ML19290E895
| 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
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 l
3.
Maximum time pened for a batch re! esse:
975 min 1414 min
}
4 Average time period for batch releases:
595 min 848 min l
5.
Minimum time period for a batch release:
38 min 570 min i
6.
Abnormal Releases -
a.
Uquid f
1.
Number of releases:
NONE J
- 2. Totalactivity released:
- b. Caseous
- 1. Number of releases:
2.
kaal ectivity released:
NONE YS 3
N Q
8003170 t
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 Nuclides Released Unit Quarter Quarter Quarter Quarter
- 1. Fission gases k
am 3e 4m krypton-85
' Ci LL9 E LLD E LLD E 1 38 E+1, krypton.85m Ci ttg E ij n E iin E iin E
krypton.87 Ci iin E iin E iin E nq E
krypton.88 Ci LLD E tL9 E LLO E tLa E
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 xenon.135m Ci LLD E L1D E LLD E LLO E
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 f
Ci E
E E
E 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 Nuclides Released Unit Quarter Quarter Quarter Quarter
- 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 unidentified Ci E
E E
E E
l Total for period Ci E
E 4.96 E-3
- 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 cesium-137 Ci u.D E UD E uD E UD E barium lanthanum-140 Ci UD E LLD E U.D E U3 E Others (specify)
Ci E
E E
E.
Ci E
E E
E Ci E
E E
E tmidentilied Ci E
E E
E UD = Fam mE l>G lmIT CF DETECTIQ4 UAELE 4)
_a.
m.--
i TABLE 2A EFFLUENT AND WASTE DISPOSAL SEM1 ANNUAL REPO LIQUID EFFLUENTS-SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total Error. %
?e 4m A. Fission and activation products
- 1. Total release (not including tritium, Ci 9.16 E-3 7.18 E-3 2.0 E+1 gases, alpha) 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
- 1. Total release Ci 1.17 E +1 1.35 E+1 15 E+1 l
- 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 l
- 1. Total release Ci LL1)
E 3.m E-5 ' 27 E+1 l
- 2. Average diluted concentration E
2.60 E-11 l
during period pCi/mi
- 3. Percent of applicable limit fo
?VA E
fVA E
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 Nuclides Released Unit Quarter Quarter Quarter Quarter 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 unidentified Ci E
E E
E 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) 6 m nth Est. Total unit
- 1. Type of wr.ste Period Error, %
.a. Spent resins, filter sludges, evaporater m
1.10 E+1 2
bottoms. etc.
Ci 151 E+2 3.0 E+1
- b. Dry compressible waste, contaminated m'
9.80 E +1 eqmp, etc.
Ci 5.30 E +1 3.0 E +1 m'
E
- c. Irradiated components, control rods, etc.
Ci E
E m'
E
- d. Other (describe)
Ci E
E
- 2. Estimate of major nuclide composition (by type of wate) a.
en-m 8 DO E +1 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
d.
E E
E 3.
Solid Waste Disposition Number of Shipments hiode of Transportation Destination DE MELL, SC 6
TRUCK 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)
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
O O N es ed M se se as es P= M J== N P e 4
N== **
- e se N M ve se N e w
ee se e
a-N p.
O O
e OOOOOOOOOOOOOOOOO e
OOOOOOOOOOOOOOOOO N
N A
A e
OOOOOOOOOOOOOOOOO e
OOOOOOOOOOOOOOO00 N
N 8
4 en se Ve ime laa W
tad b
h aC OOOOOOOOOOOOOOOOO eo e OOOOOOOOOOOOOOOOO 4 *e d on 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.
A
.J dN 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 N 0 tas o
e G.J e C.J O
se
==
se me h.
E Z
w w
M
>=
>=
4 P=
W G @ M N es se d d M P* M G P N O N 4 P=
e o e o O *= O es ** O M N 4== *e 4 @
>= 8 N
pe me se N eo we N e M
p=
8 se en e
H P=
.J e ao E
.J e E
W D
n&
3 O
Q O
O O
M Z
Z P
O 8
O
>= 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 P
4 1.A I es e
M CD W B
- M
- P tea ao g
4,3,e E
% O P*
b
.J lg.
d so g %
ee g
ee og
%OO Md u
MM y
NuM MM MM u%
4 m
W 6
5@
eJ O
d O
u u
ed w I ee M
ee M
=J O @
>22 M
O
>22 M
O
=J P*
e-O O
=J O
> O.O.
