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krypton.85m Ci ttg E ij n E iin E iin E krypton.87 Ci iin E iin E iin E nq E Ci LLD E tL9 E LLO E tLa E krypton.88 xenon-133' Ci LLO E LL9 E 2.90 En 2 03 E+1 xen6n.135 Ci LLO E tL9 E 7.20 E-4 5.78 E4 Ci LLD E L1D E LLD E LLO E xenon.135m xenon.138 Ci LL9 E LL9 E L1D E LLD E Others (specify) Ci . E . E . E . E ma, - mu Ci . E . E . E ? .no E-xeni - 133M Ci . E . E . E 1 .52 E-2 unidentified Ci . E . E . E . E Total for period C1 - E - E 2.80 E0 2.07 E+2 | krypton.85m Ci ttg E ij n E iin E iin E krypton.87 Ci iin E iin E iin E nq E Ci LLD E tL9 E LLO E tLa E krypton.88 xenon-133' Ci LLO E LL9 E 2.90 En 2 03 E+1 xen6n.135 Ci LLO E tL9 E 7.20 E-4 5.78 E4 Ci LLD E L1D E LLD E LLO E xenon.135m xenon.138 Ci LL9 E LL9 E L1D E LLD E Others (specify) Ci . E . E . E . E ma, - mu Ci . E . E . E ? .no E-xeni - 133M Ci . E . E . E 1 .52 E-2 unidentified Ci . E . E . E . E Total for period C1 - E - E 2.80 E0 2.07 E+2 | ||
: 2. Iodines iodine.131 Ci llD E LL9 E LLD E LLD E iodine.133 Ci (L9 E LL9 E LLD E tLa E iodine.135 Ci LLO E LLD E LL9 E LLO E Totai for period Ci -E -E -E -E | : 2. Iodines iodine.131 Ci llD E LL9 E LLD E LLD E iodine.133 Ci (L9 E LL9 E LLD E tLa E iodine.135 Ci LLO E LLD E LL9 E LLO E Totai for period Ci -E -E -E -E | ||
: 3. Particulates strontium.89 Ci 1.27 E -9 2.33 E -9 4.05 E-1c L13 E-13 strontium.90 Ci 2 89 E-9 5 73 E -F 8.r6 E-It 2 91 E-12 cesium-134 Ci (La E LLD E LL9 E tu) E cesium-137 Ci llD E LL9 E L1D E LL9 E barium. lanthanum-140 Ci LLD E- L1D E LLD E L1D E Others (specify) Ci . E . E . E . E | : 3. Particulates strontium.89 Ci 1.27 E -9 2.33 E -9 4.05 E-1c L13 E-13 strontium.90 Ci 2 89 E-9 5 73 E -F 8.r6 E-It 2 91 E-12 cesium-134 Ci (La E LLD E LL9 E tu) E cesium-137 Ci llD E LL9 E L1D E LL9 E barium. lanthanum-140 Ci LLD E- L1D E LLD E L1D E Others (specify) Ci . E . E . E . E i Ci . E . E . E . E Ci . E . E . E . E f | ||
i Ci . E . E . E . E Ci . E . E . E . E f | |||
, unidentified Ci . E . E . E . E I | , unidentified Ci . E . E . E . E I | ||
LG = EELm mE L&ER LIMT CF DETECTICN (IABLE 4) | LG = EELm mE L&ER LIMT CF DETECTICN (IABLE 4) | ||
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$ J | $ J | ||
.O .H O -O | .O .H O -O | ||
%CN H .O .O < WW NO= | %CN H .O .O < WW NO= | ||
JHU W g W W E E E TH 2 JHf | JHU W g W W E E E TH 2 JHf | ||
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O | O | ||
W W up w w e e # # # ' s a w w w a w w g g g | W W up w w e e # # # ' s a w w w a w w g g g J CCCCCCCCCCCCOCCCC J C C C C C C C C N - - N C O C C O J' | ||
J CCCCCCCCCCCCOCCCC J C C C C C C C C N - - N C O C C O J' | |||
.c < - | .c < - | ||
W H O O | W H O O | ||
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3 6 e e e e | 3 6 e e e e | ||
4 | 4 g | ||
ilEAVEtt VALLEY 10/08/79 TO 12/31/70 500 F(xlT LEVEL DATCil PGIODS PERinD OF RECrWIDs 10/11/19-12/ 7/19 4 OBSERVATIONS WITil MISSING D ATA 0 TOTAL OliSEllVATIONS FOR Tile PERina ARE 196 PERCENTAGE OCCultRiitCE OF STAHILITY CL ASSES A D C D E F 3 0.00 0.00 0.00 47.45 38.70 13. lti 0.00 9 | |||
9 I | 9 I | ||
i I | i I | ||
e I}} | e I}} |
Revision as of 02:26, 22 February 2020
ML19290E895 | |
Person / Time | |
---|---|
Site: | Beaver Valley |
Issue date: | 03/12/1980 |
From: | DUQUESNE LIGHT CO. |
To: | |
Shared Package | |
ML19290E894 | List: |
References | |
NUDOCS 8003170279 | |
Download: ML19290E895 (52) | |
Text
{{#Wiki_filter:i l l- E. EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT Suppiernental Information Facility 4 m r W il " "- " ' Ucense* M " "" ' W ^ - ~ ~
- 1. Reguistory Umits
- a. Fission and activation gaseK Article 2.4-3
- b. todines: Article 2.4-3
- c. Particutates, halflives M days: Article 2.4-3
- d. Uquid emuents: Article 2.4-3
- 2. Maximum Permissible Concentrations Provide the MPCs used in determining s!!owable release rates or concentrations.
- a. Fission and activation gaset 10 CTR Part 20, Appendix 3 (TABLE II)
- b. lodines: 10 CTR Part 20. Appendix 5 (TABLE II)
- c. Pstliculstes. half-livesM dayt 10 CTR Part 20, Appendix 5 (TABLE II)
- d. Uquid ef0uents 10 CTR Part 20, Appendix 3 (TABLE II)
- 3. Average Energy Provide t!w average energy (E) of t!.e radionuclide mixture in releases oflission and activation gases,if applicable.
Not Applicable.
- 4. Measurements and Approximations of Total Radioactivity Pmvide the methods used to measure or approximate the total radioactivity in emutnts and the methods used to determine radionuclide composition.
- a. Fission and activation gases: celi Ga=ma spectrometry, Liquid scintillation
- b. fodines: Cali Cama spectrometry
- c. Particulates Geli Gamma spectrometry, Low Background Proportional Counter
- d. , Uquid ef0uents: celi camma spectrometry, Liquid scintillation
}
- 5. Batch Releases Provide ihe followins information relating tc. batch rele:ses of radioactive matenals in liquid and gaseous effluents.
- 3. Uquid 3rd Ouarter 4th Ouarter
- 1. Number of bsich releases: 10 51
- 2. Total time period fnr batch releases: 10486 min 21814 min
- 3. Maximum time period for a batch release-4 Average time period for batch releaset 1048.6 min 42S min
- 5. Minimum time period for a batch relesse-
- 6. Average stream Dow dunns periods of releam of emuent into a flowing stream: 34,300 cu. ft./sec
- b. Caseous 3rd Quarter 4th Ouarter
- 1. Number of batch re' esses: 20 14
- 2. Total time period for batch releases: 11909 min 11379 min
- 3. Maximum time pened for a batch re! esse: 975 min 1414 min l
4 Average time period for batch releases: 595 min 848 min
}
- 5. Minimum time period for a batch release: 38 min 570 min l
i
- 6. Abnormal Releases -
! a. Uquid f 1. Number of releases:
NONE J 2. Totalactivity released:
- b. Caseous
- 1. Number of releases:
NONE
- 2. kaal ectivity released:
YS N 3 8003170 Qt i [ _.
~ , j-TABLE 1 A 1979 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (YEAR)
GASEOUS EFFLUENTS-SUMMATION OF ALL RELEASES Unit Quarter Quartar Est. Total g tg Error, % i A. Fission & activation gases
- 1. Total release Ci 2.m E0 2.07 .E+1 2.0 E+1
- 2. Average release rate for period 4Ci/sec 3.a2 E0 2.00 E+1 -
- 3. Percent of Technical specification lirnit % !vA E ivA E B. Iodines
- 1. Total iodine 131 Ci un E un E 15 E+1
- 2. Average release rate for period 4Ci/sec TVA E tVA E
- 3. Percent of technical specification limit % fVA E fVA E C. Particulates
- 1. Particulates with half. lives >8 days Ci 1.54 E-6 7. 78 E-6 2.0 E+]
- 2. Average release rate for period uCi/sec 1. q E _7 1.m Ea
- 3. Percent of technical specification limit % Va E N/a E
- 4. Gross alpha radioactivity Ci 1.02 E-7 6.14 E-8 -
I D. Tritium
- 1. Total release Ci 3 m E +1 1 c6 E0 15 F#1
- 2. Averace release rate for period uCi/sec 3 67 E 0 1 87 E -1
- 3. Percent of technical specification limit % fvA E fvA E ivA = lbT APPUCABd UD = BEUM WE l.aca LIPJT cF DETECTION CABd 4)
-Nm,
,! m ~.
TABLE 18 1979 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (YEAR) GASEOUS EFFLUENTS-ELEVATED RELEASE CONTINUOUS MODE BATCH MODE Unit Quarter Quarter Quarter Quarter Nuclides Released
- 1. Fission gases k am 3e 4m
' Ci LL9 E LLD E LLD E 1 38 E+1, krypton-85 _
krypton.85m Ci ttg E ij n E iin E iin E krypton.87 Ci iin E iin E iin E nq E Ci LLD E tL9 E LLO E tLa E krypton.88 xenon-133' Ci LLO E LL9 E 2.90 En 2 03 E+1 xen6n.135 Ci LLO E tL9 E 7.20 E-4 5.78 E4 Ci LLD E L1D E LLD E LLO E xenon.135m xenon.138 Ci LL9 E LL9 E L1D E LLD E Others (specify) Ci . E . E . E . E ma, - mu Ci . E . E . E ? .no E-xeni - 133M Ci . E . E . E 1 .52 E-2 unidentified Ci . E . E . E . E Total for period C1 - E - E 2.80 E0 2.07 E+2
- 2. Iodines iodine.131 Ci llD E LL9 E LLD E LLD E iodine.133 Ci (L9 E LL9 E LLD E tLa E iodine.135 Ci LLO E LLD E LL9 E LLO E Totai for period Ci -E -E -E -E
- 3. Particulates strontium.89 Ci 1.27 E -9 2.33 E -9 4.05 E-1c L13 E-13 strontium.90 Ci 2 89 E-9 5 73 E -F 8.r6 E-It 2 91 E-12 cesium-134 Ci (La E LLD E LL9 E tu) E cesium-137 Ci llD E LL9 E L1D E LL9 E barium. lanthanum-140 Ci LLD E- L1D E LLD E L1D E Others (specify) Ci . E . E . E . E i Ci . E . E . E . E Ci . E . E . E . E f
, unidentified Ci . E . E . E . E I
LG = EELm mE L&ER LIMT CF DETECTICN (IABLE 4)
t TABLE 1C - 1979 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (YEAR) GASEOUS EFFLUENTS-GROUND-LEVEL RELEASES CONTINUOUS MODE BATCH MODE Unit Quarter Quarter Quarter Quarter Nuclides Released
- 1. Fission gases 3e 4m 3e 4m -
i krypton 85 Ci uD E ito E no E iin E krypton-85m Ci sE un E t1D E itn E krypton-87 Ci UD E UD E tio E iin E krypton-88 Ci tin E up E un E on E xenon-133 Ci uD E UD E U.06 E-3 uD E xenon 135 Ci uD E iin E t1D E UD E xenon-135m Ci uD E UD E UD E ED E xenon-138 Ci , llD E UD E uD E UD E Others (specify) Ci . E . E . E . E Ci . E- . E . E . E Ci . E . E . E . E Ci E E E E unidentified . . . . Total for period Ci - E ,- E 4.96 E-3 - E l
- 2. Iodines iodine 131 Ci uD E uD E UD E i!n E iodine-133 Ci uD E UD E UD E ED E iodine 135 Ci 19 E- UD E UD E UD E Total for period Ci --
E -E -E -E
- 3. Particulates strontium.89 Ci 2.rs E-7 1.e4 E-7 2 57 E-12 6. f:2 E.12 strontium-90 Ci 1. 33 E-6 7. 53 E-6 2. 97 E -12 7. 64 E.12 cesium-134 Ci UD E UD E UD E UD E Ci u.D E UD E uD E UD E cesium-137 barium lanthanum-140 Ci UD E LLD E U.D E U3 E Ci E E E E.
