ML18025B068
| ML18025B068 | |
| Person / Time | |
|---|---|
| Site: | Browns Ferry  |
| Issue date: | 08/29/1980 |
| From: | TENNESSEE VALLEY AUTHORITY |
| To: | |
| Shared Package | |
| ML18025B069 | List: |
| References | |
| RH-80-5-BF-3, NUDOCS 8009110353 | |
| Download: ML18025B068 (47) | |
Text
RH-80-5-BF-3 RADIOLOGICAL IMPACT ASSESSMENT BROWNS FERRY NUCLEAR PLANT JANUARY-J E 1980
.Sooezze 3' REGIILNOIIYDOCKET FILE COPY
V i I
t
RADIOLOGICAL IMPACT ASSESSMENT BROWNS FERRY NUCLEAR PLANT JANUARY-JUNE 1980 Introduction Potential doses to individuals and populations have been calcu-lated for the time period January 1 through June 30, 1980.
The calculations have been made using the measured releases listed in Tables 1-3 for radio-activity in both gaseous and liquid effluents.
Dispersion of radioactive effluents in the environment has been calculated using meteorological data
't and river flow data measured during this period.
Meteorolo ical Data Meteorological data were measured, and average quarterly joint frequency distributions (JFD's) for ground-level, split-level, and stack releases were calculated.
The ground-level JFD was derived from wind speeds and directions measured 10 meters above ground-level and from the vertical temperature gradient between 10 and 45 meters.
The ground-level portion of the split-level JFD was based on wind speeds and directions measured with a sensor located 10 meters above ground-level and from the vertical tempera-ture gradient between 10 and 45 meters.
The elevated portion of the split-level JFD was b'ased on wind speed and direction measurements at the 46-meter level and the vertical temperature gradient between 45 and 90 meters.
The JFD's for elevated releases were based on wind directions and wind speeds measured at 93 meters.
Stability class D was assumed to persist at the
effluent release level of 183 meters for the entire period.
Examination of rawinsonde data from TVA's Colbert Steam Plant (40 miles west of BFN) indicates that for hT-based stabilities at levels above 183 meters, the frequencies of stability classes D and E total more than 95 percent of all occurrences.
For an elevated release, assumption of class D instead of E yields conservative results.
The wind speeds were divided into nine wind-speed ranges.
For calculational purposes, calms were distributed into the lowest wind speed range (0-0.5 mph) according to the directional probabilities in the 0.6-'1.4 mph range.
The quarterly JFD's are listed in Tables 4 and 5 for ground-level
- releases, Tables 6 and 7 for split-level releases, and in Tables 8 and 9 for elevated releases.
Gaseous Effluents Ground-level and elevated dispersion models were applied to turbine building and stack releases respectively.
Releases from the reactor building and radwaste building were treated as split-level releases, i.e., partly elevated and partly ground-level.
The split-level dispersion approach was implemented using a model that requires for each effluent vent two complete average-annual
)oint-frequency distributions (JFD's),
one for the elevated releases and one for the ground-level releases.
Radionuclides in gaseous effluents were assumed to be released continuously.
Dose estimates for external air exposures were made at the site boundary.
External doses to the skin and total body were estimated for the nearest residence in each
sector,.
Internal doses to the thyroid were estimated from the ingestion, inhalation, and external exposure pathways.
The internal doses were calcu-lated for farms where milk is consumed without commercial preparation.
Doses are given in Tables 10 and ll for these individual exposure pathways at the maximum exposure locations.
Population doses were calculated for an estimated 627,000 persons living within a 50-mile radius of the plant site.
Population doses were calculated assuming that each individual consumes vegetables and meat pro-duced within the sector annuli in which he resides.
Doses from milk ingestion were calculated from data on milk production within 50 miles of the plant site.
Doses from external pathways, inhalation, and beef and vegetable ingestion are based on the 50-mile human pqpulation distribution.
Population dose estimates for the gaseous effluents are presented in Table 12.
Li uid Effluents Doses from liquid effluents were calculated using measured hydraulic data.
The average river flows at the plant site were 80,000 cfs for the first quarter and 48,900 for the second quarter.
Radioactivity concentrations in the Tennessee River were calculated assuming that releases in liquid effluents were continuous.
Doses were calculated for recreation, consumption of fish, and drinking water from public water supplies between the plant site and the
'outh of the Tennessee River.
The maximum individual dose from drinking water was assumed to be that calculated at the nearest downstream public water supply (Champion Paper Company).
The maximum potential recreation dose was
calculated for a location immediately downstream from the plant outfall.
Dose estimates for the liquid effluents are presented in Tables 13 and 14.
Direct Radiation Analysis of onsite thermoluminescent dosimetry (TLD) data showed that radioactivity levels were not statistically di'fferent from levels at offsite locations.
This indicates that there was no identifiable increase in dose rate levels attributable to direct radiation from plant equipment and/or gaseous effluents.
Fluctuations in natural background dose rates and in TLD readings tend to mask any small increments which may be due to plant operations.
Dose Summar Doses calculated for this semiannual period result from the low-level effluent releases of units 1, 2, and 3.
For gaseous effluents released in the first quarter, the maximum gamma and beta air doses were calculated to be 0.35 and 0.44 mrad, respectively.
During the second quarter, the gamma and beta air doses were 0.39 and 0.48 mrad, respectively.
These quarterly doses are well below the annual air dose guidelines (as specified in Appendix I to 10 CFR 50) of 30 and 60 mrad for gamma and beta radiation, respectively, for three reactor units.
(All doses and dose limits referred to will be totals for the three reactor units.)
The maximum doses from noble gases to the skin and total body during the first quarter were calculated to be 0.31 and 0.21 mrem.
During the second quarter, the skin and total body were 0.33 and 0.22 mrem, respectively.
These compare with annual dose guidelines
of 45 mrem to the skin and 15 mrem to the total body.
The dose to the maximum exposed organ was 0.11 mrem to the thyroid for the first quarter and 1.19 mrem to the bone for the second quarter.
These doses result from the ingestion of milk, meat, vegetables, inhalation, and exposure to ground contamination by iodine and particulates.
For liquid effluents released in the first quarter, the maximum individual doses to the total body and the maximum exposed organ, i.e.,
thyroid, were calculated to be 0.05 and 0.03 mrem, respectively.
In the second
- quarter, the maximum doses to the total body and thyroid were 0.03 and 0.01
, mrem, respectively.
These compare with annual dose guidelines as specified in Appendix I to 10 CFR 50 of 9 and 30 mrem to the total body and maximum exposed organ (G.I. tract), respectively, for three'nits.
Population doses from gaseous effluents during the first quarter were estimated to be 0.95 man-rem to the total body and 1.4 man-rem to the thyroid. 'or the second quarter, population doses were 2.5 man-rem to the total body and 2.8 man-rem to the bone.
From liquid releases during the first quarter, the total population along the Tennessee River was estimated to receive 1.3 man-rem to the total body and 1.5 man-rem to the maximum exposed organ (thyroid).
For the second
- quarter, the Tennessee River population was estimated to recieve 0.4 man-rem to the total body and 0.5 man-rem to the maximum exposed organ (thyroid).
In summary, all doses calculated were below the guidelines of Appendix I to 10 CFR 50'nd below the limits specified in the Browns Ferry-Nuclear Plant technical specifications for plant operation.