=J O
4O%
- e===
es me
= =
e me
> Q *e
-3 >= p*
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 >=
A CDW 2 2 2 6 4 and W W M M M M 3 3 3 2 2 *=
0.
n=d tea PS 4 tes a ewg
> Q.
> d **
pm.J me 4
e las O tea M tad O C
8 Ou 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
e b
e e
.J e O P* @ Po P* @ N se @ @ @ ** P= M O e J
O N d S 89 @* d @* C P* N O O O O ee O
- E MM@eeMNe4@N es we N M 4
==4N@MN
>=
c
>=
ee sq O
O e
OOOOOOOOOOOOOO90O e
COODOOOOOOOOOOOOO N
N A
A e
OOCOOOOOOOOOOOOOO e
OOOOOOOOO00OOOOOO N
N O
0 0*
we ee D*
Ime had
, inJ led led les b
- C OOOOOOOOOOOOOOOOO
- C OOOOOOOOOOOOOOOOO 4 ee 4 ee e 4 g e3 g eM3 eM3 N oe O N ee O E
Z
.J 6
E E
D 5
and i
14 6
A OOODOOOOO09OOOCDO 4 N. W
.J 4N OODOOOOOOOOOOOOOO ee e se e
- =
N 8 tad N e i.A O
e@J e&J O
se se se
==
b E
E es se d
M
>=
p=
- E N 4 ** O O O O O O @ J *e O N se M es @
et Pm OOOOOOOOeOOOOOOOe
> 0 m se 4
M
>l M
P=
Je a
.J e E
3 tad 3
W O
O Q
O O
Z M
Z e
N 8
ee
>M C 76 P* @ P* P= @ N M M S @ @ d O @ @
De M O N @ C M #5 4 On e P= N O O O O se J laJ Ied 8 NN@eeMNedN**
me ee J H
bW I adN@MN C
M M
E Pm *e @
W ee g
g g, me me
- .d
% O P*
b J
g et
=* E %
- e
.g ee
%OO M IM Q
(1 e U
P' U M MM MM 6
6%
et 6
ag O
E@
=d O
.J W
u M
b6 9 se e
e.
dO@
>22 m
O
>22 M
O O
>= O O
.A C
.J
=d P*
- O O as
==
at O %
me se me g
me en e se 3
3 E
> O **
aJ > >*
W lsJ W
InJ 3
3 3
3 De E
J D* De laJ tmJ 4md led 3
3 232'0"
- et U Z led 2 M tad M M3M 232O ind
- et U 2 Lad 2 MWM M3M 6
EE%
CDW 2 2 2 tes led led M M M M M 3 3 3 2 2 9=
C D tad 2 2 2 tad ind led M M M M M 3 3 3 2 2 b" end W P*
es I-s E as 4,4 g
- =.J se
>m,J==
E M les Q H 4,4 Q m'as O
9 Ou.a Q
=
e a
e
.J O O ye M se P e O se se O O O O se O se
.J d N @ @ e me J N O M P M P G3 O P se P= N N W1 e M 4 @ # P= O 4 N P= ee P e.e N N se se me se ne 4
NeeN N
4 we se se O
>=
N
>=
O O
N t=
t=
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
- C OOOOOOOOOOOOOOOOO
- e 4 OOOOOOOOOOOOOOOOO 4 es d me e eg e 3 g CM3 4m3 N se O N ee O Z
Z
.J E
E
.3e 9
W l
W W
4
.J JN OOOOOOOOOOOOOOOOO 4N CB e O O O O O O O @ ed C N O ** O 2 e se M e me M F1 N 4
N 8 W
==
N 9 W Q
e G.J eWJ se me O
eo me 6
E E
en en d
a=
M De eE Pm OOOOOOOOOOOOOOOOO 88 Po e M @ W1M N se 4 e cs d N e O P e M P
p=
0 M
> 8 4 **
p1 O P= O d at w14 O M
r=
.J e E
.A e es ce 4
CE W
3 W
3 O
Q O
O Q
M Z
Z C'
P=
O 8
J ee
>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 4W 8 NeCN N
M
- E W 4 OdOPeJNasPMMNNNMOP M
N E
W ee se se N N am 81 E
P* ** P W ee
.J Q F*
L
.a u
%e z %
es es se es
%CO Md W
Md u
P= u M MM M v1 W%
4 6
4 6
E@
.A O
.A O
P u
W M
M ee ww 0
.J C P
>22 M
c 3= 2 2 M
O
.4 P=
>GG
.J G
>OO
.4 O
ec%
= = = =
4 en se me me 4
==
> O **
.4 > >
W l.J l.J W
3 3
3 3 s=
a
.4 > >
W W
W W
3 3
3 3>
E
=*
- 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
Ou
.i C
=
=
=
e e
e e
e e
g e
a g
g
4 BEAVER WALLfY 7/1/F9 - 9/30/79 35 FOOT L[ VEL DLCO 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 t-0 M
>= 8 M
- e E
.J e s
N tad 3
W 3
Q O
Q C
O Z
E M
7 O
O O
to M OOOOOOOOOOOOOOOOO t= M OOOOOOOOOOOOOOOOO 4W G M
S tsJ 8 M
P ** e wn E
w ee E
M O P=
6
.J 6
- .J
%g%
en og es g
- 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
=E O %
==== me et me me me **
4 en M O 8e ed D= >=
taJ tad lea nJ 3
3 3
3*
E J >= t=
1.J 4.J t.J t.J 3
3 3
3 >=
W me at U 2 4.J 2 MWH M3M 232O is
== as u 2 1.J 2 W InJ M M3M 232O w
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 Ou 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
et W WeW e
C 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 Q e.s e.