Others (specify) . . . . Ci . E . E . E . E
! Ci . E . E . E . E Ci E . E . E . E tmidentilied .
UD = Fam mE l>G lmIT CF DETECTIQ4 UAELE 4) _a.
% m.--
i TABLE 2A EFFLUENT AND WASTE DISPOSAL SEM1 ANNUAL REPOR LIQUID EFFLUENTS-SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total Error. % A. Fission and activation products ?e 4m
- 1. Total release (not including tritium, gases, alpha) 1 Ci 9.16 E-3 7.18 E-3 2.0 E+1
- 2. Average diluted concentration during period uCi/mi 1.!!) E-8 4.82 E-9
- 3. Percent of applicable limit % C5 E-2 7.18 E-2 B. Tritium Ci 1.17 E +1 1.35 E+1 15 E+1 l
- 1. Total release
- 2. Average diluted concentration during period gCi/ml 1.79 E-5 9.T E-6
- 3. Percent of applicable limit fo 5.97 E 3 02 E-1 l C. Dissolved and entrnined gases
- 1. Total release Ci LL1) E 3.m E-5 ' 27 E+1 l
l 2. Average diluted concentration during period pCi/mi - E 2.60 E-11 l fo E E
- 3. Percent of applicable limit ?VA fVA D. Gross alpha radioactivity
- 1. Total release Ci *7.91 E-7 j' 7.35 E-7 2.9 E+1
~ E. Volume of waste released (prior to dilution) liters 115 E+6 163 E+6 50 E0 F. Volume of dilution water used during period liters 6.54 E+8 1.49 E 4 10 E+1
. lVA = tbr APPUCMui t1D = Beto< me taen t.imT or DETECTION (Inu 4)
- fbew. U.D e e em e - euee6 9mN-
i TABLE 2B 1979 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (YEAR) LIQUID EFFLUENTS
~
CONTINUOUS MODE BATCH MODE Unit Quarter Quarter Quarter Quarter Nuclides Released strontium-89 Ci VA E WA E 1 15 E -6 1 22 E-5 strontium-90 Ci . E . E 4.14 E -6 3 29 E5 cesium-134 Ci . E . E L1D E- 2se E5 - cesium 137 Ci . E . E 1 76 E4 uD E iodine-131 Ci . E . E uD E uD E cobalt.58 Ci . E . E 6.44 E4 1.N4 E-3 cobalt-60 Ci . E . E 7.97 E-3 5.08 E-3 iron-59 Ci . E . E UD E uD E zinc.65 Ci . E . E ED E uB E manganese-54 Ci . E . E 3.69 E -4 ' 5.EB E-4 chromium.51 Ci . E . E uD E uD E
, ~
zirconium-niobium-95 Ci . E . E un E un E molybdenum 99 Ci . E . E UD E uD E technetium.99m Ci . E . E LLD E IB E barium lanthanum-140 Ci . E . E UD E UD E cerium-141 Ci . E . E uD E uD E Other (specify) Ci . E . E . E . E Ci . E . E . E . E Ci . E . E . E . E Ci . E . E . E . E Ci . E- . E . E . E Ci E E E E unidentified . . . Total for period (above) Ci . E . E 9.16 E-3 7.18 E-3 xenon-133 Ci . E . E uD E uD E xenon-135 Ci . E . E UD E 3. 86 E-5 WA = !bT APPUCABl.F. (LIcVIDS PCT DISO%RGED IN A CONTINUCUS M:CE) ED = 3am mE lAER LIMIT OF DETECTION (IABt.m 4) i
.! L TABLE 3 1979 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (YEAR)
SOLID WASTE AND IRRADIATED FUEL SHIPMENTS A. SOLID WASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Not irradiamd fusi) unit 6 m nth Est. Total
- 1. Type of wr.ste Period Error, %
.a. Spent resins, filter sludges, evaporater m2 1.10 E+1 Ci 151 E+2 3.0 E+1 bottoms. etc.
- b. Dry compressible waste, contaminated m' 9.80 E +1 eqmp, etc. Ci 5.30 E +1 3.0 E +1
- c. Irradiated components, control m' . E rods, etc. Ci . E . E m' . E
- d. Other (describe) E E Ci . .
- 2. Estimate of major nuclide composition (by type of wate) en-m % 8 DO E +1 a.
Co - 58 % 1 27 E +1 54 - 9 % u En b, cn - m % 8 m E+1 Co - 58 % 1 27 E +1 hi - 54 % 58 E0
% . E c. % . E
- % . E
% E
- d. .
% . E % . E
- 3. Solid Waste Disposition Number of Shipments hiode of Transportation Destination TRUCK DE MELL, SC 6
B. IRRADIATED FUEL SHIPMENTS (Disposition) Number of Shipments 5tode of Transportation Destination Tbs
TABLE 4 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1979) LOWER LIMIT OF DETECTION (NOMINAL) CAS Kr-85 2.0 E-10 uCi/cc* _ Kr-85m 5.4 E-8 Kr-87 5.1 E-8 Kr-88 6.6 E-8 Xe-133 1.3 E-7 Xe-135 3.5 E-8 Xe-135m 5.4 E-8 Xe-138 4.2 E-8 I-131 4.0 E-14 I-133 2.6 E-14 I-135 1.4 E-15 Cs-134 1.7 E-17 Cs-137 2.4 E-17 Ba-La-140 4.2 E-17 LIOUID Cs-134 7.4 E-8 Cs-137 7.0 E-8 I-131 3.2 E-8 Fe-59 1.0 E-6 Zn-65 1.2 E-7 Mo-99 3.7 E-7 Te-99m 6.4 E-8 Ba-La-140 6.5 E-8 Ce-141 1.2 E-7 Na-24 6.3 E-7 Cr-51 4.9 E-7 Xe-137 1.4 E-7 Xe-135 5.7 E-8
- Teledyne Sample.
BEAVER VALLEY IOINT FREQUENCY DISTRIBUTION TABLE FOR CONTINUOUS RELEASE FOR AT (150ft-35ft) and 35-ft wind and 6T (500ft-35ft) and 500-ft wind (July 1,1979 - September 30, 1979)
. . . . . . . w w w w gr w w w w w 4 e . . e e a
1 ? 8 i i J @ N e e e P= se P a o e N e S M N N J 4 N == ** O O N es ed M se se as es P= M J == N P e a-
** *e se N M ve se N e w ee se e N p.
O O e OOOOOOOOOOOOOOOOO e N N OOOOOOOOOOOOOOOOO A A e OOOOOOOOOOOOOOOOO e N OOOOOOOOOOOOOOO00 8 N 4 en se
>* Ve ime laa W tad b h aC OOOOOOOOOOOOOOOOO eo e 4 *e d on OOOOOOOOOOOOOOOOO e ea e g g CM3 tD M 3 N se O N as O Z Z .3 W E > E 8 43 8 W imJ Q.
dN A
.J OOOOOOOOON4@ OOOO 4N O O O O O O O O O O M en O O O O e e se M N e se M *= N I W o e G .J N 0 tas e C .J O se == se me
- h. E Z w w M >= >=
4 P=
>= 8 W G @ M N es se dped M N
P* M G P N O N me se N eo 4 P= e o e o O *= O es ** O M N 4 == *e 4 @ P= we N e M p= 8 se en e H
.J e ao E .J e % W E O D n& 3 Q O O O M % Z Z P
O O 8 P
>= M *e 4" c ce es e O e s% O O O WO == N O e. M ve O N *e se N == 0 0 == 0 O O e o 4 1.A I es e M CD W B ** *M ****P tea ao g % O P* b 4,3 ,e E so g % ee .J lg. d g ee og %OO Md u MM y NuM MM MM u% 4 m W 5@ eJ 6 > O d O u u ed w I ee M ee =J O @ M >22 M O >22 M O =J P* e- O O 4O% **e=== =J O =J O > Q *e -3 >= p*
es me >=O
= = =.O. e me ImA lad imJ led 3 3 3 3 >= g .J e- p. 6.J i.J n4 4.3 3 3 3 3 ** E ae **
- u 2 e.4 2 W 4.4 M M3M 232O ea == 4 u 2 i.# 2 MWH M3M 232O W E5% O > tad 2 2 2 led end and W M M M M 3 3 3 2 2 >=
n=d tea PS 4 tes a A CDW 2 2 2 6 4 and W W M M M M 3 3 3 2 2 *= 0.