TABLE 1 BFN GASEOUS EFFLUENT RELEASES FIRST UARTER 1980 Radionuclide H-3 Ar-41 Sr-89 Sr-90 Kr-85 Kr-85m Kr-87 Kr-88 I-131 I-133 I-135 Xe-133 Xe-135 Xe-138 Cs-134 Cs-137 Ba-140 La-140 Zr-95 Nb-95 Co-58 Mn-54 Zn-65 Fe-59 Co-60 Xe-135m Reactor
- l. 61E+1
<4.44E+1 3.32E-7 8.75E-7
<3.20E-3
<2.05E+1
<5.62E+1
<8.35E+1 1.76E-2
<1.26E-3
<8.66E-3
<3.62E+2
<3.61E+1
<6.44E+2
<5.86E-4
<1.12E-5
<6.05E-4
<9.93E-4
<1.69E-3
<9.21E-4
<5.24E-4
<6.04E-4 5.80E-3 9.55E-4 4.91E-3
<1.15E+2 Radwaste Buildin Ci 2.95E-2
<2.62'.89E-7 1.61E-7
<2.19E-4
<9.10E-1
<2.37E+0
'-<2.60E+2 1.73E-4
<4.14E-5
<2.33E-4
<1.11K+1
<1.89E+0
<5.54E+0
<1.11E-5
<1.85E-5
<1.40E-5
<2.29E-5
<2.48E-5
<1.56E-5
<1.23E-5
<1.41E-5 1.03E-4
<2.05E-5 1.06E-4
<5.84E+0 Turbine Buildin (Ci 1.39E-l
<5.43E+0 3.49E-6 5.68E-6
<1.44E-3
<2.94E+0
<7.69E+0
<1.29E+0 3.80E-4
<1.89E-4
<1.34E-3
<1.89E+0
<3.89E+2
<1.16E+2
<9.91E-5
<5 '3E-4
<9.88E-5
<1.87E-4
<1.96E-4
<8.39E-5
<8.29E-5
<8.71E-5 4.59E-4
<1.85E-4 3.12E-4
<7.28'tack (Ci 1.78E+0
<3.56E+1 4.13E-6 6.71E-6
<7.54E-3
<2.44E+1
<6.65E+1
<3.57E+2 1.82E-2
<1.49E-3
<2.99E-2
<3.84E+2
<4.16E+2
<4.99E+2
<6.97E-4
<6.41E-4
<7.17E-4
<1.20E-3
<1.91E-3
<1.02E-3
<6.18E-4
<7 '9E-4 6.36E-3
<1.16E-3 5.38E-3
<7.14E+1
TABLE 2 BPN GASEOUS EFFLUENT RELEASES SECOND UARTER 1980 Radionuclide Reactor Buildin Ci Radwaste Buildin Ci Turbine Buildin Ci)
~Stack (Ci H-3
. Ar-41 Sr-89 Sr-90 Kr-85 Kr-85m
-Kr-87 Kr-88 I-131 I-133 l-135 Xe-133 Xe-135 Xe-138 Cs-134 Cs-137 Ba-140 La-140 Zr-95 Nb-95 Co-58 Mn-54 Zn-65 Fe-59 Co-60 Xe-135m
- 6. 29EWO
<5.13E+01, 2.31E-04 6.80E-04
<5.05E-02
<3.67E+Ol
<9.98E+Ol
<8.09E+Ol 6.53E-04
<1.49E-03
<8.52E-03
<1.13E+02
<4.92E+Ol
<6.14E+02
<4.66E-04
<4.75E-04
<4a56E-04
<9.58E-04
<8.02E-04
<4.30E-04
<3.58E-04
<3.83E-04 2.19E-03 8.39E-04 2.18E-03
<1.56E+02 4.41E-02
<1.72E+00 5.65E-06 9.87E-06
<1.53E-03
<1.20E+00
<3.19E+00
<2.38E+00 8.12E-06
<2.81E-05
<2.02E-04
<7.32E+00
<2.22E+00
<2.12E+01
<8.13E-06
<8.24E-06
<9.20E-06
<8.01E-05
<1.70E-05
<7.64E-06
<7ta28E-06
<7.95E-06 3;89E-05
<1.69E-05
.29E-05 08E+00 8.65E-01
<2.90E+01 1.16E-03 4.01E-03
<3.41E-02
<2.06E+Ol
<4.86E+Ol
<3.77E+01 7.95E-04
<1.39E-03
<8.32E-03
<5.49E+01
<1.91E+01
<3.20E+02
<5.46E-04
<5.38E-04
<5.39E-04
<1.21E-03
<1.10E-03
<5.16E-04
<3.64E-04
<4.99E-04 2.36E-03
<1 ~ 11E-03 2.27E-03
<7.60E+01 5.96E-Ol
<8.51E+01 1.70E-06 6.27E-06
<2.43E+01
<4.54E+03
<2.33E+03
<1.16E+04 1.52E-02
<4.29E-02
<1.09E-02
<2.04E+04
<2 '4E+03
<4.63E+03
<3.19E-04
<4.79E-05
<5.99E-05
<1.48E-04
<6.06E-04
<4.36E-05
<4.64E-05
<6.11E-05
<1.69E-04
<9.95E-05
<2.14E-04
<2.82E+03
TABLE 3 BFNP LI UID EFFLUENTS RELEASES Activit Ci Nuclide First uarter Second uarter H-3 Na-24 Cr-51 Mn-54 Mn-56 Fe-59 Co-58 Co-60 Cu-64 Zn-65 Sr-89 Sr-90 Zr-95 Nb-95 Mo>>99 Tc-99m Sb-124 I-131 I>>133 Xe-133 Xe-135 Cs-134 Cs-136 Cs-137 Ba-140 La-140 Ce'141 9.88E+06 4.42E+04 7.84E+04 1.22E+04 9.26E+02 7.01E+03 8.15E+03 8.37E+04 8.86E+04 1.11E+05 9.92E+03 2.12E+03 7.30E+03
- 7. 30E+03 2.57E+03 2.57E+03 5.31E+03 3.38E+04 5.52E+03 5.18E+04 1.02E+04 4.02E+04 6.02E+03 4.90E+04 1.17E+03 1.17E+03 8.57E+03 2.83E+06 3.35E+04 3.66E+04 3.36E+03 3.39E+02 1.84E+03 1.87E+03 2.13E+04 2.79E+04 2.52E+04 7.75E+03 3.65E+02 2.05E+03 2.05E+03 1.81E+03 1.81E&3 1.76E+03 6.55E+03 1.76E+03 6.54E+03 4.00E+03 6.84E+03 1.65E+03 8.56E+03 4.28E+02 4.28E+02 1.46EW3
TABLE 4 BROGANS FERRY NUCLEAR PLANT METEOROLOGICAL DATA GROUND-LEVEL JOINT FRE UENCY DISTRIBUTION IN PERCENT TURBINE BUILDING RELEASES FIRST UARTER 1980 STABILITY CLASS A
/
lllND SPEEDS IN HETERS PER SECOND FR(lH TNE SECTORS INDICATEO T
I t
N Oeo 0 ~ 0 Oto 0 ~ 0 Oeo 0 ~ 180 0 ~ 1 to 0 ~ 0 0 ~ 0 09~19 Nt<E Oto 0 ~ 0 0 ~ 0
~ 0 0 ~ 0 0 ~ 180 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 180 0 ~ 0 0 ~ 0 oto
- 0 ~ 0
~ 0 oto 0 ~ Il$0 090 oeo 0 ~ 180 Ellj.
035 l20 0 0 000~000 0
0 0
D 0
0 0 E
0 ~ 0 0 ~ 0 0 ~ 0 Oto 0 ~ 0 Oeo 0 ~ 0 0 ~ 0 0 ~ 0 VS 0 ESE 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0'
~ 0 0 ~ 0 0 ~ 0
'SE '-'.O O.'O O,O O'499 O.OBO O.V O.O O'.O
" O.O SSE 0
Q 0 ~ 0 0 ~ 0 0 ~ 369 Ot 140 0'50 0 ~ 0 0 ~ 0 Oeo 0'59 fQ
~
S 0 ~ Q 0 ~ 0 Oto 0 ~ 050 0 ~ 090 0 ~ 050 Oto 0 ~ 0 0 ~ 0 0 ~ 190 SW Oto 0 ~ 0 Oto 0 ~ 0 0 ~ 0 0 ~ V 0 ~ 0 09J 0 ~ 0 0 ~ 0 WSW
,0 0 0 'eo
- 0. 0
,0 0 0 ~ 'V90 0 ~ 0 090 oto 0 ~ 090 f
W 0 ~ 0 Oeo 0 ~ 0 0 ~ 0 Oto 0 ~ 050 0 ~ 0 0 ~ 0 0 ~ 0 0'50 NNW 0
0 0 0 0 0 0 0 0 Oi140 0 ~ 0 0 ~ 0 0 ~ 0
.0 ~ 140 T~OT LS 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 918 0 279 0 ~ 788 0 589 0 ~ 0 0 ~ 0 2 ~ 574 T BILITY C ASS B
WIND SPEEOS IN HETERS PER SECOND FROH THE SECTORS INOICATEO N
O.O O.O O.O O.O O,O5O O,229 O.O9O O,O
'O.O O.Se9 NNE Oft'
~ 0 0 ~ 0 0 ~ 0 of 140 0 '99 0'50 0 ~ 0 0 ~ 0 0'88 NE 0 ~ 0 0 ~ 0 0 ~ 0 090 0,0 0'50 090 090 090 0'50 ENE Oto 0 ~ 0 0 ~ 0 Ogo 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 o.'o o.o o.o o.o o,o o,v o.o o.o a.o O.o CSC 0 0 O
O O
O O
O5O O
O O.O O.O O,O O.O V.O5O SE 0 ~ Q 0,0 0'50 09269 0 ~ 0 09090 0 ~ 0 090 0 ~ 0 VS 409 SSE Oi 0 0 0 090 0
IOO 0 09D 0 050 0
0 0
0 0
0 0 369 5
0,0 0,0 0,0 0,050 0,050 O,ll 0,0 0,0 0,0 0,100 SSW no oo oo oo 00 ov oo oo no l>'0
~,
. ~
f.
1 A.-
. f.
SW 0.0 0.0 0,0 0,05O O,O 0,090 0.0 050 0.0 O. 140 WSW 0 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 OOV50 Oeo 090 0 ~ 0 0 ~ 050 W
0 ~ 0 0 ~ 0 Oeo 0 ~ 0 0 ~ 0 0 ~ V 0 ~ 0 0 ~ 0 VS 0 VS 0
+kit OI~)~0 0 0 0
0 0 050 0~0 0
D50 0
0 0
0 0.100 NM 00 00 0
0 0
0 0 050 0 229 0 229 00 00 U 509 N~N O~~UD 03000000~0~90 0 050 0 0 0
0 0 0 tl IOO TQTAI.S DeSL lbSL ~01990559 I4529 1 339 0 9!9 0 0 l! 0 2 ~ 97IE
TABLE 4 CONTINUED a~ st44484478483D4
~
5TAAILIIYCLASS C
HIND SPCEVS IN HETERS PER SECOND FROH TIIE SLTCT(MRS INOILATL'0 SECT R
0 ~ 13 0 ~ 45 1 ~ 10 1 ~ 99
" 2t80 4! 55 6 ~ 91
>@59 18800
!UIALb 0,0 0
0 5 ~ 0 0
D 0 TOO 0,355 0 ills 0,0 O,OOI SSL NNE ODO Oeo 0 ~ 0 Oeo 08050 0'29 0'50 0 ~ 0 0 ~ 0 09379 NE 0 0
0 0 0 ~ 0 0 0 0 090 0 090 0 050 0 0 0 0 0 229
ESE ODQ 0 ~ 0=
0 ~ 0 Oep 0 ~ 0 090 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 SE pep 0 ~ 0 0 ~ 090 Ot319 0 ~ 0 0'50 0'90 0 ~ 0 0 ~ 0 0 ~ 5 i9 S
Oeo 0 ~ 0 0 ~ 0 0 F 140 0'~0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 190 S~SM OD O,O 00 00 00 0,0 00 0 ~ 9 OO 00 sll 0 0 00 0 ~ 0 0 090 0,0 0,0 0 050 1.ll 0
0 UUUU MEM O,D 0.0 0.0 0,0
, 0,0 0,090,0,0 0,0 0.0 0.090 WNW Oep 0 0 Oe'0 0 ~ 050 OrO 0 ~ 180 0 ~ 1 to 0 05Q 0
0 0 419 0 ~ 559 1 ~ ?87.