e se e g,g so g
y 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 3
3*
E
> Q ee ad >= e=
kna 4.3 led ime 3
3 3
3 >=
g
.J p= >
Ind ind imJ laJ 3
3 2 3 2 O"
- 4 W 2 and 2 MWM M3M 232O and
== 4 U ZLd2 MWM M3M 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 Ou
-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
- O Pm 6
.4 h
. E
.A
%4%
ee 4
ee e
a= O O MO u
HO u
% W *)
MO W1 O P= W %
at @
W et d W
.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 2 t.J 2 M t.4 es M3M 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
.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 MwQ t.J O
I Ou
.d Q
~
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 4
OOOOOOOOOOOOOOOOO
.J OOOOOOOOOOOOOOOOO
.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
E
% ** P W *e E
w ee se Q P=
6
.J h
J
== E %
ee g
ee 4
%ON Me u
Mc u
& W **
MM MM t.4 %
et 6
4 6
.J Q
J Q
W W
M t.s 4 4 M
aOP
>22 M
O
>22 M
O
.J P*
- OO
.J Q
>QO
.J O
as O %
me== om 4
==
me====
4
==
> Q **
.A >= De 6J W
W taJ 3
3 3
3 >*
g 4>=>
w w
W W
3 3
3 3>
E 2w2 MwM e3 6 232O w
- e se
=* 4 W 2 1.J 2 MWM M3M 232O w
me e u 2 z 2 w W w M M arvie)g# 3 3 2 2==
a a as %
C>w 2 2 2 w w w M M M M M 3 3 3 2 2== a O>w I. A en. 40 4wa 4wg
>=.J me
>*.J om 4
MWQ M 4.# Q te8 C
I C
U
.J Q
~
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 e e ac
>=
- I E 4
C43 OM3 m
N== 0 N ee O E
J v
z g
0 las 9
6.a W
4 4
oooCOOOoOOOOooeOO 4N eooOeooeooooeoooo
@NM
.J e.
e me M N 8 i.a C
ea I w J
f C.J f S.J 3
em me co
==
0 K
E w
a me Q
k
>=
P 4 P=
cOOoeOOOOoOOoeooO 4 P=
0 O O o o o o o O O O O O O== O==
P=
t=
0 M
>= 1 M
.J e E
.J e g
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*
u laJ B M
CW l M
n.a se E
taa se E
- C P' d
.J 4
ae E %
4 se
% Q 08 MO u
Md u
J3 U M MM MM 6%
4 6
4 m
3D d
C
.A C
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 4
==
4 O%
= = = =
4 me
= = = =
>OM
.J = a=
i.e nJ i.J naa 3
3 3
3 >=
g a >= >=
i.4 nas t.J i
3 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
Cu 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
- e K %
ee og es
- O og
%CN MM U
MM
& W==
MM Me Ima %
4 w
4 6
.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
- 0. 0 4O%
= = = =
.g
==
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
Ou 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=
M O O O O O O O O O O O O O== C e N
>* 0 M
>= B M
as 9 K
.J 9 3
N W
D 4.4 3
O O
O O
Z Z
I O
O J
>= 6 OOOOOOOOOOOOOOOOO a >= m== em O O O O O O O== O O O O O O M 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 6
EC
.J O
.J Q
U u
W6 9 ee M
ee n
=J O @
>22 M
C
>22 M
3
.a N
>= O O a
O Do o O a
C
- E O %
== en me at
==
= = = =
- E
- =
> Q==
.J>=>=
W l.J W
W 3
3 3
3 m.