> Q.
ewg
> d ** pm .J me 4 e las O tea M tad O C
8 O u 4 Q
DLCO - BEAVfR VALLEY 1/1/79 - 9/30/79 35 FOOT LEVtL . PERIOD OF RECORD 1 7/ 1/19- 9/30/79 STABILITY CLASSI C [LEVATION! 35 FEET DELTA i ( 142.6 - 28.68 F[[T DIRECTION 1-3 4-7 8-12 13-18 19-24 >24 TOTAL MIL [S PER lt0 UR N 4 8 0 0 0 0 12 NNE 2 0 0 0 0 0 2 NE 1 0 0 0 0 0 1 [NE 1 0 0 0 0 0 1 [ 0 1 0 0 0 0 1 [ S[. 1 0 0 0 0 0 1
$[ 0 0 0 0 0 0 0 SSE O O O O O O O $ l 1 0 0 0 0 2 SSW 0 5 0 0 0 0 5 SW 1 5 3 0 0 0 9 USW 2 .8 2 0 0 0 12 W 0 11 0 0 0 0 11 '
WNW 0 3 0 0 0 0 3 NW 1 4 0 0 0 0 5 NNW D 8 0 0 0 0 8 TOTALS 14 54 5 0 0 0 73 PERIODS OF CALMS 0 HOURS 8 STABILITY CLAS$1 0 [LEVATION! 35 FECT 0[LTA T ( 142.6 - 28.63 FEET DIRECTION 1-3 4-7 8-12 13-18 19-24 >24 TOTAL 8 MILES PER HOUR N 25 20 0 0 0 0 45 NNE 22 4 0 0 0 3 26 s NE 35 0 0 0 0 4 35 [NE 19 0 0 0 0 0 19 [ 7 0 0 0 0 0 7 8 [SE 5 0 0 0 0 0 5
$[ 5 0 0 0 0 0 5 SSE 11 0 0 0 0 0 11
- S 14 5 0 0 0 0 19
$$W 6 36 3 0 0 0 45 SW 9 to 18 0 0 0 67 8 WSW 12 59 16 0 0 0 87 W 12 30 1 0 0 0 43 WNW 22 16 0 0 0 0 30 NW 16 19 1 0 0 0 36 NNW 29 20 0 0 0 0 49 TOTALS 249 249 39 0 0 0 537 8
PERIOOS OF CALMS 1 HOURS I
) > d
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c >= ee sq
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@ 0*
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b E E es se d p= M >=
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8 ee
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at O % me se me .Jg me en e se 3 as E 3 3 3
> O **
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** et U W lsJ Z led 2 W InJ M tad M 3
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.a Q = - - . . . . . . .
e a e
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- OOOOOOOODOOOOOOOO e OOOOOOOOOOOOOOOCO N N A A e OOOOOOOOCOOCOOCOO e OOODOOOOOOOOODOOO N N 8 8 P P
=* -e t- >=
W taJ led W b b
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6 E E en en d a= M De eE Pm OOOOOOOOOOOOOOOOO 88 Po e M @ W1M N se 4p1e cs dNeOPeM O P= O d at w14 O M P p= 0 M > 8 4 ** E .A e es ce 4 CE r= .J e 3
% W 3 W O Q O O Q Z M Z C' P=
O J ee 8
>M e O se M se P e O se se O O O O se O se .A >= W1 P P 4 N ee P c d o 3 se M M a3 O c O NeCN N M *E W 4 OdOPeJNasPMMNNNMOP M # 4W 8 W ee 81 E P* ** P W ee N E se se N N am Q F* L .a u .J es %e z % es es se %CO Md W Md u P= u M MM M v1 W% 4 6 4 6 E@ O .A O .A P u W ww 0 ** M ee M .J C P >22 M c 3= 2 2 M O .4 P= >GG .J G >OO .4 O 4 en se me me 4 ==
ec% ====== 3> E
> O ** .4 > > W l.J l.J W 3 3 3 3 s= a .4 > > W W W W 3 3 3 =* ** 4 W 2W2 MWM M3M 232O W me e u 21.42 MWM M3e 232O W WE% G3 > led 2 2 2 led W W M M M M M 3 3 3 2 2 > & G3 > W 2 2 2 W W W M M M M M 3 3 3 2 2 s= 4 W W P*
- W at 4WE 3a A be .4 me pm ,J e.
4 MWQ MWQ led 4J 9 O u
.i C = = = e e e e e e g e a g g $
4 DLCO - BEAVER WALLfY 7/1/F9 - 9/30/79 35 FOOT L[ VEL FERIOD Of R[ CORD
- 8 I/ 1/19- 9/30/I9 e
0851RVAi!ONS WliH MIS $1NG DATA 130 i TOTAL 085[RVATIONS FOR T H t" PERIOD ARE 2078 PENCENIAGE OCCURRENCE OF STABILITY CLAS$[$ A B C D E F G 11.65 3.08 3.51 25.89 26.28 18.96 10.64
.4
. = e 7
.J O O O =e O O O O O O O O O O O O n .J O O N ee O O O O O O O C O O O O M 4 4 >= t-O O > s=
e OOO@@ OOOOOOOOOOOO e OOODOOOOOOOOOOOOO N N A A e OGOOOOOOOOOOOOOOO e OOODOOOOOOOOOOOOO N N O I P @ ee se se >= les led W W b b
** O OOOOOOOOOOOOOOOOO a# OOOOOOOOOOOOOOOOO d es e me e e a e 5 ar eM3 CD M 3 N *e O N *e O 3 3 .a
- w. E E D 1 tsJ l taJ tad & G.
.J eN O O O se e O O O O O O O O O O O ** WN OO N**O OO O O OO OOOO OM e we M e we M >= c8 tad O 8 tad O e e .4 e e .J O e me e me w E E w w O
O se >= D 4 P= 0 OO O OO8'mOOOO OO O OOO 4 M* OOOOOOOOOOOOOOOOO M t- 0 M >= 8
@ #e E .J e s N tad 3 W 3 O Q C % Q E O Z M % O 7 O O to M OOOOOOOOOOOOOOOOO t= M OOOOOOOOOOOOOOOOO M M 4W G S tsJ 8 E
P ** e wn E w ee M O P= .J 6 *.J 6 og es g
%g% en ** O O MO U MO u %WM MO Me P* 4.d % 44 h 4@ w 5P ad O eJ O > W W wwI ** M oo M .J O P De 22 M C to 22 M O J P= >= 00 .J O >= O O .d O me me me ** 4 en =E O % == == me et nJ 3 3 3 3* E J >= t= 1.J 4.J t.J t.J 3 3 3 3 >= W M O 8e ed D= >= taJ tad lea w ** me at U 2 4.J 2 MWH M3M 232O is == as u 2 1.J 2 W InJ M M3M 232O 5W% C D tad 2 2 2 tad led Lee M M M M M 3 3 3 2 2 *= 0. e > nmJ 2 2 2 tad led 4.J M M M M M 3 3 3 2 2 s= &
w imJ Pa as i.a a 4 n.J at DA 8= .J == De J *e eE to led Q M tad O
%d O
9 O u me Q
. . . = . . . =
i e
.A m me d M O N M se O O O O O ce O O O J e O M d O P= N N N e 4 N ** O d e O 4 N 4 e e d N M M e M d IP N M O O d W Pm >= e= es se me e O O se >= t=
e OO90DDOODO000OOOO e OODOOOOOODeoOOO00 N N J% 4% e O O O O O O O O O O O O O 7,& O O e O O O O O O O O O O O == N O ** N 4 N N 8 8 e e we re
>= t=
les led W W 6 le.
*= C O O O se O O O O O O O O O O O O =e an e e O 4 N se M @ c d P=es 4 e N M d P d se d == se se c N N se me e e ea eag we #M3 CM3 N ee O N ee O E E .a W E E D 1 tad I and led & & .J eN NOdNOseNseQOOOOeeeOe eN P. N e em e e e e e e o o N N M se e se H ee ese H e N N se NceoeNMee M
C et W WeW e e a .4 e e .A O e == e se b E E w on O O p= De e er P= e*ee=e O O cese O O O O O O O O O @ as P= e c Pm N d me e e P= O == N e P=
- e* el 8= 8 M s= I es se ce se se N se se se N N e =* ** ** M se M e -J e a .A e M E M W 3 W 3
% Q O Q O O E E *) .1* O O 8 >= M OOOOOOOOOOOs OOOOO p= M e M 4 o c e se se se N @ C 4 P* O M **
W t.d 1 M P* M e se e g,g so g Q e.s y e. E N O F= % .J % e as
%E% ** eg ee *E se Q O MS U 1/3 O W %WM MO itt O F* W % eE o b es @ k EF .J O .J O 8" W u Wh 8 ee H ee M doe >22 M Q >22 H O .4 P= e= 0 0 .d a n. o o .J O at O % ====== a en ee == *E ** > Q ee ad >= e= kna 4.3 led ime 3 3 3 3 >= g .J p= > Ind ind imJ laJ 3 3 3 3* E ** ** 4 W 2 and 2 MWM M3M 232O and == 4 U ZLd2 MWM M3M 2 3 2 O" nna EE% C>W 2 2 2 W tad tad M M M M M 3 3 3 2 2 >= & c > tas 2 2 et W t.# W M M M M M 2 3 3 2 2 == &
w tsJ P= 4 q.A e aE t.4 g
>& em .4 ee >= .6 en 4 M led Q MWQ tea D
8 O u
-d O
e d e a e o e o an am a e o o % % % 6
. . . . e e J e e M 4 4 N M P P N P P P= e P N e .J d et d d d d M @ Po P. W M P= e @ d N 4 MNMMMNeeecdeeMNN4 e se we we M ee ce N ee we se N N ee ce se a3
> d >= N O O e= >=
e OOOOOOOOOOOOOOOOO e OOOOOOOOOOOOOOOOO N N A A e OOOOOOMOOONOOOOOd e OOOOOOOOOOOOOOOOO N N 0 t P @ es se em to l.J W W ned b b ee e @ O O O O N e O @ W W e em eeMP en C O O O O O O e O N se O O O O O O P= 4 en we se d J en e B E e I E G3 M 3 eM3 N se O N we O Z Z
.J W E E D 1 4.A I 4.J W & &
a eN e N O N P N O P 4 N P= O c e P= P= O eN e O N O O M d es e @ N O . 4MNe e se M es es se N we N d e se M M
*= o8 W we cI W O P e .A PCJ O e me e ao e6 C K ee =
u O De D* C 4 P= P N e e e P O d 4 4 9 M e P= 0 Pe M 4 f* 4 d Ppm O P O M P @ O P c P= e @ M em 8 ee me we em N se se we N M e ** ee e M p= 4 N ee we se we se @ M 1lP .A e N E .J e es s
** led 3 1.d 3 % O O O O O E 3 M
P O O O e= M N O P 4 m P d e e* P P N M P G @ en ha M C 4 c P c M e ==fd d J e O P= W W W tes i a e en me en en se se en 4 M wta0 we C M 7 ** P W ee ** E 6 d we . E
** O Pm 6 .4 h .A %4% ee 4 ee e a= O O MO u HO u % W *) MO W1 O P= W % at @ W et d W EP .A O .4 Q h u u g w4 es M ee A 7m >22 M O >22 M O .4 F* a= O O .d O >= O O J O es 3 N em me me as em en me se e me >OA .4 pe >= ta ned I.A t.3 3 3 3 3 km g a p. p. n.J gas n.J I.J 3 3 3 3 e= g me me at u M3M 2 t.J 2 M t.4 es 232O 4.s mees u 2W2 MWH H3M 232O n.#
ME% E3 > led 2 2 2 i.s 1.d 4.4 W M M M M 3 3 3 2 2 ea & W > 6.A 2 2 .T 4.4 L.A 1.J M M M M M 3 3 3 2 2 a= 4 t.s 6 4 8* es I.J M es i.a M DA 8= .4 == p. ,g en eE M 4.d O M t.s O t.J D 9 O W d O e e en m . . . . . . . . . -
7 J B e O O N se O O O O O O O O se se d .J d 4 O M M P= es P= e P M e d P= O N P as as M e se e e P= ee e se d o es se e ce N e
>= >= se ce se ce se ce N N N es os ce O O O N > D=
