Text

Effluent & Waste Disposal Semiannual Rept,First Half 1986
	ML20214V680
Person / Time
Site:	Beaver Valley
Issue date:	06/30/1985
From:	; DUQUESNE LIGHT CO.
To:	;
Shared Package
ML20214V660	List: ML20214V658; ML20214V680;
References
	NUDOCS 8612090782
	Download: ML20214V680 (68)
	v • d • e

{{#Wiki_filter:. EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT + - Supplemantal Information 1st Half - 1985 Fecility B.V.P.S. Unit No. 1 Licensee n.i m..n. t<ghe en.nomy 1. Regulatory Limits a. Fission and activation gases: b. Iodines: c. Particulates, half-lives >8 days: - Technical Specifications, Article 3/4.11 d. Liquid effluents: 2. Maximum Permissible Concentrations Provide the NPC's used in determining allowable release rates or concentrations. a. Fission and activation gases: b. Iodines: c. Particulates, half-lives >8 days: - 10 CFR 20, Appendix B, Table II d. Liquid effluents: 3. Average Energy Provide the average energy (E) of the radionuclide mixture in releases of fission and activation gases, if applicable. NOT APPLICABLE 4. Mcasurements and Approximations of Total Radioactivity Provide the methods used to measure or approximate the total radioactivity in effluents and the methods used to determine radionuclide composition, s. Fission and activation gases: Ge Li Gamma Spectrometry, Liquid Scintilation Counter b. Jodines: Ge Li Gamma Spectrometry c. Particulates: Ce Li Gamma Spectrometry Low Background Proportional Counter d. Liquid effluents: Ce Li camma Spectrometry, Liquid Scintilation Counter 5. Batch Releases Provide the following information relating to batch releases of radioactive materials in liquid and gaseous effluents. a. __ Liau id let Quarter 2nd Quarter 1. Number of batch releases: 11 24 2. Total time period for batch releases: 7.417 minutes 5.662 minutes 3. Maximum time period for a batch release: 1.200 minutes 1.039 minutes 4. Average time period for batch releases: 674 minutes 236 minuten 5. Minimum time period for a batch release 60 minuten 5 minutes 6. Ave rage river flow during periods of releases 60.900 cu. ftlaec 39.600 cu f t/ nee b. Cameous 1. Number of batch releases: 6 in 2. Total time period for batch releases: 4.883 minutes 12.973 minutes 3. Maximum time period for a batch release: 1.528 minutes 1.223 minutes 4. Average time period for batch releases: 814 minutes 811 minutes 5. Minimum time period for a batch release 51 minne.. 40 minnean 8612090702 850022 6. Abnormal Releases PDR ADOCK 05000334 R PDR a. Liquid 1. Number of releases NONE 2 2. Total activity released : 1.57E-4 ci b. Caseous 1. Number of releases: 1 1 2. Total activity released : 2.27t-1 2.26E-2

TA3LE 1A ist HALF - 1985 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT GASEOUS EFFLUENTS - SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total Error. % A. Fission & activation gases Ier 9nA 1. Total release C1 4.21E+0 3.19E+1 2.65E+1 l 2. Average release rate for period UC1/sec 5.34E-1 4.05E+0 3. Percent of technical specification limit N/A N/A B. Iodines 1. Total iodine-131 Ci 2.45E-5 8.78E-5 2.83E+1 I 2. Average release rate for period UCi/sec 3.11E-6 1.11E-5 __ 3. Percent of technical specification limit X o_anr-1 1 sir-9 L. Particulates 1. Particulates with half-lives > 8 days Ci 7.40E-4 2.82E-4 3.00E+1 l 2. Average release rate for period UC1/sec 9,39E-5 3.58E-5 3. Percent of technical specification limit I N/A N/A 4. Gross alpha radioactivity Ci s n1r-6 7 aAr-6 D. Tritium 1. Total release C1 4.96t+0 4.71E+0 3.29E+1 I 2. Average release rate for period yC1/sec 6.94r-1 5.98E-1 3. Percent of technical specification limit M/A N/A N/A = NOT APPLICABLE The amount of time (in seconds) used to calculate the release rates specified in A.2, B.2, C.2, and D.2 is the average amount of seconds per calendar quarter (7.88E + 6 seconds). B.3 is based.on a nominal limit of 0.25 Ci/ quarter (10 CFR 50 Appendix I, RM-50-2, C.2 limits this value to 1 Ci/ year).

l' TABLE IB lst HALF - 1985 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT' GASEOUS EFFLUENTS - ELEVATED RELEASE CONTINUOUS MODE BATCH MODE Nuclides Released Unit Quarter Quarter Quarter Quarter 1. Fission gases 1st 2nd 1st 2nd krypton-85 C1 T.T.n LLD 3.27E-3 5.98E-4 krypton-85m Ci T.T n LLD LLD 7.79E-3 !crypton-8 7 Ci LLD LLD LLD LLD Krypton-88 Ci T.T.n LLD LLD 2.60E-3 xenon-133 C1 6.1HF-1 1.74E+0 T.T.n s.39E-4 xenon-133m Ci T.T.n T.T.n T.T n T.T.n xenon-135 C1 1.12E-1 2.37E-1 LLD LLD xenon-135m Ci LLD LLD LLD LLD renon-138 C1 T.T.n T T.n T.T.n LLD arcon-41 Ci T.T.n LLD LLD 1.91E-3 Ci unidentified Ci NONE NONE NONE NONE Total for period Ci 7.30E-1 1.48E+0 3.27E-3 1.37E-2 2. Iodines iodine-131 Ci 5.04E-8 2.00E-7 LLD 4.07E-5 iodine-133 Ci T.T n T.T n LLD LLD iodine-135 C1 T.T.n T.T n T.T n TTn Total for period Ci s.04R-R 7.00E-7 4.07F-5 r. 3. Pa rticulates manganese-54 Ci T T.n LLD LLD 1.71E-4 iron-s9 Ci i T.n LLD LLD LLD l cobalt-58 Ci T.T.n LLD LLD LLD cobalt-60 Ci 9.44E-6 LLD LLD 9.55E-7 zine-65 C1 T.T.n LLD LLD LLD Estrontium-89 C1 1.T.D 2.03E-7 LLD LLD strontium-90 Ci 7.07F-7 3.96E-7 LLD LLD molybdenum-99 Ci i T.n LLD LLD LLD

i cesium-134 Ci T.tn LLD LLD LLD cesium-137 Ci LLD LLD LLD LLD cerium-141 Ci LLD LLD LLD LLD cerium-144 Ci T.T.n LLD LLD LLD C1 Ci Total for period Ci 9.64E-6 5.99E-7 1.72E-4 LLD = Below the lower limit of detectability, in pCi/cc (Table 4).

TABLE 1C 1st HALF - 1985 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT GASE0US EFFLUENTS - GROUND-LEVEL RELEASES CONTINUOUS MODE BATCH MODE Nuclides Released Unit Quarter Quarter Quarter Quarter ~ 1. Fission gases 1st 2nd 1st 2nd krypton-85 C1 5.25E-2 1.57E-1 LLD LLD krypton-85m Ci LLD LLD LLD LLD krypt on-8 7 C1 LLp LLO LLp LLp kryp ton-88 Ci T.T.n T.T.n T.T.n T T.n xenon-133 C1 3.20E+0 6.00E+0 2.27E--1 1.51E+0 xenon-133m Ci LLD LLD LLD 1.22E-2 xenon-135 Ci LLD LLD LLD LLD xenon-135m Ci LLD LLD LLD LLD xenon-138 Ci LLD T.T n LLD LLD xenon-131m Ci LLD 2.27E+1 LLD LLD Ci unidentified C1 NONE NONE NONE NONE Total for period C1 3.25E+0 2.89E+1 2.27E-1 1.52E+0 2. Iodines iodine-131 C1 2.44E-5 4.62E-5 T.i n 6.87E-7 iodine-133 Ci LLD LLD LLD LLD iodine-135 Ci LLD LLD LLD LLD Total for period C1 2.44E-5 4.62E-5 6.87E-7 3. Particulates manganese-54 Ci T.T.n T.T.n LLD T.T.n iron-59 Ci LLD LLD LLD LLD cobalt-58 C1 2.02E-4 6.25E-5 LLD 4.30E-7 cobalt-60 C1 4.47E-5 2.92E-5 LLD LLn zine-65 Ci T.T.n LLD T.T n T.T.n strontium-89 Ci T.T.n 4.71E-6 T.T n i.T.n strontium-90 C1 A 71v-A a 17v-6 rtn t.t n molybdenum-99 Ci t.T n v.T.n t.r.n T.T.n cesium-134 C1 1.31E-6 LLD LLD LLD cesium-137 Ci 9.42E-6 3.94E-6 LLD LLD cerium-141 Ci LLD LLD LLD LLD cerium-144 Ci LLD LLD LLD LLD niobium-95 Ci 1.08E-6 LLD LLD LLD Ci Total for period Ci 7.10E-4 1.09E-4 4.30E-7 LLD = Below the lower limit of detectability, in pCi/cc (Table 4). The batch columns of this table include the activity determinations of the 2 Abnormal Releases indicated on the Supplemental Information Page.

t TABLE 2A i ist HALF - 1985 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT LIQUID EFFLUENTS - SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total Error, % 4 Fission & activation products 1st 2nd 1. Total release (not including tritium, _Ci gases, alpha) 7.73E-2 1.89E-2 2.60E+1 2. Average diluted concentration j durina period uC1/ml 1.87E-7 5.08E-8 3. Percent of applicable limit 6.18E+0 1.51E+0 i B. Tritium 1. Total release C1 3.68E+1 7.42E+1 2.50E+1 I 2. Average diluted concentration during period WC1/ml 8.91E-5 1.99E-4 [- 3. Percent of applicable limit 2.97E+0 6.63E+0 C. -Dissolved and entrained gases 1. Total release Ci 6.83E-4 2.7Ar-4 ' 2.70E+1 l 2. Average diluted concentration during period WCi/ml 1.65E-9 6.13E-10 3. Percent of applicable limit I 8.25E-4 3.07E-4 l D. Cross alpha radioactivity I 1. Total release C1 3.77E-4 1.58E-7 2.89E+1 E. Volume of waste released (prior to dilution) liters 7.53E5 6.85E5 1.12E+1 F. Volume of dilution water used during period liters 4.13E8 3.71E8 2.29E+1 LLD = Below the lower limit of detectability, in pCi/cc (Table 4). A.3 is based on a nominal limit of 1.25 Ci/ quarter (10 CFR 50 Appendix I, itM-50-2, A.2 limits this value to 5 Ci/ year). B.3 is based on a limit of 3.00E-3 pCi/ml. C.3 is based on a limit of 2.00E-4 pCi/ml. The values listed at F. are merely the volumes during the actual liquid waste discharge periods. The total dilution volume for a continuous calendar quarter is = 7.48E9 liters.

TABLE 2B 1st HALF - 1985 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT LIQUID EFFLUENTS CONTINUOUS MODE BATCH HODE Nuclides Released Unit Quarter Quarter Quarter Quarter 1st 2nd 1st 2nd s tront ium-89 Ci N/A N/A 3.31E-5 7.03E-6 strontium-90 Ci LLD 1.45E-6 ce s ium-134 C1 2.37E-3 7.16E-4 cesium-137 C1 A R1F-1 1_76F-1 iodine-131 C1 LLD LLD ??balt-57 Ci 5.08E-5 2.57E-6 cobalt-58 C1 1 sny-? ?_14v-1 cobalt-60 C1 4.17E-2 6.78E-3 iron-59 Ci Etn LLD zinc-65 C1 ? niv-4 ttn manganese-54 Ci s 79r-4 4.01r-5 chromium-51 C1 1.44E-3 7.90E-5 iron-55 Ci 4.30E-3 3.97E-3 F zirconium-niobium-95 C1 1.31E-3 1.36E-4 molybdenue-99 Ci LLD LLD technetium-99M Ci LLD LLD barium-lanthanum-140 Ci LLD LLD cerium-141 C1 f LLD LLD sodium-24 C1 1_?SE-6 4.64E-6 strontium-92 C1 2.10E-4 LLD ninbium-97 C1 4.91E-5 LLD silver-110m Ci s_7sP-5 1_?nF-6 antimony-124 C1 1.30E-3 7.72E-4 antimony-125 C1 3.83E-3 2.49E-3 unidentified Ci f NONE NONE l Total for period (above) l Ci l k l k l 7.73E-2 l 1.89E-2 l xenon-133 C1 2.62E-4 8.06E-5 xenon-135 Ci LLD LLD krypton-85 Ci 4.21E-4 1.47E-4 Ci Ci Ci Ci f f LLD = Below the lower limit of detectability, in pCi/cc (Table 4). N/A = NOT APPLICABLE (liquids not discharged in a continuous mode). The 2nd quarter batch column of this table include the activity determinations of the 2 Abnormal Releas es indicated on the Supplemental Information Page.

TABLE 3 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT SOLID WASTE AND IRRADIATED FUEL SHIPMENTS 1st HALF - 1985 1 A. SOLID WASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Not irradiated fuel) 1 TYPE OF WASTE l ) Spent resins Dry conpressible waste Irradiated Cauponents filter sludges contaminated equipnent control rods Est. Tota I avannratne bottm t e tc. e tc. Error. 1 3 Container Volunefm ) 2.44Et1 9.11E+1 NONE l 3.0E+1 Total Activity (C1) 5.89E+1 3.09E+0 NONE 3.0Et1 l H-3

6. isrd 6 9?F-1 C-14 7.25E-2 P-32 6.20E-3 1.01E+0 Mn-54 1,68E+0 9.82E-2 fe-bb 1.65E+1 6.Q$E+1 Lo-bl 1.50E-1 4,48E-3 Co-58 1,71E+1 s,g4g-l g

Co-60 1.06r+1 1.90E+1 N1-59 2.56E-1 j i g Ni-63 1.18E+1 1.39E+1 r U In-bb 3.67E-1 l Sr-89 3.40E-2 R Sr-90 5.22E-2 1.66E-1 l g Nb-94 3.44E-5 u Mb-95 4,65E-1 y Ir-9b 6.1sF-1 7 76F-? fc-99 5,49E-4 9.68E-3 g Ag-110m 2.01E-1 3.28E-1 g Sb-124 5.61E-2 q Sb-125 5.71E-2 3.74E-1 g I-129 3.95E-4 2.36E-2 I-1 31 1 Cs-134 4.39E+0 6.94E-1 E US*I37 .8.82E+0 1,47E+0 .5 Ce-144/Pr-144 4.47E-2 1.78E-2 E. NP-23//Pu-242 Q.llE-6 3.60E-4 Pu-238 4,097-4 3,28E-3 Pu-239/240 6,03F-4 },95E-3 Pu-241 2.65E-2 8.32E-3 An-241 1.03E-4 1,19E-3 On-242 9.36E-4 6.30E-4 i i %b ($A 6 5 5 TYPE A 1 NONE 13 TYPE B NONE NONE l Aj TARTVGANTITT-- NONE NONE g OC NONE l t 4u CENENT 5 NONE Si

E UREA F6RMALDEHYDE NONE NONE S.T NON$

u. 7 5 [ OTHER sqvy E "' w E TRUCK 7 5 E h2 RAIL huht. NONE QTHER NnNF NONF .5 8 Barnwell, SC 7 5 E N E

See next page for continuation of Principal Radionuclides Total No. of Shipnents 12 B.

IRRADIATED FUEL SHIPMENTS - NONE

TABLE 3 - CONTINUED 1st HALF - 1985 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT SOLID AND IRRADIATED FUEL SHIPMENTS Spent resins filter sludges 4 Evaporator bottoms NUCLIDE (%) Cr-51 2.98E-1 Fe-59 1.02E-2 Ru-103 1.12E,2 Sn-113 2.14E-2 Ba-140 6.74E-4 Ce-141 1.13E-3 4 1 i e .__,,-..____.-_y,.,_.___m_ -. ~ _ -.,_

TABLE 4 1st HALF - 1985 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT LOWER LIMITS OF DETECTABILITY uCi/cc NUCLIDE GAS LIQUID H-3 1.00 E-6 1.00 E-6 Na-24 2.06 E-8 Ar-41 5.41 E-8 Cr-51 2.50 E-7 1.48 E-7 Mn-54 1.18 E-8 1.39 E-8 Fe-55

5.00 E-7 Fe-59 4.70 E-8 4.62 E-8 Co-57 2.00 E-8 2.00 E-8 Co-58 4.40 E-8 4.40 E-8 Co-60 4.35 E-8 1.83 E-8 Zn-65 6.50 E-8 8.50 E-8 Kr-85 1.06 E-5 3.75 E-7 Kr-85m 6.67 E-9 Kr-87 2.01 E-8 Kr-88 1.73 E-8 Sr-89 1.00 E-6 1.30 E-9 Sr-90 6.20 E-6 3.10 E-9 Sr-92 1.17 E-7 Nb-95 3.92 E-8 Nb-97 3.00 E-9 Zr-95 3.92 E-8 Mo-99 2.10 E-8 1.45 E-8 Tc-99m 7.36 E-9 Ag-110m 6.18 E-8 1.00 E-8 Sb-124 5.00 E-9 Sb-125 I-131 9.60 E-7 1.76 E-8 I-133 2.17 E-6 I-135 1.16 E-5 Xe-131m 1.59 E-8 7.70 E-8 Xe-133 4.15 E-8 5.44 E-8 l

Xe-133m 9.98 E-8 1.00 E-8 Xe-135 9.96 E-9 1.56 E-8 i Xe-135m 1.58 E-8 Xe-137 7.90 E-8 Xe-138 4.10 E-8 l Cs-134 1.29 E-8 1.70 E-8 Cs-137 1.12 E-8 1.43 E-8 Ba-139 7.70 E-8 Ba-140 2.02 E-8 6.60 E-8 2.07 E-8 2.38 E-8 La-140 3 1 Ce-141 4.5Q E-8 8.56 E-8 Ce-144 5.43. E-8 Cross Alpha 4.90 E-8 7.10 E-10 All LLDs listed above meet the minimum requirements listed in Tables 4.11-1 and 4.11-2 of the Technical Specifications. All sample analyses use a minimum one hour count time.