0 ~ 788 OD05p Ot050 3'62
~TA8lLI'fY CLASS 0
WIND SPEEDS IN HETERS PER SECOND FRUH THE SECTORS INDICATEO SECTOR 0
13 0 4b 1
10 1 99 2e80 4 45 6 91 9
59 13,pp IutAI 3 N
Q ~ 0 090 OOT40 Oe9i8 19271 2,874 O89f8 Oe'O>0
~ O 6 ~ 2IE NNE 0 0 0050 0
180 0728 1 686 2
145 0 ~ 229 00 00 5 019 NV.
0.0 0.0 0,229 0.409 f,507 0 958 O.05O O.O 0.0~1'53 ENE
'ep 0.050 0 409 0 868 0.499 0 090 0 0 0.0 O.O 1.9IA E
0 0
0,0 0,229 0,499 0,40'i o,iso O,oso 0,0 0,0 I,341" ESE 0.0 0,0 0 499 0,. 728
- 0. !llO O. 14O O.0 0, O
- 0. O
- 1. 54 l SSE 0 0 0 ~ 0 08549 0 7?8 0,229 0 ~ 180 0 0 080 0 0 1
6015 E
0th
~
8
~
5
~
S 0 ~ P 0 ~ 0 0 ~ 59'9 OD369 09269 0 ~ 269 Ot 1 tp Ot 0 Otp le('~J SSW
~ Q 0 ~ 0 05090 Otl80 0 ~ 050 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 09319 SW Oe 0 0 ~ 0 Oi 269 0 ~ 229 0 ~ 140 pt V50 0 ~ 0 0 ~ 0 0 8 0 I!iI385i WSW 'ep 0 ~ 050 0'29 Ot409 0 F 269 0'99 0 ~ 180 Oe050 0 '
18786 ll 0,0 0,0 0;050 0
140 0,319 1
187 0
140 D,O 0,0 1,83
~
Ml 04 0,090 0 090 0 ~ 549 0,319 0,918 0 ll!8 0,1IIO O,OMO 3,053 NNW Oyp 0 ~ 0 09090 0 F 459 Ot688 2 '65 1 ~ 786 0 ~ 18Q 0 ~ Q 5 '6ts 7+TA)~32 124239 4 ~ 29~58 491 8 ~ 392 14 ~ 159 5 ~ 678 0 ~ 728 OD229 4? ~ 204'
TABLE 3'4 (CONTINUED STAQILITY CLASS 8
WIl4l) SPEEOS II4 I<ETERS PER SECOIIO FRL)H TltE SECTORS INOICATEO ACTOR 0 13~0 ~ 4 Ei~lo OV 2
SII 4 ISD ~
0 59 3~00 IUT IS N
0,0 0 0 0 ~ 499 08918 08688 Oe>49 0 ~ 180 0 ~ 0 0 ~ 0 2 ~ tI34 NNE 0 0 0 090 0 958 0 868 0 639 1
187 0 050 0 0 0 0 3 792 ENE 0,0',0 0 728 0 639 0,:119 0 II50 0
0 0
0 0,0 I 736 ESE 0.0 0 ~ 050 0 ~ 688 1.237 0,499 n
140 0 ~ 0 0 0 0 0 28614 SE
~ Q
~ Z29 1 ~ 6 t6 1 ~ 786 1e6 tb 1 ~ U48 U ~ Q 080 090 6 ~ 35I3 SSE 0.0 0.14'0 O.459 0,688 0.688 1.048 O.180 0,0 0.0 3.203 t
S 0 ~ 0 000 Oe728 0 ~ 778 0 ~ 728 0 ~ 728 0 ~ 180 0 ~ 0 0 ~ 0 39143 SW 0 ~ 0 Oro 0 ~ 140'
~ 140
'0 ~ 090 oio 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 369 WSW 0 ~ 0 0 ~ 0 0 ~ 180 Ot499 0 ~ 180 0 ~ 1 to 0 ~ 0 080 0 ~ 0 0 ~ 99II W
~ 0 0 ~ 0 0 ~ 180 0 ~ Z69 0 ~ 090 0 ~ 180 0 ~ 050 0 ~ 0 0 ~ 0 0 ~ 768 WNW 0 ~ Q Oeo OO 090 0 ~ 0 0 ~ 050 0 ~ 1 to 00090 0 ~ 0 0 ~ 0 (t ~ 369 NW 0 ~ 0 0 ~ 0 0 ~ 050 Oil to 0 ~ 1 to 0 ~ 369 Ot050 0 ~ 0 0 ~ 0 0 ~ 74d NNW OOQ 0.0
~
00319
'00369 08459 OO599 ODO90 0.050 0.0 1.886 0 F 868 08050 080 32 '89 ETTA8ILITY CLASS F
Wllln SPEEOS IN METERS pER sEC0140 I.RUH TIIE SECTORS INOICATED SECT R
0 ~ 13 Or t5 1 ~ 10 1 ~ 99 2 ~ 80 4 ~ t5 tt ~ 91 9 ~ 59 13 ~ 00 T
TAI, 5 N
or 0 0 ~ 040 oi4lI9 '6i D9 0 ~ 050 0 ~ U50 Or 0 0 ~ 0 080 0887II NNE 0.0 ~,050 0,~3 9
0,269 0,229 D.o D.D 0.0 0.0
,0.868 IIE 0 ~ Q 0 ~ 050 0 ~ I to 09229 0 ~ 140 0 ~ U 0 ~ 0 0 ~ 0 0 ~ 0 0 ~
59 ENE 0 ~ 0 08050 0'99 08 t99 080 0 ~ U oeo 080 090 1 ~ 048 E
O.O O.O 00499 O.369 O,O O.U O,O O.O O,O 0.86II'SE 0 0 0'90 0'28 Oe050 0 0 0 ~ U 0 ~0,080 0 ~ 0 09868 EQ Q ~
P SE 0 ~ 0 0'40 18008 1 ~ 367 0 't59 0 U90 0 0 0 0 0
0 3 063 SSE 0
0 0.090 0,409 0.688 0.050 0.229 0.0 0.0 0.0 1.467 5
D 0 0 090 0 319 0 269 0
369 0
Td9 0
0 D 0 0 0 317 SSN 0,0 0.0 0
100 0.090 0,0 O.O50 0.0 0,0 0.0 0.3 19 Sw o,o o,o o,oso o.o9o o.o U.U o.o o,o o,o U. 14o WS 0 0 0 0 0 050 0 140 0 0 n
U 0.0 0,0 0,0 O.leo I{
8 W
000 Oi 0 08050 0 ~ 0 0 ~ 0 0 ~ U Oio 0 ~ 0 0 ~ 0 Ui050 WNW 0,0 0.0
- 0. 050 0~050 0 050
- o. v90 0,0
- 0. 0 0.0
- n. 23 P NW OOO 0 ~ 0 0 ~ 090 0 ~ 0 0 ~ 0 08 140 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ ZZ~I NNlf 0 ~ 0
, Ot090 0'29 Og090
- 0'80 0 'U Oeo 0 ~ 0 0 ~ 0 0 ~ 589 TOTEE$
0,50., ~,boo 5,$~94 430
~3527 0,918 0 ~ 0 0 ~ 0 0 ~ 0 12 ~ 692
TABLE 4 CONTINUED STAB 1l 1 T Y C l. ASS 0
WlND SPEEDS Ill >lCTERS PER SECOf<0 J'RllN THE SECTORS lt>lllCAll ll 80T 8 0,13 0 85 1
10 I
OV 2 80 SPii S.Ti 9,50 l3500 I'.i."
~0 OOI 050 NN'E 0 ~ 0 080 fN 0 ~ 0 0 ~ 0 ENE
~ 0 0 ~ 0 5
Oeo 0 ~ 0 0 ESE O,O O.O SE OOQ 000 SSE 0 ~ 0 0'50 S
000 0 ~ 0
~~50 0 0 0,0 SM 0 ~ 0 0 ~ 0 WSW 0 0 000 W
~ 0 000 WNW 0 0 0 ~ 0 NM o,'o o.o NNW 0
0 0 0.185
%IVI 0,~0 ~0. 0
- b. 0 t..."? I 0 ~ 090 0 ~ 0 000 Oeo 0 ~ 0 0 ~ 0
(> ~ 0 11 ~ I 'TlT 0 ~ 090 0 ~ 0 Oeo Oeo 0 ~ 0 0 ~ 0 1100 TTOS "3 00150 0 ~ 0 0 ~ 0 0 ~ 0 0 ~0, 0 ~ 0 0 ~ 0 LTP li'10 0 ~ 728 0 ~ 1%0 Oe Q 0 ~ V 0 ~ 0 0 ~ 0 V ~ 0 (I ~ 55(ill 0 ~ 319 00369 0 ~ 0 00050 Qeo 0 ~ 0 0 ~ 0 0 ~ TRTT 0'0050 00229 00 AO OeV Qeo 000 000 0'50 0 ~ 0 0 ~ 0 0 ~ 0 0 '
O.'2 ViO 0 V5V 0 ~ 0 0 ~ 0 0 ~ 0 QOV 0 ~ 0 0 ~ 0 0 ~ 9 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 000 0 ~ 0 0 ~ 0 0'
<'00 00050 000 0,0 Ooo 000 000 VOO (500.'~V 0 ~ 0 080 0 ~ 0 0'
000 0 ~ 0 Voo voV 0 F 090 0'50 0 ~ 0 0 ~ 0 0 ~ 0 000 000
. Ool'IQ TOTAI.S
~0
~ 150 2 ~ 205 1
118 0.180 0.050 0
0 0 0 0 ~0:.I 70;.
