28, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M¥X3) 115.1 0.000E+00 0,000Et100 0.000Et00 0.000Et00 0,000E+00 0.000E+00 167.7 O.,O00EtO0 0,000Et00 O.000ET00 O.000Et00 0,000Et00 0,000E+00 he TOTAL CONCENTRATION (G/M#X3) 0.,000E#00 0,000E+00 0.000Et00 0.000Et00 0,000E+00 0.000E+00 *X¥XMETEOROLOGY kk * NO. THETA(DEG) U (M/SEC) KST HL (M) = T (DEG-K) F CMB) 12. 22 . 4.0 4 1000, 285.0 0.0 an KKKRECEPTOR NUMBER * XX 1, 2. 3. Ae 5. be SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&3) 1. 115.1 0.000Et00 0.000Et00 0.000Et00 0. 000E+00 0.000E4+00 0.000E400 2, 16747 0.000Et00 9, 000Et00 O-000Et00 0+ 000ET00 0.000Ft00 0,000Et00 TOTAL CONCENTRATION (G/M*K3) 0. O000Et00 0.000E100 0. 000E+00 0,000E+00 0,000E+00 0,000E+00 xe KeRECEPTOR NUMBER * Xk * 12, 13. 14. 15. 16. 17, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/NX3) 1. 115.1 0.,000E+00 0,000E+00 0.,000E+00 0,000E+00 0,000F 400 0,000F 100 ° 167 7 A ADALLAA A AAAELAA A ANDELAA A DAAELAN A AADE LAD 0.000F400 0.000E+00 0,000E+00 0. 000E+00 18, A9ALE-12 2+416E-12 7 3S7E-12 7. 0.000E+00 0, 000Et00 0.,000E+00 18. 0.000F400 0.000F 400 0.,000E+00 0-000E+00 0.000E+00 19, 791I7E-11 4,159E-11 1.208E-10 0.000E+00 0,000Et00 0.,000E+00 19. 0.000E100 0.000F +00 0,000E+00 0.000E+00 0.000E+00 2.428E-10 1,349E-10 3.777E-10 0.000E+00 0-000E+00 0,000E+00 0.000F +00 0.000F +00 0.Q000E+00 5.605E-24 0.O000E+00 1,.729E-24 0-,000E+00 7,.335E-24 21. 22, 8.586E-17 2.4652E-18 3.051E-17 1.5756-18 1.164E-16 4,.248E-18 10. ii. 0-000E+00 0.000E+60 0,000Et00 0,000E+00 O0.000Et00 0.000E+00 9.000E400 0.900E+00 0.000F +09 0.000F +00 ? A ds bebo adiks fd li HCG DSR ERE a lo Seg dt A hessitle Hu cash dath . TOTAL CONCENTRATION (G/M¥X3) ~ 0, O00EtOO 0+, 000ET00 0-000E+00 0.000E+00 O.000E+00 O.000Et00 0.000EtH00 0. 000Et00 0.000F+00 0,000Et00 0.000E100 a **e KR ECEPTOR NUMBER X¥ Xk . 23. 24, 256 26, 276 28, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MX#3) nN 1. 115.1 1,048E-06 8.897E-07 7.4619E-07 6.605E-07 5.790F-07 5.126E-07 2. 167.7 S.S31E-07 5.407E-07 S.039E-07 4,431E-07 4,.243E-07 3.890E-07 7 TOTAL CONCENTRATION (G/M¥x*3) 1,611E-06 1,430E-06 1,.266£-06 1,124E-06 1,003E-06 9.015E-07 x**¥*e METEOROLOGY Xk NO, THETA(DEG) U (M/SEC) KST HL (NM) = T (TIEG-K) FO CMB) 13. 225. 4.0 4 1000. 290.0 0.0 *eRFRECEPTOR NUMBER * Xk 1, 2. 3. Ae Se be 7 8. 9. 10. 11. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/i4%3) 1. 113.0 0.000E+00 0,000Et+00 0.000E+00 0-000E+00 0.000F +00 0.000E+00 0.000F+00 0.000Et00 0.000Et00 0.000E+00 0.000E+00 . 165-1 0-,000E+00 0.,000Et00 0.000Et00 0.,000Et00 0,000Et00 O,O000Et00 0,000Et00 0,000Et00 0,000Et00 0.,000E+00 0,000Et00 TOTAL CONCENTRATION (G/M¥#3) 0. 000EH00 0.000E+00 0.000E+00 0.000E+00 0.000F +00 0,000F +00 0.000Et00 0.000E+00 0,000F+00 0,000E+00 0.000Et00 ** eFRECEPTOR NUMBER xk xk * 12. 13. 14. 15. 16, 17. 18. 19, 20. 21. 22. SOURCE ~ FINAL HGT PARTIAL CONCENTRATIONS (G/M&X3) 1. 113.0 0,000E+00 0,000Et00 0.000Et00 0.000E+00 0.000Et00 0.000F+00 0.000E+00 0.000Ft00 0.000E+00 0.000E+00 O.000Et09 2. 165.1 O,000Et00 0.000EtO00 0.,000Et00 0.000Et00 0.000Et00 0,000Et00 O,000Et00 0.000Et00 0.000Et00 0,000Et00 0.,000Et+00 TOTAL CONCENTRATION (G/M**3) 0.000Et00 0.000E+00 0.000Et00 0.000Ft00 0.000Et00 0.000E+00 0.000Et00 0.000E +00 0.000E+00 0.000Et00 0.000Et00 *eRKRECEPTOR NUMBER k * * 23, 24, 25. 26. 27. 28. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXX3) 1. 113.0 1.069E-06 9,042E-07 7,722E-07 6.682E-07 5.849E-07 5.172E-07 2- 165.1 5.841E-07 S,568E-07 5.164E-07 4.729E-07 4,322E-07 3.953E-07 TOTAL CONCENTRATION (G/MXX3) f Petr Ne 4 Atte AP 4 MOO AL 4 AALELNE 4 ALTIELAL O 19ERAN7 aR ats fedek Has rand id lh dad Be x € Ke KMETEOROLOGY* Xk NO. THETA(DEG) U (M/SEC) KST HL (MN) T (TEG-K) FP (ME) 14. 245. 3.0 3 1000, 295.0 0.0 kX KR ECEPTOR NUMBER * kk 1. 2. 3. A. Se 6. 7 8. 9. 10. 11. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/N&k3) 1. 135-6 0,000Et00 0-000Et00 0-000E+00 0-000E+00 0.000E+00 0,000E+00 0.000E+00 0,000Et00 0.000E+00 0,000E+00 0.000E+00 2. 201-43 0,000Et00 0-000Et00 0,000Et00 O-.000Et00 0.000Et00 O.000Et00 O.000Et00 0,000Et00 0.000Et00 0.000E+00 0.000E +00 TOTAL CONCENTRATION (G/MXX3) 0-000E100 0+, 000EH00 0,000ET00 0. 000Et00 0-000E+00 0,000E100 0.000EH00 0,000F+00 0,000FE+00 0.000Et+00 0,000E+00 * eK RECEPTOR NUMBER XX k 12. 13. 14. 15. 16. 17. 18, 19, 20. 21. 22. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M4XX3) 1. 135-6 0-000E+00 0-000E+00 0.000F+00 0,000E+00 0.000F +00 0,000E+00 0,000F +00 0.000E+00 0,000Et00 0.000E100 0,.000Et00 2. 201+3 O,O000EtOO O,000EHO0 O-.O000EF0O O,000EHOO 0.000Et00 0,000EF00 0.000Et00 0,000Et00 0, 000EF00 0, 000Et00 0. 000E+00 TOTAL CONCENTRATION (G/M4¥EX3) 0+ O0Q00Et00 0, 000Et00 0,000Et00 0-000E+00 0,000F+00 0.000E+00 0.000E+00 0,000E+00 0,000Et00 0.000Et00 0.000E+00 KK RXRECEPTOR NUMBER * kk 23. 