Sample analyses performed by a contractor laboratory.
- The values listed in this column are for grab samples. Appropriate values in this column change to smaller values when continuous samples are involved.

, _. ~ ~ TABLE 5 lot HALF - 1985 ASSESSMENT OF RADIATION DOSES Liquid Effluents (Batch) ist Quarter 2nd Quarter % of % of l Dose Tech. Spec. Dose Tech. Spec. Limit Limit BONE 0.2540 5.07 0.1100 2.20 LIVER 0.4190 8.38 0.1770 3.54 kh TOTAL BODY 0.3030 20.20 0.1270 8.47 THYROID 0.0006 0.01 0.0019 0.04 o KIDNEY 0.1400 2.80 0.0648 1.30 LUNG 0.0470 0.94 0.0218 0.44 GI-LLI 0.2260 4.52 0.0322 0.64 Gaseous Effluents (Batch and Continuous) i 1st Quarter 2nd Quarter. % of % of Dose Tech. Spec. Dose Tech. Spec. Limit Limit BETA AIR (2) 1.87E-3 0.0374 1.24E-2 0.248 GAMMA AIR (2) 3.21E-2 0.3210 1.90E-2 0.190 ? l BONE 3.82E-7 0.00001 4.63E-6 0.0001 LIVER 2.23E-3 0.0297 2.12E-3 0.0283 E? TOTAL BODY 2.23E-3 0.0297 2.12E-3 0.0283 p g THYROID 2.23E-3 0.0297 2.17E-3 0.0289 h KIDNEY 2.23E-3 0.0297 2.12E-3 0.0283 l LUNG 2.23E-3 0.0297 2.12E-3 -0.0283 GI-LLI 2.23E-3 0.0297 2.12E-3 0.0283 4 (1) These doses are listed in mrem they are calculated for the maximum individual for all batch liquid effluents. l (2) These doses are listed in mrad, they are calculated at the site l boundary for all batch and continuous gaseous effluents (0.4 miles NW). I i (3) These doses are listed in mrem, they are calculated for the likely most exposed real individual (child) via all real pathways at 1.1 miles NW. Limits used for calculation of % are from Section 3/4.11, Article 3.11.1.2, 3.11.2.1, 3.11.2.2, and 3.11.2.3 of the Technical Specifications.

1 TABLE 6 l let HALF - 1985 TECHNICAL SPECIFICATION EFFLUENT MONITORING INSTRUMENTATION CHANNELS NOT RETURNED TO OPERABLE STATUS WITHIN 30 DAYS (RM-GW-101) - Waste Gas Decay Tanks Radiation Monitor This monitor has been modified to^ eliminate the presence of water in the sample lines. Also, the original sample pump design specified air cooling. A replacement pump of this type could not be located, there-fore, a water cooled pump was purchased. Design Change Package No. 653 4 was subsequently issued to supply cooling lines to the pump. Further discussion with the vendor revealed that the pump could be operated (without water cooling) as long as the sample is returned to the tank from which it was drawn. All maintenance work was completed on this monitor, and a new flow indicator (rotameter) as received from a vendor, was installed. A calibration of this monitor was attempted,in May, but could not be accomplished due to several technical difficulties with the monitors operability. At present, our Nuclear Engineering Group is investigating these technical difficulties. (RM-DA-100) - Auxiliary Feed Pump Bay Drain Monitor 2 The design of this monitor, as installed by Design Change Package No. 268 does not meet the Channel Functional Test requirements of Technical Specification Table 4.3-12. The design does not permit automatic isolation of the Auxiliary Feed Pump drains for the following two conditions: l 1. Downscale failure. 2. Instrument controls are not set in operate mode. Technical Specification Change Request No. 99 has been prepared in i response to this. This change delineates Control Room Alarm Annunciation only for the above two conditions. At present,'this change (Ammendment 91 to the Technical Specifications) was implemented on February 22, 1985, thus permitting the monitor to be declared operable. k l t ,--.-,.n .---.--------------..-,,..-,n, , -, - - - ~ - ~ ~, - - - - --

t s, / Beaver Valley Joint Frequency Distribution Tables .For Continuous Release Delta T (150ft-35ft) and 35-Ft Wind and Delta T (500ft-35ft,4 and 500-Ft Wind January 1, 1985 - March 31, 1985 i. (-. L 1 { I I

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en N ere rh ew 6C C 3 8 3 6 es 0 ps - l e'* s N O 3 O ** O O O el ee 3 @OeOQ08e M M ee N d og O e.e e M > to 4m E so P=

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M M M M W W 4 at 9 E t-3 et W e o O O O Cl e9 .J at W se C O O O of Im K U M O U M O O >= 4 M M e M ce 3 tr eg EF >= 3 3

== ci >w n =J 2 .J Z M W LJ @ O O O O ci c t.J W @ e O O O OlO E O W 2 M e le CD W 2 M f* IE >= 4 4 il 4 6 em ' l e= se e= M O 2 M O 2 e O e C e f e" 8e e Pi t= W e O O O c Ol e M") e W D e O O O DI P e e U M N IN U M tD $4 e td e.e

n. t I

a.t e.e i n ne g en m an e et 2 e= 2 e.* 8 W 4 0 4 C 1 M .2 W W O O W r O D O O OO O O e W N d o o O CI O l U CC e 2 ee l en e 2 4 ee O at O at M f f n we ei D"1 P W taJ it imJ M 3 e 2 W 2 W 2 W L W mOOOOOle W L W e e e O O Ol e. .J ee W si 2 W e s.* ee M es n= en 3 W 3 hj w >= 2 t. O >= O 2 O M W 2 LJ 2 tt

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== 9e

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l es

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NUS C3R PORA T I O1 - ENVIRONMENT AL SER VICE S * * *
THU, MAT 02 1985 PAGE

.6 e e* TIME OF DAY: '14:27:38 PRM94M JF0 VERSION: SP HE A*f r:t VALLEY JFD - Gt0'J43 LEVEL CON T INUQUS RELEAIE S t TI IDENTIFIER: 3LBVS f)Af4 /E3IDO En AMINED: 1/ 1/35 - 3/31/85 'IRST QUARTER'1985 *** Sirl!LI T T H ASE D 01: OrLTA 1 BETWEEN 150.0 AN1 35.0 FEE T WIN) MEASURE) AT: 35.0 FE C T JIN) T H R F SH OL D AT : 0. 7 5 MP H TO TAL N UM HE R OF 03 SERV AT !0NS: 2160 TOTAL N UM BE R OF VtLID OBSERV AT IONS: 2021 i)TAL NUW R 3 F MI S SIN G OilSE RV A i!ONS: 139 PER E14 T DAT A REC 0JERY FOR THIS PERIO9: 91.6 % M E A1 WIND SPEED F1R THIS PERIOD: 5.3 MPH i f) T A L N UM BE R OF 01 SERV AT IONS WITH BACKUP 04TA: 0 4 PERCEN TAGE 1CCU9RE1CE Oc STA91LTTY CLASSES A B C D E F G 6.33 1.99 5.61 52 10 20.9% 6.98 R.5 6 DISTRIHUTION 3 F WIN 3 DIRECTION VS STABILITY f4 NM E NE ENE E ESE SE SSE .S SSW SW WSW W W1W NW N1W CALM A 7 10 I? 15 2 4 3 2 1 4 '15 4 20 24 2 3 0 H 3 3 1 1 1 0 0 0 2 1 3 5 6 6 5 -1 0 C 2 1 3 1 1 1 2 1 2 4 10 7-16 11 8 3 0 0 SF 33 36 67 18 8 3 11 22 39 198 119 165 113 119 55 .0 E 13 11 25 44 25 11 7 6 15 43. 72 48 28 32 16 14 3 F 1 2 2 6 16 21 20 36 20 6 5 1 2 1 1 1 0 G 0 3 2 3 15 24 45 53 23 2 1 1 2. 0 1 0 0 total F3 53 R1 137 78 69 60 109 85 99-304 185 239 .187 : 152 77 3

- O. 1*

e~ e n e= y e g r~ e e en ee @

a . pt - I wt i s 08 ' 8 Of I wt e e=1 e i 8 3 ; o o o o o clo 3 o o o o o ol o - 2 2 1 2 2 o e o o o o8 e 3 o e o o o cl o

e i

2 2 i N 3 o o e o c clo 3 e o o c3 o ol's 2 1 2 3 l' 3 8 4 0 0 W 3 o o o o o C4 84 3 o o o o o el o .o 4 4 8 3 o o o o o Glo 3 o G O o o clo em to 4 to 0 - E. 3 3 l D IP i l M 1 1 No 3 o o o o o olo 3 o o o o o of o M M wn 4@ E se M en n 3 *e 3 oooooe o 3 ooocoo o >c e M M Ze M M e W W e W W 6 6 >w at a to o o e o o clo e o e o o o o o cl o - o cc o o e e e E e.e o o .O M o e o E M M W W 4 t= d E e= .J ag W e o o o o clo .J q W o o e o o clo M E . O M u th at M e M M 3 'M' af E 3 $= 3 O e=.e e c o .J 2 .J I M =* W W oooooe o

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) ouoo ]

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e- *= in o I oeh Nt T L1 C ti 3 3 9 1 wM M33 7 I ww

+ T 4 1 i71 1 12T Ii 1 ~ 02_1 285G2 S_5 3031 A 0 T 1452 Q Q-- __1 [ [ W 0000020 W 1871027 N N 151 8 N N J 0030020 J 04 52425 N N 143 9 3 W 00000E0 W 2263425 15951_2 N N 3 W W E W 0000010 W 33540L6 1 3 9 6 1_5 G _2 A P 0 0 0 0 0 2_0 1 R 5 6 31_9 W 6 W S 335 5 S W W 1 __1 8 9 1 2 V 4565033 000002_0 0 W S 416 3 S Y3 1 2 A5 M: 5 ,3 U: W 0000020 W 0102611 H4 S S 23 6 T1 T S T S E E E E F F Y D 0 S 0191324 0 0 0 0 0 2_0 A 5 C 0 S 1 2 0 0 D R 9 F 1 0 0 O S 0 S 0 R S 5 S 5 E E A T A T M T L A E 0000020 L A E 0363325 I R C S C S 1 - T A S S S S U Y R Y R G T U i U I 3 i 3 T L T H L T H S I E E 0000020 I E E 3026223 R B E N S B E N S 2 3 I A F I = A F I T T T N S N 0 0 S O O 5 I 1 I 126922_0 3 T E 0002022 3 T E C S = C S E E E E - 2 4 ) 4 ) t N I N I A D A D S E D E 0000020 D E 2569023 1 0 E S N N 231 8 C A i E 0 A 0 A v L 0 0 R E 5 ) 5 ) E R 5 E E S 8 N E N E S / E P E 0020022 E P E 2140021 L U 1 E S N E S N 121 4 A Q 1 W E W E T U / T D T D N N 3 E N E N l I E I H I l W W, M T N N E 0031024 E 2603021 O O F N F N 1 2 R C 5 T O T O I R EH EH V P D / EP N EP N N S E 1 TFM O TFM O I E T I A 0.1 3 0 3 1 0 2_3 5 T E 7 5 T E 0010001 A 0. 7 A / T U N 1 11 T U N N V 1 O E L0. B N L0. B N E00 I 1 I L2 E00 I O S EV* D5 R D5 R T D T I R l T E - iLE S S 702_7 2 t V 3N 1TT t 1 001 131 2 1TT I 1 39 1 R D I 0AA O 0AA D 15 O F: M P JRA D Y D Y t Ex E)D C EOD C a YIE SEL N SEL N r ARO E C D EF ARO E UH U 00000 HUH U 00100 F LID l SS Q S J LTO f SS G 5 5 5 5 9. Q 555502 YAE E U ANI YAE E N VER TEt R 01 372342L T C t. R Dl 3T 2840L f MH F C. d M 1 12 :A M DE I MH F Cd9 1 12 2A I dL - - - - - 1T L T 4 RI P L T

2L-

- - - - 1T I T A3A5l t 1 1 2O 1 I I T a3461 1 1 1 2J S 1_ ; 7. i. S. i 5 1_ T G /E4 t )T 1 S( C T. 5535

4) )

1 1_ T AN4 l 1 O A' TT ANN 1 R E1 4 TI I 0 03 7 21 TI1 0 0

l. 7 2 t'

5 iWJ J 11 P l 10 SWW J 11

9-NUS CO M PO RAT I ON - ENV IR ONMENT AL SER VI CE S * * *

THU, M AY 02 1785 PAGE 4
- - +

TIME OF DAY: 14:35: 53 'ROGRAM: JFD W E R SI ON : SP 3E AV ER VALLEY JF0 - ELEV ATED CONTI NU0US RELE ASE - S I TE I DEN TIFI E R: 3LDV2 DAIA PERIOD EX AMIMED: 1/ 1/RS - 3/31/85 +++ "IRST GUARTER 1985 *** ST ABILI TY CL ASS E S T AB IL I T Y H ASE 0 04 : DILTA T RET WEEN 500.0 AN) 35.0 FEET WINT MEASURE 9 AT : S10.0 FE ET WIN) THitESHOLD AT: 0.T5 MPH J O IN T F?tE';UENC Y DI STRI BU TION OF"MI ND SPEE) AN3 DitECTION IN H3URS A T50 0.00 FEET S PC EO ___{1DH) 1 NNE NE ENE E. ESE SE SSE S SSW SW WSW W WNW NJ NNW [q[A6 C AL M 1 0 74-3.50 1 0 3 5 4 7 1 3 2 2 8 1 0 2 3 1 41 3.51-1.50 1 4 5 9 6 5 7 6 6 2 6 3 4 4 4 '2 74 f.St-12 53 3 1 2 7 19 10 2 5 7 14 13 6 12 5 5 3 1 14 12 51-11.50 1 1 0 5 8 2 2 3 5 9 28-5 17 2 2' O 9) 18.51-24.00 0 0 0 0 4 0 0 0 1 2 P 1 1 0 0 0 if 0 g 2 n__ q g _____1 1 __ q q g __ _ __i ___121.22__ _____1 2 2 _a _____g _24 12 IT 21 29 63 19 35 13 14 6 3 42 TOTAL 5 6 10 26 41 ST AHILITY CL ASS F S T A31L I T Y H A P.E D 01 : DELTA T HETWEEN 500.0 AN)

31. 0 F E E T W I N1 MEASURED AT : 50 0.0 FEET WIN) T HitC SH OLD AT:

0.75 MPH J O IN T FHCOUEN: V DI ST RI BU TI ON OF WI ND SPEEJ AND DIRECTION IN H3URS AT500.00 FEET SPlEO ( *j CB ) 4 NNE NE ENE E ESE SE SSE S SSW SW WSW W WP:W NJ NNW [Ql AL CALM 0.71-3.50 1 1 0 4 7 2 5 2 2 3 2 6 12 1 1 1 ' 51 1.31-T.50 3 2 0 0 3 1 6 3 8 2 1 5 4 2 0 0 31 f.St-12 50 3 0 0 6 2 3 0 0 6 5 8 6 7 5 0 0 44 12.51-19.50 3 0 0 0 0 0 0 2 4 3 16 1 6 0 3 0 31 14.11-24.00 0 0 0 0 0 0 0 0 0 0-0 0 0 0 0 0 1 121232__ _-_ 1= D E E 1 2 ___t. E 2 R -Q _____E 1 _____E _a E _____1 T 3T AL 1 3 0 10 12 4 11 7 20 13 27 18 29 8 1 -1 16T

, ~.i L 1 T '0 ) 24 1)