g
.J p. >=
i.A W
Ina I.a 3
3 3
3 *=
2:
N =*
- at U 2LJ 2 M leJ M M3M 232O W
es et U Z l.J 2 MWM M3M 232O W
E4 %
G3 > W 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 t=* W%
4WE 4WE D4 D=**
to J==
- E 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 Ou
.,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
~
9/25/79 ELEVATED BATCH JFDS DLCO - DEAVER WALLEY 7/14/79 g
PfkIco 0F RICOND:
F/14/79-9/25/79 4
STABILITY CLASS: G ELEVATION: 500 FEET DELTA T 4 495.8 -
28 61 FEET g
DIRECllON 1-3 4-7 8-12 13-;*
19-24
>24 TOTAL MILES PER HOUR N
0 0
0 0
0 0
0 g
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 E
0 0
0 b
0 0
0 ESE O
0 0
0 0
O O
0 0
SE 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
NNW 0
0 0
0 0
0 0
g TOTALS 0
0 0
0 0
0 0
PERIDOS OF CALMS 0 HOURS g
D STABILITY CLASS: ALL ELEVATION: 500 FEET DELTA T t 495.8 -
28.63 FEET DIRECTION 1-3 4-7
.8-12 13-18 19-24
>24 7OTAL g
MILES PER HOUR N
1 5
12 2
0 0
20 NNE 1
2 6
3 0
0 12 g
NE 3
1 13 2
0 0
19 ENE 2
7 3
1 0
0 13 E
1 3
1 0
0 0
5 g
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 O
w
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 A
B C
D E
F G
0.48 1.44 1 91 58.85 24.40 12.92 0.00 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 DIHECTION 3-3 4-7 6-12 13-18 19-24
>24 TOTAL MILES PER 1100R H
0 3
0 0
0 0
3 NNE 2
1 0
0 0
0 3
NE 2
2 0
0 0
0 4
ta ENE I
3 0
0 0
0 4
E I
2 0
0 0
0 3
ESE I
3 0
0 0
0 4
v SE O
3 0
0 0
0 3
SSE o
2 0
0 0
0 2
S 2
8 3
0 0
0 13 SSN O
l 0
0 0
J B
SW O
O I
O O
O I
MSN O
6 7
2 0
0 15 W
W O
3 8
0 0
0 16 HNW I
5 3
0 0
0 9
HW 0
2 0
0 0
0 2
w NNW I
I O
O O
O 2
TOTALS 11 50 22 2
0 0
85 w
PEH10DS OF CALMS O 110URS k
STABILITY CLASSs H ELEVATIONS 35 FEET DELTA T ( I42.6 -
211.61 FEET 6
D lH ECT ION l-3 4-7 6-12 13-18 19-24
>24 TOTAL MILES PER I;ouR H
I O
O O
O O
I G
NNE o
0 0
0 0
0 0
HE o
0 0
0 0
0 0
E NE I
O O
O O
O I
b E
I i
0 0
0 0
2 ESE O
O O
O O
O O
SE O
1 0
0 0
0 l
b SSE I
O o
O O
O I
S I
2 0
0 0
0 3
SSW 0
1 2
0 0
0 3
0 S4 0
2 5
0 0
0 7
HSH 0
0 2
O O
O 2
4 0
5 5
0 0
0 to O
NNW 0
4 2
0 0
0 6
NN O
4 0
0 0
0 4
NNH 0
0 0
0 0
0 O
O s J/ALS 5
20 16 0
0 0
48 PERIOUS OF CALMS O Il00RS 4
4 i
i
~
4 HEAVEtt V ALLEt 10/01/79 TO 12/31/79 35 FIN)T LEVEL PERino nF RECaWIDs t
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 TOTALS 207 4 tts 233 12 0
0 937 PEllinDS OF CALMS to flullHS g
4 g
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 N
7 2
0 0
0 0
9 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^
-NNN--
5 y
N y
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-n NfW N IW
=
W C3 d wCd
-==
w w
W H
H m c m c e-c c - c v m *f 4 0 c - c
- C4e*
W
< ** C - O C C C C C m C C C - C C C J't
< P-H,I
-#vN r
J HI m
~ ~
Jv 2
,.J, w
5 b
W g
E C
C
=
g f
M c
-'l UbM @cC-T@cTCONOCc#w%
O H*
N@OTSNc.C@-NCNOCc N c c P* N
c M
<WI N v > @ - N m C 2 r*l - - - - - - - m P*
OW 9 N
- g W-
- r N = 06 W-
- 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 a
a.