e OOOOOOOOSOOOOOOOO e OOOOOOOOOOOOOOOOO N N A A e OOOOOOOOOOOOOOOOO e O O O O O O M e O O N ** N O ao N se N N ee 0 0 P P ee se
>= to W ins W W b b a= S OOOOOOOOOOOOOOOOO ae eO4M==@M@M4POO4Med 4 se 4 ao se se es se ** N 4 9 M == ** P=
e 0 m e0 eg N eM3 SM3 N ee O N oo O E Z
.J w M M > 0 W 4 W W Q. 4. .J eN OOOOOOOOOOOOOOOOO eN es e M M e d o N P P= C e N M N N M e se M e se M d N e se se se o9 W e e e d P= N e d a ha o0 W cI W 4 O PeJ PeJ O e me e me E E E = =
O O >= >= d at P= OOOOOOOOOOOOOOOOO as Po d M ee P* M e P e N C e e N ** @ M e D= 0 M D= 0 MMgdeeeMeMdPeeNed &? P es e K Je Pm E N W 3 W 3
% Q O Q O O E Z M
P O O
.J 4 ** M O O O O N se e O O O O O O O *e se d J be M d P O O se Pm se 4 e 4 e e f M N P= d dW I H es W 0 N so N M N eesenoe**eN to N N N me N M P**P W se g w me M *E N O ** 6 J w =8 % og % es as ee aE se O O Me y MS u %WM Me MO M W% 44 d A ag d W EP .J O J Q > W u W4 0 es M e. M =d e P >22 M Q >gy M O -d P* *OO a O pCC J O 4O% es os me as me se se me as *e D O se J e- >= W g.J w y 3 3 3 3p g a p. m. g,, e.3 w y 3 3 3 3 o- E ** at u 2 6.J 2 MWM M3M 232O W == es u 2W2 MWM M3M 232O n=*
8E% C D had 2 2 2 isJ W ise M M M M M 3 3 2 .T 2 >= 4 O > tmJ Z 2 2 ledled W M M VJ M M 3 3 3 2 2 o' & t=e W P= as W et as w g D& D* J ** pe 4 se
*E M tid O t.J MwQ O
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DLCO - BEAV[R VALLFT 7/1/79 - 9/30/79 500 F001 lev [L P[RIOD OF RECORD: I 7/ I' '- 9/30/79 9 OBSLRVATIONS WITH MISSING DATA 159 I D TOTAL OBS[RVATIONS FOR THE PERIOD ARE 2049 9 PERCENTAGE OCCURRENCE OF STABILITY CLASSES I A B C D [ F G 0.05 0.15 0.98 52.22 32.60 13.76 0.24 8 9 ) 9 6 i 0 0 8 o 0 I . I I 6 4
B EAVER VALLEY ICINT FREQUENCY DISTRIBUTION TABLE FOR BATCH RELEASES e 0
9
.J OOOOOOOOOOOOOOOOO OOOOOOOOOOOOOOOOO 4 .J >= >=
O O e OOOOOOOOOOOOOOOOO e OOOOOOOOOOOOOOOOO N N A A e OOOOOOOOOOOOOOOOO e OOOOOOOOOOOOOOOOO N N 0 9
@ P M se H >= >=
Q W W h W W 7 h b Z *S OOOOOOOOOOOOOOOOO a 43 OOOOOOOOOOOOOOOOO O d we 4 se
> e I g e eg 4 O 889 3 03 M 3 (D N == O N se O Z Z .J W g g > 0 W 8 w led & 4 .J 4N OOOOOOOOOOOOOOOOO 4N OOOOOOO3OOOOOOOOO e me M e sue M O N 0 w N 8 W 2 eCs e O .J 3 en en e=e me O E E a w =*
Q
>= >=
P 4> OOOOOOOOOOOOOOOOO 4 P. OOOOOOOOOOOOOOOOO P= > 0 M >= 3 M
% .A e a Je a N tJ 3 W D .e Q O Q O % Z Z C
0 O O P t= M OOOOOOOOOOOOOOOOO >= M OOOOOOOOOOOOOOOOO F* 4W G H (D W I M
% ** P W *e E w ee E se Q P= .J h J 6 == E % ee g ee 4 %ON Me u Mc u & W ** MM MM t.4 % et 6 4 6 EO .J Q J Q > W W t.s 4 4 ** M ** M aOP >22 M O >22 M O .J P* *OO .J Q >QO .J O == me == == 4 ==
as O % me == om 4
> Q ** .A >= De 6J W W taJ 3 3 3 3 >* g 4>=> w w W W 3 3 3 3> E *e se =* 4 W 2 1.J 2 MWM M3M 232O w me e u 2w2 MwM e3 6 232O w a as % C>w 2 2 2 w w w M M M M M 3 3 3 2 2 == a O>w 2 z 2 w W w M M arvie)g# 3 3 2 2 == a I. A en. 40 4wa 4wg >& >= .J me >* .J om 4 MWQ M 4.# Q te8 C
I C U
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ay . .
.A OOOooooOOOoOooooa .J .eeoooOOOOOOOOO=09 4 4 == >=
Q O
> >=
e eC0000000O00oo00o e OOOOC00000ocoo00o N N A A e oCOODOoDOODOODOCO 9 eoCOOOOOCoOC00OOO N N O 8 ee se M p= >= G Ind LJ w and W 7 h h I a cc ooeooeoooOOOOooOO a e2 oooOOOOOOOOOOOOOO u 4 og 4 ee
>=
- I E , e e ac 4 C43 OM3 m N == 0 N ee O E ;
J v z g
> 9 6.a 0 las W 4 4 oooCOOOoOOOOooeOO 4N eooOeooeooooeoooo .J C @NMe.
ea I w e me M N 8 i.a J f C .J f S .J 3 em me co == 0 K E a me w Q k >= P 4 P= cOOoeOOOOoOOoeooO 4 P= 0 O O o o o o o O O O O O O == O == M P= t= 0 M >= 1 E .J e g
% .J e es W 3 6 3 == Q Q Q Q O
I O o P 8= M OOOOOOOOOOOOOoOOO >= M ae es O O O C, O O O O O O o o o C 04 P* M CW l M u laJ B
% ** @ n.a se E taa se E d % .J ** C P' % 4 ae E % ** 4 se % Q 08 MO u Md u J3 U M MM MM m
6% 4 6 4 C 3D d C .A
> u u M l6 0 ** M ** .J C @ >22 M O >22 M O .J P* >= 0 C .J Q e= o Q J Q me ====== 4 ==
4 O% ====== 4 3
>OM .J = a= i.e nJ i.J naa 3 3 3 3 >= g a >= >= i.4 nas t.J i 3 3 3 == z * * * * ** 4 U 2 4.J 2 M L.J M M3M 232O n.J == 4 u 2w2 M i.J M M3M 232O L.a SE E % CDW 2 2 2 L.J nmJ tsJ M M M M M 3 3 3 2 2 *= 4 cD > W 2 2 2 naa w W M M M M M 3 3 3 2 2 m a wt C 4 w Je 4wa >1 >=4== >=.J==
4 M tea Q M tea Q
%a .D 9
C u ma O
y W W W w w w w w ear use w w w w w w w w w w w e A M O O O O O O O Os=*O O O O O O e .J OOOOOOOOOOOOOOOOO
,4 ag >= >=
O O D. e-e OOOOOOOOOOOOOOOOO e OOOOOOOOOOOOOOOOO N N A A e OOOOOOQOOOOOOOOOO e e3OOOOOOOOOOOOOOOO N N I O P @ m .= M > >= Q W W w W W 7 6 6 Z de C OOOOOOOOOOOOOOOOO de C OOOOOOOOOOOOOOOOO U 4 ** 4 ** a= e t OC e B E 4 OM3 EQ M 3 6D N s=o O N ** O Z E J W K E
> 0 W G W W Q. IL .J 4 f1 OOOOOOOOOOOOOOOOO 4N O O O O O O O'.3 O O O O O O O O O en e no M C N I tes N 0 W Z e C .J e T .J 3 ee e-o .e ==
0 E E z w w L3 p= t=
@ 4 Pm MCOOOOOOOOOOOOOOM 4 P'm OOOOOOOOOOOOOOOOO P= >= 0 M >= 0 M % Je E .J e E N i.J 3 W 3 ** Q C Q O % Z Z C
8 O Q
@ >M C O O O O O O O O ce O O O O O O se >= M OOOOOOOOOOOOOOOOO P* Ind led I M 6W G M N "@ W *=e E i.4 se E ** 3 N 6 .J w J og *e K % ee og es %CN MM U MM
- O
& W == MM Me Ima % 4 w 4 6 EO .J C .a O > W U L6 0 ** O e. O dOP >22 M Q >ZZ M C =J P= *OO J O s= .J C 4O% ====== .g == 0. 0 4 == >OM .J e* em W W w i., 3 3 3 3 p. g g p. p. y q., i,g i., 3 3 3 3> g " * * **
- U Z n=d Z MWM M3M Z32O n.4 == at U Z t.J Z v. i.a M M3M 23ZO W EE% CD D W Z Z Z l=J Ind and M M M M M 3 3 3 7 2 8= Q. CD > 4.4 2 2 Z ind W W M M M H M 3 3 3 Z Z >= CL ime i.A C as 6 E as g g g D Q. >*.J** em a ==
*E M tad O MyQ id .Q t
O u J Q
e
.4 OOOOOOOOOOOOOOOOO J f we O O O O O O O me O O O O == C Pe *E et >= t=
0 0
>= >=
0 CCDDCOOOOOOOOODOO 9 OOOOOOOOOOOOOOOOO N N A A e OOOOOOOOOOOOOOOOO e OOOOOOOOOOOOOOOOO N N e e
** .e M >= >
O teJ W 6 W W 7 6 4 Z sm O OOOOOOOOOOOOOOOOO ao OOOOOOOOOOOOOOOQO U J se @ ee
>= e i E e eK *E OM3 G3 M 3 G2 N me O N == Q Z Z .J W z z D $ W 9 W W 4 4 .J 4N OOOOOOOOOOOOOOOOO 4m OOOOOOOOOOOOOOOOO e me M eM O N I h. N 0 W 2 *OJ 9 43 J 3 ee == ,e ==
O E E E w ee Q
>= >= @ 4 Pm OOOOOOOOOOOOOOOOO as P=
N >* 0 M O O O O O O O O O O O O O == C e M >= B M
% as 9 K .J 9 N W 3 D 4.4 3 O O O O Z Z I O O @ J M >= 6 OOOOOOOOOOOOOOOOO a >= m == em O O O O O O O == O O O O O O M QW l M er 1.4 1 M % ** P W ** E W == E se O N 4 .4 w .a ** z % ee as eo as %ON MM u MM u E W ** OM MM W% 4 6 as EC .J 6 > O .J Q U u W6 9 ee M ee =J O @
n
>22 M C >22 M 3 .a N >= O O a O Do o O a *E O % == en me C at == ====== *E *= > Q == .J>=>= W l.J W W 3 3 3 3 m. g .J p. >= i.A W N =*
Ina I.a 3 3 3 3 *= 2:
** at U 2LJ 2 M leJ M M3M 232O W es et U Z l.J 2 MWM M3M 232O W E4 %
t=* W% G3 > W 4WE 2 2 2 Isa W W M M M M M 3 3 3 2 2 >= 4 G3 > W 2 2 2 W W &md M M M M M 3 3 3 2 2 ** A D4 D=** 4WE
*E to J ==
MWQ MWO W G3 0 0 W
.J Q
OLCO - FEAVfh VPLLf1 c./11/ 7 5$ - 8/12/79 LROUND LEVEL DATCH Jf CS . FIRIOD OF N[COND: H/11/75- 8/12/79 . p , ODSERVA110NS WITH HIS$1NG DATA 0 e TOTAL OBSERVATIONS FOR THE PERIOD ARE 7 e PERCENTAGE OCCURRENCE OF STABILITY CLASSES A B C D E F G , 0.00 0.00 0.00 42.86 57.14 0.00 0.00 0 9 9 8 8 9 9 9 3 8 . I
e m
.J O O O ee O O O O O O O O O O O O M J OONceOOOOOOOOOOOOM 4 4 >= >=
0 C m a=
- OOOOOOOCOOOOOOOOO e OOOOOOOOOOOOOOOOO N N A A e eOOOOOOOOOOOOOOOO e OOOOOOOOOOOOOOOOO N N 8 8 ee se t= t-Led las led ime 6 6 M == c eOOOOOOOOOOOOOOOO em o OOOOOOOOOOOOOOOOO C 4 ee Q ee 6 e eg e g g
*3 ED M 3 G3 M 3 N we O N == 0 ; Z u
8= K W 4 9 i.A 0 w 4 4 Q. ON O O O ee O O O O O O O O O O O O == cN O O N es c O O O O O O O O O O O
- Q e se M e en M Led M i ted C B w
> @ 4D .J CP O -A m e me e == > Z E q.a w w .4 And P* >=
4h OOOOOOOOOOOOOOOOO at P= OOOOOOOOOOOOOOOOO P t= 8 M be 0 W M .J e E Ie E
% led 3 Lea 3 o Q O Q O N Z I P
O O 9
>= M OOOOOOOOOOOOOOOOO >= M OOOOOOOOOOOOOOOOO & 4 L.A I M O I.J B M N *e @ Isa se E 4 4 a=e E % C. P= 6 4 6 d 4 K% os at se 4 ee o o MO u 44 O u %uN MC MO P* w % 4O 6 4d i e.