915;51 2,3 1 0 4 0 4 6_0 4

A 6 3-11 1-- I' 13672 1 _2 g-7 [ [ W 00000g0 W^ 30010E4 N N 261 9 N N J 00000g0 J 480440 0 N N 153 1 1 5 d 00000g0 W 58654S6 v N 1 695I5 v W 2 L0 E W 00000g0 W 51 471 12516I0 G 1 - 3 A P R 6 7 2 4 6_3' W G0000g0 W _2 3 S S 1 41 3 8 E W 1 _2 3 1 2 4 2 8 3 8 3_2 8 0 W 00140g5 W 11666 S S __3 1 Y3 A5 M. 5 ,3 U: W 01190n 1 W 56038E4 P4 S 1 2 S 55 2 T1 T S T S 1 E E E E F F Y L A 5 G 0 S 01400E5 L 0 S 46604R0 A 122 7 0 0 D 8 9 F 1 0 0 O S 0 S 0 R S 5 S 5 E E A T A T 5 218 3 a_3 M T L A E 00000i0 L A E 9 I R C S C S 11 T A S S S S U Y R Y R Q T U T U I O I 3 T L T H L T H 9 6 4 8 2 a_5 S I E E 03000E3 I E E 9 R B E N S B F N S 3 I A F I A F I T T N S N 0 0 S O O 5 I 5 I 3 T E 04932a2 00000E_0 3 T E C S 121 1 7 C S E E E E 3 t ) I N t N I A O A D S E D E 00000E0 J E 3377926 1 0 E S N N 1352 - 3 C A I E 0 A 0 A - 1 V L 0 0 R E 5 ) 5 1 E R 5 E E S 9 N E N E 0060aT S / E P E 00000E0 E P E 1 L U 1 E S N E S N 1241 S A O 5 W E W E T U / T D T D N N 3 E N E N E I I B I W M. M T E 00000E0 E 518402A N N O O F N F N 11 3 R C S T O T f O I R EH Et V P D / EP N EP N N S E 1 T FM O TFM O E T I I 5 T E 46520S7 5 T E 00000S0 A 0. 7 A 0. 7 A / T U N 1 11 4 T 1 N N V 1 O E L0. m N L0. R N L2 E 00 i ~ 33 I 1 I O S EV: D5 R D5 R R HD T T i E - LE S S V 31 1TT I 1 0303010 1TT I M 2ii9311 R D I 0AA C 0AA D lS 8 O F: M P JRA 0 Y D Y R Ex EDD C E9D O YI E 0EL N GEL N C D EF 4RO E ARO E UH U 30300 F LI D 9UH 0 10J00 l SS O l 555502 555501 3 J LTO SS 0 YAE E U ANI YAE E I E9 H Dl 3T 291 3L TE9 9 0) 3T 2942L N VE9 M DC L HH F EdM 1 12 A I MH F E_H M 1 12 2A ' L - - - - - 1T A 1I P L T t2L - - - - - 1T L T "P M A '. 1 1 1 t2O T E F PU% ".1 1 1 1 2O I T G JEn ' 4) 1 C 7 5 5 5. i. > 3 L_C 7 5 5 5 5 1_T ) ) 1 S( I T l ANN I C AT i ANN R EI A TII 0 35 T 29 _ TI I O 05 7 ?9 P BSD SWJ J 11 JWJ J !1

e a n .x ~

s. - -

e "': .n. NUS COR PORA TI O1 - ENV IRONMEN T AL SER VI CE S + * *

THU, M AY 02 1985 PAGE 6

TIME OF DAY: 14:35: 53 - PROG R AM : JFD W ER SI ON : SP 1 . g HE Ad E't VALLEY JFD - EL EV AT ED CON TI NUOUS RELE ASE S I TC I CEN TI:I E R: ) LG V? Daft PERIOD EW AMI1ED : 1/ 1/35 - 3/31/R5 'IRST QUARTER 1985 *** S T A31L I TY H ASE D 01' DELT A T RETWEEN 500.0 AN) 35.0. FEE T i WIN) MEASURE) AT : 500 0 FEET W I V) IHRESHOLD AT : 0 15 MPH 10T4L rJ UM BE R O F 05 SERV AT IONS : 2160 1 TOTLL NLM0ER G F VtLID OB SERV AT IONS: 2064 T OTA L NUMBE R 3 F MI S S IN G OBSE RV ATIONS

16 l

P ER! ** J i D A T A R ECOVER Y FOR THIS PERIOD: 95.6 % M E AM JINO 9 PEE D F1R Tils PERIOD:

12. 6 M PH TO TA L NUMBER OF 03 SERV AT IONS WITH BACKUP 1ATA*

O 4 4 PERCENT AGE 3CCURRE4CE 0 STABILITY CLASSES A B D E F G l 0 00 0.24 3 53 72.92 16 57 8.09 1.65 i DISTtIRUI!ON SF WIN) DIRECTION VS STABILITY N NM E NE ENE E ESE SE SSE S SSW S W' WSW W WNW NW NNW CALM i .-0 0 'O O O O O O 0 i 4 0 0 0 0 0 0 1 0 0 0 0 3 2 0 0 1 0 0-0- 0 0 0 0 0 0 0 C 2 1 4 2 0 2 0 0 0 0 0 0 0 0 0 0 0 i D T2 37 21 47 83 40 33 15 ~24 61 233 186 ?36 235 95 RT-0 E 6 6 10 26 il 24 !? 17 21 29 63 19 35 13 14 6 0' F 1 3 0 10 12 6 11 7 20 13 27 18 29 8 1 1 0 i G 0 0 0 0 0 0 3 0-5 21 5 0 0 0 0 0 .0 i TOT 4L al 47 3R ST 136 72 59 39 70 124 328 223 300 256 110' 94 0 4 4

Beaver Valley Joint Frequency Distribution Tables For Batch Releases First Quarter 1985 l l l l we -,---- '-. e, --. mm. -r-- --m---p w

1 i a i.~ ' V2 L101111O9 L 3 0 1 1 1 9 2_1 3 ~ A / [ 1-g- 1 [ [ W 00000g0 W 0000010 N N N N J 00000Q0 J - 0 0 0 0 0 E_0 N N 2 J 00000g0 W 00000E0 N N W W E - W 000000 0 W 00000E0 G A P W 00000Q0 W 0 0 0 0 0 2_0 5 S S R W W 9' 1 2 'O W 00000g0 W 00000E0 S S Y3 A3 M: ,2 4 0 0 0 0 0 R_0 U: W 00000g0 W H4 S S T1 T S T S E E E E F F Y A 5 A 0 S 00000g0 B 0 S - 00000R0 D 8 0 0 9 F 1 5 5 O S 3 S 3 R S S E E A T A T M T L A E 0000030 L A E 0000020 I R C S C S T A S S S S U Y R Y R Q T U T U I 3 I 1 T L T H L T H S I E E 00000g0 I E E 00000t0 R B E N S B E N S t A F I A F I r T T N S N 0 0 S O O 5 T 5 I E I E E - 0 0 0 0 0 a_0 3 T E - 00000g0 3 T E C S C S ) t ) 4 N i N I A D A D S 0 E 0000010 0 0 0 0 0 0 0 2_0 3 E E E N N C S I A 0 4 0 A V E 5 5 t L 1 1 1 ) O E 5 E E S R 8 N E N E / E P E 00000g0 E P E 000000 0 L H 1 E S N E S N A C 3 W E W E T T / T D T D N A 3 E N E N E B 1 I H I M W W 00000a_0 E 000C010 N L E F N O E F N R V 5 T O T O I E 8 FH EH V P L / EP N f/ N N S 1 TFM O TFd O E D I I A 0. 7 A 0.1 5 T C 00000g0 5 T E 00000S0 N / J N T U N N U 1 T O 0 L5. H N L5. B N '1 I 1? E33 T E30 I O S GV: D R D R I R HD T T T E - LE S

:: S t

W J1 4T T I 4 1001 310 1TT I 1 00G300 0 R D I 0AA D 0AA D O F:M P JRA D Y D Y R Ex EDD C EDO C 3 YIE SEL N SEL N C 0 EF ARO E ARO E F LI D HUH U 33000 HUH U 00J00 SS Q _ 55550.9 55550.0 S J L TO SS O YAE r U ANI YAE F N VER T5: T R 3) 5 T284 2L T E4 R 0l 3T 2849L M DE I MH F EHM 112 2A IMH F EHM 112 2A 2L - - - - - 1f t RI P L T

- 2L - - - - - 1T L

T TyAS1 P3t Gt 1 1 1 21 1 1 1 23 9 E I T T t S L_C T. 1 5 3 5 2_T' S {CT.553 2 2T l 3) 1 1 jet () 1 N 0 AT f A N N' I ANN 1 4 EIA T II O 35 f 21 _ T I I 0 03124 t SD GWW J 11 SWW J 11 t

r; 1 u e 'et - e *0 e . d r* PI . e t= eF th ** g-e r t's M t" l el t i 6-4 j t i et i ' ol e-8 8 n-t i 1 I 3 o o C o o elO 3 o o o o o of e 2 F 2 2 3 o es e o es of a "E ' O e o o o cl e= 2 2 M

e o e o c o cec n

c ts o o o e e 2. l 2 3 3 .sg-8 8 9 taJ 3 e o o e o el c 3 o o o es o et o O 4 I i 3 o e o a.) o ci c 3 o o o o o of o en M t tA i ec 3 0 3 i rm t I M e i No 3 oooooolo 3 o o o o o os o M 1 M >M l alt n g E ee 8 1 -N i 1

e o o o o e of e 3 ee 3

o o o o o al o . "a Z M M >=,ed e 0= M >= H e L.J W 4 taJ w 6 6 .8 O (J o M o o o o o clo O O M o o o o o el o O GC C o th e e LL s8 c e c: (9 9 M M L E ta M e ( W .W at >+

C

>= me E U M ~ o o o o o oi o J 4 W o e a o c ose r .J ac W U M >= at M M (9 M 3 E E l D t-3 >= 3 t' e t >= .J . M Z .J >= Z

== 4.J W c o o o o ele M em t.J t.J c o o o o C4 C E E LaJ j 2 M l 33 LaJ 2 M l [ me at L e= at L r to e= 0 6. l M o 2 l M o 2 r - o C' I e C I e r

== 4" >= e e e9

6. -

U c o o o o clo

"J W

D e o e o cI ci e e U M 'W M i e

s. e e.

1. s 69 i

e m m e 2 e. 2 >= at O 4 O M O W C o o t* o t-o o O W e o o c: e fat e") t.J . L.J t'e 2 e 2 1 U M. e. at o ar - o at 69 in so et .J w e e n Lak -W W W M E tr 2 1.J 2 L.J nnJ L LJ oooooC C LaJ f. l.' o o o C C Cl o .J r - w e 2 i w M 2 4 LJ ss) 3 W 3 W I >= >= p. O >= O 2 4

)

LJ 2 W 2 Le e e e E 3 3 2 .J t i U o o o o o of a W o o a o o of C ' O 4.J L 2 6 2 E e. o 0

a

t. '

C WT W3 CL .J w r. 2 w C. 2 2

= 6 E O

>LE o L.J O

== me F at o o e-W c o o o o ele er o e n. u o o e o o og o 1 I= 3 .e >= o a-5

=

6 >-e>= S 2 I .J e C 2 l O .J f a C 2 1

i.. t

.C

==t r* I C t". cw e,

e. ee I

== 12 > ** O E 6 Q T l W cO t= 1 >= l W g.J w ee se ** H es es se M eP P e-6- P e oese o cerm

- 6*=

P em te e e= e e=4 r= ee E O

== 0 at at O l O at as O C 6 ee r i L

) E at O

t O w Ww L. i e O as I

t., e-O e

i O >=.e W M w.J 2 l O L.J 2 1 u O 4.J t6 er et O u e et C w tm w ** c =pI 3 1 e o em o e t =D D o o e e 'J j t* t

O I

in 0 0 C eJ l t * (* C 6* O f # a I to "2 J >- C. O at 2 > at i. u e e e e e e et w ar w w e e e e o et f' aJ

*= rJ e e c't.J

>- L er z S= m a N r e et.J 2 ea > w c-

e. L ' s 3*

a LaJ

== r 7 6 teJ It E a= ** fM et at

== F* I ta. LJ T E =* =* ft

e et r

I g g g .g J a l.J g e e g e 46 e a-gge m ,j.- e *

t.,3
. Ye u.a

.*.4.a st e (* w i.e a ra ea ar t* wo u

eaO=a A s.-

aa e 9

== (9 wi u== La a ta in A g e

fit c

== a- . Te e-e e e-w fM c L

== n. i

m. 2. N.

e-2 I e e

e e i
E 2

== 0 e o e o e t O at > >= as. e l m ** eg ta p c g e== A my l e g w. er =0C (933 =5 t -* t (93 7 7 i = = -

1 4

1 -r- -m-y s -.my- ,<%v., e -.m em-3,-.--,3 <--.ewem.-w-,m-..,e.,, .-._.,.r,---ere y me'-e4e-r--m- ~+ ev-=-aw""+m eve-e-ww -

r e i .'.:e. w' lCmerne Demeer r >8 ' i el I Cl I ni i

==I t e=1 0

I 1

3. O o c o o cl o . 3 o o o o o eg o 2 2 F 2 3 e o o e O Clo 3 e C o o e et o 2 1 2 t o o c o o c4 o - e' "a o o o o o clo 2 l 2 3 3 s .I B. B 6 W 3 o c* e o o of s 3 o c5 o o o ol o O at L i .I M 3 o o o o o ol o 3 'o o o o o clo em to I to O 3 4 3 I E 4 1 th i l M 1 e No 3 o o t.a o o clo -3 u o e o o cl o M M ii >M I < r"h l i E ee B 11 N en e D ** 3 o o o o c olo 3 o o o a o ot o Te M M >= co - e-t= M >= M e .W W 'l 4 W l.J se E A .I d in W D H o o o o o clo 6 o M

- O o o o ol ed Q

CD o o e e F'. -p O Lo M P1 M M g t* - t/l - W W W >= ar E k =J d W e o e o o al o I at t.J. eoof5oClo-p E U M U M 4 M M M M -3 E E O D ti= 3 o o .J I .J k Z M eo 1.J W. o o o o o clo w W t.J cooeocic E (2 W 2 M l CD W 2 M l 4 6 we at 6 min te t= to M o 2 M o 2 o. o O e L** e e O ee O e s9 h= W C o o o oCic

1

>= W e C o o e of e e e U M I U M e-ee e.t i s. s.e n w I n w at C l ~ 2 se l e 2 en

t

.C. M W W o O W eooeoc"o e O W ca o o e-o elo M e 2 l e 2 O. e. at o at o er 'A W D f M J ee a e.e 'e W W W laJ W H E Cr 2 tf 2 W W L W o o o O c CM C W (L W ooCooo C =.8 W H 2 W M 2 et U 89 3 - W 3 W e= e-w O c 2 at wi W 2 W 2 2 L8 O c

== E 3 3 '2 J I e W o o o o o CB o W c C o o o clo o 6ei k 2 L 2 a= 0 E O O W e UX WZ 5 L =J 4.J L 7 WL 2 2 O s* >= 4 E C >= 6 E O a= 6.J f* 2 et c c e= W o o e o o Clo 4e@ D-W e o o o o of o t 2 3 ee

= * >

"3 r I >= ** 3 n O J ha e

D 2

l .J f e C 2 C I i.i e o we i.e rt e e. o t* C>** O E l C tt 1 i E CC >= l

=

i >= .W $ 3 4.J ee se se H eo se se M P e r* es m c et o P t= b w ? OeeeoNm r* P P h= >= =.Q C at er o er O== 0 at at o 6 ** Z Q. "1 E 4 C Q T WM L. c'* O st e W&C 41 i j C >== W H W.J 2 i ta W i F i ar cc O L.J U O Wk d er C W h =J > O =3I 3 9oeoO l 2DT U o

"I o e o I

(*

)

.J *= 0 t? (9 O 7 @ ? J* C-l 09 M O

O L* # E 4

1 et 2 **

> ** t.1 J e e e e e c-4 > er W W e e e e e cq 2 ll> l.! Y

t. W T y

C*

- h N C e

'"4 J

== 6 af T Ca

- ** N 2 ** cf J E

OW

ie E I 4

4.J r T*

- *e N et er e-s E =

4 W TlE . e sw W el at v *. f J e f e t 8 Mm a e er y e-. P. ,,) e- -e e ! =J t I e e e ef== .,J e.- j ,T L.

== 6. 1 To e 9==* **== "" r 3 O m. C. El e d *=*=s

- me

.M r* ** e.* ewt u== en La.*t.* P l a-

r* e t* ed u A 19 t* L'ei ta At a=

e t'

e t. t.*

t22 g e o e e e i es22 l e o e e p e o et *= e== e og p w as na e= g o **

N - p om oe C

e o *9 ** N g 1 a ' C. 7MC < *) 3 2 =5 f

* =
I ti *T *1
i 6

ee -* f

9 a-h, . A r a e'~ e e em r~i e M1 e r r=. c r= r ~ r= e-1 I 4 l el 4 of. I es i e-I e r -l 3 i o o o o o clo 3 o o o o o ol o - 2 ~j 2 2 B 2 1 I

a

' es o o e o Goo 3 n o o o o os o 2 2. c 3.ooaooo o "E o o o c u cl o 2 2 1 3 i 3 l 1 8 I I W 3 ~ o o o c o olo 3 o p o o o cl o. c as L 3 ' o o o o o clo 3 o u o o o clo se. Er i 11 4 EC 3 1 3 i [ t rm a e i I I No 3 o o o o O C4 0 3 o o o o o clo M M b= M

1 M E ee N

oe D ** 3 3 o c o o clo 3 o o a o o clo Ie M M >= M 4 >= M >= M W e W-i W e W oo k I 6 4 C a M ,,4 ..o o o o o C4 o .J o ti W o o o o oled Q to o at o e e o IL ' W to o o M M M M E M M W. W at at >= E t-A 4 W O o o o o clo .J at W o o o e o clo >e K U to u M as e M M M M D E g o >= 3 3 >= O

== m J >= I .J >= Z M

== hJ - W e o o o o clo

== W W o o o o o c4 o K CD W 2 M CD W 2 O 4 e= at 6 4 6 1 ei >= b= M o 2 M o 2 e. O e o e La e. trl M e-L' o o o o o clo M e. W o o o o o clo e e U M i U M e te 6.s I

t. e 68 8

m w l n e .I 1 e 2 l 2 e= at C. at O I M he W m O t.J ' c o o o o of o n O W e o o c o et c U to 2 e 2 m= 4 n at o at W c tr' W .8 en f* M m LJ W e W W M K (C 2 W 2 W W D. L.t o o C o o of C W L be o o o o o c(o J Z M W M 2 W M 2 at U M 3 inJ 3 leJ ei-e- >= 0 c 2 at M t.: 2 W 2 L. = t e. er E 3 3 2 .,J 4 8 W o o o o o clo W o o o o o clo o W L 2 4 2 FC ' D c >= c

== W tr WZ L,l Z 0. .J WA 2 W EL 2 j 2 O M >= w E o D-6 E o W O >= W o o o o o clo

t o O.
=

W D o e o o C1 o at o O. es 2 p. em D y I n-D y I a 2 3 e o J t' C. 2 I .J IN

C 2

i S*

== ma N

e. e w'* O

== 1

6. e M 83

== t o V c 2e se Q K I O E I i ~ >= E CD 1 >= l [. b. W g .,J W es se so M es se ** M eP P > ba 7 e e o e o r4n w e. e= w y e e o e c et gg E O e O at at O o e at O O

- E i'

1 EE M C O er LJ M t., e O tt 6.* r'* O gi O > ee &J LSW.J 2 i M W.J 2 i W O W ga at er o bs eEo W u. .J >= 0 = 3 T-D cs o e* o o 6 =DT D ooroo I to "3 .J *= o (* M C' ka O ha OO $ La (* C= r trl r L* c, 1 3 4 y e= > at W LJ

* * *
of

> ar W W

e *
el

6. W 3.-

eg c.=

- - m N ta e eq.g

.fN 5= c eg.J y so

e W st.=

>. W g M p e% 4 W fM

1 ait
- T I A

W7E

- ** W
t at E

CU n.e YZ 6 W It Y e er ve" .J w .e S t.) e t e t 9 mal e- .J e= .e alJ e i e e e a=4 w

f. Tl er J' ** ** ** ** P 1 C

. ** =*== ** e 10

== e-e t-w e-Ir1 e-e t."

e 6 5.*

P fv ** ? La =,4 (* ** ta t* ?M n*l At ei. 81= f'* m 7 ta miel t i >= t

c sa P At >.