TABLE 5 BROWNS FERRY NUCLEAR PLANT METEOROLOGICAL DATA GROUND-LEVEL JOINT FRE UENCY DISTRIBUTION IN PERCENT TURBINE BUILDING RELEASES SECOND UARTER 1980 STAR I). ITY CLASS A
Wlko SPFFOS IN PFTFRS PCR SECONO FROM THE SECTORS INOICATFO SECTOR 0 ~ 13 0 ~ 4S 1 ~ ln I ~ 99 2 ~ HU 4 ~ <<b e ~ 91 9 ~ 59 13 ~ On TOTALS N
NNE 0 ~
A'.n 0 ~ 0 n.o 0 ~ 0 an o.n n.n AU U ~ 319 vs 279 0 ~ 0 0 ~ 0 0 ~ 599 0 ~ 0 0 230 0,090 0
0 U ~ 0 0 319 t E o.n o.u o.n U.n U.n o.319 u.u O.n o.o 0.319 eNE n.n n.o u.i)
A.o 0.0 O.u U.v 0.0 n.o O.n E
o.n o.u o.n o.n U.o o.o o.u o.u o.o o.u FSE A.n A.n O.n U.n n.o V.u o.n u.o 0.0 O.o St 0 '
0 '
an Io)HH 0'19 vs 0 0 '
0 ~ 0 0 '
1 ~ 907 SSF.
0 ~ 0 0 ~ u 0
)Cn o s %49 AD V90 0 ~ U V an 0 ~ 0 0 ~ 0 A ~ HlH 5
n.o o.o o.o O.ee9.
U.l<<o V.o9o v.o v.o o..o o.wlH sw A.A n.o 0
A<n 0.~79'.n A.A u.o V.n 0.'0 n.329 sw n.o '.v O.n o.n90 U.o U.v v.u o.o u.o O.U9V wsw n.n o.o O.A O.U90 U.nuu n.3ew U.U9o U.o o.o o.e39 W
an 0 '
0 '
0 '
0 '90 vs 140 VS 090 u ~ U 0 ~ 0 0'19
>>Nw O.n n.o O.n 0.0'.n u.n U.n90 n.o 0.0 0.09o N>>
O.n 0.0 O.u V.n O.nbn 0.279 u.u90 0.0 U.o n.<<19 NNQ n.n.
A.n 0
n A.I) 0,050 0,230 0,0 0 ~ v U
0 0,279 TOTALS 0 ~ 0 0 ~ 0 0'30 2 ~ HHS 0 '2H 1
97e 0 '?9 0 ~ 0 0 ~ 0
):,647 STARIL ITY CLASS i)
WINO SPEEDS Ik MF TFRS PFR SECVN))
FROM THE SECTORS INOICA TED SECTOR 0 ~ 13 V ~ 45 1 ~ 10 1 ~ 99 2 ~ Ho 4 ~ 4b e.91 9.b/
13 ~ Uo TOTALS N
o.n n.v o.o O.own A.v v.a19 V.090 o.o.
o.u 0,<<sv kh,F.
0 ~ h 0 ~ 0 0
n 0
0 0 'I'50 0'19 U 090 0 ~ 0 0 ~ n 0 ~ 4S9 o.n O.o o.o u.n u.o90
- u. 1HU v.o U.u U.i."
0.2e9 ErE nn on on on uu 00 vu oo oo nn E
o.n n.o o.n O.n o.v U.v v.v v.u V.U u.n Esf n
0 0
0 0
0 0
0 v
0 0
0 v
v u
U 6
0 on Sl'
~ 0 0 ~ 0 0 ~ A n ~ ?79 Vol<<U AU Van uov 0 ~ 0
'0 ~ 4 19 ssF 0
0 0
0 U,U n
A.Inn U.n O.u u.n 0 ~ 0 n.n n.?30 S
an 0 AU an 0 '19 0 '
A AU U ~ 0 0 '
0 ~ 0 0,319 ssw n.n O.o O.n o.<<s9 U.U90 o.o v.n v.u o.o n.s49 S>>
A.n O.O O.n O.)4O U.VSO O.u u.u n.u O.O U. 19u wsw O.n O.o n.n 0.?30 0.3e9 0.230 V.090 U.u O.o 0.918
'w o.n o.o o.o o.n o.lao o.l<<o v.l<<o o.v u.u 0.<<s9 wkw 0
n n.o n
0 n nsn 0.090
- v. leo n.o v
0 0.3)9 h,>>
0.0.
O.u O.n A.o u.))
- n. 1HU U.OSU 0.0 n.n 0.23n NNW 0 ~ 0 U ~ 0 0 '
0 '
0 '
u ~ U9U Venin 0 ~ 0 0 ~ 0 0 ~ 14U TOTALS an 0 ~ 0 0 ~ AS0 I
eS7 1
01H 1
547 0 'H9 0 '
0 ~ u 4
961
TABLE 5 CONTINUED STABILITY CLASS C
)IINO SPEC 8
IN P
TFRS PFR Sf CON'R(3<<
fn<F.
SF CT()I.S Ili(<ICAtf'.0 SECTOR 0.13 0.45 1.10 I ~ 99 2o><v
<< ~ 45 6.91 9o>9 13.00 TOTaLS n.n o.o O.nso Na<E 0 ~ 0 0 ~ 0 0,0 0 ~ 0 0 ~ 0 0 ~ 0 n
n.
n n.n 0.090 n.<<59 v.u n.n n.u 0.599
- n. n90 0 ~ 230
. ~ V. 31~
U. V'b(l
() ~ 0 0 ~ 0 I).6A9 0 ~ 050 009V U210 Vu uv (l
V u
369 n.nsn, O.n O. 1<<u V.n n.n O.n n.l9u E
O.o o.o o.n u.n o.o O.n V.n n.u O.o o.v FSF
. n. '.0 n.n o.nvn n.li o.o V.o O.rl v.o n.v9v S('
0 ~ 0 0'90 0 '79 0 '
0 AU V au 0 ~ 0 0 ~ 0 (lan 369 s
n.n 0.0 O.979 0.)40 0.090 O.n U.n U.rl 0.0 O.sn
)
5 noa no.u 0 ~ 0 0 ~ i'.30 Vol<<0 0 ~ 0 U an U ~ 0 n
Il n
n I)
Il,n ll,~
n.o n.u o,nso O.nsn n.n u.ubn U.v U.U WSW.
n.n n.O u.n 0.)I(0 O. 1<<n
- u. Iau 0.090 r(.O 0
n 0369
)~nl.n-0 ~ 0 0 ~ 15U O.a '.5((9 0 ~ 0 n.o O
O u
u 0.050 u l<<n O
I<<V V.van 0
O 0
O n
TZv 0'
an 0 '90 U ~ 050 0 '90 0'90 u ~ U 0 ~ 0 0.)lv o.n O.o o,o o.n9o o.319 u.23n u,oso o.o u.o o.he) 0.0 0.0 n.n o.n
. o.l<<n n.279 u.u 0.0
'0.0 n.<<19 ToT~Ls on no 0519 1567 1517 2116 0329 on vo bn49 STAHIL IT Y CLASS 0
wINo spEE()s IN <F IF(rs pFR sfcowo FHo<<THF. seel()(<s IN(llcnTFU SECTOR 0 ~ 13 0 ~ 4'5 I ~ ln I n99 2 ~ Hv 4 ~ <<5 6 91 9 ~ S't 13 ~ Un TOTALS N
0 ~ 0 0 ~ 0 0 ~ len 0 ~ 4 9
U ~ 3)9 0 ~ (<hu 0 ~ 090 0 ~ 0 0 ~ 0 1,916 Nt)F, n.n 0.0 0.)40 0.599 0.<<59 I.un()
v.369 O.n n.n 2.575 N)..
0 '
0 ~ U 0 len 0 '09 0'68 0'39 0 '
0 '
0 '
2 '95 ENF.
O.n n.o o.o"0 0.)r(n 0.279 0.090 o.n o.o o.o o.599 n.n O.o o.2'n 0.369 U.l<<v U.v U.u o.u o.v u,739 FSE O.n n.o 0.(<50
- 0. Ir(n o.n o.nsu U.o o.o 0.0 o.279 SE.
0 ~ n 0 ~ Obo 1 ~ 0'n)3 0 '79 U ~ >)28 0 '3U U au 0 ~ 0 VS n 2'94 ss n.'n 0.0
.) 6()
O.s99 n.<<59 '.)40 o.rl u.v o.o p.neb 5
0 ~ 0
~
0 '
0 '.49
~
lo467 0 '59 U ~ 279 u ~ VSV 0 ~ U U ~ 0 2 ~ nnnh nnn n.n n.n n.n'n
<.<nn n.n<n n.)nn n.non n.n n.n n.nnn sw n.o o.n WSW 0 ~ 0 0 ~ 0
'W n.n o.o WNW n.