24. 25. 26. 276 28, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXX3) 1. 135.6 6,037E-11 3,097E-11 1,725E-11 1,024E-11 6.419E£-12 4,215E-12 2. 201.3 S,SO3E-11 2,.898E-11 1.641£-11 9,863E-12 6.237E-12 4,126E-12 TOTAL CONCENTRATION (G/N¥%3) 1.154E-10 5.99S5SE-11 3,366E-11 2,011E-11 1,.266E-11 8,341E-12 K**X¥EeMETEQROLOGY * xk xk NO. THETA(DEG) U (M/SEC) KST HL (M) T (DEG-K) F (CME) 15. 245. 2.0 3 1000. 295.0 0.0 *EXRECEPTOR NUMBER kk Xk 1. 2. 3. Aa. Se be 7. 8. 9. 10. 11. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*X3) 1, 185.2 0,000E+00 0,000E400 0,000E+00 0.000EHO0 0.000E+00 0,000E+00 0-000Et+00 0.000F +00 0.000E+00 0.000Et00 0.000E+00 2. 279+1 0,000EH00 0.000Et00 0.,000EF00 0,000E+00 0, 000Et00 0.000EF00 0,000E+00 0,000Et00 0,000E+00 0,000Et00 0.000E+00 TOTAL CONCENTRATION (G/Mkx3) DR AARATAAR A ARAPAAR A RAR IAR AR OARALAAR A ARAELAN A ARALLAR A ANALAAND A ANATAAN A ANALAAA A Anni na a anacinn i iiss a aS be das ag nee 4 lh Hike **eKRECEPTOR NUMBER * xk * 12. 13, 14. 1s. 14. 17. 18. Fie 20. 21. 22. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MKK3) 1. 185.2 0.000E+00 0,000E+00 0,000E+00 0.000E+00 0.000E+00 0,000F400 0.000E+00 0.,000Et100 0.000E+00 0.000E+00 0.000E+00 26 279.1 O,O00ETOO 0,000EH00 O.000EH00 0.000Et00 0.000Et00 0.000Et00 0.000Et00 0.000Et00 0,000E+00 0.000E+00 0.000E+00 TOTAL CONCENTRATION (G/M4X3) 0-000Et00 0-000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E400 0.000E4H00 0.000E+00 0.000F +00 0.000E+00 0.000E+00 *eEKRECEPTOR NUMBER * xX *k 23. 24, 25. 26, 27. 28, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXx3) 1, 185.2 8.472E-11 4,429E-11 2.497E-11 1.495E-11 9,431E-12 6,.226E-12 2. 279.1 7,O059E-11 3.887E-11 2,264E-11 1,388E-11 8.917E-12 5.976E-12 TOTAL CONCENTRATION (G/M*xX3) 1,SS53E-10 8.316£-11 4.760E-11 2,883E-11 1,835E-11 1,220E-11 *eEReMETEOROLOGYXKK* NO. THETA(DEG) U (M/SEC) KST HL (M) T (TIEG-K) P (MB) 16, 225. 3.0 4 1000. 290.0 0.0 ** ee RECEPTOR NUMBER * k k dic 2. 3. 4. 5. é& 7 8. We 10. 11, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXX3) ' ie 13845 0. 000E+00 0,000E+00 0,000E400 0. 000E+00 0.000E+00 0. 000E400 0,000E+00 0,000E+00 0.000E+00 0,000EH00 0,000 +00 2. 20448 0.,000E#00 0,000EH00 0,000EH00 0,000EFO0 0.000EF00 0,000EH00 0.000E+00 0,000EF00 0,000E+00 0-000Et+00 0.000E+00 TOTAL CONCENTRATION (G/M¥xX3) 0.000E+00 0,000Et00 0.000E+00 0.000EH00 0.000E400 0.000E+00 0.000Et00 0.000E+00 0.000Et00 0.000E+00 0.000E+00 *KEERECEPTOR NUMBER * XX T2s 13. 14, 15. 16. 17. 18. 19. 20. 21. 22. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&3) 1. 138.5 0.,000E+00 0,000E+00 0.000E+00 0.,000F+00 0.000F 400 0.000Et00 0.000F+00 0.000Et00 0-000EH00 0.000E400 0.000E1090 2. 204.8 O.,000E+00 0,000EF00 0,000E+00 0,000EF00 0.000E+00 0,000Et00 0,000EF0O 0,000EtH00 0.000EF00 0,000EF00 0,000F100 TOTAL CONCENTRATION (G/N¥43) ‘ . 0-000E+00 0,000E+00 0,000E+00 0-.000E400 0,000E400 0,000F400 0,000Et00 0.000Et00 0,000Et00 0.000E+00 0.000E +00 **eRKRECEPTOR NUMBER KX * 23. 24. 25. 265 276 28. 1, 2+ Xe EME NO. 128 eRe RECEPTOR SOURCE 1, 2% *eEXRECEPTOR SOURCE 1. 2 HR RHRE SOURCE 1. 2. ee RKME NO. 18. KK ERE {i atin! 7.645E-07 6.820E-07 4.436E-07 4,236E-07 138.5 1.091E-06 9.727E-07 8.616E-07 204.8 4,.211E-07 4,.533E-07 4,572E-07 TOTAL CONCENTRATION (G/M**3) 1,512E-06 1,426E-06 1,.319E-06 1.208E-05 1,105E-06 TEOROLOGY * kk THETA(TEG) U (M/SEC) KST HL (HM) T (DEG-K) F (MB) 345, 3.0 4 1000. 285.0 0.0 NUMBER *** 1. 2. 3. A. Se FINAL HGT PARTIAL CONCENTRATIONS (G/NXxX3) 141.3 2,849E-11 2.321E-11 1,.894E-11 1,550E-11 1.274F-11 208.3 7,140E-12 6.4680E-12 6,114E-12 S.S513E-12 4.920E-12 TOTAL CONCENTRATION (G/M¥3) 3.563E-11 2.989E-11 2.506E-11 2.101E-11 1.766E-11 NUMBER *® * k 12. 13. 14. 15. 16. FINAL HGT PARTIAL CONCENTRATIONS (G/Mk*3) 141.3 8.743E-07 2,908E-07 6.956E-11 2.168F-19 5.780E-12 208.3 1,688E-07 4,751E-08 9.299E-12 2.268E-20 1,.437E-12 TOTAL CONCENTRATION (G/MX3) 1.043E-06 3,.383E-07 7,.886E-11 2,.395E-19 7.217E-12 CEPTOR NUMBER Xk * * 23. 24, 25. 26. 276 FINAL HGT PARTIAL CONCENTRATIONS (G/M**3) 141.3 0.000E+00 0.000Et00 0.000E100 0.000E+00 0.000F+00 208.3 0.,000Et00 0.,000Et00 0,000Et00 0.000Et00 0.000E+00 TOTAL CONCENTRATION (G/M4%3) 0,O000Et00 0,000Et00 0.000Et00 0.000Et00 0.000E+00 TEOROLOGY * kk THETA(DEG) U (M/SEC) KST HL cH) T (DEG=K) P CMB) 360, 4.0 4 1000. 280.0 0.0 CEPTOR NUMBER kX * hie) 2. 3. 6.122E-07 4,011E-07 1,013E-06 4.157E-08 7+S75E-09 4.915E-08 17. 1,953E-13 5.504E-14 2.503E-13 0.000E+00 0.000E+00 0.000E +00 6 vt Aga eit ved eae 7s 1,059E-06 1.616E-07 1,.221E-06 18. 1.480E-16 4,586E-17 1,938F-16 as ‘a 8. 5.925E-08 7+285E-09 6.654E-08 19. 6.728E-19 2+276E-19 9.005SE-19 8. 9. 