8

4. a. 22.=

l e e o e e I e O at > > st 22 p e e e o e 3 e c y o an om ej era g e f=* g - at

e. e- = **

g ry am o% ey g

. *= L1 C m "T ?

7 f

- ed I

(

3 "* "j l

-e w I

-y .,s. >1 e ., x e. )

NU3 CD.lPORt i! 04 - ENVIRONMENT AL SERVICES * * *
THU,, M AT 02 1185 PAGE 6

TI"E OF DAf* 14:42: 33 PRC1'f4M* JFD V ER SI OT4: SP' , LEA /Et VALLET JFD - Gt 0Ut10 LEVEL D ATCH RELE ASE L1 TE 10EtJ TIF I E R: )LnV2 f).t T1 *EMIDO E d AMIMED: 1/ 1/45 - 3/31/45 +++ TIRST QUART ER 19R5 +++ '; T A~l IL I T Y flASTO 01: DELTA T RETWEEN 150.3 AN) 33.0 FEET s. JIND M"43UREO AT: 35.0 FEET J I fD T Hit ES40L D AT : 0.75 MPH V. -L* T O T4 t. J tT1HE ft 1 F OlSE RV A T ION 3! 1 TOTAL N UM BE R ) F Vt Lin 0 ISC RV AT IONS: 1 T II4 L NUME R 1F MI SSirlG OflSERV AT IONS: 0 "E R:Cil DATA R ECOV E R Y FOR THIS PERIDO: 100.0 I M E A*d 'J I rJO G PE E D F1 R T 413 P ER100:

2. A MPit T 1T4 f. flOMHER OF 01 SERV ATIONS WITH H ACKUP 0 AT A*

O PERCEN T AGE 3CCURRE1CE OF STA31LITY CLASSES A fl D E F G 0.00 0.00 1.00 0.00 0.00 100.00'- 0 00 DISTRIRUTION OF WIN) DI Rr C T I ON VS STABILITY N NM E NC ENE E E1E. SE SSE S SSW SW USW. W WN W NW NMW CALM 4 A 0 0 0 0 0 0 1 0 0 0 0 0 P -0 0 .0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0-0 0 C 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 0-0 0 0 0 0 0 0 .0 0 0 E O O 9 0 0 0 0 0 0' 0 O O C ~0 0 .0 0-F 0 0 0 0 0 0 0 0-1 0 0 0 0-0 1 0 0 0 G G 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Og 0 TOTAL 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 IO O

l, e - U t T3'. ,"p. P ecee c ri e -Jit*OCronm** N l Cl I kl Of I Of ' h.t 4 a=1, - t I 3 o o o o o cl o 3. o o o o o cl o 2 2 2 2 3 es o o o o el o 3 o n o o o of a 2 2 N 3 o o o o o otC 3 e e o o o el c 2 1 2 -3 1 3 0 1 11 0 1 W 3 o o e o o al o 3 = c o o o o of o o I [ e 4 + 3 o o o o o of a 3 o o o u o alc -} m to 8 M Q 3 1 '3 y tV I 1 I No 3 o o o o o ot o 3 o o o o se of o M M WM E ee

e D ** ~

"E o o o o o clo 3 o o o o o clo Ze M M to M a k M M e W W e W W b k ocooo$o i e o e o M ooooooo e o M O E o o /.. p e e t y ' LL e4 o o o M o M o -[. E M D M f j W W ^ o o o o es h.4 0 s 3-n= J 4 W o o o o o of o .J ( W E U M U M s t= at M M M M D" E E O t-D t= 3 = me n O

=

=J Z J I M M W W. O e e o o clo W W D o c e o Cf o ' tlC W 2 'M C-W 2 M R .o.f ,o at g

== at 6 >=

y 9-te n=

M o 2 V o 2_ n e o e o P we e if' m. U-o o o o o clo

S

>= t!, o o o o Q clo e e M = ~ .M. .U.

) i l

'M ". 11 .U. l i.e e e e I n w / n w 0 2

== ? e 2

=

4 O 1 4 O M le,' o O W D o e o o clo o o W D o o o o clo ' U e 2 e Z Q c o .f~ \\.

== c at o er er LB If1 m r* W M O W W Pi M at o 2 W 2 W / + W W CL W e o e o o clo W C. W o t* oooo o .J .J M W M 2 W M 2 4 W M 3 W 3 W ^#- j E O Di. O C s 2 P4 W 2 W 2

== c

== 4.1 Z C E U 3 3 2 0 L W D o o o o olo W e o o o o cl o o 4 LL 2 lb 2 E Cll! O e= o k o# cr' LZ WZ CL O W (L 2 W C. 2* 2 O tad M e-6 E D

- 6 E CJ ee at at a c n=

W o o o o o clo eoc ,ew W e o o o o cM o W e.

== = I M

== e= 3 2 t=

N 9

2 C W .J e o O 2 .J o

k 2

P me Je t.s e o e s.a c' o me o' t* W>** O@ E Of C* P f

me E

cO V e-W l.J W en ee se H ee**** M w to mP P t= 6 e. P nooeoe o T* t= 6.= = P e e o e o et e E O me o at at Q o44 O " o 6 ** E llL '3 E 9 O Q T W Y' L f r* O t3 1 61 P O tt o > e-e L J &* ng a 2 1 M W.J Z U O W to at E C W wEo LJ 3I 3 I eoeoo L J== 0

D

3 l ooeoo I '!" e M c 5 c O it" r r M

)

.J > c t* M C e O M p c t-1 e e

e ec

> *t U W-6-

o M ** N T e e't 3

at 2 eo > at 6 .J l tJ

= W.M T

C al 9 ** N C e et.J WT ar OM 2

- > b *E

==e 1 L Il K MMN

t at

== EI b tal 11 T. M== N of et,e-r =. E OW o J f 1.4 I e t I el m. 1 El e O.I . s c l.,J f 3 9 el== f

== .I. =6 e er =je me *. J i

- -4
- e 4 c

.g., = ese ** P.I F?

== a=

,. YI et g*

=* gi .e e e"

- to t #

'!* f"* F 7

tr wl U >= tet f ta ? Al e=

- O e'*

P ta wi u== to 'f' e J A' e= e u at e== at 2 2 l e

e e e i

at 2 2

== 1 e o e o e e T W me < we = =. r l o ="!

N ** 1

==**w c l n *a A af e-Q,. "* t

C'

(* "T 7 "3 i

- -a I

ta *T "F 7 I

- +4 a

== l 1

.g-

[< g. le ou =

p. e*e em dl c em ed M N

$T 4lreeceee .n em e 1 we >4 a el et - n-3 i eI g 8 i 3 o o o o o ot o - 3 o e-.= N o co m .c. '2 P g.. 2 2 ed N e '] ~ ~ ~ h. 3 n o o o e olo - 3 a so a3 N o et e9 2 ,e N 2 em .[ t r, o o c o o nk. s ocoeNun j o 3 -3 / ,A 2 2 P 4 3 c'p5.. f,, l W' q y /' "f* l 9 I l s o W 3 .ts o D o o ol c ') 9 3 o o N N C fNIt.C C

/'

.! *A at N r L F ~f It ,w, f/ j 3 o o.a o o clo 3 o o o o o os c V i M I BM p* .I i-3 3 E Ch. p t l l l N l .. o o o o o os o 3 ooaoe o -3 O M 4,r > P= E f s di h og

s 3

ocoooo o 3 a o o o o as o 3.. Ze / -M M , y) M > e4 e s t-M e s'- ,e W l -- .t e W m ( p p f W w s w r d 10 O o M o o o o o elo Q p o M o o o o o of a i o C ED o p 5>" r th e e .O a 'l 8 .j - o p-o L ee M o o. nr g M M c f L W prjW at . IO -o, >= t at

=

7 ( E b= J et W o o o o o olo .J at W e3 o o o o et o - >=

pa E U

M U M 8* at M M / M-M[ 3 E E y o >= 3 t-3# T

o.e C5 e.e o

j .J Z r .J Z W o o o o o elo M

== W W oooooe o W E, f M I E ED W 2 M C W e e [- l at E 4 w g..% e,m M o 2 M o E L q o

Q-

) e c em e

== l 4 4 M e-W o o o o o cle M e=. W eecoocio e e y M i W M l r a s.. s.: e.e

i. e '

'l ;f -af n or n or -e 2 e.e 2 se j - 4 O as c t u o O W 9'c e c e c olo o o W e o c o o cM o e 2 o 2 / .u. o at o at o o W/- M to e LM m M W W

/

tt> n' 2'f M 2 W W W / A W ooeoo C W /A W e o (9 eis o et*O J /* J W M 2 ' W M 2 ' et W N'a 3 W 3 W k g he O be O 2 89 laJ 2 W 2 C

== ' /, W

C E

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=

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5. 0 te l I

t.1 le t I n re* l n w e Z we r Z

== 4 O l O M taJ o O W o o o C o elo o O (J o o e o o el o U-e Z e Z

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== E U 3 3 2 9-8 6 tJ o o o o o clo W o N N o o of e - O at 6 2 4 2 ct t'.'. O k-O T k WZ L O ta C. 2 laJ C 2* 2 O Laa M >= w E O >wE O

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3

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== to tr. er; e am i .N ca

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I

_.. ~. 7 + ,G o. NUS C04 PORiT I Oi - ENV IR ONMENT AL SER VI CE S * * *

THu, M AY. 02 1985 PAGE 5
e.

TIME OF D A Y: 14:46:17-P R0",ttAtt: JF0 VERU!ON: SP ilEA/Et VALLEY JFD - ELEVATED B ATCH RELE ASC I StTE I OrN TIFI E R: )Ln V*! 3 DA T% Pert!0D E x ANIM ED: 1/ 1/R5 - 3/31/R5 l IRST GUARTER 1985 'a** 5 T AS tl! TY HASE D 01: DELTA T RETWEEN 500.3 AN) 31.0 FEET' 14 I tif) MEASURED AT : 50 0.0 FE ET

J I N) THRESHOLD AT

.). 7 5 MP H ) T f5 T4 ' NINHER 0F 015ERJATI1NS* 8T i TOTAL N UttilE1 J F VtLID 06t SE RV AT 10NS : 87 I T1TAL NT18E st O F MI SS 1'4 G OrtSE RV A T IONS : 0 t P ER: rfd i D AT A R ECOV E R Y FOR THIS PERIOQ: 100.0 % 4 H E A'4 JitJO iPEED F3R TetIS PER IOD: 12.2 MPH TOT %L NUMBER OF 01SE RV A T IONS WITH BACMUP DATA: .0 I i i PERCEN T AGE 3C CURRENCE OF ST ABILITY CI ASSES A B D E F G i 0.00 0.00 1.00 97.70, 2.30 0.00 0.0 C 1 i i OISTRI9UTION 3F WIN) DI RE CTI ON VS STABILITY I N N1C NE ENE E ESE SE SSE S SSW .SW WSW W W4W NW NNW CALM i A 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 i 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C 0 0 0 0 0 0 0 0 0 0 0 0 0 0.. 0 0 l 0 3 12 9 3 0 0 0 0 0 0 1 0 6 13 23 20 ~ 0 0 E O O O O O O O O O O O' 2 0 0 0 -0 0 8 F G 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O 4 G 0 0 0 0 0 0 0 0 0 0' O O C 0 0 0 'O TOTAL 3 12 4 3 0 0 0 0 0 0 1 2 6 13 23 20 0 b

i Beaver Valley Listings of Meteorological Data For Periods of Gaseous Effluent Releases At The 150-Ft Lovel (Ground-Level) l 9 l /

e trui CS (PORT TI O 4 - ENV TRDNf1rNT AL SER VICES THU, M AY O2 19R5 PAGE 1 TIME OF DAY: 13:25:22 J10i?tM: LIST VERSION: 2P L IST f fJ ; F O't HIAVE3 V A_ tr Y HOUR LY METE 0ft0LOGI C AL D A T A 15 :T LEVEL BATCH

- - - - 31 F T - -- - - - - - --- -- - 1 "3 0 F T - - - - - -- - -- -- - -- 5 0 0 F T -- - --- - -

A M (1. DI W WI M) WI NG STD WIND WIND STD MIND WIND STD TEMP PDINT DEL T A T D:LTA T RAIM SPCID O IR DrV GPEED 011 DrV SPEr0 DIR DEV 3 5F 3 5r 150-35 530-35 FALL YM 'i l Df t'R (MPil ('1 EG I S C( DE G) SC (MPH) (DEGI SC ( Dr_g 3 30 (mph) (DEGISC (DEGISC (F ) (F ) (F) SC (F) SC(IN) 412 M F 4.1, F 3. 0,34, F 4.1),4 F5.1.F 5.2 ) b s3 19 l'

2. A l'il 33.4 4 6.1 223 13.3 -

9.1 244 11.1 D 49.4 15 5 21 F 10 E 0.30 M

m -- 4 4 Beaver Valley Listings of Meteorological Data For Periods of Gaseous Effluent Releases At The 500-Ft Level (Elevated) 9

'IUS C 0 9 P3 Rt T 101 - ENV IRONMENT A8 S ER VI CE S * * *. TMU, M AT 02 1985 PAGE I e*. TIME OF D AY1 13129126 PRGitsM1 LIST V E R?. ! O N

2P L IST I'IG FOR HE AVE 1 V4.LE Y HOURLY METEOROL1GIC AL 0% T A 500-FT LIVEL B ATCH

- - -- 3 3 F T - -- ---- - ---- -- - 1 5 0 F T - - -- - -- ----- ---5 0 0 F T --- --- --

AMR. DE W WI K1 WIN 9 STD WIND WIND STO WIND WIND STD TEMP PCINT CEL T A T D'L T A T RAIM SPEID nIR DEV SPEED 31R DEV SPEED DI R DEV 35F 35 153-35 530-35 FALL f9 11 OY *ta (MP11 ElEG ISCt DE G) SC (MPHI (JEGISC EDE48S (MPHI (DEGISC (DEG)SC (F ) F) '(FI SC (F) SCt1ND 4 t ?, 3 t F4 1.F3 0,3( eF 4 13,4 F5 1,F5 2 3 Si 1 1 14 12.8 225 17.7 8 16.6 222 14 3 24 4 220 11.4 D 10 9 999 9 -0.3 E -1.7 0 0.00 45 't 1 15 13.9 219 13.6 C 18.8 244 12.5 : 25 5 238 91D 64.4 55.4 0.6 E -1 2 E 0.08 31 1 1 16 14.2 21A 14 9 C 17.9 241 12.1 3 25 6 240 8.8 D 62 4 53.9 0.6 E -0.H E 0.00 Ri 1 1 17 14.1 25 T 12.5 C 21.6 255 9.A 3 29 0 260 8.0 D 60.1 46.5 -0.5 E -1.8 0 0.00 mi 1 1 14 12.5 274 16 2 C 21.5 ?T9 10 2 3 29.3 278 6.9 E 53.3 42.4 -0.5 D -2.2 0 0.00 4i 1 1 19

9. 5 231 18.5 8 17 3 284 10 3 0 23.8 283 61 E 46 2 37.6

-0.5 0 -2.30 0.00 'l

i 1 1 20 R. 5 27A 19.2 R 14.5 212 1.73 19.6 283 6.1 E 43.9 35.2

-0.6 0 -2.4 0 0.00 't 5 1 1 21

7. 7 291 21.1 R 14 1 291 10.2 3 1R.1 292 6.1 E 41.5 34.6

-0.T D -24 0 0.00 3i ! 1 22

5. 5 215 24 2 A

9. 9 293 12.7 C 13 3 296 T.0 E 39 8 33 5

-0.70 -2.4 D 0.00 35 1 1 25 48 300 23.6 A 9.1 298 9.31 11 7 295 59E 39.1 32.2 -0.6 0 -2.4 0 0.00 is 1 1 24

4. 3 336 25.5 A 91 301 10.3 1 10 2 297 5.7 E 3 8. R 31.6

-0.6 0 -24 0 0.00 45 1 2 1 5.4 32 0 20.2 H 8.9 306 10 5 3 11 2 309 61 E 38.1 31.1 -0.6 0 -2.4 D 0.09 ti 1 1 2

4. A 32 1 24 2 A 6.T 315 16 8 :

R.8 320 790 36.6 30 4 -0.6 D -2.4 0 0.00. i .55 1 2 1 37 351 30 5 A 55 349 20.1 3 62 340 18 1* R 35.3 2 0. P -0.7 0 -2 3 D 0.00 45 1 2 4

2. 5 318 61.T A 3.4 321 45.9 4 4.9 329 31 1 A 34.3 2 T. 7

-0.7 D -2.3 D O.00 45 1 7 5

2. 4 349 48.6 A 3.5 353 50 6 4 3.7 335 38 2 A 33.R 26.9

-0.6 D -2.3 0 0.00 45 1 ? 5

2. 6 246 58.6 A 2.9 304 6T.3 4 4.9 323 49.0 A 32.7 27.7

-0.6 0 -2.3 D 0.00 45 1 7 T 43 315 25.5 A 60 319 25.9 4 8.1 330 19.1 B 32.1 27.6 -0.7 0 -24 0 0.00 45 1 ? A 91.9 949 99.9 - 99.9 999 99.9 - 9.7 333 10.0 D 999.9 999.9 999.9 - -2.4 0 9.99 15 1

9 99.9 999 99.9 -

99.9 999 99.9 - T.7 341 15 9 C 99 9. 9 999 9 199.9 - -2.3 0 9.99 15 I ? 10

3. 7 317 42.1 A 4.9 319 26.5 4 7.2 342 31.3 A 31.1 23.6

-0.T D -2 4 0 0.00 42 1 2 11 99.9 99 9 99.9 - 99.9 999 99.9 - 9.0 335 99.9 - 999.9 999.