H49 m
f
=
33
>22 m C
>==
m O J
C O
N HCC J
.C 1 = C.C NCN
.s:
< =
NC-dHh W %
W W Z E
E TH 2
JHH W g 1.L1 W
T E
Y Yb
-<a zW-mWm erm zrzC W
-W ZZZWWWWWWWerEE=2H c.
c.g: I.u ~
%WC
<WT p y :C C4=
HJ=
mWC m=
>=
W d<>
2W><
W "ll2
1 0
5 G
4 1
6 2
F 9
S E
C 9
E Y
0 T
2 I
L 1
4 I
0 B
2 AT 0
S 4
D F
4 O
4 E
1 l
E l
6 A
CN 1
D E
O R
9 I
R 6
L A
l U
C 4
E T
E C
2 V
A P
C
)
E o
1 L
E G
i E
l r
N T
G i
I A
W S
R T
F S
O N
10 t
S I
F E
B 3
M C
2 I
S 9
H N
D 1
T O
P
/ s9 I
I 1 u7 W
T 3li/
A
/o1 S
V 6
2C3 H
l A
1 l
e/
n E
i 1
i S
4 d2 T
B o
1 TF -
A O
O9 V
9 7
l L
l 7D/
E A
/ ol S
T l
O 1t 0li/
l T
o
/E0 0P1 1
Y ELL AV 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
t3 O
.=
H H
uJ W
W W
W 4
aC CCCCCCCCCCCCCCCCC ae CCCCCCCCCCCCCCCCC
- c. I 2
- c. I e mms mmg m-g N,
~
~
l G
I G
A C. N OCCCCCCCCCCCCCCCC C. N. m CCCCCCCCCCCCCCCCO
-m cIW ciW oTJ O:DJ v
v J
w W
H W
H J
<* CCCCCCCCCCCCCCCCC
<* CCCCCCCCCCCCCCCCO W
Ht m
H ta 2
Q
.J V 2
Mv W
D J
p 1
Q E
C
-z 8
C C
m CCCCCCCCCCCCCCCCC 3
L. m CCCCCCCCCCCCCCCCC
= te m we m
N
< !.u e m2 W-2 N=0 W==
-Q%
.J K
a<
=
mgN U
mg
=
a e8 m.
s.-
m a
Num W
<c
== W N
<c 2N
.J O
.J O
U U
C m
=
m
=
hee C3
>= 2 2 C
>ZZ m
O
=
J O
.M..O.O.=
.O
.H. O..O S
< ~
&CN JHM W
W W W Z
E $
T6
=
\\O=
dbH W W W W X E T
TH ZW' mWe Arm
-ECO w
~~
=<U TWK MWe MEm ZZZC G
=<O CcN
=>W Z Z Z W W W m m in m in E C E Z Z H G
>W ZZZOWem m m e m E E E Z e
^.
C
<W=
NWC
<W2 C 2. -
H J==
HJ-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 - C m v - e-C.v e N v c
--mvn~pNN.mcN~
t.
e
-N-N-N
-H P=
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
- c. 1 =
4
=
.em mm cm3 Ng N-g 2
2 1
W 3
W
't.
1 CN CC--0-NOCCCCCCCCc
- c. N o-4NommemSvveNem=
- - N m m c v %.% N - N p i b9
-m v
Iw g3J o C.J g
v =
x J
x w
w w
w w
J CCCCCCCCCCCCCCCCC NOC->2**C% TCCCc7*
4 m
H N----
o e
- =
~
JV 2
Mv w
m o
a W
C 3
C C
-n C
@~OMCNC"C'NNN-~~#
O be CCCCCCCCCCCCCCCCC C,, m A
N W.I.