1.777E-13 1,.674E-14 1.945E-13 2.923E-20 1.072E-20 3.99S5E-20 10. S.419E-26 3.661E-27 3-A493E-11 76 S97 26-12 4.232E-11 10, 11. 3.294E-08 6.S534E-09 3.947E-08 7.256E-12 3.384E-12 1.064E-11 11. matt ce ti ree heel se discos paditls ie 117.2 1,.221E-05 1.158E-06 1,.09SE-06 1.035E-06 9.778E-07 2. 170.3 5.147E-07 %.321E-07 3.409E-07 5.430E-07 5.401E-07 TOTAL CONCENTRATION (G/MXX3) 1.735E-06 1.690E-06 1.436E-06 1.578E-06 1.518E-06 aEXRECEPTOR NUMBER * xk * 12. 13. 14, 15. 16. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&x3) 1, 117.2 1,.125E-09 3,.925E-15 6.705E-26 0,000E+00 1.163E-06 2. 170.3 3.741E-10 1,103E-15 1,508E-246 0,000E+00 4,.905E-07 TOTAL CONCENTRATION (G/M*3) 1,499E-09 S.O028E-15 8.213E-26 0,000E100 1.454E-06 ** eK RECEPTOR NUMBER * xX * 23, 24, 255 26, 27. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/Mxx3) 1. 117.2 0-000E+00 0,000Et+00 0.000E400 0.000E+00 0,000F+00 2. 170.3 0.000Et00 0.,000E+00 0.000EtH00 0.000E+00 0,000Et00 TOTAL CONCENTRATION (G/NKK3) 0.O000EtOO O.000Et00 0.000Et00 0,000Et00 0,000Et00 *eKKEMETEOROLOGYX* kk NO. THETA(DEG) U (M/SEC) KST HL (M) T (DEG-K) P (MB) 19. 360. 3.0 Ss 1000. 275.0 xX *XRECEPTOR NUMBER * Xk 1. 2. 3. 4. Ss. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MKxX3) is 99.65 1.792E-06 1.791E-06 1.775E-06 1.747E-045 1.712E-06 2. 123.6 8.1S51E-07 8,.715E-07 9.131E-07 9.430E-07 9.532E-07 TOTAL CONCENTRATION (G/M#%3) 2+608E-06 2,663E-06 2.688E-06 2,.690E-05 2.575E-06 K*KXRECEPTOR NUMBER ** * 12. 13. 14. 15. 16. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*k3) 1. 9965S SeSS4E-12 8.7256E-22 0,000E+00 0.000E+00 1,4645F-06 2. 123.6 2.120E-12 3,016E-22 0,Q000Et00 0.000E+00 7.489E-07 2.264E-07 7.S30E-08 3.017E-07 17. 7 .9S0E-07 3,.554E-07 1.160E-06 0.000E+00 0.,000E+00 0.,000E+00 7+237E-08 2.762E-08 9.998E-08 17. 9e1S5E-07 4.4ASA4E-07 2.174E-10 6 111E-11 2.786E-10 18. 1. B844E-07 9,105E-08 2+754E-07 2.656E-13 8.973E-14 3.553E-13 18. 7.371E-08 3.792E-08 1.872F-17 0.000E+00 0.000E+00 4,211E-18 0,000E+00 0.000E+00 2+293E-17 0.000Et00 0.000E+00 Los 20, 21, 4.271E-08 1,.689E-08 1,.281E-06 2,241E-08 9,327E-09 4,860E-07 6.S12E-08 2,.621E-08 1.767E-06 8. 9 10. S+S38E-26 0,.000Et00 0,000Et00 1.565E-26 0.000Et00 0,000E+00 7+104E-26 0.000Et00 0.000E+00 19. 20, 21. 5.897E-09 1,.220E-09 1.770E-06 3.183E-09 6.865E-10 7,445E-07 2+S49E-07 8.957E-08 3.446E-07 8.273E-07 5.139E-07 1,.341E-06 11. 9.317E-08 3.706E-08 1,.302E-07 n nN 1.585E-06 9.823E-07 HARB Js oh ak wm OL tlre ke er ee Wider baad NO. THETA(DEG) U (M/SEC) KST HL (K) oT (HEG-K) PMB) 21, 360. 2.0 4 1000, 273.0 0.0 KKRECEPTOR NUMNBERKE® 1. 2. Se a 5. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*X3) iN, 9644 7.460E-07 8.777E-07 9.999E-07 1. 111E-06 1.193E-06 2, 119.8 1,037E-07 1.421E-07 1,.844£-07 2+294E-07 2.487E-07 TOTAL CONCENTRATION (G/HXx3) B.A497E-07 1,020E-06 1+184E-06 1,341E-06 1,462E-06 HX RECEPTOR NUMBERKE® 12, 13. 14, 15. 16, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXX3) le 96.4 1.888E-19 0,000Et00 0-,000Et00 0.000E+00 6.146E-07 2. 119.8 1,752E-20 0,000E+00 0,000E+00 0,000E+00 8.541E-08 TOTAL CONCENTRATION (G/NXK3) 2,063E-19 0.000E+00 0.000E+00 0.000E+00 7.000E-07 XXX RECEPTOR NUMBER * kX * 23. 24, 25. 26, 27. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/Mkx3) 1. 9644 O-,O00ET0O 0,000Et00 0.000E+00 0.000E100 0.000E+00 2. 1197.8 0,000E+00 0,000E+00 0,000E+00 0,000EH00 0,.000E+00 TOTAL CONCENTRATION (G/M4#X3) 0-O000E+00 0.,000E+00 0,000Et00 0.000Et00 0,000E+00 *e Ke METEOROLOGY Xx NO. THETA(DEG) U (M/SEC) KST HL (M) = T (DEG-K) P (MB) 22. 360, 2.0 6 1000, 273.0 0.0 ¥KKERECEPTOR NUMBER *® kk te 2. 3. a. Se SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/Mkx3) 964 7.460E-07 B4777E-07 9.999E-07 1,111E-06 1,193E-06 119.8 1,037E-07 1,421£-07 1.844E-67 2,294E-07 2,687E-07 1. 2. TOTAL CONCENTRATION (G/MK3) 8+497E-07 1,020E-06 1.184E-06 1,341E-06 1,462E-06 Mes. bs 7s 8, 0 10. 11. 0. 000E+00 0,000E+00 7.040E-10 7A 7BE-Ld 3.4675E-10 3.412E-11 1.592E-22 0.000E+00 0.000E+00 1,124E-23 0.000Et00 0,000E+00 4-O17E-10 1.704E-22 0,000E+00 0.000E+00 0.000E+00 7.758E-10 17. 19. nN nD 18. 1.929E-07 3.123E-08 7+615E-10 2,935E-12 9,433E-14 1,405E-10 6.058E-13 2,125E-14 6.078E-07 7,038E-08 1.379E-06 3.830E-07 2+241E-07 9,020E-10 3.541E-12 1,156E-13 6.781E-07 1.762E-06 0, 000F +00 0, 000E+00 0,000E+00 be 7 8. 9. 10, 11. 3.675E-10 1,.592E-22 0.000FE400 0.000E+00 0,000E+00 7,040E-10 3.412E-11 1,124E-23 0,000E+00 0,000Et00 0.000Et00 7,178E-11 4,O17F-10 1.704F-22 0,000E+00 0,000E+00 0,000E+00 7.758E-10 wei be ialts t 12. 13, 14, 15. 16. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MxX*3) 1. 96.4 1,8B8BE-19 0,000E+00 0.000Et00 0.000E+00 6.146E- 2. 119.8 1.752E-20 0,000Et00 0.000Et00 O,000Et00 8.541E- TOTAL CONCENTRATION (G/NX%3) 17. 07 1.929F-07 08 3.123E-08 2+063E-19 0,000E+00 0.000E+00 0. 