E@ .A O .4 O
> u W w6 6 se M se A .a o P 3= 2 2 M O >22 M Q a P= e= 0 C .J O >= O O w o eC% ====s. e == == se == 4 ==
3D Cf .J>=>= w l.a Leg i.J 3 3 3 3 t= E .J >= e= l.a t.J nna w 3 3 3 3 == 2
==== == 4 u 2W2 to I.J M M3M 232O w == e u 2 t.4 2 MwM M3M 232O w EE% CD > t.J 2 2 2 w led end M M M M M 3 3 3 2 2 > 4 CD > 4 4 2 2 2 kna w W M M M M M 3 3 3 2 2 >= 1 w .4 P= 4 n.J E ewe > Q. >=.J== 9= .A me 4 M nad Q M tad C 4.J G
G O u
.,8 Q
~ , I DLCO - PIAVIR VALLLY 7/14/79 - 9/21/74 ELEVATED UATCH JFOS PfRIOD 3F HIEGkD: ,
1/14/79 9/25/79 . STABILITV ELASS: C [LLVATION: 500 FEET DELTA T ( 495.8 - 28.68 FEET DIRECTION 3-3 4-7 B-12 13-18 19-24 >24 TOTAL MILIS PER HOUR N 0 0 0 0 0 0 0 NNI O O O O O 0 0 NE o 0 2 0 0 0 2 ENE O O O 1 0 0 1 E O O O 0 0 0 0 ESE O O 0 J 0 0 0 SE 0 0 0 0 0 0 0 SSE O O O O 0 0 0 S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W D 0 0 0 0 0 0 WNU 0 0 1 0 0 0 1 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 TOTALS 0 0 3 1 0 0 4 PERIODS OF CALMS 0 HOURS STABILITY CLASS: D ELEVATION: 500 FEET DELTA T ( 495.8 - 28.61 FEET DIRECTION 1-3 4-7 8-12 13-18 19-24 >24 TOTAL HILES PER HOUR N 1 1 8 1 0 0 11 NNE O 1 6 3 0 0 10 NE I 1 9 2 0 0 13 ENE 0 3 1 0 0 0 4 [ ] 3 1 0 0 0 5 ESE O 1 0 1 0 0 2 SE O 4 4 0 0 0 8 SSE I 2 0 0 0 0 3 S 0 1 2 0 0 0 3 SSW 0 0 0 0 0 0 0 SW 0 1 5 10 0 0 16 WSW l 7 3 0 0 0 Il W 0 5 1 0 0 0 6 WNW 2 6 1 0 0 0 9 NW 0 4 7 0 0 0 11 NW D 7 3 1 0 0 11 TOTALS T 47 51 18 0 0 123 PfPIODS OF CALMS 0 HOURS
e DLCO - BEAVER VALLEY 7/14/79 - 9/25/79 ELEV ATf D b4TCH JFCS , PERIOD OF REC 0AD: 7/14/79- 9/25/79 . I STABILITY CLASS: E , ELEVATION: 500 FEET DELTA T t 495.8 - 28.68 FEET DIRECTION 1-3 4-7 8-12 13-18 19-24 >24 TOTAL MILF$ PER HOUR , N 0 0 2 1 0 0 3 NNE 0 0 0 0 0 0 0 NE 1 0 0 0 0 0 1 , ENE I 2 0 0 0 0 3 E 0 0 0 0 0 0 0 ESE O O O O O O O , SE o o 2 0 0 0 2 SSE I 3 1 0 0 0 5 S 0 0 1 0 0 0 1 , SSW D 1 0 0 0 0 1 SW I 7 0 4 0 0 12 WSW 1 8 1 0 0 0 10 , W D 9 4 0 0 0 13 WNW G 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 , NNW 0 0 0 0 0 0 0 TOTALS 5 30 11 5 0 0 51 , PERICOS OF CALMS 0 HOURS STABILITY CLASS: F ELEVATION: 500 FEET DELTA T 4 495.8 - 28.63 FEET . , DIRECTION 1-3 4-7 8-12 13-18 19-24 >24 TOTAL MILFS PER HOUR N 0 4 2 0 0 0 6 , NNE 1 1 0 0 0 0 2 NE 1 0 0 0 0 0 ENE 1 2 0 0 0 0 3 , E O 0 0 0 0 0 0 ESE O 4 0 0 0 0 4 SE 0 2 2 2 0 0 , 6 , SSL 0 0 0 0 0 0 0 S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 , SW 0 0 0 0 0 0 0 WSW 0 1 0 0 0 0 1 W 0 1 0 0 0 0 1 , WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 3 0 C 0 0 3 , TOTALS 3 18 4 2 0 0 27 PEH100S OF CALMS 0 HOURS e I
~
DLCO - DEAVER WALLEY 7/14/79 - 9/25/79 ELEVATED BATCH JFDS g PfkIco 0F RICOND: F/14/79- 9/25/79 4 STABILITY CLASS: G g ELEVATION: 500 FEET DELTA T 4 495.8 - 28 61 FEET DIRECllON 1-3 4-7 8-12 13-;* 19-24 >24 TOTAL MILES PER HOUR g N 0 0 0 0 0 0 0 NNE O 0 0 0 0 0 0 NE O O 0 0 0 0 0 ENE O O O O O O O g b E 0 0 0 0 0 0 ESE O 0 0 0 0 , 0 0 SE O O O O O O O g SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 g Su o 0 0 0 0 0 0 WSW 0 0 0 0 9 0 0 W 0 0 0 0 0 0 g WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 g NNW 0 0 0 0 0 0 0 TOTALS 0 0 0 0 0 0 0 g PERIDOS OF CALMS 0 HOURS D STABILITY CLASS: ALL ELEVATION: 500 FEET DELTA T t 495.8 - 28.63 FEET g DIRECTION 1-3 4-7 .8-12 13-18 19-24 >24 7OTAL MILES PER HOUR N 1 5 12 2 0 0 20 g NNE 1 2 6 3 0 0 12 NE 3 1 13 2 0 0 19 ENE 2 7 3 1 0 0 13 g E 1 3 1 0 0 0 5 ESE o 5 0 1 0 0 6 SE O 6 8 2 0 0 16 SSE 2 5 1 0 0 0 8 g S 0 1 3 0 0 0 4 SSW D 1 0 0 0 0 1 , SW 1 8 5 14 0 0 28 WSW 2 16 4 0 0 0 22 W 0 15 5 0 0 0 20 WNW 2 6 2 0 0 0 10 g PlW D 4 7 0 0 0 11 NNW D 10 3 1 0 0 14 10iALS 182 95 73 26 0 0 209 PERIODS OF CALMS 0 H0b? 5 W O w O
i DLCD - BEAVIR VALLEY 7/14/7* - 9/25/7e [LEVAlf3 DATCH JFOS , PfRIOD Of RECORD: 7/14/7'i- 9/25/79 . OBSERVATIONS WITH HISSING DATA 0 TOIAL 095EkVATIONS FOR THE PERIOD ARE 209 PERCENTAGE OCCURRENCE OF STADILITY CLASSES B C D E F G A 1.44 1 91 58.85 24.40 12.92 0.00 0.48 I I l i 6 8 9 7 1
BEAVER VALLEY JOINT FREQUENCY DISTRIBUTION TABLES _ FOR CONTINUOUS RELEASE FOR AT (150ft-35ft) and 35-ft wind and AT (500ft-35ft) and 500-ft wind (October 1,1979-December 31, 1979) 4
e
- S BEAVEli V ALLEY 10/01/79 TO 12/31/79 35FINir LEVEL O PERIOD OF NEC0Hus 10/ l/19-12/31/79 9
STABILITY CLASSs A S ELEVATinNs 35 FEET DELTA T I .I42.6 - 28.68 FEET 4-7 6-12 13-18 19-24 >24 TOTAL DIHECTION 3-3 MILES PER 1100R # 3 0 0 0 0 3 H 0 3 2 1 0 0 0 0 NNE 0 4 2 2 0 0 0 ta NE 0 0 0 4 ENE I 3 0 2 0 0 0 0 3 E I 4 I 3 0 0 0 0 v ESE 0 3 O 3 0 0 0 SE 0 0 2 SSE o 2 0 0 2 8 3 0 0 0 13 % S O l 0 0 0 J B SSN O I O O O I SW O 6 7 2 0 0 15 W MSN O O 3 8 0 0 0 16 W 0 9 HNW I 5 3 0 0 2 0 0 0 0 2 w HW 0 I O O O O 2 NNW I 11 50 22 2 0 0 85 TOTALS w PEH10DS OF CALMS O 110URS k STABILITY CLASSs H ELEVATIONS 35 FEET DELTA T ( I42.6 - 211.61 FEET 6 l-3 4-7 6-12 13-18 19-24 >24 TOTAL D lH ECT ION MILES PER I;ouR O O O O O I H I 0 G o 0 0 0 0 0 NNE o 0 0 0 0 0 0 HE O I E NE I O O O O b I i 0 0 0 0 2 E O O O O O ESE O O O 0 0 0 0 l SE 1 b I O o O O O I SSE I 2 0 0 0 0 3 S 0 2 0 0 0 3 0 SSW 1 0 2 5 0 0 0 7 S4 0 0 2 O O O 2 HSH 4 0 5 5 0 0 0 to O 0 4 2 0 0 0 6 NNW NN O 4 0 0 0 0 4 NNH 0 0 0 0 0 0 O O 5 20 16 0 0 0 48 s J/ALS PERIOUS OF CALMS O Il00RS 4 i 4