QwI e
3 N=@
w-X d,J
.J 4
-2%
1 mSN mb Mb N
O m
nom m
wN
<c 1
<m
=
- Z N
.J C
.d O
V m
O m
H1 0
=
OS
>2z m C
>%2
,i X
d J
.O
.H O O H.O.O
%CN NO=
JHU g W W E E
E TH 2
JHf W
W W I
I E MD.$
W
-3 z owm mE z=?wwwmemmmo
=w-mwm mEm zgz: w
-<a x2x 3; 1
CzN z>w zzzwwwneemmEEE zb a
=gw 2
Nwo
<w=
HrJ m w "C C1=
H.J -
ow2 W
2w><w O
g s
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 ELEVATION: 500 FEET DELTA T ( 495.8 -
28.61 FEET DlHEcritHe 1-3 4-7 3-12 1 3 -111 19-24
>24 TOTAL MILES PER 1100H N
2 I
I O
O O
4 NME 2
0 0
0 0
0 2
NE 4
3 2
0 0
0 9
ENE i
10 5
0 0
0 22 E
5 to lo 0
0 0
2S ESE 3
7 26 4
1 0
48 SE 2
9 IS 4
3 0
33 SSE 4
14 16 6
1 0
41 S
9 14 27 0
0 0
50 SSW 3
4 32 38 I
I 79 SH 5
19 22 31 2
0 79 MSN S
10 22 1
0 0
44 W
9 7
6 1
0 0
23 g
HNW 3
2 2
1 0
0 8
NW 4
2 3
0 0
0 9
NHH 2
4 2
0 0
0 8
TOTALS 69 116 191 100 8
1 485 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 H
2 0
0 0
0 0
2 d
NNE O
I o
O O
c I
NE I
9 5
0 0
0 15 ENE O
6 8
0 0
0 64 E
2 7
5 0
0 0
14 ESE I
6 I
I O
O 9
SE I
12 5
3 1
0 22 SSE 3
IS 11 2
O O
33 J
S I
4 25 0
1 0
39 SSH 2
3 20 13 0
0 30 g
Sd i
5 13 5
0 0
24 NSH I
5 4
0 0
0 10 N
O 4
2 0
0 0
6 NtM 2
6 3
0 0
0 II NH 2
0 1
0 0
0 3
NNW O
O O
O O
O 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 A
B C
D E
F G
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
- CCCCCCCCCCCCCCCCC w CCCCCCCCCCCCCCCCC N
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 Dm3 Ng N-g 9-
~
g O
Q
~
=
1.
A CCCJCCCCCCCCCCCCC U
C N.
CCCCCCCCCCCCCCCCC C. N. m N e.u N. W w
e.
c w C.J.e C J.
w
- =
Z 2
=
.J W>
H H
W I
<> CCCCCCCCCCCCCCCCC CC C C CC CC C C C C CC C C C HI m
F.
e e
H Jv
=
Jw C"
W m
O' 3
u.
E.
5 C
Q b
C C
< l-m CCCCCCCCCCCCCCCCC wm CC CC CC C C C C C C CC CC C O
en
=W I m
w I, W-2 W-Z N O
-Om
.J a<
m ~d C U
mm O
N N
em em om N.= u 4
4 WN C
2N J
C JU.
O C
O.
m w u, e CO
>ZZ m
C DZZ m C J C O
N HCC J
C HCC
< =
NCN
=
a-=
= = = -
nom
.J >= l==
W W W W T E
E TH 2
.J H w W
W W W E
E E
EH 2
Z Z Z W W @4 V. m e m m T E E Z 6ZI30 4
ZWZ We ATA
=W ZZZWWWmmmmm3EEZZH
< al NWN
<W=
C4-
)==.J =
>=
MWC m !C
>W 2W><
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 v CCCCCCCOCCCOCOCOO
- CCCCCCCCCCCCCCCCC N
N d
t.u W
W 4
1
~ cc CCCCCCCCCCCCCCCCC
=c CCCCCOCCCCCOCOCOC e
4-c-
- I2 C
- I3
=m3 O
cc m a N-O N=Q
=
=
C 2
1 2
i W
I W
1 s
O C.N m CCCCCCCCCCCCOOCCC C. N CCCCCOCCCvCCCOCOe
-m H
N fW N IW vcJ CD vCJ 3
2 w
g w
H H
g
.J
<m CCCCCCCCCCCCCCCCC
<- CCCCCOCOCOCOCOCOC HI m
HI e
2 g*
H
.J V 2
=
W 2
E.
C C
3 w
O m
C O
HM CCCCCCCCCCCCCCCCC HM CCCCCCCCCOCOCOCCC
.M m
CWW.s.
Q W I.
a=
W.
m N=%
=. O %
.,,J J<
=
V m=N
=
%O4 tM e Q
mo U
Mm em a
NWN 1
O 2N
.J O
J U
U O
OS
>Z=
fA C
>ZZ m
.O m
=
HL l
=
O J
J
.O.