000E+00 7,000E-07 2,241E-07 *eFYRECEPTOR NUMBER X* XX 23. 24, 256 26. 27. 28, SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXX3) 1. 96.4 0, 000Et00 0.000E+00 0,.000E+00 0.000E+00 0.000F +00 0.000E+00 2. 119.8 O.,000Et00 0,000Et00 0,000E+00 0.000Et00 0.000E+00 0,000E+00 TOTAL CONCENTRATION (G/M*X3) O-O00EFOO 0.000EtOO0 0.000Et00 0.000EH0O 0.000Et00 0.000E+00 *e*XMETEOROLOGY xk kk NO. THETA(DEG) U (M/SEC) KST HL (M)) = T (DEG-K) F (NB) 23. 360, 2.0 6 1000. 273.0 xe KeRECEPTOR NUMBER * X k 1. 2. 3. 4e Se SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXx3) TOTAL CONCENTRATION (G/M¥%3) 8.497E-07 1.020E-06 1.184E-06 1.341F-06 1.442E- x*eKKRECEPTOR NUMBER * kX 12, 13. 14. 15. 16. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MKX3) 1. 9644 1,8B8BE-19 O.,O000Et00 0.000Et00 0.000E100 46.146E- 2+ 119.8 1.752E-20 0,000E+00 0,000FE+00 0,000E+00 8,541E- TOTAL CONCENTRATION (G/M*¥X3) 2+063E-19 0,000E+00 0,000E+00 0.000F+80 7,000E- *KERECEPTOR NUM BER * * X® 26. 27. tr a 8 23, 24, 1. 96.4 7,460E-07 8.777E-07 9,999E-07 1,111F-05 1,193E- . 119.8 1,037E-07 1,421E-07 1.844E-07 2.294E-07 2.587E- b. 06 3.4675E-10 O07 3.412E-11 06 4,017E-10 17. 07 1,.929E-07 08 3,123E-08 07 2.241E-07 18. 7+615E-10 2.935F-12 9.433E-14 6,078E-07 1,.379E-06 1,.405E-10 6,053E-13 2.125£-14 7,038£-08 3.830E~-07 9.O20E-10 3.541E-12 1,156E-13 6.781E-07 1.7462E-06 7. 1.592E-22 1.124E-23 1.704E-22 18. 7.615E-10 1,405E-10 9.020E-10 8. 0.000E+00 0, 000Et00 0.000E+00 19s 2.935E-12 $,0S3E-13 3.541E-12 9. 10. 1i. 0.000E+00 0.000E+00 7.040E-10 0,O000Et00 0.000E100 7.178F-11 0.000E+00 0.000E100 7.758E-10 9.433E-14 6.078E-07 1.379E-06 2.125E-14 7,038E-08 3.850E-07 1.156E-13 6.7B81E-07 1. 762b-06 v2 ‘oboe lslianns me ’ HUF, de at : - 4 ven 1. 9644 0.000EH00 0.000EH00 0.000E+00 0.000E+00 2. 119.8 O,000Et00 0.000E+00 0,000Et00 0,000Et00 TOTAL CONCENTRATION (G/MkX3) 0.000Et00 O.000E+00 0.000E+00 0.000E+00 *X¥XMETEOROLOGY*** NO, THETAC(DEG) U (M/SEC) KST HL (M) T (DEG-K) 24. 225. 2.0 3 1000. 295.0 XXX RECEPTOR NUMBER kk * 1. 2. 3. 4. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MX3) 1, 185.2 0.000E+00 0,000E+00 0.000E+00 0.000F+00 2. 279.1 0-O000Et00 0-000Et00 0,000E+00 0.000E+00 TOTAL CONCENTRATION (G/MEX3) 0.000EtO00 0.000E+00 0.000E+00 0.000E100 xX eX RECEPTOR NUMBER * xk * 12. 13. 14. 1s. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M&X3) 1, 185.2 0.000Et00 0.000E+00 0.000E+00 0.000E+00 2. 279.1 O.,O00Et00 O.000E+00 0.000EtO0 0.000Et00 TOTAL CONCENTRATION (G/M**3) 0.000E+00 0.000E+00 0.000E+00 0.000E+00 *KeERECEPTOR NUMBER Xk * 23. 24. 25. 26. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXX3) 1. 185.2 6.355E-07 4.741E-07 3.677E-07 2.948F-07 2. 279.1 S,400E-07 4.221E-07 3.372E-07 2.764E-07 TOTAL CONCENTRATION (G/Mk*3) 1.176E-05 8.962E-07 7.049E-07 S.711E-07 Ci Beet Biss Sock Oren 9.000FE+00 0.000E+00 0,000E+00 0,000E+00 0-000E+00 0,000E+00 P (MB) 0.0 Se 6. 7s 0.000E+00 0,000E+00 0.000E+00 0.,Q000E+00 0.000Et00 0.000E+00 0-000E+00 0,000E+00 0.000E+00 16. 17. 18. 0.000E+00 0.000F+00 0.000F+00 O.000Et00 0,000Et00 0,000Et00 0.000E+00 0.000F+00 0.000E+00 276 28, 2+437E-07 2.074E-07 2,32S5E-07 2.007E-07 4+763E-07 4,081E-07 0.000E+00 0.000E+00 0.000E+00 Eoe 0.000E+00 0,000E+00 0.000E+00 0.000E+00 0-,000E+00 0.000E+00 0.000E+00 0.,000Et00 0.000E+00 10. 0.,000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E100 11. 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 Ae ie Whicih Weiawdiie? 2 ~ GEE AVERAGE CONCENTRATIONS FOR 4 HOURS. *eE RX RECEPTOR NUMBER * kk 1. 2. 3. Ae SOURCE PARTIAL CONCENTRATIONS (G/MXX3) 1, 5+O090E-07 5.435E-07 5.731E-07 5.983E-07 2. 1,.430E-07 1.626E-07 1.813E-07 1.989E-07 TOTAL CONCENTRATION (G/Mx3) &+S19E-07 7.061E-07 7.544E-07 7.973E-07 *eKReRECEPTOR NUMBER * Xk 12. 13. 14, 15. SOURCE PARTIAL CONCENTRATIONS (G/M¥xX3) 1. 4,366E-08 1.219E-08 2.898F-12 9,035F-21 2. 7+75SE-09 1.986E-09 3,875E-13 9,452E-22 TOTAL CONCENTRATION (G/M**3) 5+142E-08 1.418E-08 3,286E-12 9,980E-21 x**e eR ECEPTOR NUMBER * Xk * 23. 24. 25. 26, SOURCE PARTIAL CONCENTRATIONS (G/MX%3) 1. 1,.601E-07 1.350E-07 1.151E-07 9,.950EF-08 2 8 8.785E-08 8,220E-08 7.562E-08 &.900E-08 TOTAL CONCENTRATION (G/M*X3) 2+480E-07 2.172E-07 1.908E-07 1.4685E-07 $ LOG Arproximate session cost is $3.44 Se 6+140E-07 2.135E-07 8.275E-07 16. 4.517E-07 1,.300E-07 5.816E-07 8.707E-08 6,303E-08 1,501E-07 ZDELETE-W-FILNOTDEL» error deleting DRCS{CMKENVIES.POS33T400I4.ERRS* -RMS-E-FNF» file not found %PURGE-I-NOFILPURG?s no files rursed for DRCSiCMKENVIIES.POS33T400IK. xs 6. 3,.246F-08 8,427E-09 4,088F-08 17. 2+274E-07 7+9SAE-08 3.070E-07 28. 7+706E-08 5.776E-08 1.348E-07 7+ 5.714E-08 7+721E-09 &.486E-08 18, 2.885E-08 1,185£-08 4.070E-08 8. 2+-469E-09 3.035E-10 2.773E-09 19. 