i
~
4 HEAVEtt V ALLEt 10/01/79 TO 12/31/79 35 FIN)T LEVEL ' t PERino nF RECaWIDs Jo/ I/79-12/31/19 STAft IL ITY CL ASS s C ELEVATIONS 35 FEET DELTA T ( 442.6 - 2tt . 6 ) FEET DIR ECT ION 1-3 4-1 3-12 43-18 19-24 >24 TOTAL MILES PER llotJR N I I O O O O 2 NNE O O O O O O O NE o 0 0 0 0 0 0 ENE I O O O O O I E I O O O O O I ESE o 1 0 0 0 0 i SE o 1 0 0 0 0 1 SSE o 1 0 0 0 0 i S O 2 0 0 C 0 2 SSW I 7 2 0 0 0 10 SH 0 2 7 1 0 0 10 MSN i 0 9 0 0 0 10 H 2 3 3 0 0 0 8 HNN O F 0 0 0 0 7 Nd 0 0 0 0 0 0 0 NNN O I O O O O I TOTALS F 26 21 l 0 0 55 PER 100S nF CALMS 0 ik)URS STABILITY CLASSs O ELEVATION: 3S FEET DELTA T ( I42.6 - 20.6) FEET DiiiECTinN 3-3 4-1 3-12 13-1H 19-24 >2 4 TOTAL MILES PER lloup N 13 1 0 0 0 0 20 NNE IS I O O O O to NE 21 0 0 0 0 0 27 ENE 21 2 0 0 0 0 23 E 14 1 0 0 0 0 IS ESE 5 0 0 0 0 0 5 SE 9 2 0 0 0 0 11 SSE 9 2 0 0 0 0 11 S 22 20 7 0 0 0 49 SSN 84 75 32 1 0 0 122 SW 7 16 75 2 0 0 160 HSW ll 64 77 8 0 0 100 W ll 11 30 1 0 0 113 HNW 10 72 7 0 0 0 89 N4 9 68 4 0 0 0 74 NIM 10 ll 8 0 0- 0 22 937 ' TOTALS 207 4 tts 233 12 0 0 PEllinDS OF CALMS to flullHS g g 4
I HEAVliit VALLEY 10/01/19 TO 12/11/70 35F000 LEVEL PEHIDI) OF diiCtwin e 10/ t/79-12/31/19 STABILITY CLASS E ELEVATION: 35 FEET DELTA T ( 142.6 - 28.6) FEET D IR ECT ION l-3 4-1 8-12 13-la 19-24 >24 TurAL I;ILES PER 1100R 7 2 0 0 0 0 9 N NNE 17 3 0 0 0 0 20 NE St 1 0 0 0 0 52 EllE 23 1 0 0 0 0 24 E 21 3 0 0 0 0 30 ESE 18 2 0 0 0 0 20 SE IS 8 0 0 0 0 23 SSE 16 6 0 0 0 0 22 S 30 14 0 0 0 0 44 SSW IS 56 5 0 0 0 16 SH 3 42 ll 0 0 0 56 NSW 3 0 1 1 0 0 20 H 2 S 0 0 0 0 7 HNH 2 2 0 0 0 0 4 NN 5 2 (' O O O 7 NNW 3 1 0 0 0 0 4 TOTALS 231 IST 23 1 0 0 418 PER1005 0F CALMS 10 ll0URS S STAnn .. % .- F LLEV AT s o... ^ c6E r DELTA T ( 142.6 - 241.61 FEET DIRECTION -3 4-1 6-12 13-18 19-24 224 TOTAL MILES PER IkluR N 2 0 0 0 0. 0 2 NNE 5 0 0 0 0 0 5 Hli 10 0 0 0 0 0 10 Et4E 15 0 0 0 0 0 IS E 20 0 0 r, 0 0 20 ESE 32 0 0 0 0 0 32 SE 40 1 0 0 0 0 41 SSE 16 0 0 0 0 0 16 S 15 1 0 0 0 0 22 SSN 3 4 0 0 0 0 7 SH I 1 0 0 0 0 2 MSN 2 1 0 0 0 0 3 H I O O O O O I HNH I O O O O O I N.1 1 0 0 0 0 0 i NNd 0 0 0 0 0 0 0 TOTALS 164 14 0 0 0 0 118 PliHI00S OF CALMS II il0Ulls a
.b
J - 33 c3 0 *
- N c m e - N - N C C - J C N - N c - N O c * *= N c = 0 o e
< N e c P= N - o < m c C o N m c. a- vNmmf-CN^
5 y N y
- --- -NNN--
N . H H v CCCCCCCCCCCCCCCCC w CCCCCCCCCCCCCCCCC N N
^ A v CCCCCCCCCCCCCCCCC v CCCCCCCCCCCCCCCCC N N d o H
H_ W W W W . tb 4
=2 CCCCCCCCCCCCCCCCC aT O C C C C C C C C - m - - C C" C C-c- c- - *I2 e i2 C m ::3 =m=
W=$ - N-g
~ ~
t C l G Q. Q. cN CCCCCCCCCCCCCCCCC cm CCCCCCCCC->NcNw-r-e-m e-m -w>Cw-NfW N IW = n W C3 d wCd
- == - .
w w W H H W v m *f*C4e*
< ** C - O C C C C C m C C C - C C C J't < P-J HI m H ,I m c m c e- c c-#vN - - c --- 4 0 c - ~c ~ r Jv 2 ,.J, b W g w 5 E C = C g _
f M @
- c
-'l O
P* H* OW 9 =N@OTSNc.C@-NCNOCc N c c P* N = c M UbM
<WI @cC-T@cTCONOCc#w%
N v > @ - N m C 2 r*l - - - - - - - m N = 06 W- N :g W- - . > :r
- C P* i.&. J 4 .J MgN = < . <
N me y cf C,J N O m- 09 mm
-WN < u. < a ,3N d C J C H49 33 a >22 =
m C m a.
>== mO f
O N HCC J J C NCN --- .s: .C 1
-- = C .C < =
NC- dHh
-<a W zW-%
W W Z E E TH 2 JHH W g 1.L1 W mWm mum T E Y Yb % c>W mWm erm zrzC W -<uW zW-ZZzwwWememmgtr=ZH er=C w C2N ZZZWWWWWWWerEE=2H c. c.g: I.u ~ 1
%WC <WT C4= HJ= p y :C - mWC m= >=
W d< 2 W W "ll2
1 0 5 G 4 1 6 2 F 9 S E S S A L 1 C 9 E Y 0 T 2 I 1 L 4 I 0 B 2 A T 0 S 4 D F 4 O 4 E 1 l l E 6 A C 1 N D E O R 9 I R 6 L A l 4 U C E T E C 2 V A P C E ) 1 o L E G l i E r N T G i W I A t S R T F S O N 10 S I F E B 3 M C 2 S I 9 H N D 1 T O P
/ s9 I I 1 u7 W T 3li/ A /o1 S V 6 2C3 H l 1 n
l 1 i e/ E A . d2 i S 4 o 1 T A B TF - O O9 V 9 7 l l L 7D/ E A
/ ol S T 1t l
l O 0li/ o T
/E0 0P1 1
Y E L L A V H E V A E lt
e
.J CCCCCCCCCCCCCCCCC J< CCCCCCCCCCCCCCCCC D D E A T CCCCCCCCCCCCCCCCC v CCCCCCCCCCCCCCCCC N
N
^ A v CCCCCCCCCCCCCCCCC
- CCCCCCCCCCCCOCCCC N N t t O 3
.=
H H uJ W W W W 4 aC CCCCCCCCCCCCCCCCC ae CCCCCCCCCCCCCCCCC
- c. I 2 c. I e mmg mms N, m-g -
~ ~
l G I G
& A C.-mN OCCCCCCCCCCCCCCCC C. N. m CCCCCCCCCCCCCCCCO cIW ciW oTJ O:DJ v - v J *
- w W .,
> H W H J <* CCCCCCCCCCCCCCCCC <* CCCCCCCCCCCCCCCCO H ta W Ht m 2 Q .J V 2 D
Mv J p W C 1 Q E z 8 C C m 3 L. m CCCCCCCCCCCCCCCCC wem
= te CCCCCCCCCCCCCCCCC m < !.u e m N
N=0 W == 2 W- a 2
.J K -Q% % < = <
mgN = U mg a s.- Num
== W N e8 m <c W m. <c a O
2N .J O .J C = U U m hee = m = m O C3* >= 2 2 C >ZZ J O S
< .O .H. O. .O < ~ &CN .M. .O .O.= WWW = \O=
dbH W W W W X E T TH G
- JHM
=<O W
ZW' mWe Arm Z E $-ECOT6 w TWK ZZZC Z W MWe MEm
~~ =W ZZZOWem m m e m E E E Z e= ^.
CcN =>W ZZ WWm m in m in E C E Z Z H G <W= C NWC <W2 HJ-C 2. - H J == WWC
- WWC W ~2 . MJ W
m
* * = - a em a a e a A a e & 3 et s g
a .. . . . . 7 J CC=-C-NOCCCCCCCCc <J c - c c c--mvn~pNN
- C m v.mcN~ - e- C .v e N v Nc
- t. e
-N-N-P= H v CCCCCCCCCCCCCCCCC v CCCCCCCCC-NTc-CC2 N N -
A A v CCCCCCOCCCCCCCCCC v CCCCCemov-v **CCm N N -N O
& d H '
W W u W u CCCCCCCCCCCCCCCCC ac -CCCNTNcNG'33v'N- NNcN- v- N
.em c. 1 = = 4 cm3 mm Ng N-g ,
2 2 1 W 3 W
't.