NH 0 ~ 0 0 ~ 0 NNW 0 ~ 0 0 ~ 0 O.lea 0'09 0 ~ 140 7
0 '
0 Ien 0 ~ 140 0 ~ 739 0 ~ 779 0
49 0.459 0'69 0 ~ i?Ju 0 '28 0'39 0 '89 U ~ 459 0 ~ 369 U AU<))v veau AU an 0 ~ 639 I ~ 148 0 ~ (lso 0 ~ 0 I) ~ 0 3 ~ I 74 0.6 39
- v. 180
- 0. 0
- u. 0
- 2. <>.u U ~ 14V U ~ u ueU 0 ~ 0 0 '
U ~ U U au VS 0 I ~,148 2 F 855 Ieb57 1.561 E
0 ~ 0 0 ~ 140 0 ~ 459 I) ~ 369 U ~ Oan U ~ Vbu V ~ 0 0 ~ )
0 ~ 0 1 ~,Uar)
FSF.
0.0 0.050 0.459 0.459 u.?3n ne279 U.n r).n n.n 1.411 SE n.O 0.4O9 1.6~7 I.O98 U.319 V.I~U uen u.n V.n 3.7O3 SSE 0 ~ 0'
'19 I ~ nuH 0'09 0'69 u ~ 319 0 '90 U au tl 0
?. 516 5
0 ~ 0 ss'w
~ 0 SW
, '0 ~ 0 wsw' on 0'40 1 F 926 04050 I F 098 0'90 Oe?30 0'50 1 ~ 23H I ~ 14H Vebu9 U ~ 219 U ~ U90 uev U ~ 0 O.r)28 n.23n
>>.n U.O O.V u
0.09n O.u u,n V.O V.u re>>
0 ~ 828 U ~ IHO 0 '40 U an Oeo 0 ~ 0 4 ~ U92 2.?06 0 ~ 409 2 ~ 435 O.n 0.05u 0.96))
1.327 u.bv9
- o. 14U u.o 0.0 n.o 2.994
)rNW an 0
090 0,?30 0 409 0 ~ 27')
I) ~ 23U 0
u 0
0 0
0 I ~ ?3e NW NNW o.n 0.0 0.230 0.2 9
u.len
- 0. Ieu v.u9V v.n o.o 0.95>>
0.0 o.o n.409 0.2l9 o.319 0.14U U.o u.n n.u 1.14>>
TOTALS an I 577 12.476 9'??
4 (I/I 2.855 Oe?69 0
U au 31,371 STAHILITY CLASS F
)4IND SPEE()S Ik ))? TFHS PFH SECOI)D FHOI; TH(: SEC((II 5 Ik()ICA)I:()
SECTOR 0
13 V ~ 4b 1 ln I
99 2 ~ IIV 4 45 6 ~ 91 Jb'J 13 ~ >>n Tr)TALI N
0 ~ 0 0 Ieu 0 ~ 509 0 ~ 599 V ~ 14n U ~ 0 0 ~ 0 0 ~ V I) ~ 0 I ~ 42'1 NNF.
0 ~ 0 0
140 0
SC9 0 '39 0 ~ 3)9 0 ~ OSU Van 0 ~ 0 0 ~ 0 1
657 o.n
- o. 14o o.4"9 n.ho9 o.o o.u u.o n.o v.o l.npe o.n o,n9o 0.319 0.549 o.ovo n.o5o v.o o.u o.o 1.09>I
-E
'ESF n.n n.n 0 ~ V9 0 '69 0 '
69 Urn II ueu U AU U ~ r)
U 0
0 ~ )Ile) 0 F 050 0
18n 0 '90 0 ~ n 0 '
0 '
Ueu 0 '
ne31
)
5(
O.n 4o
.nv)I
.4'1 7 SSF.
O. 0 0.140
- 0. SU9 0.? 30 0.14n U. ()su V. u O. u O. 0
- l. 1 ne 5
0 ~ 0 0 ~ 090 0 ~ 369 0 ~ 140 U ~ 09U 0 ~ 050 u ~ >>
n ~ U n ~ >>
i) ~ 739 Ssw n.o'. 140 0.)en 0.090 U.u U.u U.o U.o
>>.0 0.409 SW n.O O.O O.nSO Oen O.O
>>.u V.O O.V n.n
>>.OSU
'WSW an 0 F 050 0 ~ IFO nolan
.0 '
0 ~ 0 vs I) 0 '
I) an 0 ~ 369 W
O.O n.u n.?79 O.369 O.O V.O U.n V.n O.u Ue649 w) w n.n n.n 0
Hn 0.0 O.v n.u u.n U.n O.o r).1HU Nw 0 ~ 0 U ~ 0 0 ~ 140 0 ~ 140 0 ~ 0 U ~ r)
U ~ U u ~ 0 V ~ I) 0 ~ 279 NNW 0 ~ 0 0.180 0 ~ 409 O.leo 0'90 0 ~ 0 Van 0 ~ 0 0 ~ 0 0 ~ 858 TOTALS 0 ~ 0 1 ~ 427 5 '49 4'22 0'18 0 '89 u ~ 0 0 ~ 0 0'
12 '06
TABLE 5 CONTINUED ST A(IILI f Y CLASS A
WIND SPFEDS IN >F'TFkS PFA StCI)IO(> FIII)IO TNI:
.AI C)ul>S Il'IIICh tB)
SF.CTOR 0 ~ 13 U ~ 45 I ~ I 0 1 ~ 'I9 O.'A R>>
4 ~ 4S n.91 4 ~ 5V 13 ~ UII 1 (I.I hL 9 o.nl3 o.oso A.selo O.II)0 A.U NNF.
0 ~ 0 n ~ U 0 '79 0'79 u ~ 1<n NE 0 ~ 0 an 0
AA 1>>0 0 ~ n tp eNF.
A.n 0.0 a.
pn 0.23n U.<>bn n.u u A(i
- u. Il
- u. 0 I.*.' l nu un vn nn 1191 u ~ 0
'V an 0 '
0 ~ 0 0 '9AA
>> ~ 0 0 ~ II 0 ~ AI 0 ~ u O) ~ 4S9 E.
ESF.
0.0]3 0.050 0.3e9 0.3e9 u.u U.u U.u 0 ~ 0 0 ~ 0 0 319 Q ~ 0 pan AD 0 v ~ 0
>>Au 0 ~ u O) ~ IIn) 0 ~ 0" 0
0 0 319 SI SSF.
0.013 A.nsn 0.279 A.A9>>
U.n A.n
>>.0 0.140 0.319 v.>>SA
>> au 0 ~ u
>> ~ 0 v ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 n.o n ~ 432 A.>pi O
A,ll A,O Il,lAO O,AAA ll,A ll,ll ll,tl ssw n;n 3
n.usn A.nun n.n U.n
>>.0 Sh 0'13 0 ~ USO 0 ~ A90 0 ~ 0 0'
0 ~ 0 0 ~ 0 wsw n.n A.o o.n o.o n.o u.u v.n U an
'"A OI Ao ~ u U ~ o)
Uoo o) ~ 0 u, 19A n.) S I u ~u, II ~ )S3 u'.0 n.>>
'w A.n o.u O.nsu O.obu U.Io u.u v.u U.o o.o o.l4>>
)oNW Q ~ 0 0 ~ 0 0 ~ 090 0 ~0>>
~ 0 0 ~ U U ~ >>
Ua0 V ~ 0 0
PAP Nw 0.013 U.obo 0.14n o,o U.>>
U.n
>>.0 0.0 U.n 0.2o3 NNw 0.013 A.obo 0.230 a.l>>o 0.0 o.n u.u n.u A.o 0.472 TOTALS 0'91 0 349 4
132 1 ~ 926 0 ~ 329 0 ~ 0 U ~ 0 0'
0 ~ 0 e ~ O)2d
TABLE 6 BROWNS FERRY NUCLEAR PLANT METEOROLOGICAL DATA SPLIT-LEVEL JOINT FRE UENCY DISTRIBUTION IN PERCENT REACTOR AND RADWASTE BUILDING RELEASES - FIRST UARTER 1980 GROUND-LEVEL PORTION STAB1L1TY CLASS A
MlNO SPEEDS lN Nl:TERS PER SFCOND FRON Tllf SECTORS INnlCATED
-SEDATE 0.13 -0~91,10 1.1}9 '.3~0~5.91 I '9.13.00
!UTASD h
0 ~ 0 000 0 ~ 0 Oeo
.eo 8.
~
.t NNE 0 0 0 0 000 0 0.