M.O.O H.O.O O
=
r= C g W W W E
E E
Eb O
J. H b
'g W W W E E
E EH 3 J. H H E'.:
nom mWm M E tn zg=0 W
-W ZZZQWw,emommEEE ZH 1
=
-=
C=N c>W
<W H J.=.
sWN
<W2 0a-H.J =
MWC OWC 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 OH H
v CCCCCCCCOCCCCCCCC v CCCCCCCCCCCOC=COC N
N A
A e CCCCCCCCCCCCCCCCC
- CCCCCCCOCCCCCOCOC N
N I
8 O
O 6
H LU W
W W
W W
- "J CCCCCCCCCCCCCCCCC
-C CCCCCCCCCOCCCCCCC
- c. f e m
4-C
- 82 TM=
3M3 N=5 N=2
~
g
~
=
l W
I C
1 C
4 CCCCOCCCCOCOCOCCC U
C. N OCCCCCCCCCCCCCCCC
- 4. N..y 6
-m N t.aJ N eW O
VCJ v21 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
>t
~
k Jv c
_3 v E
W o
C 5
2
=
Q 5
1 49 C
O O
HM CCCCCCCCOCCCCCCCC 69 COOOOOCC-C-OCOCON
.9 WWf m
aW s
%aS W=
2 W -.
E "CN 4
J 4
Q M2%
NOC Me Q
mp NU mm em A
1
-WN C
,2N J
C J
0 y
.9
=
m b '.1.
t m
O OS
>ZZ m Q
>22 J
a 6: C o,~
.".= 0 m\\yN W
W W W E 3
T r"6 c
zWz -
erm 2
m
.J H D
=m JHh W W W
W E
F T
TW mW=
c-W e e r.,
,e
rzWW$Wmm e m m e r t r E z: w
-<a a
=>W
= = z W W W e e t.- '.a estr726 :.
02%
c>W
<W2 NWN
<W2 C%=
HJ-HyC mWC 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
H -
'J.i W
W W
W 1
a CD CCOOCOCCCCCCOCCCC
=0 CCCCCOCCCCCCOOCCC C. I m
C-C 2
- IT C
=mo
=2 m 3 N-0 N-O C
E
~
~
l G
I G
=
1 1
O C. N CCOCOCCCOOCCCCCCC C. N OCCCCOCCCvCCCOCOv 6
- rn
-m NI W N tW C.'.
TOJ eTJ 2
x I
w w
Wg H
6
.J
- CCCCOCCCCCOOCCCOC CCCOCOCC
% -CCCCC>
H8 rn k e n
6 Jv 2
Jv 2
E W
O W
O C
=-
m m
O C
-4 O
C W e' CCOOOCCCOOOOCOCCC 6m C O C O C C C O - C -C O O C ON H"
N m
cw e
N=>
W=
2 W-N
-O%
W
.J W
.J e2N
=
.c NOC M@
Q mm
- J NU
@m Acm
-WN
.C
'J 2N
=J O
J O
H1-U g
I
=
m
=
m OS ZZ d
%2Z d
O O
0 J.c kOO W
% y,%
2
= =
\\=
=J H Q
W W W
E E
{r=6 T
g
.J p W
W ggj y
g g g yH
=
mW=
zWe mEm O
W zWZ nWe erm s===
02%
CDW 22ZWWWMddOMETEZZH 1 O>W ZZZWWWmdgmmrE3Z2W -
1 NWN
<W2
<W~
C 4==
H.J -
HWO AWC WW3
=
w W
J
.J
.c>
e
><W
4
' 4 IS EAV Eli VALLE( 10/01/79 TO 12/31/79 35 Fawir LEVEL llATCil PEHinDS g
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 A
B C
D E
F G
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
<W HC C
k H
- CCCCCCCCCCCCCCCCC v CCCCCCCCCCCCCCCCO N
N A
A v CCCCCCCCCCCCCCCCC v CCCCCCCCCCCCCCCCC N
N I
a o
o H
H W
w w
w W
u.
g Q
-T CCCCCCCCCCCCCCCCC aC CCCCCCCCCCCCCCCCC
- c. t =
4-O
- I2 zm=
m
N-2 N-g
~
~
O I
O G
H a
2 C. N CCCCCCCCCCCCCCCCC C. N CCCCCCCCCCCCCCCCC c2
- ui
-m
- 8 w cew
>Dt 5 :.,.s.
v v
2 2
U' w
w d'
H H
a
< P=
CCCCCCCCCCCCCCCCC CCCCCCCCCCCCCCCOC H
HI m
HI m
E JT
=
Jv
=
w a
w
=
C 3
4 C
2_
g C
C m
3 HM CCCCCCCCCCCCCCCCC wm CCCCCCCCCCCCCCCCC
=wi e
o,
~
<wi u-x s-s w-
-=~
u.
a w
-=s sc~
me o
me u
Nu mC eC u.