1 CN
-m CC--0-NOCCCCCCCCc c. -
p i b9 N o-4NommemSvveNem=
- - N m m c v % .% N - N v
g3J Iw o C .J v = g - J x x w w
> w w w
J NOC->2**C%--- TCCCc7*
<% CCCCCCCCCCCCCCCCC <> N---- o e 4 %: m H - - = ~
JV 2 m Mv o a
. w C $
W C 3
$ C -n C O be CCCCCCCCCCCCCCCCC C ,, m @~OMCNC"C'NNN-~~# N A % QwI e W .I. 3 N=@ w- X .J 4 -2% 1 < - -
d,J mSN N nom mb m O Mb m .. wN <c 1 <m =*
*Z N .J C .d O - O = V m H1 0 m >%2 ,i X
OS% >2z m C d
$ J .O .H O -O %CN H .O .O < WW NO=
JHU W g W W E E E TH 2 JHf
-<a $ W z owm mE I I x2x -3 E MD .$1 CzN z>w =w- mwm mEm zgz: w zzzwwwneemmEEE zb a =gw < 2 z=?wwwmemmmo -- 3; Nwo <w= HrJ C1= H .J - m w "C - ow2 W -
2 w w O
. . . . . . . . s g
. e DEAVEN VALLEY 10/01/79 TO 12/31/19 500 FOOT LEVEL '
PERIOD OF RECOHoe 10/ I/19-12/31/19 STADILITY CLASS: E 28.61 FEET ELEVATION: 500 FEET DELTA T ( 495.8 - DlHEcritHe 1-3 4-7 3-12 1 3 -111 19-24 >24 TOTAL MILES PER 1100H 2 I I O O O 4 N 2 0 0 0 0 0 2 NME 9 NE 4 3 2 0 0 0 10 5 0 0 0 22 ENE i 5 to lo 0 0 0 2S E 3 7 26 4 1 0 48 ESE 2 9 IS 4 3 0 33 SE 41 SSE 4 14 16 6 1 0 9 14 27 0 0 0 50 S 3 4 32 38 I I 79 SSW 79 5 19 22 31 2 0 SH 44 S 10 22 1 0 0 MSN g W 9 7 6 1 0 0 23 2 2 0 0 8 HNW 3 1 2 3 0 0 0 9 NW 4 2 0 0 0 8 NHH 2 4 69 116 191 100 8 1 485 TOTALS ' PERIGOS OF CALMS O Il0URS 8 STAllILITY CLASS: F ELEVATION: 500 FEEf DELTA T I 495.0 - 28.61 FEET ' DIHECTION 3-3 4-7 8-12 13-la 19-24 >2 4 TOTAL MILES PER llOUR 2 0 0 0 0 0 2 H d NNE O I o O O c I NE I 9 5 0 0 0 15 O 6 8 0 0 0 64 ENE E 2 7 5 0 0 0 14 I 6 I I O O 9 ESE SE I 12 5 3 1 0 22 SSE 3 IS 11 2 O O 33 J 0 39 S I 4 25 0 1 g SSH 2 3 20 13 0 0 30 i 5 13 5 0 0 24 Sd
- I 5 4 0 0 0 10 NSH N O 4 2 0 0 0 6 2 6 3 0 0 0 II NtM NH 2 0 1 0 0 0 3 O O O O O O NNW O TOTALS 19 H3 103 32 2 0 239 8 PEld1005 0F CALMS O IlotJWS
I t BEAVER VALLE1r 10/08/79 TO 12/31/79 500 Fix)T LEVEL . e Pi.dino 0F RECIMID 10/ 1/79-12/31/79 8 STAlllLITY CLASSs G ' ELEVATION: 500 FEET DELTA T ( 495.8 - 2H.6) FEET DIHECTION 1 .3 4-1 3-12 13-18 19-24 >24 TOTAL HILES PER HOUR 8 N I O O O O O 1 NNE I O O O O O I NE O O O O O O O ' ENE O O O O O O O E I O O O O O I ESE o 0 0 0 0 0 0
- SE O O O O O O O SSE o o I O O O I S O 5 I I O O 7 SSN O 2 3 5 0 0 to SW 0 2 2 0 0 0 4 WSN O O O O O O O H 0 1 0 0 0 0 i WNW 0 2 0 0 0 0 2' Nd 1 0 0 0 0 0 i NNW 0 0 0 0 0 0 0 TOTALS 4 12 7 6 0 0 29 PERIDOS OF CALMS O FLOURS STAllILITY CLASSs ALL ELEVATION: 500 FEET DELTA T ( 495.H - 28.63 FEET DlH ECTION 1-3 4-7 8-12 13-18 19-24 >24 TOTAL HILES PER 110UR N 10 8 6 i 0 0 25 NNE 4 to I O O O 15 NE 5 22 14 0 0 0 41 ENE 10 21 16 0 - 0 53 E 3 26 20 2 0 0 56 ESE 6 21 41 9 5 0 82 SE 3 3tl 35 14 7 0 91 SSE o 46 53 31 6 0 146 S 10 31 86 44 5 0 118 SSN 9 16 94 145 12 2 270 SH 0 S4 98 163 to 2 334 HSH 8 2S 70 95 I ts G 224 H ll 28 83 09 27 6 244 NNN 6 20 11 4S T 1 156 Nd d 18 32 iT o o IS NNN 3 12 IS 2 0 0 32 TOTALS 11 1 404 734 659 103 19 2016 PEul00S OF CALMS 0 1100RS i
.idAVEtt VALLEY 10/08/11 TO 12/31/79 500 Fruir LEVEL I PEllion OF llEC8111Ds 10/ t/79-12/31/19 OUSEllVAT10HS WITil MISSIN3 OATA 172 TOTAL OllSEllV ATloNS Full Tite PEltIOD AtlE 2036 PEliCElff AGE OCCullitEtCE OF STAhlLITY CLASSES B C D E F G A
~ 0.00 0.00 0.25 62. 17 23.02 11.74 1.42 m 4 W W W eup 9e* w tmP W W W d
BIAVIR VALLEY JOINT FRIOUENCY DISTRIBUTION TABLES
~
FOR BATCH RELEASES 9 9
.J CCCCCCCCCCCCCCCCC .J CC C C CC C C C C CC CC C C C D D P P
- CCCCCCCCCCCCCCCCC w CCCCCCCCCCCCCCCCC N N A A
*N CCCCCCCCCCCCCCCCC w CCCCCCCCCCCCCCCCC N
t i O O
=
t= w W tu W W 4 6
~D CCCCCCCCCCCCCCCCC = c3 CCCCCCCCCCCCCCCCC m
- C. s a c. e e 8
=m Ng Dm3 N-g 9- ~ ~
g O Q
= 1. A U CCCCCCCCCCCCCCCCC CCCJCCCCCCCCCCCCC w Ce.N. C. N. m < N e .u N.W c w w =C .J.e - C J.
Z 2
= , .J W > H H W
I <> CCCCCCCCCCCCCCCCC <% CC C C CC CC C C C C CC C C C e HI m F. e C" H Jv = Jw O' 3
- W m 5 C $ Q E.
- u. -
b C C O wm CC CC CC C C C C C C CC CC C m
%. <w l- m CCCCCCCCCCCCCCCCC W-I, en 2 =WW-I Z N O % a -Om % .J <
N . <
- O m ~d C N em U mm em om 4 N.=WN u < 4 < C 2N J C J C
w u, e O. m U. m C O CON >ZZ m C DZZ J C HCC J C O HCC < a-= = = = - < = NCN === W W WW E E E EH 2 nom .J >= l==
=W ZZZWWWmmmmm3EEZZH & Z Z Z W W @4 V. m e m m T E E ZH 6ZI30 O
NWN <W= C2
< alW= >= **
C4- )== .J = m !C
- MWC W
2 W
- W t
- * - a = = = = a a e e e a 3 1 3
. s .J CCCCCCCCCCCCCCCCC .J CCCCCCCCCvCOCOCOv 6
s- 0 0 H H v OCCCCCCCCCCCCCCCC
- CCCCCCCOCOCOCCCOC N
N A A
- CCCCCCCCCCCCCCCCC v N
CCCCCCCOCCCOCOCOO N d $ W t.u W 1 4
~ cc CCCCCCCCCCCCCCCCC =c c-CCCCCOCCCCCOCOCOC e 4- *I2 C *I3 =m3 O cc m a = N-O N=Q =
C 2 1 2 W i W I
- s 1 O C. -m N CCCCCOCCCvCCCOCOe H C.N m CCCCCCCCCCCCOOCCC N fW
< N IW vcJ CD vCJ .
2 3 w g w H g H
<- CCCCCOCOCOCOCOCOC .J <m HI CCCCCCCCCCCCCCCCC m HI e 2
H .J V W 2 2 g* =
$- C 3 C E.
w . O . m C - O HM CCCCCCCCCCCCCCCCC HM CCCCCCCCCOCOCOCCC
- a= m CWW .s. .M N=% Q W.W I. m J
.,,J % < =. O % % < =
m=N = mo V
%O4 tM e Q U Mm em a NWN 2N .J 1
O J O O - U U = ** HL l = m m .O OS >Z= fA C >ZZ J O O % J M .O .O < - H.O .O < .O. . r= C g nom
= 'g WWWE E E EH 3 WWW E E E Eb O J. H H J. 4H*Jb mWm M E tn zg=0 ZH A W -W ZZ'yT~ WWWemmmmEEE c>W <W 1
sWN <W2 H J .=. 0a- H .J = OWC
- MWC W .J .J =
W
* - - = = = m e a e e e 3 9 g , e e
g g g g e y e w a e e w w w w w w w w w - - 7 J CCCCCCCCC4-CCCCCM J CCCCCCCCN--CCCCOw
< H > O O H H
v CCCCCCCCOCCCCCCCC v CCCCCCCCCCCOC=COC N N A A e CCCCCCCCCCCCCCCCC
- CCCCCCCOCCCCCOCOC N N 8
I O O 6 H LU W W W W W
- "J CCCCCCCCCCCCCCCCC -C CCCCCCCCCOCCCCCCC m
C 4-
*82 c. f e
- 3M3 TM=
~
N=5 N=2 - g -
~
- = I C l W 1 C 4 CCCCOCCCCOCOCOCCC U
6 C.-m N OCCCCCCCCCCCCCCCC 4. N.. N t .aJ
.y < N eW v21 O VCJ - -
2 2 w g w H g & J <~ CCCCCCCCCc-CCCOCn <~ C C C O C C C C -- C C C O c c N m H8 m >t ~ k Jv c _3 v C 5 W o E Q 5 = 2 1 - 4 9 C O O HM CCCCCCCCOCCCCCCCC 69 COOOOOCC-C-OCOCON .9
- WWf m aW W s-. E
%aS W= 2 J 4 ; "CN 4 < . <
M2%
- Q mp Q NOC Me em NU mm 1 < A
-WN < C J C ,2N = J y - 0 .9 b '.1. t - m .
m O OS >ZZ m a Q
>22 6: C J o,~
m ." .= 0 < . - < - *
\yN =m WW W W E F T TW
- W W Wc- WWeE e r ., 3 T
- r"6
,e c -- JHh -<a zWz - erm 2 m .J H < D mW= estr726 :.