999.9 -

-2.4 0 9.99 45 I ? I?

99. 9 949 99.9 -

99.9 999 91.9 - 4.0 315 99.9 - 999.9 99 9. 9 999.9 - ~2 3 D 9.99 15 1 2 13

5. 3 34 0 18.5 R 7.7 342 12 1 3 89 337 7.3 E 30.9 24.9

-0.T D -2.4 0 0.00 'j 95 I ? 14

4. 3 31 9 19.1 8 6.3 320 1941 74 331 11.6 0 31.4 24.1

-0.7 D -2.4 0 0.00 45 I ? 15

4. 7 3?8 23.1 A 6.4 350 16 1 C 74 326 13.0 C 31 5 22 7

-0.1 0 -24 D 0.00 35 1 ? 23

2. 6 14 21.1 6 1.1 14 12.4 1 48 23 11.8 D 31.1

?2.5 -0.6 0 -2.1 D 0.00 15 1 2 21 26 12 30.3 & 4.7 360 1.5.2 : 6.7 14 5.1 E 31.1 22 8 -0.6 D -2.0 0 0.00 45 i S ??

3. 2 10

?6.6 A 56 2 12.9 C 8.4 11 51 E 31 0 23.2 --0.6 D -2.2 0 0.00 i 55 1 2 23

4. 4 34 5 1768 6.3 357 11 6 3 8.7 3

5.9 E 31.0 23.4 -0.6 0 -2.2 D 0.00 15 1 ' 24

6. 2 359 16 8 C 9.7 3

10 9 3 12.6 4 64 E 30 4 21 5 -0.6 D -2.3 D 0.00 45 1 1 1

4. 8 7

25.0 A 8.T 11 1133 11.5 12 6.4 E 30.0 20 0 -0.6 0 -230 0 00 45 1 5 ? 4.6 22 29.0 4 9.8 21 9.5 3 12.6 17 5.1 E 29.6 19.5 -0.6 0 -2.3 D 0.00 45 1 3 3 4.1 2T 29.4 A 7.9 20 11 4 ) 10.9 21 7.5 D 29.0 18.5 -0.6 D -2 2 D 0.00 i ii 1 3 4 31 36 35 2 A 6.2 20 16.7 C 96 22 7.7 D 28.4 18.3 -0.5 D -21 D 0.00 9i 1 3 S

3. 7 22 42.9 A R.1 1R 13.1 13.3 18 4.6 E 2 T. 9 -

18.0 -0.6 D -2.2 0 0.00 1 15 1 3 6

4. 0 33 28 5 A T. 3 14 16.7 9.7 36 15.0 C 27.2 1 T. 7

-0.5 D -21 D 0.00 45 1 .5 7 29 22 23 0 A 4.T 43 2233 7.0 45

15. R C 26.4 17 6

-0.5 0 -1 9 0 0 00 15 t T 4 ?.5 23 26.1 A 4.4 19 25.7 4 6.4 40 1918 26.0 17.5 -0.5 D -2.1 0 0.00 ti 1 1 9

3. T 43 39.9 A R.6 59

15. 6 :

11.3 50 13.1 C 26.7 17.4 -0.7 0 -2.20 0.00 l 45 1 3 10 9.1 68 32 4 A 10 7 65 9.80 12 8 60 T.5 0 27.9 17.2 -1.1 8 -2.R D 0.00 44 1 1 11

4. 3 59 29.9 A 10.2 62 9.R 3 11 8 61

' 8.5 D 29.0 17.3 -1.2 A -2.9 D 0.00 ?S 1 % l'

1. 9 66 30.9 4 9.1 G1 1161 10.9 65 8.4 0 29.9 17.4

-1.4 A -3.1 D 0.00 .i

NOS C07 PnRt fl ot - ENVIRONMENT AL SERVI CES. * +. THU, M AT 02 198) PAGE 2 TIME OF D4 T: 13:29:26 P9019tM: LIST VER310N: 2P L I ST 1?li F9R 6 EAVE 1 V A.LE Y HOURLY METEOROLOGI C AL Ot T A 500-FT LEVEL H ATCH - --- - - -- Vi F T - -- ---- - - --- -- - 15 0 F T - - -- - -- - -- - - -- - 5 0 0 F T -- - -- - - - AMS. DM WIN) WI NG STD WIND WIN 3 STO WI NO WIND STD TEMP POI NT DEL T A T D LT A T RAIN SPE!D D IR DEV SPEED DIR DrV SPEED DIR DEV 35r 3 5F 150-35 510-35 FALL Y1 i n DY HM (Mail (DEGISCfDEG) SC (MPH) (GEGISC (DEGIS: ( M Ptt ) (DEGISC (DEGISC (F) U) (F) SC (F) SCt1N) 912,1t F t.1, F 3. 0,34,F 9.1),9 F5.1,F S.2 ) 95,1 9 16 4.9 34 0 29.5 A T.0 341 19.6 1 -9.9 341 13.4 C 22.6 13.? -0.7 D -2.5 D ' O.3 c - 45 1 3 IF

4. 7 34 4 24.4 A 66 347 16.4 C 1.7 342 12.0 0 21 6 19.3

-0.6 D -220 0 00 ai ! R 19

4. 6 31 6 2 3.6 A 5.T 321 17.4 9.5 337 9.9 D 20.4 10.9

-0.5 D -20 0 0.00 15 1 R IJ

4. 0 30 3 15.6 C 6.0 309 6.93 10 1 332 33F 19.5

a. 8

-0.5 0 -1.8 D 0.00 15 1 4 23 35 331 18.6 8 5.2 339 11 1 D 10.0 331 28F

18. T

8. 0

-0.5 0 -1 7 D O.00 ili I a 21

3. 0 32 8 17.1 C 9.6 321 12.R :

9.9 330 3.6 F 17.R

8. 5

-0.3 E -150 0.00 95 1 4 22

3. 0 319

19. 7 C 5.6 279 69E 8.5 309 29 F 17 3 10.5

-0.9 D -14 0 0.00 la 1 n 23

3. 2 218 18.9 R 54 214 81D R.8 309 6.1 E 17.3 11.3

-0.5 0 -1.5 0 0.00 't 5 3 a 24 4.1 312 17.1 C 6.5 217 9.0 3 10.7 305 6.3 E 17.7 11 0 -050 -170 0.00 45 1 + 1 4.2 301 19 0 B 6.9 301 11.1 3 10.0 312 9.0 0 18.1 10.8 -0.T D ~22 0 0.JO 45 1 8 2 4.0 309 1768 61 305 12 0 1 11 5 316 5.4 E 16.8 11.4 -0.5 D -1.9 D 0.00 33 1 1 3

3. 8 30 6 17.4C T.9 312 7.4 E 13.6 315 23F 15.6 10.6

-0.9 D -1 3 D 0.00 4: 1 11 7 6.1 2T9 21 9 R IS.S 27T 4.93 14.7 277 6.5 E 39.9 27.7 -0.6 0 -2.3 0 0.00 4i i t1 A 61 30 4 27 7 4 11 3 299 14 0 0 19 9 283 7.T D 34 2 27.8 -0.6 0 -2.3 D 0.00 11 3 17 12 R. 7 31 3 25.8 A 14.9 3J5 15 0 : 18 4 309 1100 36.4 20.1 -1 3 A -3.3 D 0.00 15 1 1T 11

3. 0 31 3 27.5 A 11.4 319 20.4 1 15.2 315 15 1 C 34.1 23.6

-1.1 R -31 D O.00 is 5 tF 14

e. 9 30 9 23.1 A 19 0 105 15.7 ;

16.7 311 12.9 C 34.7 T 1. 9 -1.1 H -3.0 0 0.00 15 5 l' 15

8. 2 32 9 303A 11.9 321 2044 14.2 325 17.T B 34 7 2 0. P

-1 2 4 -3 0 D 0.00 94 3 17 16 R. 8 330 29.1 A 12 6 324 10.1 1 16.5 323 12 9 C 33.2 19.n -0.9 D -2.7 D 0.00 95 3 11 IT

7. 5 332 22.8 A 10.8 324 20.1 9 15.0 325 13.7 C 31.4 19.8

-0.8 0 -2.6 0 0.00 9% 3 17 14 R. 3 37 T 21 5 R 12.3 320 15.7 0 17.7 322 12.0 D 29.9 16.5 -0.7 D -2 5 D 0.00 85 3 IT 19 P. 3 32 9 23.7 A 12.6 32 3 17.6 1 16.9 329 11 2 D 27.6 15.3 -0.1 D -24 D 0.00 Wi 3 t T 20 T. 7 32 3 23.5 A 11.1 318 17.9 3 16.5 324 10.4 0 26.7 13.3 -0.6 D -2.9 0 0.00 is 3 17 21 T. 2 32 4 22 9 R

9. 9 317 16.4 C 14 2 326 10.9 D 25 6 19.3

-0.T D -29 0 0.00 1 1 17 2?

6. 5 3? O 20 8 R 10 1 306 13.8 C 13 2 316 11 1 0 24 7 15 0

-0.7 D -2 9 0 0.00 Mi i 24 11

5. 9 265 16.7 C 10.8 2T2 11.3 3 12.7 270 7.5 D 68.2 53.4

-0.T D -2.9 0 0.01 ii 1 21 !?

5. 0 261 15.2 C R.5 270 10.3 0 10.1 265 11 9 0 69.2 5 2. H

-0.R D -2.6 D 0.01 %s

?1 13

5. 9 276 20.6 8 9.8 277 11.3 D 11.6 272 10.2 0 69.7 52.0

-0.T D -2.5 0 0.00 C. 5 2* 14

4. R 29 4 20.8 0 9.2 291 11 7 3 10.6 287 8.3 D 70.2 5 2. H

-0.8 D -2.6 0 0.00 de i 2't 15

4. 4 335 23.5 A 10.1 303 8.R 1 11.2 291 6.1 E 70 3 53.2

-0 8 D -2.6 0 0.00 li 5 27 16

5. 3 316 17.9 8 9.9 337 760 10.9 298 5.3 E 69.9 52 6

-0.6 0 -2.5 0 0.00 95 1 2+ 17

4. 5 334 25.9 A 6.6 339 19.0 3

8. 2 - 321 15.1 C 68.5 53.9

-0.6 D -2.5 D O.00 95 1 21 la

3. 0 33 3 4334 4.3 342 30.9 %

59 333 32 3 A 65 9 52.9 -0.6 D -24 D 0 00 is 1 2's 19

2. 7 32 8 98.2 A 3.4 328 43 3 4 6.5 341 16.7 C 64 0 99.9

-050 -2.3 0 0.00 si 5 21 20

9. 7 21 29.2 A 9.0 19 12.3 3 11.0 12 8.0 0 61.9 48.0

-0.3 E -2 1 D 0.00 15 1 27 21 55 17 26.TA 11.1 21 10 2 3

13. T 15 R.5 0 58.8 45 2

-04 0 -2 2 D 0.00 ft i i 27 22 T. 8 13 18.T H 14.8 21 69C 16 6 17 4.9 E 55 6 92.5 -0 5 D -220 0 00 di 1 2 14 23

2. 9 6

33.9 A 6.0 23 11.0 C 10.5 19 8.9 0 51.8 45.8 -0.2 E -1.T D 0.04 is 5 2? 24

3. 9 21 27 5 A R.1 10 12 9 :

12.9 29 11 9 D 50.6 45.7 -0.3 E -20 D 0.01

r4 / Beaver Valley Joint Frequency Distribution Tables For Continuous Release l Delta T (150ft-35ft) and 35-Ft Wind and Delta T (500ft-35ft) and 500-Ft Wind April 1,1985 - June 30,1985