5.801E-09 2.473E-09 8.274E-09 7-40S5E-15 6.983E-16 8.103E-15 2.243E-09 1.010E-09 3,.253E-09 10. 11, 2.258E-27 3.747E-08 1.525€-28 1.048E-08 2.410E-27 4.795E-08 21. nD nD 4.693E-07(6.4 1, 2256-0772 49 E-0Z 8E-07 S.918E-07 8.925E~-07 = ek ia i ek abe kd aaa iim ux. dooacd ibewansst PINT (VERSION 738030) Ai AIR QUALITY DISPERSION MODEL IN SECTION 4. MODELS OF HISTORICAL INTEREST. IN UNATAP (VERSION 4) DEC 80 SOURCE? FILE 18 ON UNAMAF MAGNETIC TAPE FROM NTIS. UBTSi VERSION 78010 CHENA MAXINUM 16 HOUR SCENARIO Awe SOURCES HK *K NO Q (G/SEC) HP (if) TS (DEG-K) VS (M/SEC) DCM) VF (M#K3/SEC) 1. 1,00 3666 425.0 1.0 1.00 34.9 26 1.00 45.7 425.0 1.0 1.00 6644 eae RECEP TOR S HK WO. RREC(KH) = SREC(KM) Z CM) 1,000 19,000 2.0 1.000 18,000 2.0 1,000 17.000 2.0 1,000 16.000 2.0 1.000 15.600 2.0 1.000 14,000 2.0 1.000 13,000 2.0 1.000 12.000 2.0 1.000 11,600 2.0 1.000 10,000 2.0 1.000 9,000 2.0 1.000 8.000 2.0 1,000 7.000 2.9 1.000 6.000 2.0 1,000 5.000 2.0 4.000 2.0 3.000 2.0 2.000 2.0 1.000 2.0 0.009 2.0 AA eAMETEOROLOGY KAS NO. THETACTIEG) U (M/SEC) KST HL (M4) T (DEG-K) P CME) de 360, 2.0 S 1000. 280.0 0.0 ** eR ECEP TOR NUM BE R KK K 1. 2 3. ae Se SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/Mkk3) 1. 108.2 S.889E-10 2.737E-07 1,.031E-06 1.687E-06 1,984E-06 2s 134.4 6.935E-13 1,.622E-08 1,.739E-07 4,.683E-07 7,.132E-07 TOTAL CONCENTRATION (G/M**3) ‘ . S.896E-10 2.899E-07 1.205E-06 2.156E-06 2.498E-06 *e eR ECEPTOR NUMBER KKK 12, 13. 14, 15. 16. ti council wal dened «i "WORST CASE" 24-HOUR SCENARIO R CKM) S (KM) 1.000 20.000 1.006 20,000 \ \ 1 és 7. 8. 9. 2e109E-06 2,130E-06 2,093E-06 2,.024E-06 9.,002E-07 1,02B8F-06 1,107E-06 1,1506-06 3.009E-06 $.158E-06 3.200E-06 3.174E-06 17. 18. 19. 1.941E 1,.167E-0c 3. 108E-06 1 1 3 Lis BATE-OG 160k GOGE-O6 i BRE: pas te Ret vel LESSIG BS $ 10842 1+754E-06 1,666E-06 1,583E-06 1,504E-06 1,431E-06 oh Wii Biber d AMALIE ‘ p Deh’ AB. bh 1s 1,363E-06 1,300E-06 1,241E-96 1,186E-06 ae 134.4 1,143E-06 1L,119E-06 1,092E-06 1,062E-05 1,031E-06 1,000E-06 9,690E-07 9.386E-07 9, 089E-07 TOTAL CONCENTRATION (G/MKK3) 2.897E-06 2.785E-06 2.574E-06 *XReEMETEOROLOGYAAS 2+566E-06 2.462E-06 NO. THETA(TEG) U (M/SEC) KST HL CM) T (DEG-K) P (MB) 2. 340. 2.0 5 1000, 280.0 0.0 *kKeRECEPTOR NUM BER & * * i. 2. 3 ae Se SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MKK3) Le: 108.2 5.889E-10 2.737E-07 1,031E-06 1,.687E-06 1.984E-06 20 134.4 6,935E-13 1,622E-08 1.739E-07 4,.683E-07 7,132E-07 TOTAL CONCENTRATION (G/MKKS) Ss B9SE-10 2.899E-07 1,.205E-06 2.156E-06 2,698E-06 *eAKRECEPTOR w#UM BER * kX 12. 13. 14. 15, 16. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*43) 1s 108.2 1.754E-06 1.666E-06 1,.583E-06 1,504E-06 1,431E-06 au 134.4 L.143E-06 1,119E-06 1,092E-06 1,062E-06 1,031E-06 TOTAL CONCENTRATION (G/MKKS) 2.897E-06 2.785E-05 2,.4674E-06 2,566E-05 2,.462E-06 ee eMETEOROLOGY kK NO. THETACIEG) U (M/SEC) KST HL (M) TT (TEG-K) FP CME) 3. 360, 2.0 S 1000, 280.0 9.0 Kee RECEPTOR NUM ECE R # KX 1. 2, Se 4e Se SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXK43) 1. 108.2 S,889E-10 2.737E~-07 1,031E-06 1,.687E-06 1,984E-06 2e 134.4 6.935E-13 1,.4622E-08 1,739E-07 4,.6836-07 7,132E-07 TOTAL CONCENTRATION (G/H*#3) ‘ S.896E-10 2.899E-07 1,.205E-06 *xX eK RECEPTOR NUMBER kk * 12. 13. 14, 2156E-06 2+ 698E-06 16. 2.363E-06 2.269E-06 2,.179E-05 2,095E-06 ae 8, 10. 2.109E-06 2,130E-06 2.093E-06 2,024E-06 1,941E-06 9, 002E-07 1,02B8E-06 1,.107E-06 1,150E-06 1,.167E-04 SOOPE-06 3.158E-06 3.200E-06 3,174E-06 3.108E-06 17, 18. ea 1,363E-06 1,.300E-06 1,.241E-06 1,186E-048 1,000E-05 9.690E-07 9,.386E-07 9,089E-07 269E-06 2.179E-05 2,095E-06 10, 21LO09E-06 9.002E-07 2e1S0E-06 2.095E-06 2,024E-05 1,.941E-US 1,0286-06 L,L07E-06 1.150E-06 1L.147E Oo S.O009E-06 3.158E-06 3.200E-06 3.174E-05 3,.108E 06 17. 18. 19. 20. dedie 1+B847E~-06 1,160E-066 3. 006E-06 dot 2a OD gb 06 ji aiaralbeeanad i SB 1.754E~04 1.666E-06 1,583E-06 1,504E-06 1,.431E-06 L.143E-06 1,119E-06 1,092£-06 1,062E-06 1,031E-06 fb OR i fie YE me won +O Be TOTAL CONCENTRATION (G/MXX3) 2-B97E-06 2.785E-06 2.674E-06 2.546E-06 2.462E-06 te em ETEOROLOGYX*k xk WO. THETACTEG) U (M/SEC) KST HL (MN) T (IIEG-K) Fo CME) Ae 340, 2.0 S 1000. 280.0 0.0 KK eERECEPTOR NUM BER X kX 1. 2. 3e Ae Se SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MXX3) 1. 108.2 S.889E-10 2.737E-07 1,.031E-06 1.687E-06 1.984E-06 2 134.4 6,935E-13 1,6226-08 1,739E-07 4,683E-07 7,132E-07 TOTAL CONCENTRATION (G/Mk#3) S.896E-10 2,899E-07 1,205E-06 2,156E-06 2.4698E-06 ¥ ek eRECEPTOR NUMBER * KR 12. 13. 1A, 1S. 16. SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/M#K3) 108.2 1.7 134.4 1,143E 16 1,4556E-06 1,.583E-06 1,.504E-06 1.431E-06 O6 1,119E-06 1,092E-06 1,062E-06 1,031E-06 TOTAL CONCENTRATION (G/*k3) 2.897E-06 2.785E-05 2.4674E-06 2.566E-06 2,.462E-06 xa eAMETEOROLOGY kk NO. THETACTIEG) U (M/SEC) KST HL CM) = T (DEG=K) P CME) oe 340, 2.0 o 1000, 280.0 0-0 Kee RECEPTOR NUM BE R KX 1. 