NE 0 ~ 0 0 ~ 0 0 ~ 0 Oeo ENE 080 0,0 0,0 0
0 ESE 0 ~ 0 000 0 ~ 0 0 ~ 0 SE Oeo 0 ~ 0
~ 0 0'50 SSE 0 0 Oeo 0 ~ 0 0'50 S
0 ~ 0 Oeo 0 ~ 0 0 ~ 0 S~SN 00 00 00 0.0 SW 0 ~ 0 000 Oeo 'eo
.HSH
~ 0 0 ~ 0 Oeo 0 ~ 0 H
Ofo 0 ~ 0 0 ~ 0 Oeo HtlM 0,0 Ooo 0.0 0,0 NQ 0 ~ 0 0 ~ 0 0 ~ 0 000
~VN
. D,D~~OO,D,D TOTALS 0 ~ 0 0 ~ 0 0 ~ 0 00 100 0 0 0 V90 0 0 0 0 0 ~ 0 0'90 0 ~ 0 0 ~ V 0 ~ 1BO 0 ~ 0 0 ~ 0 0 ~ 180 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 o,o o,o 0.0 o.o o.o v.'n 0 0 0
V 0 ~ 0 0 ~ 0 0 ~ 0 Vi000 00070 00050 0'
0 '
oeo 0 F 170
- 5 0 ~ 0 0
0 ~ V50 0 ~ 0 0 ~ 0 Oio 0 ~ 100 0 ~ 0 0'50 0 ~ 0 0 ~
0 ~ 0 0'50 0 ~ 0 0 ~ V 0 ~ 0 C.V 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ VBO 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 080 Oe 0'
000 0 ~ 0 000 V)P 0 ~ 0 ODV Oeo 0 ~ 0 0 ~ 0 Oeo 0'20 0 F 479 0 ~ 549 0 ~ 0 Oeo 1'48 STABlLlTY C ASS B
Wlflo SPEEDS lN tiETERS PER SECOND FRUIT'I TllE SECTORS lllolCATEO SECTOR 00 13 0 ~ E5 1 ~ lo 1 ~ 99 2080 49 55 e ~ 91
') ~ 59 13 ~ 00 T
TALS NNE 0 0 0 ~ 0 0 ~ 0 0 ~ 0 0'20 0'40 0 F 040 0 ~ 0 0 ~ 0 0'00
~
~
~
~
NE o.o o.o o.o oeo o.o o.V30 Vin>0 0 ~ 0 Oeo 0
OBV ENE o n o.o o,o o,o o,o o,v o.o o.o o,o O.o E
000 0 ~ 0 Ooo 0 ~ 0 VS 0 0 ~ V 0 ~ 0 090 Oeo 0 ~ 0 ESE 0 ~ 0 000 0 ~ n 00010 090 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 00010 8
SE 0 ~ 0 0 ~ 0 0 ~ 0 Oeoeo 09030 OeVBO 0 ~ 0 Oeo 0 ~ 0 0 ~ 170 SSE 0 n O.o O.V 0.020 0
100 O.V50 0.0 O.n 0.0 O. l7n
~
y 0
S 0 ~ 0
. 0 ~ 0 0 ~ 0 0 ~ 010 0 ~ 010 0 ~ V 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 02V SSM 0 ~ n 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 ODV 0 ~ 0 ODV 0 ~ 0 noo SW 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 010 0 ~ 0 0 ~ V90 0 ~ 0 0 ~ 0 0 ~ 0 V ~ 10'0 HSW 0 n Ooo 0 ~ 0 0 ~ 0 090 0'90 0 ~ 0 Ooo 0 ~ 0 00090 O,O O.O O,n O',O O,"O'O',O5O O.O '.O O.O OEV50 MNW n n 0 0 0 0 0 0 0 O10 0.030 0.090 0.0 O.O 0.130
~-..A NW 0 ~ 0 0 ~ 0 0 ~ O O ~ O O ~ OlO O. aeO 0,2VO O ~ O 0 ~ P
~ 4~9
'NM (loO 0 ~ 0 Oeo 0 ~ 010 0 ~ 020 Og loo 0 ~ 0 0 ~ 0 0 ~ 0 Oi130 TJlTDI S 0
D...JILL 0
0 l}8}29 0~220~8098
.0,539 0,0 0,0 1,922
~
~
~
I I
~
~
I
~
I I
I I
~
~
~
I I
I I
I I
I
~
~
I
~
~
I
~
~
I
~
I I
~
I I
I
~
I
~
I I
I I
~
I I
I I
I I
~
I
~
I I
I I
~
I I
~
I I
I I
~
I I
I I
I I
~
~
~
~
I I
I
~
~
I I
~
I I
~
~
I
~
~
~
~
~
~
I I
~
I I
I I
~
I I '
~
~
~
I
~
I
~
4 I
I
~
I
~ I I
~
~
I I
I
~
~
~
I
~
I
~
I
~
~
~
I I
I I
~
I I
~
I ~
I I
~
I I
I
~
I I I
~
~
I I
I
~
I I
I I
I
~
I I
I I
~
I I
I I
~
I '
~
I I I
~ I
~
I I
I I
~
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I
~
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~
~
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~
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~
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~
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~
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~
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I I
I
~
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~
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~
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I I
~
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~
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~
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~
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~
~
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~
~
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~ I I
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~
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~
~
~
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I I
I I
~
I
~
~
I
~
~
I I
I
~
I
~
I I
~
I
~
TABLE 6 CONTINUED
~ ~ 68 STABILITY CLASS E
MlND SPEQOS IN HETERS pER SECONP FROH THE SECTGRS INOICATE0 SECTOR 0]3
.n ~ 45 lelo I ~ 99 2 ~ 80 4045 6 ~ 91 9
59 13 OO.
ruin<
8 "77 0'O,Tl0 0=020 0,170 O,T70 0"639
'0 ISD O,O O,O 0
'>7e NNE 0 ~ 0 0 ~ 010 0 ~ 080 00150 0 ~ 200 0 ~ 948 0 ~ 140 0 ~ 0 0 ~ 0 10>ZY ENE 0
0 0;0 0,080 0,260 D. 76D 0.080 0.0 0.0 0.0 0,679 ESE 0,0 O.O 0.090 08240 0.150 00150 Oep 0.0 0,0 O.z 29 "ss oo oo o'lsd os'1Y o'968 TOTE oo oo oo 2686 SSE O ~ O O.OIO O.n5O O8290 0,589 1.048 0.180 0.0 0 0 166 SSM Oeo 0 ~ 0 0 ~ 010 0 ~ 050 0 ~ 090 0 ~ 0 Oeo 0'0 0 ~ 0 0 ~ 150 Sll 0
0.0 0.020 0 060 0~0 0
0 0
0.0
..0 0.0 0.
?0 MSM O,n O.o O.o3o o, 14O o.n5o o, 14O o.o o.o ne'0 0 ~ 359 MNW 0 ~ 0
~ 0 00010 080 0 ~ 020 0 ~ 100 0 ~ 090 0 ~ 0 000 Oi220 0 ~ 0
~
00967l TOTAAS o,a O.o20 0.869 2,536 3.556 5.950 l,lss O.oso 0 ~ 0 14 '97 81 I
C ASS F
Mllln SPEEDS IN HCTERS pER SECOND FROH THE SECTORS IllnICATEO N
0 ~ 0 NNg 0,0 NE O,p ENE 0 ~ 0 E
0 ~ 0 SSW 0 ~ 0 WS'W 0,0 M
0 ~ 0 WZIL Oep 9 lW 0 ~ 0 NHW 0 p 0 ~ 010 0 F 070 0 ~ 0"80 0 ~ 0 0 ~ 0 0 0 ~ 0 o.o o,n5o o,o6o o.o90 O.o 0.0 o.o o.o P ~ 010 0 ~ 010 ODOSO 0'60 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 09060 0 ~ 190 0 ~ 0 Orn 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 F 070 0 ~ 040 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 F 020 0 ~ 110 0 ~ 010 0 ~ 0.
0 ~ 0 0 ~ 0 090 0 ~ 0 00010 0 ~ 170 piT99 0 ~ 389 OinVO 0 ~ 0 0 ~ 0 Oro 0'20 00060 08429 08050 0'30 0 ~ 0 080 0 ~ 0 P,'P 0 ~ 100 0 ~ 160 0 ~ 339 0 ~ Z30 0 ~ 0 0 ~ 0 080 0 ~ 0 08040 Or090 0 ~ 0 09050 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 020 0 ~ 030 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 09010 08030 00040 Oen 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 080 0 ~ 0 0 ~ 0 0 ~ 0
~~0 0~00 0~0~00~0 0
0 060 0 ~ 0 0 0 0 0 0 ~ 0 0 ~ 010 Oep Oeo 0 ~ 100 0)0 080 ODA)
/DO 0~030 08020 0 F 100 Oeo'
~ 0 0 ~ 0 0 ~ 0 ODT50 0 F 200 0 ~ 3u 002>V 0 ~ 110 0 ~ 140 7
65 0'89 ODUZ9 0'80 0'50 0'80 0 ~ 0 0 ~ 090
- o. 1 lo 0 ~ 150 llllsls.0 0. ~6070 06829 &695>
l 078 0>789 OATL 0 0 0
0
TABLE 6 CONTINUED 5TABlLITY,CLASS G
WlNO SPEfUS lN Nf:TERS PER SECONO FRDN THE SECTORS lN )lCATED NNE 0
0, 0 ~ 0
. ~.0, NE Oeo 0 ~ 0 ENE 0
Oto ESE
.Op 00 Lp SE Oeo Oooo SSE 0 0 0 0
~
. f, S
Oeo Oto SS 0
SW Oeo 0 ~ 0 WSw '" ~p oto W
~ 0, 0 ~ 0 WNW 0 0 0 ~ 0 Nw
. 0,0 0.0 NN 0
00 TOTA~
Oto 0 ~ OZO 0 ~ 010 Oeoto 0 ~ 0 0 ~ 0 0 ~ 0
~ 0 0 ~ 0 0 ~ 0+0 0 ~ 010 Oeo 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 010 O.O O,'O ',O O',0 O,O OtO O.O O'O '"
Otolo Oeolo 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ OZO 0 ~ 0 to OeoZO 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 070 0 F 020
. 0 ~ 0 0 0 0 ~ 0
,0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0?0 0'40 0'90 Oeo 0 ~ 0 Oeo 0 ~ 0 0 ~ 0 0 ~ ?30 0 F 100 Ot300 Oto 0 '50 0 ~ 0 0 ~ 0 Oeo Oi t49 oeolo 0 ~ 130 Ot 180 0 ~ 0 0 ~ 0 Oeo 0 ~ 0 0 ~ 319 open o~o.