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AAA A NUS CDRPOS2 TION - ENVIBONNENTAL SERVICES A AAA MED AUG 07 1985 PAGE 6 TINE OF DAY: 06:N:49 PROGRAM: JFD VERSION: 5P PEAVER VALLEY JFD - G200ND LEVEL CONTINUOUS RELEASE SITE ID2NTIFIER: DLBV2 I'ATA FEEIOD EXAMINED: 4/ 1/85 - 6/30/85 AAA SECOND QUARTER 1985 AAA STABILITY FASED ON: DELTA T PETWEEN 150.0 AND 35.0 FEET UIND MEASURED AT: 3',.0 TEET i WIND THEESHGLD AT: 0.75 Mill l TOTAL NUrtBER OF DESERVATIONS: 2184 TOTAL NUMEER OF VALID OBSERVATIONS: 2017 TOTAL NUnEER OF MISSING OBSERVATICNS: 167 PERCENT DATA RECDVERY FOR THIS PERIOD: 92.4 I rEAN ULWD SPEED FOR THIS PERIOD: 4.0' MPH TOTAL NUMBER OF DBSERVATIONS WITH BACKUP DATA: 0 PERCENTAGE OCCURRENCE OF STABILITY CLASSES A B C D E F G 23.00 3.27 3.72 22.81 16.46 12.54 18.20 DISTRIBUTION OF WIND DIRECTION VS STABILITY N NME NE ENE E ESE SE SSE S SSW SU WSU W UNW NW NNW CALM o 23 12 15 8 9 9 13 12 20 52 52 61 67 23 33 0 B 6 4 1 2 0 0 1 3 2 4 7 9 13 7 6 1 0 C 3 3 1 3 2 0 0 0 0 3 7 13 16 13 2 4 0 D 29 10 12 21 6 5 6 7 12 23 54 95 72 30 50 23 0 E 17 11 9 15 15 21 18 12 31 51 28 24 19 11 25 14 1 E 1 2 3 9 18 30 54 65 43 11 -7 0 3 3 1 2 1 G 0 0 1 4 19 27 120 151 38 2 1 1 0 0 0 2 1 TOTAL 111 53 39 69 CL 93 208 251 13C 119 166 199 184 131 107 79 3
F: 1 [} '.l p O en O COED p 04 QC'3 OOg i kl 0 *i Oo 2000 000o000 j:. g.O000000. g OO-OOOM I i 3 Oa=OOOOW 3 OO-COOW 04 i 1 1 3 0000000 3 0000000 h h i i I 0000000 3 0000000 I i^ g C000000 g C000000 1 .s 3 0000000 .Ig' g C000000 y g = m t .1 W W ( j 4 g m 0000000 dlre O CO C000000 a, 8 E m 8 m w 3 C. 2 W 0000000 4 w COO OOW i E = a a L ;: o m i n n ~ f W Cor0COOM W C r4 -O o or7 O. $0 2g m b N W C000000 W C 00 0 0 00 g g 4 b N N W W a 9 m 3 O O W L3 O O M 0000000 O M M O *
O-C Ott B
.. m e e = g Cor' Coor, g E w O O r.c o ces 5 2 , a u w 5 m g 5 e n = g C - r10 C O*f' 1 OC>e C 0 06-* 8 8 pr b '$n0-som E ret 5 4s . On CoOOOOO <O O-cCOOn ~ ~ ' ED* u#1 Ow de,p ! E ' 3 y dR.. 83 WS g 5
$W'E!
ggy g ggy y = O-m-OOO = O-000 e.. c , 2 n eOO c ~ac eSg e >. - d wwa o e yo en B ~2 nnsOl aa 33303.Ol ass su Om OO g ~g ega ~2 se Eh e es amense en e esma-a=ase s e 5 "tWus.u.nu e e era.u.uns ~ ~ ,' 2 8 PWi!
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AAA A NUS CORPORATION - ENVIRONMENTAL SERVICES A AAA NON AUG 05 1985 PAGE 3 TIME DE DAY: 16:56:37 PROG 2AM: JED VERSIDN: SP BEAVER UALLEY JED - ELEVATED CONTINUOUS RELEASE SITE IDENTIFIER: DLBV2 DATA FERIOD EXAMINED: - 4/ 1/GS - 6/30/85 A4A SECOND QUARTER 1985 AAA STABILITY CLASS C STABILITY PASED ON: DELTA T BETWEEN 500.0 AND 35.0 EEET UIND nEASUiED AT: 500.0 EEET WIND THRESH 3LD AT: 0.75 MPH JOINT EREQUENCY DISTRIBUTION OF WIND SPEED AND DIRECTION IN HOURS AT500.00 EEET SEEED (MPH) N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW 10TAL ___ChLn 0 0.76-3.50 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 3.51-7.50 1 3 6 3 1 5 1 0 0 0 0 0 1 0 0 0 21 7.51-12.50 9 0 2 1 1 1 1 5 5 3 9 1 2 11 2 6 59 12.51-18.50 7 0 0 2 1 0 0 0 0 4 3 3 3 7 0 0 30 18.51-24.00 0 0 0 0 0 0 0 0 0 0 2 1 0 0 0 0 3 ')24.00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ~~~TGTAL--- 17 3 8 6 3 6 2 5 ---- S 7 14 5 6 --- 18 --- 6 -- II3 STABILITY CLASS D STABILITY BASED ON: DELTA T BETWEEN 500.0 AND 35.0 EEET WIN 3 MEASURED AT: 500.0 FEET UIND THkESHOLD AT: 0.75 MPH e JOINT FREGUENCY DISTRIBUTION DE WIND SPEED AND DIRECTION IN NOURS AT500.00 EEET SPEED (MPH) N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW TOTAL -- gggg --- y 0.76-3.50 5 4 2 3 0 1 1 1 1 1 2 5 5 3 4 5 18} 4 0.51-7.50 24 9 8 11 6 5 4 5 5 6 17 19 28 23 11 4 s 7.51-12.50 37 5 13 13 6 8 15 10 16 29 29 27 41 47 27 27 350 12.51-10.50 13 4 4 17 2 2 9 4 3 15 47 36 71 44 6 11-288 18.51-24.00 0 0 0 0 0 0 0 0 2 8 13 31 25 6 0 4 89 '24.00 0 0 0 0 0 0 0 0 0 2 1 18 6 2 0 0 29 -- !GTAC--- 77 ~~~ 22 27 14 I4 16 29 20 27 61 -- 109 -- 136 -- 176 -- 125 --- 48 --- 5r -- 995
AAA A N'JS CORPORATION - ENVIRONMENTAL SERVICES A AAA MON AUG 05 1985-PAGE 4 TIME OF DAY: 16:56:37 PROGRAM: JFD VEFSION: SP ^ PEAVER VALLEY JFD ~LEVATED CONTINUOUS RELEASE SITE IDENTIFIER: DLEV2 DATA PERIOD EXAMINED: 4/ 1/35 - 6/30/85 I AAk SECOND GUARTER 1935 AAA i STABILITY CLASS E STABILITY BASED ON: DELTA T BETWEEN 500.0 AND 35.0 FEET UIND MEASURED AT: 500.0 EEET WIND THRESH 0LD AT: 0.75 MPH JOINT FREGUENCY DISTRIBUTION OF WIND SPEED AND DIRECTION IN HOURS AT500.00 FEET SPEED ___ MFH) N NNE NE ENE E ESE SE SSE S SCW SW WSW W WNW NW NNW T_O_T_.A_g L ( g I 0.76-3.50 4 4 3 4 5 3 2 7 3 4 11-14 15 2 3 1 7" .bk-lb.bh t! b f fh k h 11 t 3 i! i! If 19 3 1 115 12.51-18.50 2 2 1 3 0 1 7 1 5 18 27 8 9 4 3 0 91 18.51-24.00 0 0 0 0 0 0 0 1 1 1 2 3 3 0 0 0 11 124.00 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 1 -~~TUTAL~-- 23 IS 30 29 TB 14 27 19 15 13 82 --- 65 57 35 10 8 -- 50I STABILITY CLASS F STABILITY BASED ON: DELTA T BETWEEN 500.0 AND 35.0 FEET WIND MEASUhED AT: 500.0 EEET i WIND THRESHOLD AT: 0.75 mph t JOINT FREQUENCY DISTRIBUTION DE WIND SPEED AND DIRECTION IN HOURS AT500.00 TEET I SPEED j (MPH) N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW TOTAL -- CALE ~~~17 4 0.76-3.50 6 6 8 9 8 5 4 3 8 7 6 7 10 0 5 9-101 3.51-7.50 4 5 15 16 11 9 4 10 4 4 17 15 11 9 6 5 145-7.51-12.50 4 3 7 8 2 2 7 6 13 7 10 3 13 7 1 1 94 12.51-13.50 2 0 0 2 0 0 1 0 4 10 13 0 0 0 0 1 33 10.51-24.00 0 0 0 0 0 0 0 0 0 0 0 0 2 0 0 0 2 >24.00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 -- TGTAL--- 16 T4 --- 30 --- 35 SI 16 16 19 29 28 46 25 36 16 12 --- 16 ~~~392 1 i i l m
l A!.A A NUS CORPORAIION - ENVIRONMENTAL SERVICES A AAA MON AUG 05 1985 .PAGE 5 TIME OF DAY: 161$6:37 PROGRAM: JED VERSION: SP -[ PEAVER VALLEt JED - ELEVATED CONTINUGUS RELEASE ~ I SITE IDENTIFIER: DLDV2 l DATA PERIOD EXAMINED: 4/ 1/85 - 6/30/05 .{ l AAA SECOND QUARTER 1985 AAA i 't STABILITY CLASS G STABILITY BASED ON: DELTA T BETWEEN 500.0 AND 35.0 FEET W IND MEASUEED AT: 500.0 EEET I l UIND THRESHOLD AT: 0.75 MPH -[ JOINT FREGUENCY DISTRIBUTION OE WIND SPEED AND DIRECTION IN HOURS AT500.00 FEET SPEED .I (MPH) N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW TOTAL -- cAgg -g j 0.76-3.50 0 0 0 0 0 0 1 0 0 0 0 0 1 0 0 0 2 r 3.51-7.50 1 0 1 2 7 0 0 2 1 0 0 .0 3 1 0 1 19 7.51-12.50 0 0 0 1 1 0 0 0 0 4 0 1 2 0 0 0 9 12.51-18.50 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 1 [ 13.51-24.00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 324.00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 f -- TOTAL-- I O I 3 8 0 I 2 I 4 I I --- 6 -- I ~~~0 --- I ~~40 t I s I l STABILITY CLASS ALL + STABILITY BASED ON: DELTA T BETWEEN 500.0 AND 35.0 EEET l WIND MEASURED AT: 500.0 EEET [ WIND THEESHOLD AT: 0.75 MPH JOINT FREQUENCY DISTRIBUTION DE WIND SPEED AND DIRECTION IN HOURS AT500.00 EEET f l SPEED (MPH) N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW TOTAL - CALM -- 35 L 0.76-3.50 15 14 13 16 13 9 8 11 12 12 19 26 21 5 12 15 221 ( 3.51-7.50 36 27 46 44 35 22 18 23 13 18 53 59 62 50 21 13 540 t l 7.51-12.50 71 13 37 42 14 18 38 25 37 55 70 47 79 79 31 38 694 e~ l 12.51-18.50 25 6 5 24 4 3 17 6 12 47 91 47 83 55 9 12 446 18.51-24.00 0 0 0 0 0 0 0 1 3 9 17 35 30 6 0 4 105 t t '> 24. 00 0 0 0 0 0 0 0 0 0 2 2 18 6 2 0 0 30 l -- TOTAL-- -- 147 60 -- TOI -- I26 66 - 52 BI 56 77 -- I43 - 252 - 232 - 291 -- 197 - 82 2071 l l l l l [
-_ --.= - _- .,3 4 AAA A NUS CORPORATION - ENVIRONMENTAL SERVICES A AAA MON AUG 05 1985 PAGE 6 .J ' TIME OF DAY. 16:56:37 PROGRAM: JED VERSION:~5P ~ BEAVER VALLEY JED - ELEVATED CONTINUOUS RELEASE L* > SITE IDENTIFIER: DLBV2 DATA PERIOD EXAMINED: 4/ 1/85 - 6/30/85 AAA SECOND OUARTER 1985 AAA STABILITY BASED ON: DELTA T BETUEEN 500.0 AND 35.0 FEET If WIND MEASURED AT: 500.0 FEET WIND THRESHOLD AT: 0.75 MPH TOTAL NUMBER OF OBSERVATIONS: 2184 TOTAL NUMBER OF UALID OBSERVATIONS: 2071 r TOTAL NUMBER OF MISSING OBSERVATIONS: 113 PERCENT DATA RECOVERY FOR THIS PERIOD: 94.8 I MEAN WIND SPEED FOR THIS PERIOD: 9.7 NPH TOTAL NUMBER OF OBSERVATIONS WITH BACKUP DATA: 0 PERCENTAGE OCCURRENCE OF STABILITY CLASSES A B C D E F G ] 0.39 1.55 5.46 47.56 24.19 18.93 1.93 -l 4: ( DISTRIBUTION OF WIND DIRECTION VS STABILITY i f N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW CALM 3 A 1 0 1 2 0 0 3 0 0 0 0 0 0 1 0 0 0 B 10 3 4 7 2 0 3 1 0 0 0' 0 0 1 1 0 0 i C 17 3 8 6 3 6 2 5 5 .7 14 5 6 18 2 6 0 i D 79 22 27 44 14 16 29 20 27 61 109 136' 176 125 48 51 1-E 23 18 30 29 18 14 27 19 15 43 82 65 57 35 10 8 8 E 16 14 30 35 21 16 16 19 29 28 46 25 36 16 12 16 17 G 1 0 1 3 8 0 1 2 .1 4 1 1 6 1 0 1 9 TOTAL 147 60 101 126 66 52 81 66 77 143 252 232 281 197 73 82 35
.D Beaver Valley Joint Frequency Distribution Tables For Batch Releases a Second Quarter 1985
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AAA A NUS CORPORATIDN - ENVIRONMENTAL SERVICES A.AAA TUE, AUG 06 1985 PAGE 1 y TIME OF DAY: 09:44:38 FROGRAM: LIST UERSION: 2P i' LISTING FOR BEAVER U4LLEY HOURLY METEOROLOGICAL DATA 500-FT LEVEL BATCH

35 ET-

- ------150 ET------- -500 FT-AMB. DEW WIND WIND STD WIND WIND STD WIND WIND STD TEMP POINT DELTA I DELTA I RAIN SPEED DIR DEV SPEED DlR DEV SPEED DIR DEV 35F 35F 150-35 500-35 FALL YR MD DY HR (MPH) (DEG)SC(DEG) SC (MPH) (DEG)SC (DEG)SC (MPH) (DEG)SC (DEG)SC (F) (F) (F) SC (F) SC(IN) 412.3(F4.1 F3.0,3X F4.1)5 25.4 8 14.8 254 16.5 C 17.8 248 12.1 3 78.0 40.8 -1.7 A -3.9 C 0.00 4F5.1 F5.2) 85 4 26 15 9.5 24 85 4 26 14 10.4 244 18.2 B 15.0 254 17.7 0 18.1 247 14.8 C 79.1 39.9 -1.6 A -3.7 D 0.00 85 4 26 15 9.1 250 1U.9 B 13.7 259 13.9 C 16.5 252 11.6 D 79.7 40.6 -1.5 A -3.6 D 0.00 05 4 26 16 7.6 267 24.3 A 12.7 274 13.7 C 16.2 268 10.1 D 80.5 42.2 -1.5 A -3.6 D 0.00 85 4 26 17 6.9 268 20.1 B 11.6 276 12.6 C 15.3 273 9.8 D S0.6 42.2 -1.1 B -3.1 D 0.00 85 4 26 18 6.4 264 18.4 B 11.1 276 11.5 D 14.6 273 7.1 E 79.7 41.3 -0.6 D -2.5 D 0.00 35 4 26 19 2.9 176 35.1 A 6.2 242 14.2 C 10.9 264 4.9 E 74.6 45.1 1.7 F 1.3 E 0.00 05 4 26 20 2.6 161 15.9 C 3.9 208 12.7 C 7.6 262 2.5 F 66.8 47.7. 5.5 G 6.9 E 0.00 85 4 26 21 2.3 163 45.0 A 4.8 245 26.0 A-9.3 295 11.2 D 63.7 48.3 5.5 G 7.3 F 0.00 05 4 26 22 1.6 137 37.7 A 3.8 238 14.1 C 6.0 315 9.4 D 60.5 49.2 6,0 G 8.0 F 0.00 85 4 26 23 1.8 147 16.3 C 2.9 225 12.6 C 6.5 313 5.9 E 57.7 49.6 4.4 G 8.9 F 0.00 05 4 26 24 1.6 155 27.2 A 2.7 239 38.0 A 9.1 357 6.5 E 56.8 50.1 3.9 G 6.6 F 0.00 85 4 27 1 1.3 168 24.3 A 2.8 250 18.5 B 7.3 354 5.0 E 56.0 50.5 3.7 G 5.2 F 0.00 05 4 27 2 1.0 150 43.5 A 3.1 278 17.9 B 7.8 345 10.0 D 55.1 50.4 3.7 G 3.9 F 0.00 85 4 27 3 2.0 29 47.4 A 4.2 354 42.3 A 7.3 350 21.9 B 56.4 44.3 0.1 E -1.7 D 0.00 05 4 27 4 3.2 11 32.5 A 5.5 11 20.1 B 7.3 352 13.5 C 52.6 44.2 -0.3 E -2.1 D 0.00 85 4 27 5 3.2 360 37.3 A 5.8 353 17.4 C 9.8 5 8.6 D 49.9 42.5 -0.4 D -1.9 D 0.00 05 4 27 6 2.3 62 53.8 A 4.5 340 34.9 A 8.7 13 7.3 E 48.5 39.2 -0.4 D -1.4 D 0.00 85 4 27 18 2.2 312 28.0 A 4.7 321 17.6 B 6.0 331 15.2 C 70.6 46.1 -0.7 D -2.5 D 0.00 85 4 27 19 1.5 8 29.3 A 3.7 20 13.3 C 5.9 8 10.0 D 68.2 46.6 -0.1 E -1.6 D 0.00 85 4 27 20 1.3 162 54.4 A 2.1 129 50.8 A 4.5 35 QQ.5B 64 7 48.8 f..gF..F' Q.d"EE 0.00 0.00 05 4 27 21 1.4 141 46.2 A 2.2 182 14.9 C 0.6 67 ./.9 A 61 7 49.8 85 4 27 22 1.5 133 31.0 A 2.4 31 36.0 A 3.1 7 26.6 A 58.3 43.8 2.2 F 3.8 E 0.00 05 4 27 23 1.4 150 22.9 A 1.6 350 53.5 A 4.4 17 9.3 D 55.1 48.6 3.7 G 3.4 E 0.00 85 4 27 24 1.5 164 24.2 A 1.6 339 36.9 A 2.6 5 14.2 C 53.5 48.0 2.9 G 3.5 E 0.00 85 4 28 1 1.4 153 22.5 A 1.4 289 47.1 A 3.6 43 26.6 A 53.3 48.2 2.8 G 1.9 E 0.00 85 4 28 2 1.3 162 25.7 A 1.4 352 25.7 A 2.6 34 18.7 B 53.6 47.2 1.7 E 0.9 E 0.00 85 4 28 3 99.9 999 99.9 - 99.9 999 99.9 - 3.2 57 11.4 D 999.9 999.9 999.9 - 0.9 E 9.99 85 4 28 4 1.4 140 37.4 A 1.8 293 32.8 A 2.5 331 16.8 C 53.8 46.3 0.8 E -0.1 E 0.00 85 4 28 5 1.3 95 38.9 A 2.6 46 28.3 A 3.7 30 17.7 B 54.3 44.7 -0.1 E -1.0 E 0.00 85 4 28 9 2.7 324 43.8 A 3.7 331 23.3 A 5.6 349 16.4 C 51.5 47.9 -0.7 D -2.2 D 0.00 85 42810 4.3 1 42.1 A 7.2 15 18.6 B 7.0 358 15.6 C 53.9 45.2 -1.2 A -3.1 D 0.00 85 4 28 11 4.9 14 39.5 A 9.7 20 10.8 D 9.5 5 10.0 D 56.8 43.2 -1.5 A -3.5 D 0.00 85 42812 4.4 27 44.2 A 6.8 22 23.6 A 7.7 1 18.6 B 60.3 42.2 -1.6 A -3.9 C 0.00 85 4 28 13 6.2 339 41.2 A 8.3 345 27.4 A 9.9 337 18.9 B 63.4 43.7 -1.6 A -4.0 C 0.00 85 4 28 14 6.8 344 32.4 A 9.8 347 22.7 A 12.0 342 20.1 B 64.7 43.7 -1.6 A -3.8 D 0.00 85 42815 6.5 347 36.3 A 9.9 354 21.6 B 12.5 346 17.1 C 63.7 45.1 -1.2 A -3.3 D 0.00 85 4 28 16 7.0 340 36.5 A 10.2 346 20.0 B 12.6 340 12.9 C 63.6 45.0 -1.2 A -3.3 D 0.00 85 4 28 17 7.4 3 26.7 A 12.4 7 14.5 C 15.6 355 12.2 D 63.3 42.7 -1.6 A -3.7 D 0.00 85 4 28 18 6.4 15 29.8 A 11.6 11 15.9 C 15.7 354 9.9 D 60.8 41.8 -1.1 B -3.2 D 0.00 85 4 28 19 4.9 360 27.9 A 8.6 359 16.1 C 13.5 352 9.8 D 57.3 40.8 -0.6 D -2.4 D 0.00 05 4 28 20 4.2 347 27.8 A 7.0 356 15.0 C 11.7 354 8.8 D 53.7 39.1 -0.3 E -2.0 D 0.00 85 4 28 21 4.1 340 23.7 A 5.9 342 20.2 B 10.9 346. 11.2 D 51.0 37.1 -0.4 D -1.9 D 0.00 85 4 28 22 2.7 304 47.1 A 4.0 319 31.0 A 8.7 347 12.7 C 49.0 36.6 -0.3 E -1.9 D 0.00 85 4 28 23 2.9 343 20.7 A 4.6 326 22.0 B 11.0 348 8.3 D 47.1 36.0 -0.2 E -1.4 D 0.00 05 4 28 24 1.8 262 71.7 A 3.9 339 24.9 A 8.6 353 10.3 D 45.0 36.0 0.4 E -0.7 E 0.00 85 4 29 1 1.7 150 46.7 A 3.2 263 26.9 A 5.6 344 21.3 B 42.3 36.5 1.9 F 0.9 E 0.00 85 4 29 2 1.4 152 58.9 A 2.6 305 36.5 A 7.6 3 12.7 C 40.6 36.7 2.0 F 1.5 E 0.00 m
4AA A NUS CORPORATION - ENVIRONMENTAL' SERVICES'A'AAA TUE, AUG 06 1985 PAGE 2 TIME OF DAY: 09:44:38 PP0 GRAM: LIST VERSION: 2P LISTING FOR BEAVER VALLEY HOURLY METEOROLOGICAL DATA 500-FT: LEVEL BATCH -35 FT-150 ET---- --500 FT-- I AMB. DEW' WIND WIND STD W IND WIND STD WIND WIND STD TEMP POINT DELTA I DELTA T-RAIN i: SPEED DIR DEV SPEED DIR DEU SPEED DIR DEU 35F. 35F 150-35 500-35 FALL YR M0 DY HR (MPH) (DEG)SC(DEG) SC (MPH) (DEG)SC (DEG)SC (MPH) (DEG)SC (DEG)SC (F) (F). (F) SC (F) ESC (IN) SS 4 29 5 1.Y 15 412.3(F4.1F3.0,3XF4.1)$ 35.7A 1.7 231 59.7 A 6.0 35 26.1 A 33.9 26.6 2.7 G 2.7 E 0.00. 4F5.1 F5.2) 85 4 29 6 99.9 999 99.9 - 99.9 999 99.9 - 4.0 294 14.9 C 999.9 999.9 999.9. 3.1 E 9.99 -l 85 4 29 7 3.1 234 16.8 C 3.7 259 14.2 C 3.6 05 4 29 3 2.4 281 30.0 A 2.1 295 45.3 A 2.0 ~ 315 24.4 A 41.6 38.0 -0.6 D -0.6 E- 0.00 8 21.6 B 46.0 37.7 -0.8 D -1.7 D 0.00 85 4 29 9 3.1 59 51.7 A 5.0 66 27.2 A 5.9 65 17.1 C 52.7 32.8 -1.5 A -3.6 D 0.00 I 85 4 29 10 4.0 16 58.4 A 5.7 41 36.5 A 6.1 50 23.5 A 55.8 30.1 -1.6 A -3.9 C 0.00 85 42911 4.1 358 43.4 A 5.7 17 32.9 A 6.5 28. 26.3 A 59.0 30.7 -1.7 A -4.2 C 0.00 85 4 29 12 4.2 10 46.3 A 5.5 32 38.1 A 5.5 40 26.6 A 62.1 29.9 -1.5 A -4.1 C 0.00 l 85 42913 4.1 354 44.8 A 5.2 17 44.4 A 5.2 25 37.9 A 64.5 30.7- -1.5 A -4.0 C HB 1 il le !:8 388 88:8 2 9:3 3i9 33:2 2 3:3 12 3!:2 2 23:3
33:8