2 3. Ae Se SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/MKK3) 1. 108.2 5.889E-10 2,.737E-07 1,031E-06 1.687E-06 1.9B84E-06 . 134.4 6.935E-13 1.622E6-08 1.737E-07 4,683E-07 7,1352E-07 TOTAL CONCENTRATION (G/MKK3) ‘ * 2.B99E-07 1.205E-06 2,156E-06 2.698E-06 5.896E-10 Ka kK RECEPTOR NUM BER *€ kK 12. 13, 14. 16. vadal adieu pall e . 1,.363E-06 1.300E-06 1,.241E-06 1,186E-0 ~ 1,000E-06 9.690E-07 9.366E-07 F.089E-5 ay 2.363E-06 2.269E-06 2,179E-06 2.095E~-06 nN ~ = be 7s Be ae 16. ii. “~ oy 2.109E-06 2.130E-06 2.093E-06 2,024E-66 1.941E-04 i+da7E- 9.,002E-07 1,028F-06 1,.107E-06 1,.150E-06 1.1467E-05 1,1450E- ™~ S.O009E-06 3,156E-06 3,.200E-06 3.174E-06 3.10B8E-06 3. 006E-06 17. 18, 19. 20. 1,300E-06 1,.241E-06 1,.186E-06 =i 9.690E-07 9.386E-G7 9.089E-07 \ { 2+S63E-06 2.269E-06 2.179E-06 2,095E-06 be Te 8. ae 10. 13s 2.109E-04 2.130E-06 2,093E-06 2,.024E-06 1.941E-96 i. d47E 9,002E-07 1,.028E-06 1,107E-06 1.150E-06 1,167E-06 1.1668 S.O009E-06 3.158E-06 3.200E-06 3,174E-06 3.108E-06 3.008E-Go 18. 17. 19, 20. aR AME NO. 6e *RKERE X*ePERE SOURCE 2-H NO, 7. KRE SOURCE KERR ECEP TOR bee hake dsblta F 108.2 1.754E-06 1.666E-06 1,.583E-06 134.4 1.145E-06 1,119E-06 1.092E-06 TOTAL CONCENTRATION (G/M#X3) i arswcill Aa daa Wha To 1.504E-06 1.431E-06 1.363E-06 1 1.241E-06 1,1846E-06 1.062E-06 1,031E-06 1,000E-06 97 9.386E-07 9.089E-07 2.897E-06 2.785E-06 2.674E-06 2.566E-06 2,.462E-06 2.363E-06 2,269E-06 2.179E-06 2.095E-06 TEOROLOGY* * * THETACTIEG) U (M/SEC) KST HL (M) = T (LEG-K) P CMB) 360. 2.0 S 1000, 280.0 0.0 CEP) 00 NUMBER KX X 1. 2. 3. ae Se 6. 7. 8. oe io. FINAL HGT FARTIAL CONCENTRATIONS (G/MkX3) 108.2 S.889E-10 2.737E-07 1,.031E-06 1,.687E-06 1.984E-06 2.109E-06 2,130E-06 2,0935E-06 2.024E-04 1.941E-06 134.4 6.935E-13 1,622E-08 1.739E-07 4,683E-07 7,152E-07 9,002E-07 1,028E-06 1.107E-06 1.150E-06 1.167E-06 TOTAL CONCENTRATION (G/M*K3) S+896E-10 2.899E-07 1.205E-06 2.1546E-06 2.698E-06 3.009E-06 3,158E-06 3.200E-06 3.174E-06 3,105E-06 CEFPTOR NUWHEBE R *€ kK 12. 13, 14, 15. 16. T7s 18. ee 20. FINAL HGT FARTIAL CONCENTRATIONS (G/MKK3) 108.2 1.754E-06 1,.4666E-06 1.583E-06 1,.504E-06 1,.431E-06 1.363E-06 1,.300E-06 1.241E-06 1,.186E-06 134.4 1.,143E-05 1,117E-06 1,.092E-06 1,062E-06 1,.031E-06 1.000E-06 7.690E-07 9.386E-07 9.0897E-07 TOTAL CONCENTRATION (G/MK#3) 2.897E-06 2,.785E-06 2.4674E-06 2.,566E-06 2.462E-06 2.363E-06 2.269E-06 2.179E-06 2.095E-06 TE O-f @- EO Gi eee THETACLEG) U (M/SEC) KST HL (M4) T (DEG-K) FP CMB) 360. 2.90 5 1000. 230.0 0.0 GEIP {Ok NUMBER &¥ kK 1. Qe 3. an Se ée 76 8. 9. 10. FINAL HGT PARTIAL CONCENTRATIONS (G/M#K3S) 108.2 5.889E-10 2,.737E-07 1.031E-06 1.687E-06 1,.984E-06 2.109E-06 2.130E-06 2.0973F-06 2.024E-05 1.741b- Oe 134.4 6.935E-13 1,.622E-08 1.739E-07 TOTAL CONCENTRATION (G/i%*3) 5.B96E-10 2,.899E-07 1.205E-06 NUMBER ** * La 13. 14. 1,028E-06 1,.107E-06 1.150F-06 1.167E-06 4.683E-07 7.132E-07 9,002E-07 2.156E-06 2.69BE-06 3.009E-06 5.158E-06 3,.200E-06 3.174E-06 3.108E-06 16. 17. 18. 19, ii. 1.B847E~-08 1,.160E-04 3. O06E-06 ida L. blocky 3 OUEE~UF mw oad - } lias ' vi auacd ok Eb i sdb t teh ital el 4 aT Bi ~ 1. 168.2 1.754E-05 1.656E-06 1,.583E-06 1,.504E-06 1.431E-06 Ze 134.4 1,1436-06 1,119E-06 1,.092E-06 1,062E-06 1,031E-06 ~ TOTAL CONCENTRATION (G6/i#k*3) Cy 2.897E-06 2.785E-06 2.674E-06 2.566E-06 2,.462E-06 »eha mE TEOROLOGY * * “ NWO. THETACHEG) U (M/SEC) KST HL (Md) T (LEG-K) F (MB) 8. Sou, 2.0 SQ 1000. 2380.0 0.0 ° *eRKRECEPTOR NUMBER * kk + 1. 2s 3. ae Se SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/M*K3) * Li 108.2 S,.889E-10 2.737E-07 1.031E-06 1.687E-06 1.984E-06 2. 134.4 6,935E-13 1,622E-08 1,739E-07 4,683E-07 7,1352E-07 a TOTAL CONCENTRATION (G/M¥#3) . S.896E-10 2,.899E-07 1.205E-06 2,156E-045 2.498E-06 - ee A RECEPTOR NUH BER * xk * 12. 13. 14, 15. 1é. : SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*3) - ) lL. 108.2 1.754E-06 1,.666E-06 1.583E-06 1,.504E-06 1,.431E-06 2s 134.4 1,1436-06 1,119E-06 1.092E-04 1,062E-06 1,0631E-06 - TOTAL CONCENTRATION (G/MKK3) ~ 2.897E-06 2.735E-06 2.674E-06 2.5466E-05 2.462E-06 *eAMETEOROLOGY KH SK ~ NO. THETA DEG) U (M/SEC) KST HL CM) = T (DEG~-K) P OME) Pe 360. 2.0 Ss 1000, 280.0 0.0 . KKERECEPTOR NUM KE R KKK ~ 1. 2. Sie 4. Se SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/M*K3) > i. 108.2 S.839E-10 2.737E-07 1,.031E-06 1.687E-06 1.984E-06 2. 134.4 6,935E-13 1.622£-08 1,.739E-07 4,.683E-07 7,.132E-07 : TOTAL CONCENTRATION (G/i4**3) y 5.896E-10 2,.899E-07 1.205E-06 2.156E-06 2+698E-06 KA KR ECEPTOR NUMBER kK 12. 13. 