~ o 0 o 0 0 0 n 0
0 n
0 0 ~ 010 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 3 0 ~ 0 0 ~ 010 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 Oeo 0 ~ 0 oto 0 ~ 0 Oto 0 ~ 0 0 ~ 0 Oeo 0 ~ 0 0 ~ 0 0 ~ 0 O.OlO O
O O,O O.O O,O O;O O.n O.'O10
~
f e
0 ~ 0 Oeo 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 Oeo o oio o oio o o o o o~n o,o o o
. o'ooo Oe369 Oe579 0'80 Oe050 0 ~ 0 0 ~ 0 Oeo 1 ~ 198 o
TABLE 6 CONTINUED)
ELEVATED PORTION OP SPLIT-LEVEL JPD'S STAB1L1TY CLASS A
lllNQ SPEFOS IN l4ETERS PER SECOIIO FROM THE SECTORS 1HIIlCATLD N
0 ~ 0 Oeo 0 ~ 0 0 ~ 0 000
~ 0 0 ~ 0 0 ~ 0 '
~ 0 0 ~ 0 NNE O.O 0.0
= 0 ~ 0 000 0 ~ 0 Oeo 000 0 ~ 0 0 ~ 0 0 ~ 0 N
" '.O
=.
O.o'"
"O.O O,O O.O "O.'V
'O.O O.O O.-O
~ 0 ENE00~000000000000000000
.0 oo oo o'o oo oo nu oo oo oo no ESE VS 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ V 000 0 ~ 0 0 ~ 0 0 ~ 0 SC '.O O,O;
'O.O O'.O O.n '.V OOO O.O O.'O V.O SSE 0 ~ 0 0 ~ 0
,,0 ~ 0 000 0 ~ 0 0 'V 0 ~ 0 000 0 ~ 0 0 ~ 0 5
'.o O.O ',o o,o O,o o',v O<0 O.'O O,O 0.'O SW 0 ~ 0 0 ~ 0 0 ~ 0
~ 0 0 ~ 0 0
Oeo 0 ~ 0 0 ~ 0 0 ~ 0 0 WSW
, 0 ~ 0, 000 0 ~ 0 Ofo Oeo 0 ~ V 0 ~ 0 VS 0 000 0 ~ 0 W '
~ 0 Oeo 0 ~ 0 0 ~ 0 Oeo 0 ~ 0 Oeo 0 ~ 0 Oeo 0 ~ 0 WNW n ~ 0 0 ~ 0 0 ~ 0 Oeo 0 0 0 ~ 0 0 ~ 0 000 000 0 ~ 0 NW 0 ~ 0 0 ~ 0 0 ~ 0 Oeo 0 ~ 0 0 ~ V 0 ~ 0 0 ~ 0 Oeo 0 ~ 0 NNW Oen 000 0 ~ 0 000 0 ~ 0 000 Oeo 0 ~ 0 0 ~ 0 Veo TO~TEE 0,0 ~0 0~00 0
DI04D 0 0 0 ~ 0 0,0 0,0 0 ~ 040 STAB 1 1TY CLASS 8
WINO SPFEVS lN METERS PER SECOND FROM THE SECTORS 1NOlCATED NCT6R 0 ~ 13 OOE05 f OTO le 79 20 Bo
~05 be)~
9059 f3000 TGTXKb N
0 ~ 0 000 000 0 ~ 0 0 ~ 0 0 ~ V 000 TQT+LS
. 0 ~ 0 0 ~ 0 n
0 040 0 040 0~40 0 0 0
NNE 0 0 0,0 0,0 0,0 0,0 o.o O.o
,E e
.0,
~
NE 0 ~ 0 0 ~ 0 0 ~ 0 Ofo 0 ~ 0 OOV 0 ~ 0 ENE" 0 ~ 0 0 ~ 0 Ofo 0,0 00 00 00 n
E 0 ~ 0 0 ~ 0 000 000 0 ~ 0 Oeo 0 ~ 0 ESE
,0 0 0 ~ 0 0 ~ 0 000 0 ~ 0
.000 0 ~ 0
~ 0 SE 0 ~ 0 0 ~ 0 0 ~ 000 Oeofo 0 ~ 0 0 ~ V 0 ~ 0 SSE 0 0.,
0 ~ 0 0 ~ 0 0 0 0 ~ 0 0 ~ 0 0 ~ 0
~
5 oo'"
oo oo oo oo ov oo SSW '
0 0 ~ 0 0 0 0 ~ 0 000
.0 ~ V
,0 ~ 0
~ 0
~
~
SW Oen 0 ~ 0 0 ~ 0 Oeo 0 ~ 0 0 ~ V 0 ~ 0 W5WQ ~QO ~0ofo0
~00
~00
~Vo~ 0 W
O,Q 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ V 0 ~ 0 NEE ~oo.,o,o o.o o 0 0~00 o
o.o NW Oeo 0 ~ 0 0 ~ 0 000 Oeo OOV 0 ~ 0 N~N Ogo,0,0 OIO 0~0 0.0 0~00 D
~ 0 I.
0 ~ 0 000 0 ~ 0 0 ~ 0 Oeo 0
0 ~ 0 0 ~ 0 0 ~ 0 040 0 ~ 0 VS 0 o.o o.o n.o o.o o;o O.o'vo 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 VS 0 0 ~ 0 0 ~ 0 0 ~ 0 0,0 Qeo VS 0 000 0 ~ 0 0 ~ 0 0 ~ 0 Oeo 0 ~ V 0 ~ 0 0 ~ 0 0 ~ 0 000 Qeo VS 0 0 ~ 0 000
,Veo 0 ~ 0 Oeo 0 ~ OBQ
ELEVATED PORTION STABILITY CLASS C
3 WINO SPEEOS IN Hl. TERS PER SECDNO FRDH THE SECTORS INTIICATFO tl 0 ~ Q 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 ll'I-0<<0 0 0 0 ~ 0
" 0<<0 0<<0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0
~ 0
~ 0 Of Nl' 0 ~ 0 0 ~ 0 0 ~ 0 0<<0
~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 E
0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0'
0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 ESE
,0 0, O
O O.O O,O O.O O.O O.O ',O O.O O.O e,
e SE 0 ~ 0 Oip 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 S
0 ~ 0
0 ~ 0 0 F 050 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0>II SSW O~O 0 0 0 ~ 0 0 0 0 0 0 ~ 0 0 ~ 0 0~0 0 ~ 0 0 ~ 0 SW OOQ 0 ~ 0 0 ~ 0 'eo 0,0 to 0 ~ 0 0 ~ 0
-.,0 Ofo OophV P,P P,O 0,0 0 ~ Q Of080 0 ~ 070 Oep 0 ~ 0 0<<0 0 ~ 150 WNW 0<<0 Ooo 0'oo 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0
~
~
A N<<l Qfpp.op<<00
~00 ~00 ~0400
~00 ~00 ~00
~ 040
.NNN O,O,~DOAO ~00 0~0 0 ~ 0 0
0 0 0 0 ~ 0 0 0
'torgot 0,0 ~007050~00 0,120 0 lls 0 0 0 0 0 0 O.250
~AD~IV c As D
WINO SPEEDS IN HETERS PER SECPNO FROH TIIF. SECTORS INOICATEO SECTOR 0 ~ 13 0 ~ t5 1 ~ 10 1 ~ 99 2 ~ 80 4 ~ t5
~ 91
~ 59 13<<00 TDTALo N
NIIE Nl:
ENE E
ESE SC SSE S
SSW 5eg WSW W
WNW.,
NW NIIW nQ0
~ 0 0 II90 0 369 1,078 3 235 0 220 0 0 0 0 4
99A!