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8 85 4 29 16 4.1 33 44.9 A 6.2 51 29.4 A 7.9 49 19.4 B 69.2 33.6
-1.7 A -4.4 B 0.00 85 42917 3.1 19 54.4 A 5.3 35 26.6 A 6.9 34 20.0 B 69.8 34.0 -1.6 A -4.0 C 0.00 1 85 4 29 IS 1.6 59 49.1 A 2.9 339 34.9 A 6.7 10 10.3 D 68.5 35.4 -1.1 B -2.8 D 0.00 t 85 42919 1.2 171 50.4 A 1.2 96 72.1 A 1.7 12 39.1 A 63.3 39.8 1.8 E 0.0 E 0.00 1 05 4 29 21 2.0 141 32.7 A 4.9 209 8.8 D 3.6 322 14.1 C 51.8 41.3 4.5 G 8.8 F 0.00 t 35 4 29 22 2.1 143 21.1 B 4.4 211 9.6 D 3.3 333 10.4 D 49.3 41.2 4.9 G 9.2 E 0.00 i 85 42923 2.0 151 22.6 A 2.4 197 32.0 A 2.6 338 26.0 A 47.8 41.8 4.1 G 8.9 F 0.00 ( 6S 4 29 24 2.1 141 18.7 B 4.2 203 8.1 D 2.2 318 19.1 B 46.3 41.8 4.2 G 8.3 E 0.00 l 05 4 30 1 1.6 145 20.3 B 2.8 52 22.0 B 2.9 63 13.3 C 43.7 42.0 4.3 G 9.8 F 0.00 02 238 s I:t li? 13:1 8 i:2 3 13:1 R B:! i!s 23:8 E il:t 18:3 3:s 2 28:8 9 8:88 l 85 4 30 4 1.4 146 11.2 U 1.9 10 17.3 C 1.2 344. 24.0 A 39.4 39.4 3.7 G - 6.9 F 0.00 ) 85 4 30 5 1.5 135 6.6 E 2.8 26 8.6 D 3.7 100 3.9 E 38.6 38.5 3.6 G-9.7 E 0.00 85 4 30 6 1.8 11C 10.4 D 3.0 40 8.1 D 5.3 107' 2.4 F 39.9 39.8 2.0 F 8.7 F.0.00 i, 05 4 30 7 1.4 175 20.0 B 1.3 59 30.4 A 2.8 106 8.9 D 44.0 42.5 -0.1 E 5.1 F 0.00 ( 85 4 30 8 1.1 243 61.5 A 1.3 6 73.5 A 1.8 103 6.1 E 50.2 45.2 -0.6 D-3.7 E 0.00 t 85 4 30 9 2.3 305 38.9 A 2.2 345 31.0 A 5.9 221 15.1 C 60.5 45.6 -0.5 D 1.2 E 0.00 i P5 4 30 10 3.3 292 20.7 A 4.0 283 29.1 A 5.3 255 15.5 C 67.8 43.8 -1.0 C -2.6 D 0.00 1 85 4 30 11 3.4 299 56.1 A 3.9 286 39.8 A 5.0 281 18.4 B 71.9 43.4 -1.4 A -3.7 D 0.00 t 85 4 30 12 3.9 246 41.3 A 4.2 253 27.9 A 4.7 258 25.2 A 74.8 43.3 -1.6 A -3.6 D 0.00 B5 4 30 13 4.2 274 41.5 A 4.8 270 43.4 A 5.5 262 24.5 A 77.4 42.6 -1.5 A -3.8 D 0.00 + 85 4 30 14 4.7 296 49.8 A 5.6 250 49.9 A 6.5 242 33.9 A 79.8 41.1 -1.4 A -3.7 D 0.00 05 43015 7.0 248 21.5 B 9.3 253 17.5 B 11.0 250 12.6 C 81.1 40.6 -1.6 A -3.8 D 0.00 i 85 4 30 16 5.6 245 25.6 A 7.4 247 21.6 B 9.2 235 13.0 B 81.6-42.3 -1.4 A -3.6 D 0.00 l 85 4 30 17 7.1 250 16.1 C 9.8 254 11.7 D 12.3 242 9.4 D 81.2 42.9 -1.1 B -3.1 D- 0.00 85 4 30 18 4.2 221 17.7 B 6.S 248 13.3 C 9.4 252 6.1 E 79.0 .45.2 '0.2 E -1.4 D 0.00 85 4 30 19 1.5 150 26.8 A 5.4 202 5.4 E 6.5 247 3.4 E 70.8 50.5 4.5 G 5.9 F 0.00. 85 4 30 20 1.8 151 31.1 A 4.0 175 33.9 A 3.6 240 10.9 D 66.0 50.3 3.6 G 8.1 F 0.00 85 4 30 21 1.9 162 30.9 A 4.8 '214 10.5 D 5.3 279 7.2 E 62.1 49.9 4.2 G 10.4 G 0.00 85 4 30 22 1.7 136 29.4 A 4.3 217 9.4 D 3.4 267 6.7 E 59.0 49.3 4.3 G 11.1 G 0.00 05 4 30 23 1.5 144 39.9 A 2.0 213 42.2 A 3.8 354 20.8 D 56.9 49.3-3.6 G 9.5 E 0.00 85 43024 1.5 155 21.3 B 2.4 210 20.9 B 1.4 9 17.7 B 55.0 49.6 3.8 G 8.8 F 0.00 85 5 1 1 1.5 141 20.8 B 3.2 217 10.6 D .l.2 31 15.0 C 53.9 49.8 3.7 G 7.7 F 0.00' 85 5 1 2 1.5 133 20.0 A 2.9 214 12.6 C 0.7 103 21.8 B 52.7 50.0 3.3 G 7.' E 0.00 05 5 1 3 1.5 155 19.8 B 1.6 217 23.2 A 1.6 21 39.9 A 51.0 49.7 3.4 G 7.$F 0.00-85 5 1 4 1.4 140 17.3 C 1.7 70 29.5 A 1.6 32 25.8 A 50.0' 49.5 2.9 G 6.7 E 0.00 85 5 1 5 1.3 148 13.2 C 1.9 267 25.2 A 1.2 344 22.0 B 49.2 48.8 2.9 G 6.0 F 0.00 u
.- _m AAA A NUS CORPORATION - ENVIRONMENTAL SERVICES A AAA' TUEg AUG 06 1985 PAGE 3 TIME OF DAY: 09:44:38 PROGRAM: LIST UERSION: 2P LISTING EOR BEAVER VALLEY HOURLY METEOROLOGICAL DATA 500-ET LEVEL BATCH

35 ET-------

150 ET

500 ET- -

'l AMB. DEW WIND WIND STD WIND WIND STD WIND WIND STD TEMP POINT DELTA I DELTA T RAIN SPEED DIR DEV SPEED DIR DEV SPEED DIR DEV 35E 35E 150-35 500-35 EALL YR M0 DY HR (MPH) (DEG)SC(DEG) SC (MPH) (DEG)SC (DEG)SC (MPH) (DEG)SC (DEG)SC (E) (E) (E) SC (E) SC(IN) 4I2.3(E4.1,E3.0,3X E4.1),4E5.1,ES.2) 1.E 143 13.1 C 2.4 209 10.8 D 0.5 202 7.0 E 50.6 49.4 1.7 E 4.2 E 0.00 85 5 1 e 85 5 1 7 1.0 65 37.5 A 1.3 127 46.6 A 2.2 101 6.1 E 53.7 50.9 -0.4 D 2.5 E 0.00 85 5 1 8 1.1 051 26.0 A 1.3 351 30.3 A 1.5 124 22.6 A 55.8 51.5 -0.6 D 0.7 E 0.00 85 5 1 9 1.6 293 23.4 A 1.3 318 26.8 A 1.9 277 12.3 D 59.9 52.0 -0.7 D -0.1 E 0.00 85 5 1 10 2.5 258 18.9 B 2.4 258 19.0 B 2.4 311 16.9 C 64.1 53.2 -0.8 D -0.9 E 0.00 85 5 1 11 3.2 263 18.3 8 3.7 269 17.5 B 3.5 272 20.4 B 69.4-53.0 -1.0 C -3.0 D 0.00 85 5 1 12 5.0 276 24.1 A 7.7 233 15.5 C 8.5 233 9.9 D 71.6 51.8 -1.3 A. -3.4 D 0.00 85 5 1 13 6.5 273 20.5 B 10.9 280 11.7 D 13.2 275 6.9 E 72.0 51.3 -1.2 A -3.2 D 0.00 85 5 1 14 6.4 258 16.6 C 9.7 270 9.5 D 11.9 268 6.3 E 69.6 53.9 -0.9 D -2.8 D 0.00 8p p 1 1"d Q.1 30G 31.9 A 5.8 298 16.3 C 9.7 290 6.7 E 65.4 57.1 -0.6 D -2.2 D 0.02 8s s Il .4 25u 13.7 C 3.0 256 12.0 D 4.2 279 10.8 D 62.8 58.0 -0.5 D. -1.8 D 0.02 85 5 1 17 1.5 115 59.2 A 2.6 150 40.5 A 2.6 331 40.2 A 61.1 60.0 -0.1 E -1.4 D 0.01 85 5 1 18 1.5 201 34.9 A 1.8 216 36.4 A 2.3 326 33.9 A 61.0 60.0 -0.3 E -2.0 D 0.03 85 5 1 19 2.8 233 27.2 A 3.7 266 19.3 B 4.2 284 16.1 C 60.5 59.5 -0.5 D -2.5 D 0.05 85 5 1 20 2.5 34 38.7 A 5.2 40 16.8 C 6.8 21 14.9 C 59.1 58.2 -0.8 D -2.2 D 0.05 85 5 1 21 2.3 54 47.2 A 5.3 58 27.1 A 8.9 40 17.2 C 57.9 56.8 -0.9 D -1.9 D 0.01 85 5 2 24 3.9 54 39.0 A 11.7 62 9.9 D 15.5 53 7.4 E 49.7 44.6 -0.4 D -2.3 D 0.00 85 5 3 1 3.0 36 40.4 A 8.5 64 14.4 C 13.3 48 12.0 D 49.5 45.0 -0.5 D -1.8 D 0.00 85 5 3 2 2.8 55 41.6 A 6.0 54 23.7 A 12.2 33 12.7 C 49.3 45.5 -0.5 D -1.9 D 0.00 85 5 3 3 3.0 25 33.0 A 5.7 36 25.2 A 8.6 30 16.1 C 49.0 45.6 -0.5 D -2.0 D 0.00 85 5 3 4 3.6 25 34.1 A 7.6 54 16.4 C 8.6 30 14.8 C 48.2 45.2 -0.3 E -1.8 D 0.00 85 5 3 5 3.0 27 33.0 A 7.1 59 15.8 C 10.4 35 12.8 C 47.2 44.3 -0.3 E -1.3 D 0.00 85 b 3 8 3.8 6 21.9 B 5.4 28 20.8 B 7.1 21 17.2 C 51.3 42.8 -0.8 D -2.9 D 0.00 85 5 3 9 4.5 352 27.4 A 6.6 360 19.5 B 8.3 357 12.6 C 54.9 41.2 -1.2 A -3.2 D 0.00 85 5 3 10 6.7 4 27.3 A 10.9 26 18.6 B 13.6 22 12.9 C 58.4 37.7 -1.4 A -3.5 D 0.00 85 5 3 11 7.5 15 29.2 A 12.9 29 18.0 B 14.2 2d 15.8 C 60.9 34.4 -1.6 A -3.7 D 0.00 05 5 3 24 1.7 127 15.5 C 4.4 217 9.4 D 4.4 294 5.8 E 39.1 36.3 4.4 G 7.8 E 0.00 85 5 4 1 1.8 143 14.1 C 3.1 211 9.3 D 3.4 278 6.0 E 37.5 35.8 4.6 G 5.8 E 0.00 35 5 4 2 2.1 140 12.6 C 3.7 210 9.1 D 4.3 272 5.3 E 36.2 35.3 4.2 G 5.1 E 0.00 85 5 4 3 2.0 139 10.3 D 3.5 209 10.6 D 4.1 263 6.2 E 35.5 34.8 4.0 G 4.4 F 0.00 35 5 4 4 1.8 151 16.8 C 2.6 206 12.0 D 2.3 230 10.3-D 35.2 34.7 3.2 G 5.4 E 0.00 85 5 4 5 1.7 156 18.7 B 2.5 190 12.6 C 3.3 246 12.4 D 36.0 35.8 1.4 E 1.7 E 0.00 85 5 4 6 1.6 163 15.9 C 1.7 153 11.5 D 2.7 255 14.7 C 36.5 36.3 1.0 E 0.6 E 0.00 85 5 4 7 1.9 204 18.2 B 1.8 208 33.6 A 5.2 244 10.4 D 39.3 39.3 -0.6 D 1.3 E 0.00 85 5 4 8 2.9 251 13.9 C 3.1 257 11.2 D 6.6 230 3.8 E 43.7 40.8 -1.0 C 2.6 E 0.00 85 5 4 9 2.7 232 22.6 A 3.1 260 23.9 A 5.3 263 7.7 D 52.8 40.3 -0.9 D -1.3 D 0.00 85 5 5 11 12.5 249 14.7 C 18.3 259 12.5 C 22.0 250 10.7 D 70.4 49.8 -1.2 A -3.3 D 0.00 85 5 5 12 12.2 244 15.8 C 16.7 255 15.4 C 21.5-245 11.0 D 72.5 48.4 -1.4 A -3.5 D 0.00 65 5 5 13 13.7 241 16.1 C 18.6 253 14.1 C 23.6 245 9.8 D 74.1 47.7 -1.4 A -3.5 D 0.00 85 5 5 14 13.1 243 18.9 B 17.3 246 17.2 C 22.7 240 12.9 C 75.1 49.4 -1.3 A -3.6 D 0.00 85 5 5 15 12.9 241 17.5 B 16.7 248 14.4 C 21.8 239 11.1 D 75.3 50.0 -1.1 B -3.2 D 0.00-85 5 5 16 12.2 250 14.3 C 18.5 261 9.6 D 22.0 251 8.0 D 75.1 43.7 -0.8 D -2.7 D 0.00 85 5 5 17 10.0 244 14.0 C 14.4 253 11.9 D 19.5 247 9.7 D 75.5 49.6 -0.9 D -2.8 D 0.00 85 5 5 18 8.9 241 14.9 C 12.6 254 13.0 C 16.8 245 9.2 D 74.9 50.2 -0.7 D -2.4 D 0.00 85 5 5 19 8.2 241 11.3 D 11.6 256 8.8 D 17.0 253 6.2 E 73.5 50.4 -0.3 E -1.8 D 0.00 05 5 5 20 5.6 224 17.1 C 8.9 245 10.9 D 14.3 243 7.4 E 71.7 51.1 0.2 E -1.2 E 0.00 85 5 5 21 4.9 204 15.7 C 7.7 237 10.3 D 14.1 244 7.2 E 68.8 52.4 1.3 E 0.2 E 0.00 85 5 5 22 5.4 210 13.9 C 8.2 235 10.3 D 12.1 243 7.8 D 68.2 '54.1 0.7 E -0.6 E 0.00 ~~_ a
=__ 4 AAA A NUS CORPORATION - ENVIRONMENTAL SERVICES A AAA TUE, AUG 06 1985 .PAGE 4-o_ TIME OF DAY: 09:44:38 PROGRAM: LIST VERSION: 2P d LISTING FOR BEAVER VALLEY HOUFLY METEOROLOGICAL DATA 500-FT LEVEL-BATCH