02% c>W =rzWW$Wmm e m m e r t r E z: w= a =>W = = z W W W e e t.- '.a NWN <W2 <W2 C%= HJ-mWC HyC mW W M W O
W W up w w e e # # # ' s a w w w a w w g g g J CCCCCCCCCCCCOCCCC J C C C C C C C C N - - N C O C C O J'
.c < -
W H O O
> H v CCOCCCOOOOOOCOOCC v OCCCCCCCCCOCOOOCC N N A A e CCOCCCCOOCOCOCCCC v CCCCCCCCCCOCCCCOC N N O f O o 6 'J.i H-W W W W 1 m
a CD CCOOCOCCCCCCOCCCC =0 CCCCCOCCCCCCOOCCC C-C C. I 2
- IT C =mo =2 m 3
- N-0 N-O C :
E
~ ~
l G I G
= 1 1 O
6 C. -Nrn CCOCOCCCOOCCCCCCC C. -mN OCCCCOCCCvCCCOCOv
< NI W N tW C.'. TOJ eTJ I w 2
w x W g H 6
.J ** CCCCOCCCCCOOCCCOC H8 <% CCCOCOCC % -CCCCC>
6 Jv rn k e n 2 Jv 2 E W- O W O C =- m-m O C O H" CCOOOCCCOOOOCOCCC -4 6m N C W e' m cw C O C O C C C O - C -C O O C ON N=> W= e
-O%
2 W- N W .J W .J e2N = .c M@ NOC Q mm *J NU @m m
-WN .C % Ac '
J 2N =J O J O U g H1-OS I = ZZ m
= m O 0 d %2Z d O % y,% = = = = J.c .&. kOO W 2 \= =J H Q WW W E E T g .J p W W ggj y g g g yH =
02% CDW mW= zWe mEm 22ZWWWMddOMETEZZH 1 {r=6O W -<$ O>W zWZ nWe erm ZZZWWWmdgmmrE3Z2W s===
- 1 NWN <W2 <W~
C 4 == H .J - HWO
= AWC WW3 w
W J
.J .c e
W
. 4 ' 4 g
IS EAV Eli VALLE( 10/01/79 TO 12/31/79 35 Fawir LEVEL llATCil PEHinDS 8 PEli100 UF HECORDe 12/ S/19-12/ 6/19 4 4 OBSERVATIONS WITil a4ISSING DATA O 4 TitTAL OHSEftVATI81NS F4111 Tile PEHisin AHE IS , PERCENTAGE OCCUNHENCE OF STAlllLITY CL4SSES , B C D E F G A O.00 0.00 0.00 26.61 46.6'l 26.61 0.00 L L b 4 4 4 A 4 4 4 4 4
ei . e a< CCCCCCCCCCCCCCCCC a< CC C C C C C C C C C C CC C C C H W C C H k
- CCCCCCCCCCCCCCCCC v CCCCCCCCCCCCCCCCO N N A A vN CCCCCCCCCCCCCCCCC v CCCCCCCCCCCCCCCCC N
I a o o H H W w w w W u. g Q -T CCCCCCCCCCCCCCCCC aC CCCCCCCCCCCCCCCCC 4-O
. *I2 c. =m=
t= zm=
$, N-2 N-g
- ~ ~
G O I O H a 2 CCCCCCCCCCCCCCCCC
< C.- N c2 ui CCCCCCCCCCCCCCCCC C. -m N #8 w cew >Dt 5v : .,.s.
v - 2 2 w U' w d' H H a <% CCCCCCCCCCCCCCCOC
< P= CCCCCCCCCCCCCCCCC m HI m H HI =
E JT = Jv
=
w a w 4 C C 3 2_ - g C m C 3 HM CCCCCCCCCCCCCCCCC wm CCCCCCCCCCCCCCCCC e
~ <wi o, =wi x s-s w- u-a w : -=~ u. < - < -=s -
o me u sc~ me mC eC Nu u. <o u.
-ws <m a = =N a : = - u u- m - m H u. I => >.z = m - >. z = m C a e 2 - H:C a 5 H:=-- < -
e- = s <
- a. w< w ww wz wewemmmem,,=,=zr w rermr = = g w=
=
so-
-- awg w w w w = r z z=wz z w wla wm mm m g2 ,u m, =
w
,3_ r r w ,==g .=,u w 22=wm ~ w e=s e>w , <we swC <W2 Ha- Ha-C 2. - - mwo ow=
w w d< Q w
=
- - - - - - - - = * * * *
- a a n ) ) ) )
7 CCCCCCCCCCCCCCCCC .J N O N 4 W v -
- N --- - N C # C m, .J e g = =
H H v CCCCCCCCCCCCCCCCC v CCCCCCCCCCCCCCCCC N N 4 A
- CCCCCCCCCCCCCCCCC v CCCCCCCvN#CC-CCCN N -
N i 0 O O W H w w W w
- u. 1 ae CCCCCCCCCCCCCCCCC aT CCCCCCCNewNtvmCC- ,
o .-
.em .se ==
cmg emo 6 u N, N-g 2 M 6 g I w I w a 8 C. -mN CCCCCCCCCCCCCCCCC 2. -mN CCCCCCCCmCCNNmmCM-
#tw ( #w >cJ v - 'v) = -J 2 2 J -
W b w H
.J <% CCCCCCCCCCCCCCCCC <*
He
-CNCNw-m--CNvmNC- e m > >e m 2 T .J v E .J V 2 2 c W - = s' =
8 C C O HM CCCCCCCCCCCCCCCCC km -CC-CCCCC-C---CCc m
- OwI m CwI x W- g w-N=3 .J w <
a
-CN 1 < =
m3N = Q m* Q
% N mC mb u.
NO mC
<c u. <c =, -ws C w 2N .J U - - U m = e a >= 4 i =
m a >Z2 m OS NZT J 6 J 3 O N
< = H .O. .O. < ~Cs .H .O O .J>=>= W w wmwmW m mE ., E E gH Q*
NO- .J Hf WW WWE T TW umE ze c2 w 2
-<u =w= ar_= ~<a zw= mwm zz=wwwmmmemzurzzH s Ces swC m>w <we zz=wwwmmm$mmxr=~s x m>w <w= >=.;==
01- H J == mwO
- mWC w
W d< + W
'O " - - - - - = = a e a a e e e a o e g g e ,
4 1
. 4 ilEAVBt VALLE( 10/01/79 TO 12/31/79 500 FfWIT LF' VEL DATCll PGIODS (
i PEHIOD OF llECthfils 10/ll/19-l2/ I/12 4 STA!IILITY CLASS: E g ELEVATIONS 500 FEET DELTA T ( 495.0 - 28.6) FEET ~ DIREcriori 1-3 4-1 0-12 13-18 8 MILES PEH ik)UH O O O O O O O N NNE o 0 0 0 0 0 0 8 flE O O O O O O O EllE 2 4 0 0 0 0 4 E I 2 i O O O 10 ' ESE I O 2 O O O 3 SE 2 i O O O O 3 SSE I S O O O O 6 ' 4 2 I O O O 7 S SSW 2 1 4 13 0 0 20 SW 3 I I 2 O O 7
- 2 5 0 0 0 0 7 WSH W 3 i O O O O 4 WNW O 1 0 0 0 0 I '
F4d I l 0 0 0 0 2 Nild O O O O O O O 22 24 15 IS O O To TurALS , PEHloDS OF CALMS O l100115 STAlllLITY CLASS: F ELEVATInfis 500 FEET GELTA I( 495.0 - 23.68 FEET DillECTinta 1-3 4-1 u-12 13-1H 19-24 >2 4 TOTAL MILES PEit flouH H 0 0 0 0 0 0 0 NNE O O O O O O O NE O 4 4 0 0 0 8 EllE O O o O O O 4 E o O 5 0 0 0 5 ESE O O - 0 0 0 0 0 SE O O O O O O O SSE 1 0 0 0 0 0 1 S O O O O O O O SSW O O I o o o I SW O 1 3 0 0 0 4 WSW O 1 1 O O O 2 O O O O O O W O dtJW 0 0 0 0 0 0 0 tief 0 0 0 0 0 0 0 ' NNrf G O O O O O O rurALS I o 20 0 0 0 21 PEHIOUS OF CALMS O ikHlHS . .1
I CCCCCCCCCCCCCCCCC 0C
<J N C .C. :D-- m e= T -C-OmN-: N .C. -- > C >4 3 .c w w -
C C H >= v CCCCCCCCCCCCCCCCC v CCCCCCCCCCCCCCCCC N N A A v CCCCCCCCCCCCCCCCC v CCCCCCCvNcCC-CCON N - N 1 I O O w b=- W W W W w W
* ~c CCCCCCCCCCCCCCCCC -C CCCCCCCNfmocvmCCt C - v 0 c. I 2 c. =
Cm3 =m3 6 a., N-E - N-g
- g I W 8 C U n. c.
yg C. N e CCCCCCCCCCCCCCCCC C. W mCCvcNNCCvcvmNmmCm
- v g' f W d IW >cJ O2J -
v - v == J m w x W w
?* - H >=
J
<N J;OCCCCCCCCCCCCCCC <% -O409vNt*NNCce9C-w >e m HI c m Q Jv 1 C' y = - W g g
- C = C =
5 C c C S HM CCCCCCCCCCCCCCCCC m b4M
<WI -CCM--NNvmmMv==CO N e
- e. CW8 W .=
N=3 W .= 2 2
== C % w J W A M2N ** < = < \0% WC Q OC V NQ WC OC -WN <c w <c 1 =N J C J O C O Q HW e- =
m C d
>22 =
M A C OS >T2 O 3 % W J J m a g .O .O .c .O. k =O O
. =- .c == \---3 == WW WWE E T T >= 2 W W W W 3 E Y yw =
IH U =W- mWe err =rze W -< JHD = 22az*WW',WeO mEm = rrO W C2% 5*, > < W ZZ2CWWMMMMMERE2MH 1 :2 > W W M M W E E E Z Z h= c. NWC <W2 <W=- 01- >=.J=
- 0WC H f./3 ' C W
d< Q W 3 6 e e e e
4 g ilEAVEtt VALLEY 10/08/79 TO 12/31/70 500 F(xlT LEVEL DATCil PGIODS PERinD OF RECrWIDs 10/11/19-12/ 7/19 4 OBSERVATIONS WITil MISSING D ATA 0 TOTAL OliSEllVATIONS FOR Tile PERina ARE 196 PERCENTAGE OCCultRiitCE OF STAHILITY CL ASSES A D C D E F 3 0.00 0.00 0.00 47.45 38.70 13. lti 0.00 9 9 I i I e I}}