14, 15, 16. eA PRRB OER Ga hy cea) “i "a 1.363E-06 1,.300E-06 1.241E-06 1,.186E-06 a 1,000E-06 9.690E-07 9,386E-07 9.085E-07 y 2+365E-06 2.259E-06 2,.179E-06 2.095E-06 4 a 2eLOPE-06 2.4130E-06 2.073E-06 2.024E-06 1.,941E-06 1 .UA7E-Od 9,002E-07 1,028E-06 1,107E-06 1,150E-06 1.167E-05 1.1450E-06 3.009E-06 3.158E-06 3,.200E-06 3.174E-05 3.108E-06 3.000E-05 17. 18. 19, 20, 1,.363E-065 1.300E-06 1.241E-06 1.186 ~ 1,000E-08 9.46970E-07 9,.386E-07 9.089 \ { 2+363E-06 2,.269E-06 2.179E-06 2.,095E-06 oe Ze Be 9 16 ti 2+109E-06 2.1350E-06 2,093E-06 2,.024E-06 1,941E-08 i438 9, 002E-07 1,028E-06 1,107E~-06 1.150E-06 1,167E-06 1,16 3.009E-06 3.158E-06 3.200E-06 3.174E-045 S.108E-06 5.U06E-06 17, 18. 19. 20. # iad 108.2 1,754E-065 1.6666E-05 1,583E-06 2 134.4 1,143E-06 1,.119E-06 1.092E-06 1.,504E-06 1,431E-06 1,.363E-06 1.300E-06 1,062E-06 1,031E-04 1,000E-06 9.470E-07 TOTAL CONCENTRATION (G/M&*3) 2.897E-06 2.785E-06 2.674E-06 2,566E-06 2.442E-06 2,.363E-06 2. 269E-06 eA enETEOROLOGYXK** NO. THETACTIEG) U (M/SEC) KST HL (M) = T (DEG-K) F (MED 10. 360, 4.0 4 1000, 285.0 0.0 ‘KAR ECEP TOR NUMBER &*# * 1. 2. 3 Ae Se be Je SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/MK4*3) 115.1 S.975E-08 8.924E-07 1,.388E-06 1,.424E-06 1.321E-06 1.187E-06 1.057E-06 167.7 4,514E-11 4,.670E-08 2,409E-07 4.133E-07 S.139E-07 S.S6SE-07 5,.635E-07 TOTAL CONCENTRATION (G/Mk#¥3) S.98CE-08 9,391E-07 1.4629E-06 1.837E-06 1.835E-06 1.743E-06 1.4620E-06 *kK RECEPTOR NUH BER * kX 12. 13. 14. 15. 16. Za 18. SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/MkK3) if 115.41 6,188E-07 5.652E-07 S.187E-07 4.781E-07 4.425E-07 4.110E-07 3.831E-07 2. 167.7 4,.439E-G7 4,.172E-67 3.924E-07 3.693E-07 3.481E-07 3.285E-07 3.105E-07 TOTAL CONCENTRATION (G/M&4#3) 1,.063E-06 9.824E-07 9.110E-07 8.474E-07 7.905E-07 7.39S5E-07 &.936E-07 KK AME TE OR OLOGY * KK NO. THETACDEG) U (M/SEC) KST HL (M) = T (DEG-K) P (MB) hs 340. 4.0 4 1000, 285.0 0.0 AKeHRECEP TOR NUM HE R kK KK 1. 2. 3. a Ue 6. 7. SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/MKK3) 1. 115.1 S.975E-08 8.924E-07 1,388E-06 1,.424E-06 1.321E-06 1,187E~-06 1,.057E-06 2. 167.7 4.514E-11 4,.670&-08 2,.409E-07 4,.133E-07 S.139E-07 S.S6SE-07 5,635E-07 TOTAL CONCENTRATION (G/MK4#3) ‘ S.980E-O08 9,391E-07 1.4629E-06 Ke KRECEPTOR NUMBER kK 12. 13, 14. . 1.837E-06 1.835E-06 1.743E-06 1.620E-06 16. 17. 18. | bk ay ME B f 1.241E-06 1,.186E-06 9,386E-07 9,089E-07 2.179E-06 2,095E-06 8. 9. 10. di. 9.404E-07 8.399E-07 7.539E-07 5.811E-07 S.508E-07 S.282E-07 5.011E-07 4.720E-07 1,491E-06 1,.368E-06 1.255E-66 1.16 3.582E-07 3.359E-07 2.940E-07 2.788E-07 6.522E-07 6.146E-07 16. 11. 9AOAE-07 8.399E-07 7.539E- 6. 811k -0/ S.SO8E-67 5.282E-07 S.O11E-07 4. 720E- 1,491E-06 1.368E-06 1,.255E-06 1.154b--0 Lm 20. Kb i Sr. Tes id i Wisk ai Labind 2 i Bossi gine danea oa Gal ac cb i, 115.1 6.198607 S.652E-07 5S.187E-07 4,781E-07 4.425E-07 4,110E-07 3,831E-07 3,582E-07 3.359E-07 2 167.7 4.439E-07 4,172E-07 3.924E-07 3.693E-07 3,481E-G7 3,285E-07 3,105E-07 2,94GE-07 2,788E-07 TOTAL CONCENTRATION (G/MkX3) 1,063E-05 9,.824E-07 9,110E-07 BeA7AE-07 7.905E-07 7.39SE-07 “O07 1,388E-06 1.424E-06 1,.321E-06 1,.187E-06 1,057E-06 9.404E-07 8,.399E-07 7.53 ee AME TE OROQOLOGYkx** NO. THETACTEG) U (M/SEC) KST HL (M) = T (IIEG-K) PB CMED 12. Soo, 4.0 4 1000. 285.0 00 RRKARECEP TOR NUh BER ® xX * Le 24 3. 4. Se Cy SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/MkK3) Li 115.1 S.975E-08 8.924E-07 1,38B8E-06 1,.424E-06 1,321E-06 1,187E-06 2. 167.7 4,514E-11 4,670E-08 2,409E-07 4,1353E-07 S.139E-07 5.565E-07 TOTAL CONCENTRATION (G/MXxk3) 5.9B80E-08 9.391E-07 1,.629E-04 1,.837E-06 1,855E-06 1.743E-906 ¥*e KRECEPTOR NUM BER & KK 12. 13. 14. 15. 1é. 17. SOURCE FINAL HOT PARTIAL CONCENTRATIONS (G/Mkk3) 1. 115.4 4,188E-07 S.4652E-07 S.187E-G7 4.781E-07 4,425E-07 4,110E-67 2. 167.7 4,A39E-G7 4,172E-07 3.924E-67 3.493E-07 3,481E-07 3,285E-07 TOTAL CONCENTRATION (G/M##3) 1,.063E-66 9.824E-07 9,110E-07 B.474E-07 7.905E-07 7.395E-07 Ae KH ETE OROLOG Y & # kK NO. THETACTIEG) U (M/SEC) = KST HL (M>) oT (TEG-K) FP CME) 13. 340. 4.0 4 1000, 265.0 0.0 KKARECEFP TOR NUM BCE RK kK 1. 2s ae ay Se oe SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/MkkS) Ag 115.1 5.975E-08 8.92 2. 167.7 4,514E-11 4,670E-08 2,.409E-07 4,133E-07 S.137E-O7 S.S65E-07 TOTAL CONCENTRATION (G/M##3) ‘ . 5S.980E-08 9.391E-07 1,.629E-06 1,837E-06 1,.835E-06 1.743E-06 1,4620E-06 1,491E-06 1,.368E-06 1,.255E- **ARKRE CEP TOR NUM BER kk 12. 13, 14, 15. 16. 17. 66936E-07 6.522E-07 6,146E~-07 10. 1.,057E-05 9.404E-07 8.399E-O7 7.539E- S.635E-07 S.S508E-07 5.282E-07 S.O11E- 1.620E-06 1,491E-06 1,3468E-66 1,255E- is. Lo. 20. 