-ws
<m u.
<o
=N a
a
=
u u
=
m m
H u. I
=>
>.z =
m -
>. z =
m C 5
H:=
a e 2 -
H:C a
e- = s
g w
- a. w< w ww w w r r =
=
z z z w wla w mm m g2,u m,,3_ r r w w w w w = r
=
so-awg ewemmmem,,=,=zr
~
w
.=,u erm wz
=wz w
w 22=wm m
,==g e=s e>w swC
<W2
<we C 2. -
Ha-Ha-mwo ow=
ww d<>
Q><w=
=
a a
n
)
)
)
)
7
.J CCCCCCCCCCCCCCCCC
.J N O N 4 W v N - N C # C m, e
g
=
=
H H
v CCCCCCCCCCCCCCCCC v CCCCCCCCCCCCCCCCC N
N 4
A
- CCCCCCCCCCCCCCCCC v CCCCCCCvN#CC-CCCN N
N i
0O O
H W
w w
w W
1 u.
ae CCCCCCCCCCCCCCCCC aT CCCCCCCNewNtvmCC-o
.se
==
.em emo 6
cmg N-g u
N, M
6 2
I w
I w g
a 8
C. N CCCCCCCCCCCCCCCCC
- 2. N CCCCCCCCmCCNNmmCM-
-m
-m
( #w
- tw
>cJ
'v) = J v -
2 J
2 W
b H
w
-CNCNw-m--CNvmNC-
.J CCCCCCCCCCCCCCCCC e m
> e m
He 2
T
.J v E
.J V 2
c W
2 s'
-=
=
8 C
C km
-CC-CCCCC-C---CCc O
HM CCCCCCCCCCCCCCCCC m
m CwI x
OwI N=3 W-g w-a
.J w
-CN 1
=
=
Q m3N Q
m*
N mC mb NO mC u.
u.
<c
-ws
<c
=,
C w
2N
.J U
e U
m
=
a OS NZT m
>Z2 m
>= 4 i
=
3 a
J 6
H.O..O.
J
.H.O O O
N
=
NO-
.J H f W W W W E E
T TW 2
.J>=>=
W w w W E
E E
gH Q
~Cs
w
mwm m m.,
ar_=
zw=
mwm um ze c w
-w zz=wwwmmmemzurzzH s
~<a Ces m>w
<w=
swC
<we
>=.;==
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 N
O O
O O
O O
O 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
S 4
2 I
O O
O 7
SSW 2
1 4
13 0
0 20 SW 3
I I
2 O
O 7
WSH 2
5 0
0 0
0 7
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
TurALS 22 24 15 IS O
O To 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
W O
O O
O O
O 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
- - m - N.C. - > C 4 0C 3
CCCCCCCCCCCCCCCCC J N C.C. :D m e= T C O N :
.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
N-E N-g a.,
g I
W 8
C U
n.
c.
y C. N e CCCCCCCCCCCCCCCCC C. W mCCvcNNCCvcvmNmmCm v
g g' f W d IW
>cJ O2J v -
v==
J m
x W
w w
?*
H
>=
J
<N J;OCCCCCCCCCCCCCCC
-O409vNt*NNCce9C-w
> e m
HI c m=
C' y Q
Jv 1
g W
g C
C
=
=
5c C
C b4M
-CCM--NNvmmMv==CO S
HM CCCCCCCCCCCCCCCCC e.
CW8 m
<WI N
e N=3 W.=
2 W.=
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 HW -
O Q
C d
=
A e
=
OS
>T2 m C
>22 M
C J
O J
.O.
k =O O 3
W.O.O
.c
. =-
.c
==
a m
g
\\ 3==
IH U W
W W W 3 E
Y yw =
JHD W W W W E E
T T >=
2
=
mEm = rrO W
=W-mWe err =rze W
22az*WW',WeO M M W E E E Z Z h=
c.
W ZZ2CWWMMMMMERE2MH 1
- 2 > W W
C2%
5*
NWC
<W2
<W=
01-
>=.J=
H ' C 0WC f./3 W
d<>
Q><
W 3
6 e
e e
e
4 ilEAVEtt VALLEY 10/08/79 TO 12/31/70 500 F(xlT LEVEL DATCil PGIODS g
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