35 FT

==- -150 ET--
=
500 ET AMB. DEW WIND WIND STD WIND WIND STD WIND WIND STD TEMP POINT DELTA T DELTA T RAIN - SPEED DIR DEV SPEED DIR DEU SPEED DIR DEU 35F 35F 159-35 500-35 FALL i YR M0 DY HR (MPH) (DEG)SC(DEG) SC (MPH) (DEG;SC (DEG)SC (MPH) (DEG)SC (DEG)SC (F) (F) (F) SC (F) SC(IN) I 412.3(E4.1 F3.0,3X,F4.1).4F5.1 F5.2) 35 5 5 25 4.7 193 6.6 D 8.5 222 7.1 E 16.1 225 4.8 E 64.5 54.8 2.4 F 1.9 E 0.00 i 85 5 5 24 4.9 207 12.1 D 8.3 224 8.7 D 16.3 222 6.4 E 65.2 53.4 1.2 E 0.4 E 0.00 85 5 6 1 3.6 224 14.6 C 5.7 240 13.2 C 12.6 225 9.9 D 65.4 53.0 0.4 E -0.7 E 0.00 85 5 6 2 2.8 191 18.5 B 5.9 238 11.2 D 11.0 236 8.1 D 62.8 55.1 2.2 F 1.2 E 0.00 85 5 6 3 6.0 212 11.6 D 8.8 226 9.9 D 16.5 230 5.2 E 64.6 54.1 0.2 E -0.9 E 0.00 85 5 6 4 6.1 220 11.1 D 8.6 223 10.4 D 15.2 219 6.1 E 65.2 53.9 -0.3 E -1.5 D 0.00 85 5 6 5 5.8 221 15.7 C 8.1 226 12.7 C 15.0. 220 8.0 D 65.3 54.1 -0.2 E -1.6 D 0.00 [ 85 5 6 6 8.2 217 14.1 C 11.3 221 9.7 D 18.6 220 6.8 E 65.1 54.3 -0.4 D -1.8 D 0.00 82 2 3 21 3:8 l!3 13:8 B 1:1 318 17:3 B !:S 333 18:3 S 13:1 13:! 3:383:2F!:.gg 85 5 7 23 2.4 149 23.2 A 3.9 217 9.8 D 3.7 244 9.9 D 45.4 44.4 3.6 G 7.3 F 00 85 5 8 2 2.0 174 18.7 B 3.8 248 12.7 C 4.4 250 15.2 C 45.3 44.9 2.1 F 3.8 E 0.00 4 85 5 8 3 2.7 100 12.1 D 3.9 232 11.7 D 8.0 285 4.7 E 46.6 46.0 1.4 E-2.8 E 0.00 85 5 8 4 3.5 138 10.4 D 4.7 240 13.2 C 10.0 275 2.3 F 46.3 45.5 1.5 E 5.2 F 0.00 85 5 8 5 1.8 150 32.4 A 3.3 226 20.2 B 8.0 290 4.7 E 45.5 45.3 2.1 F 4.2 E 0.00 85 5 8 6 1.3 156 20.5 B 1.6 273 27.0 A 4.9 339 8.0 D 45.6 45.2 1.9 F 4.4 F 0.00 i 85 5 8 7 1.3 307 39.5 A 1.5 359 45.2 A 4.6 23 18.8 B 49.4 47.4 0.0 E 1.3 E 0.00 i C5 5 8 8 2.7 1 42.8 A 3.8 40 30.8 A 5.7 61 18.6 B S4.7 45.2 -0.5 D -2.1 D 0.00 l 85 5 8 9 4.2 3 32.8 A 6.8 30 19.8 B 9.1 40 18.7 B 59.0 42.7 -1.0 C -3.4 D 0.00 F B5 5 8 10 4.8 350 31.6 A 7.1 5 16.3 C 7.2 3 17.6 B 60.3 42.8 -1.2 A -3.1 D 0.00 85 5 8 11 5.4 359 36.6 A 8.5 4 25.4 A 8.9 357 14.4 C 62.7 42.5 -{.8A -3.9 C 0.00 l C5 5 8 12 6.3 350 44.0 A 10.0 257 24.4 A 10.6 349 16.6 C 64.4 40.8 .0A -4.2 C 0.00 85 5 8 13 5.8 352 42.1 A 9.1 352 23.0 A 10.3 346 20.2 B 65.9 35.6 -1.9 A -4.2 C 0.00 I 85 5 8 14 5.5 7 40.2 A 8.7 10 24.2 A 9.3 2 18.3 B 66.9 34.2 -2.0 A -4.3 C 0.00 85 5 8 15 6.2 339 35.1 A 9.0 337 26.0 A 10.0 325 18.8 B 66.6 34.2 -1.6 A -3.8 D 0.00 05 5 8 16 5.3 1 30.1 A 8.1 4 13.1 B 8.8 348 15.1 C 67.1 32.7 -1.8 A -4.1 C 0.00 t 85 5 8 17 4.9 357 28.0 A 7.9 4 18.8 B 9.3 353 12.8 C 66.8 34.0 -1.6 A -3.9 C 0.00 05 5 8 18 4.7 2 25.8 A 7.9 13 10.2 D 10.0 7 4.3 E 65.0 32.5 -1.1 B -3.1 D 0.00 6 85 5 8 19 3.4 10 33.1 A 3.0 14 9.3 D 13.3 9 2.8 F 61.3 32.1 -0.1 E -1.3 D 0.00 05 5 21 19 4.4 353 33.8 A 7.9 358 18.6 B 12.1 356 9.8 D 61.6 '45.5 -0.6 D -2.4 D 0.00 85 S 21 20 3.6 32b 21.8 A 6.3 347 16.9 C 12.0 353 7.6 D 57.7 43.4 -0.4 D -1.9 D 0.00 85 5 21 21 2.7 337 67.1 A 4.8 343 33.6 A 9.9 358 12.7 C 54.5' 41.9 -0.2 E -1.7 D 0.00 85 5 21 22 2.3 322 45.3 A 4.0 330 19.7 B 8.8 359 10.3 D 51.9 41.6 0.1 E -1.2 E 0.00 85 5 21 23 1.5 101 65.7 A 2.5 317 29.5 A-6.1 359 25.8 A 48.3 42.4 2.0 F 1.0 E 0.00 85 5 21 24 1.4 163 60.7 A 3.0 270 33.0 A 5.7 337 22.0 B 45.8 42.3 3.1 G 2.2 E 0.00 35 5 22 1 1.3 135 54.1 A 2.2 296 44.7 A 7.7 6 15.2 C 43.2 41.8 3.8 G 3.8 E 0.00 85 5 22 2 1.4 141 40.7 4 1.6 304 60.7 A 3.0 354 42.6 A 41.5 40.9 3.4 G 4.2 F 0.00 85 5 22 3 1.5 134 24.2 A 1.8 241 40.7 A 3.2 338 23.0 A 39.9 39.9 3.6 G 5.4 E 0.00 85 5 22 4 1.7 138 29.1 A 3.4 224 22.7 A 4.6 293 16.6 C 39.5 39.5 2.9 G 4.3 F 0.00 85 5 22 5 1.3 141 34.1 A 2.0 148 22.2 B 4.3 356 18.0 B 38.5 38.2 2.9 G 5.5 E 0.00 85 5 22 6 1.6 122 34.2 A 2.4 99 34.5 A 3.1 13 7.6 D 40.9 40.6 0.9 E 2.9 E 0.00 85 5 22 7 1.7 234 44.0 A 2.2 191 49.2 A 4.0 25 33.4 A 46.8 41.9 -0.5 D -1.0 E.0.00 85 5 22 3 2.5 321 27.9 A 2.7 341 44.6 A 1.4 71 59.6 A 50.3 43.0 -0.9 D -2.3 D 0.00 tt5 5 22 9 2.8 14 47.6 A 3.8 21 17.3 C 2.2. 11 35.9 A 54.6 43.8 -1.1 B -2.4 D 0.00 85 5 22 10 3.3 13 32.1 A 4.5 50 21.9 8 4.5 62 14.3 C 58.0 42.7 -1.0 C -2.7 D 0.00 85 5 22 11 3.5 22 59.5 A 4.9 53 34.5 A 4.9 82 27.1 A 61.3 42.3 -1.5 A -3.5 D 0.00 35 5 22 12 3.9 6 59.1 A 6.1 50 39.7 A 6.0 50 25.2 A 63.9 42.1 -1.8 A -4.0 C 0.00 05 5 22 13 4.0 54 55.8 A 7.6 62 22.9 A 0.2 55 17.2 C 66.7 43.4 -0.6 A -5.1 A 0.00 s
AAA A NUS CORPORAT10N - ENVIRONMENTAL SERVICES A AAA TUE, AUG 06.1985 PAGE 5 TIME OF DAY: 09:44:38 PROGRAM: LIST VERSION: 2P o LISTING FOR BEAVER VALLEY HOURLY METEOROLOGICAL DATA 500-FT LEVEL BATCH

35 FT 150 FT---

---500 FT-AMB. DEU WIND WIND STD WIND WIND STD WIND WIND STD TEMP POINT DELTA I DELTA T RAIN-SPEED DIR DEV SPEED DIk DEU SPEED DIR DEV 35F 35F 150-35 500-35 FALL YF M0 DY HR (MPH) (DEG)SC(DEG) SC (MPH) (DEG)SC (DEG)SC (MPH) (DEG)SC (DEG)SC (F) (F) (F) SC (F) SC(IN) 4I2.3(F4.1.F3.0,3X F4.1).4F5.1.F5.2) 85 6 3 18 3.5 334 28.1 A 5.9 339 20.7 8 8.1 341 10.4 D 71.5 61.0 -0.7 D '-2.7 D 0.00 85 6 3 19 5.0 4 44.3 A 10.2 8 12.0 D 13.8 354 6.6 E 69.0 58.0 -0.5 D -2.5 D 0.00 85 6 3 20 2.9 8 62.9 A 6.5 15 24.9 A 11.5 355 12.3 D 64.9 52.0 -0.2 E -1.9 D 0.00 85 6 3 21 2.4 1 64.9 A 5.3 13 34.9 A 10.0 357 17.8 B 62.8 49.1 -0.1 E -1.6 D 0.00 85 6 3 22 2.3 13 61.5 A 4.9 20 33.3 A 9.0 10 13.8 C 61.4 48.5 -0.3 E -1.8 D 0.00 85 6 3 23 2.5 293 51.3 A 4.6 9 39.1 A 9.2 14: 8.5 D 60.0 47.5 -0.3 E -1.8 D 0.00 85 6 3 24 3.2 357 30.1 A 6.0 8 13.9 C 9.1 7 13.8 C 58.9 45.0 -0.5 D -2.1 D 0.00 85 6 4 1 2.2 320 25.2 A 4.0 343 17.1 C 7.8 9 10.0 D 56.9 44.5 -0.2 E -1.6 D 0.00 85 6 4 2 2.0 332 24.0 A 2.6 323 16.2 C 5.2 355 10.9 D 54.9 45.1 0.1 E -1.3 D 0.00 85 G 4 3 1.2 56 40.7 A 1.7 326 37.3 A 5.7 360 19.5 B 52.2 46.0 1.0 F 0.1 E 0.00 85 6 4 4 1.4 123 47.8 A 2.2 356 43.3 A 6.1 28 13.5 C 50.6 46.1 1.6 F. 0.7 E 0.00 85 6 4 5 1.1 153 37.0 A 1.4 332 33.0 A 3.6 24 16.7 C 49.9 47.2 1.5 F 0.7 E 0.00 85 6 4 6 1.2 90 34.7 A 1.7 48 27.6 A 4.9 37 14.8 C 51.3 47.5 0.4 E -0.6 E 0.00 85 6 4 7 1.8 308 61.9 A 2.3 345 34.3 A 3.2 360 33.8 A 55.1 47.7 -0.8 D -2.5 D 0.00 85 6 4.8 2.3 262 20.0 D 2.2 276 26.6 A 1.6 306 17.5 B 56.7 48.6 -0.8 D -2.6 D 0.00 85 6 4 9 2.2 304 52.8 A 2.1 339 71.5 A 2.6 23 37.8 A 59.6 50.0 -0.8 D -2.6 D. 0.00 85 6 4 10 3.3 17 46.7 A 4.8 43 22.6 A 5.6 48 17.7 B 64.7 50.0 -1.3 A -3.5 D 0.00 85 6 4 11 3.0 54 60.9 A 5.3 81 32.9 A 6.3 70 14.8 C 67.5 48.3 -1.8 A -4.0 C 0.00 ~ 85 6 7 13 3.3 120 82.9 A 4.7 127 47.2 A 5.6 124 34.3 A 73.7 55.4 -1.9 A -4.4 B 0.00 85 6 7 14 3.4 135 52.0 A 6.3 128 23.0 A 7.5 127 16.8 C 74.4 57.0 -1.9 A -4.2 C 0.00 85 6 7 15 3.2 171 49.0 A 6.0 161 19.5 B 7.9 158 12.8 C 74.3 "7.7 -1.6 A -3.9 C 0.00 85 6 7 16 3.8 191 44.0 A 5.9 178 27.9 A 6.4 179 20.1 B 75.0 $7.5 -1.6 A -3.8 D 0.00 85 6 7 17 3.1 160 49.0 A 6.5 155 17.5 B 8.4 155 9.1 D 75.2 57.7 -1.8 A -4.1 C 0.00 85 6 7 18 3.1 177 40.5 A 6.3 159 13.0 C 7.2 158 8.1 D 74.6 57.2 -1.3 A~ -3.4 D 0.00 85 6 7 19 2.3 176 39.2 A 7.8 160 8.4 D 12.4 159 2.7 F-71.5 59.0- -0.3 E -2.0 D 0.00 05 6 7 20 2.0 124 50.0 A 5.7 111 26.0 A 11.6 157 5.0 E 69.2 60.1 -0.2 E -1.4 D 0.00 85 6 7 21 1.4 87 45.0 A 2.6 100 23.7 A 8.6 141 7.2 E 67.7 60.4 -0.2 E -1.6 D 0.00 85 6 7 22 1.7 73 30.6 A 3.2 105 21.6 B 11.2 137 2.9 F G5.4 60.1 0.1 E -0.6 E 0.00 85 6 7 23 1.7 IOR 29.7 A 2.3 92 22.3 B 8.7 134 5.5 E 62.0 59.6 1.8 F 1.2 E 0.00 85 6 7 24 1.6 114 39.3 A 2.7 74 18.8 B 6.8 147 12.0 D 60.4 58.9 1.9 F 1.4 E 0.00 35 6 8 1 1.3 131 24.0 A 3.0 73 8.9 D 1.8 153 18.9 B Pa.5 57.9 2.8 G 2.2 E 0.00 85 6 8 2 1.5 87 28.2 A 2.9 74 11.1 D 0.7 99 16.9 C 58.5 58.0 1.8 F 1.2 E 0.00 85 6 8 3 1.3 91 45.7 A 2.9 75 11.0 D 1.3 96 53.6 A 57.9 57.6 1.4 F 1.3 E 0.00-s _ - _}}

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