3.B831E-07 3.582E-07 3,.359E-07 3.105E-67 2,740E-Q7 2.788E-07 \ 1 6.936E-07 6.522E-07 6.146E-07 76 8. S.635E-07 S.S08E-07 S.282E-07 S.o11e 18, 19. ve o7 o7 OG a7 ay 06 14 L,1SZE-G6 6 BLLE-07 4.720E-67 1s ¥ S33 JE-OS v nee lb CER RK ih sa RES i Ne te 115.1 6.188E-07 5,.652E-07 S.187E-07 4.781E-07 4.425E-07 167.7 4,439E-07 4,.172E-07 3.924E-07 3.693E-07 TOTAL CONCENTRATION (G/MX¥#3) 1,063E-06 9,824E-07 9.110E-07 8.474E-07 7.905E-07 ** KM ETE OROLOG Y * & * WO. THETACTEG) U (M/SEC) = KST HL (M)) T (TIEG-K) F CMB) 14. 30. 4.0 4 1000, 285.0 0.90 *e eR ECEP TOR NUMBER * ¥ X¥ 1. 3. ae Se SOURLE FINAL HGT PARTIAL CONCENTRATIONS (G/MK3) . 115.1 5.975E-08 8.924E-07 1,.388E-06 1,.424E-06 1,.321E-06 2. 167.7 4.514E-11 4,.670E-08 2,409E-07 4,133E-07 5S.139E-07 TOTAL CONCENTRATION (G/M##3) 5S.9B80E-08 9.391E-07 1,.4629E-06 1.837E-06 1,835E-06 **e eR E CEP TOR NUMBER * Xk 12. 13, 14. 15. 16. SOURCE FINAL HGT PARTIAL CONCENTRATIONS (G/M*K3) 1. 115.1 6.188E-07 S. 2E-0O7 S.187E-07 4.781E-07 4,425E-07 2. 167.67 4,439E-07 4,172E-07 3.924E-07 3,4693E-07 3,481E-07 TOTAL CONCENTRATION (G/M#¥3) 1,0635E-05 9.B824E-07 9.110E-07 B.474E-07 7.905E-07 ae eM ETEOROLOG Y * * * NO. THETACTIEG) U 4H/SEC) KST HL (M) T (IEG=K) FO CMR) 1s. 360, 4.0 Ai 1000. 285.0 0.0 EKRXRECEPTOR NUM RCE KR kK Xk X 1. 2s Se ae Se SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/Mk*3) Vi 115.1 5.975E-08 8.924E-07 1,.388E-06 1.424E-06 1,321E-06 2a 167.7 4,514E-11 4.670E-08 2,409E-07 4,1355E-07 S.139E-07 TOTAL CONCENTRATION (G/M*#3) S+980E-08 9,391E-07 1.629E-06 1.837E-06 1,.835E-06 **A eR ECEP TOR NUMBER & *® X 12. 13. 14. 15. 16. : wilh S.4AB1E-07 3 ha did SRA di 4,110E-07 3.831E-07 3.582E-07 285E-07 3.105E-07 2,940E-07 7s39SE-07 6,936E-07 6.522E-07 6 1,187E-06 1.057E-05 9.404E-07 S.S6SE-07 5.635E-07 S.508E-07 1.743E-06 1.620E-06 1.491E-06 17. 18. 19. 4,110E-07 3,831E-07 3.582E-07 3.285E-07 3,105E-07 2.940E-07 76S9SE-07 6,9356E-07 6.522E-07 8. 1,187E-06 1.057E-06 9.404E-07 S.S6SE-07 S.635E-07 S.508E-07 1.743E-06 1,.620E-06 1,.491E-068 17. 18. 19. i Be 3S9E-O7 2.786E-07 6.146E-07 a 10. 8.399E-07 5+ 282E-07 1,368E-06 20. 3.359E-07 2.788E-07 6.146E~-907 B.399E-07 7.539E-07 S.232E-07 S.O11E 1,56BE-06 1.2 dis 1,153E-0¢ 1,1753E=-04 7 i di \ ! F {ak wail: iba! <a ir et x a Phd e nedecrhadly| of toi ady iat ak |/I06 n die 115.1 6.188E-07 5.4652E-07 5.187E-07 4.781E-07 4,.425E-07 4,110E-07 3.831E-07 3.582E-07 3.359E-07 Ze 167.7 4.439E-07 4,172E-07 3,.924E-07 3.695E-07 3,.481E-07 3.285E-07 3,105E-07 2,940E-07 2,78B8E-07 ~ TOTAL CONCENTRATION (G/M#¥3) 5 1,063E-06 9,824E-07 9,110E-07 8.474E-07 7,905E-07 7.595SE-07 6.936E-07 6.522E-97 6.146E-07 *e + METEOROLOGY XX ~ WO. THETACTIEG) U (M/SEC) KST HL (M) T (DEG-K) FP (MB) 16. 360. 4.0 4 1000, 285.0 0.6 i REAR CEFTOR NUM EE R & KX ~ 1. 2 3. 4. oe be 7. 8, 9. 10. ii. SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/Mkxk3) 1. 115.1 S.975E-08 8.924E-07 1,388E-06 1.424E-06 1.321E-06 1.187E-06 1.057E-06 9,404E-07 8.399E-07 7.539E~-07 6.811E 2. 167.7 4,.514E-11 4,.670E-08 2,409E-07 4,.133E-07 5,1397E-07 5S.565E-07 S.635E-07 5S.S508E-07 S.282E-07 S,O11E-O7 4.7206 TOTAL CONCENTRATION (G/MKK3) S.9B0E-08 9,391E-07 1,.629E-06 1.837E-06 1,.835E-06 1.743E-06 1,.620E-06 1,491E-06 1,.348E-06 1,255E-06 1,.155E-0 - xX AR ECE P TOR NUMBER *® Xk k 12. 13, i4. 15. 1é. 17. 18. 19. 20. ii SOURCE FINAL HGT FARTIAL CONCENTRATIONS (G/MkK3) ~ ) ts, 115.1 6.138E-07 S.S52E-07 S.187E-07 4,.781E-07 4,425E-07 4,110E~07 3.831E-07 3.582E-07 3.359E-07 2. 167.7 4,439E-07 4,172E-07 3.924E-07 3,46935E-07 3.481E-07 3.285E-07 3,105E-07 2,940E-O7 2,.788E-07 ~ TOTAL CONCENTRATION (G/M#%3) ~ 1,.063E-06 9. 824E-07 9.,110E-07 8.474E-07 7.905E-07 7.39SE-07 &,936E-07 6.522E-07 6.146E-07 1 Kh MEA. AVERAGE CONCENTRATIONS FOR 14 HOURS. ‘ke RECEPTOR NUM BE R X * k 1. 2s 3. 4. ae oe SOURCE PARTIAL CONCENTRATIONS (G/MkXk3) i. 2+647E-0CB S+444E-07 1,6187E-06 1.6572E-06 1,.4694E~-06 1.706E-06 2 2,014E-11 2,956E-08 2,032E-07 4,.443E-07 6.260E-07 7.499E-07 TOTAL CONCENTRATION (G/NKXK3) 2+ 649E-08 S.739E-07 1,.390E-06 2,016E-06 2.320E-06 2,455E-06 **k *e RECEPTOR NUMBER * kk 12. 13. 14. 15. 16. 17. SOURCE FARTIAL CONCENTRATIONS (G/MKH3) 1. 1,258E-06 1,184E-06 1,117E-06 1,05SE-06 9,986E-07 9,.465E-07 2. 8.369E-07 8,121E-07 7.858E-07 7,590E-07 7,323E-07 7.043E-07 TOTAL CONCENTRATION (G/MKK3) oleae 2.O094E-06 1,.996E-96 1,903E-06 1,.814E-06 1, 731E~-06 1,655E-06 JG Areroximate session cost is $2.10 ZDELETE-W-FILNOTDEL, error deleting DRCS!CMKENVIES .FOS33T400Ik ERRsK mS-E-FNFy file mot found “ZPURGE-I-NOFILFURGs mo files HKENVIIES logged out at eurdsed for DRCSiCMKENVIES .FOSSSTAOOIK. KG 26-OCT-1982 09311:329,.58 1.6460E-06 8.247E-07 2+.485E-06 i8. 8.987E-07 6.809E-07 1.580E-06 8B. 1.S588E-06 8.4637E-07 19. 8.S46E-07 6.566E-07 1,S11E-06 10, 1.,506E-06 1,.421E-06 8.780E-67 8,759E-07 1.337E-%6 6 Sa7E~-O7 2+384E-06 2.297E-06 8.140E-07 6.332E-07 1.447E-06