0 ~ 0 0 ~0~00
~ 230 0 ~ 41~
0 ~ 849 1 ~88~0 ~ 050 0 ~ 0 0 ~ 0 4~o OP 00 0 ~ 270 0369 0 ~ 499 0519 00 00
.00 1 ear 0 '
0 ~ 0 Quito 0 ~ 210 0 ~ 539 0'49 0'20 0 ~ 0 0 ~ Q 1 '54' Q
0 0 0 st09 0 ~ 53'9 0 809 0 ~ >99 0'20 Oep 0,0 2 '76 0 ~ 0 0 ~ 0 0<<'559 0 ~ 998 0 ~ 469 0'79 0 ~ 110 0<<0 0 ~ 0
~ 715 0 0 OqO 0 270 0~379 OQ270 0 >49 0
190 0 0 0'
1 75I pjp 0 0 0 ~ 230 0 ~ 290 0 ~ 080 0 ~ 319 0 ~ 130 0 ~ 0 pfp looht Q.O O.o,O.nop 0 080 0 080,0tZBO 0 ~ 020 0 ~ 0 0 0 0 549 Q.p'
'O.O O.090 O,ZSO "O. IZQ-O,c 69'O.oZo',o
'O.o 0<<0 P.p O,l 50 0,250 0'70 Oy>69 0<<030 0 ~ 0 0<<0 0<<968 o,o Q.o O.oho
- 0. leo o,iep o,489
- o. 120 o.o o,o o.968 U ~ 0 0 ~ 0 0 F 140 0<<419 0 ~ 349 0'79 0'00 0 ~ 0 0<<p
<<987 0<<Q 0 ~ 0 0 ~ I to 0'30 0'79 1 F 498 0 ~ 309 0 ~ 0 0 ~ 0
~ 2 '56 JOSAI,S, 05<0 Q,JQO
. 2.025
~5523 7,ADS 3~5~V74 937 0~~~
53.AAA
TABLE 6 CONTINUED ELEVATED PORTION STAOILITY CLASS E
WIND SPEEDS IN HETERS PER SECOND FROH THE SECTl)RS INDICATEO NNE
- Oep, O,ep 0'50 0'39 00309 Oo>69 0'30 0 ~ 0 0 ~ 0 1 ~ 098 ENE Oep 0 ~ 0 0 ~ 0 fp 0 ~ 160 09270 0 ~ >99 0 ~ ))20 0 ~ 0 0 ~ 0 1 ~ 088 ESg Oep 0 ~ 0 0'90 0 ~ 200 0 F 429 0 ~ 829 0'20 Oep 0 '
1 ~ 567 SE Oep 0'
Oe319 0'99 0 579 2 '66 0 ~ 100 0 ~ 0 pep
> ~ 463 SSE 0,0 Pop Oe180 0 ~ 280 0 ~ 389 Or l79 09080 Oep QoP 1 ~ 707 SW 0 ~ 0 0,0 Osso 0 080 0
0 ODO.)19 0.060 1..0 0
0 0.FBI WS'W Oep Oep 00090 Or080 00120 08240 08010 080 080 08539 WNW" Oep 0 ~ 0 Oep 08040 0 ~ 150 08210 0 ~ 030 080 Oep 00429 NQ Oep Oop Oep 08120 0 ~ 0 08020 00020 0 ~ 0 0 ~ 0 00160 TO~7813
~
0 050 1 l88 2 925 48,8193 8
'705 0 509 0 0 0,0 170730 WINO 58 Sr8702
- 0. 15 A
0 ~ 0
..tY NNE 0
Q ENE
~ 0,,
ESE 0,0
~ 0 SW Orp WSW Oep W
080 WNW 0 0
.t.
NW Oep N)<H
() e.p.
STAAILITY CLASS F
0 ~ 0 0 F 080 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0,0 0~0 0.0 O<O40 G.C 0,0 0.0 0 ~ 0 Oep 0'80 0 F 040 EEOS JN HETERS PER SECOND FROH T))E SECTI)RS INDICATED 0 ~ 0 0)0 0 ~ 040 080 0 ~ 070 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 1 lp Oop 0 ~ 0 08120 08150 09070 0 ~ 010 Oep 0 ~ 0 0 ~ 34/
0 ~ 0 0 ~ 0 08040 08120 08080 08020 080 080 0'60 0 ~ 0 08050 0 F 040 0 F 190 09760 0 ~ 0 0 ~ 0 0 ~ 0 Oi>39 0 ~ 0 Oep 0'00 0 ~ 120 0 ~ 110 0 ~ 0 080 080 0'29 0 ~ 0 08230 0'79 0 F 429 0 ~ 359 0'
OiO Pip Lo39))
0 ~ 0 0 ~ 140 0 ~ 080 0 ~ 160 0 ~ 140 0 ~ 010 080 0 ~ 0 0 ~ 529 0 ~ 0 0 ~ 090 0 ~ 040 0 Oip 0
170 0 ~ 0 0 0 0 0 0 339 0 ~ 0 0 ~ 050 0 ~ 090 09080 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 170 0,0 08050 080 0 ~ 0 0 ~ 170 0 ~ 0 0 ~ 0 0 ~ 0 0'20 0 ~ 0 Oe.050 0 F 040 0 ~ 0 0 F 100 0 ~ 0 0 ~ 0 0 ~ 0 09)90 0 ~ 0 0 ~ 050 0 ~ 0 0 ~ 0 80 Orp 000 0 ~ 0 Oip 080/0 0.0 0~0 0
0 0.0 0
0 0.0 0.0 0.0 0.0
<OTAI $ ~Q 0,0
~0709 ll098 I 328 1,797 0.090 0.0 0.0 4'22
TABLE 6 CONTINUED ELKUATED PORTION STAGIL1TY CLASS G
HlNP SPEEDS 1N METERS PER SECOND FROM THE SECTORS 1NP1CATEP SECTTTR 0 ~ 13 0 ~ 't5 lelp lt99 2e80 Ot45
>.91 9 59 13 ~ 00 lUTALS I
I'
QeQ Oep 0 ~ 0
, 0,0 0,0 0 ~ 0 0 ~ 0 0 ~ 0 0 '
0 ~ 0 N>IE 0 ~ 0
~ 0 0 ~ 0 0 ~ 0 OeO<0 OoV 0 ~ 0 0 ~ 0 Oep 0 ~ OIO NE "Otp Otp'tp 0 F 0+0 0 '
'70 0 '
Otp 0 '
0 ~ 110 E
0,0 Oep 0,0'
tp 0'
'op IO 0'
0' 0 '
Ueppp ESE 0 0 0 ~ 0 0 0 0'80 0 ~ 120 0 ~ 0 0 ~ 0 Oep 0 ~ 0 0'00
-.. \\.
SE, 0 ~ 0 0,0 Ot050 0 ~ 040 0 ~ 080 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ Q 0 ~ 170 S
0 ~ 0 0 ~ 0 Oep Oep Oep 0 ~ 0 0 ~ 0 Orp 0 ~ 0 0 ~ 0 SS~Ot 0
0 0
0 0 Otp 0 0 0 ~ 0 0 '0 0 ~ 0 0 ~ 0 SH 0 '
0 ~ 0 0 ~ 0 'ep 0 ~ 0 0'70 Oep 0 ~ 0 0'70 HSM
" 0 ~ Q 0 ~ 0 0 ~ 0 0)0 0~0 0)0 0 ~ 0 0 ~ 0 Oo'0 0 ~ 0 0 ~ 0 Oop 0 ~ 0 Oep-OeO Otp 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 to t
...'L
.t MNW 0
Q 0 0 0-0 0 0 0 0 0 0 0 ~ 0 0 ~ 0 0 0 0 ~ 0
~
~
Nd Q ~ 0 OeO Qep OtQ Oep Ot 0 ~ 0 5t Otp eO wino oe oo o o o
a o o o o oo oo oo
. oo ioi/l)$
o~e ~
0 0 050~0200 0 2oo 0 o29 0
0 o,o o,o o,ooo GROUND LEyEL RELEA E
ee 42th PER ENT ECEyATEO RELEASES eo 57 '
PERCENT
TABLE 7 BROWNS FERRY NUCLEAR PLANT METEOROLOGICAL DATA SPLIT-LEVEL JOINT FRE UENCY DISTRIBUTION IN PERCENT REACTOR AND RADWASTE BUILDING RELEASES - FOURTH UARTER 1980 GROUND-LEVEL PORTION
~L-k4'Y-CLASS-A.
~'<A~ii~4-'i1%~~<
SECTOR 0
13 0 ~ 45 1
10 1
99 2 80 4 ~ 45 6 91
.9 59 13 OU TOTALS N
0 ~ 0 0 ~ 0'
~ 0 hit" 0 ~ 0 0 ~ 0 0 ~ 0 I
E 0 ~ 0 0 ~ 0 0 ~ 0 SE n.o n.o o.n 5
n.n o.o O.o S~
n.o o.o o.o li 0 ~ 0 0 ~ 0 0 ~ 0 NM 0 ~ 0 0 ~ 0 0 ~ 0 0.0 V.u
- n. 140 U.270 n.u O.n 0.409 Il tlon0 tlotl tl~ 0 0&00 0 ~ 0 0 ~ n
'40 U an V au 0 ~ 0 0 '40
~.0~. no~~e 0
.o.n o.n n.o U.n o.o o.o n.n tl..0U=~ 0.0~ 0~~
O.lan o.o5n o.v u.n o.o n.u n.230 424 0 ~-080-~.0-.~,4 UW~) il 0
2.10-0'20 0 '9U vs 090 vs 0 an u ~ 0 0 '99 O~.n~w~.- 0.~~
- n. o 1 0
- u. o
- o. o
- u. o u.'>>
n.o.
- n. n 1 o 10 0 Ilttltl 100~. 000-..0 00~
00O 0 ~ 0 0 ~ 0 V ~ 060 0 ~ 050 0 ~ 0
'0 ~ 0 0 ~ 1lu n
O~n..rl..nII U.n~.~w-o.o o.n o.o6o u.o o.u O.o 0.060 F~~~ECOA!0.,8&0'HEMECIQHS lhULCAT SECTOR 0
13 0 ~ 45 1.10 1
99 0.' Vn 4 ~ 45 6 ~91, 9 ~ 59 13 ~ 00 TOTALS
,N I
n ~ 0 0 ~ 0
, 0 0
0 F 010 0 010 0
120 V 090 V.n n
0 0
23U i~am NE, o.o o.o.
o.n 0 ~ 0
~ 0 0 ~ u 0 '
0 '20 0 '50 Voo 0'
vs 0 0 ~ 1/0 GOO ~~~~BQII u.n o.n n.o u.o v.u u.n n.u O~IG ~t 0.0~
.~
Oolt 0 ~ 0 n.o van 0 ~ Obn 0 ~ uuo 0 ~ 0 van n ~ 0 V AU 0 F 130 5
. 0 ~ 0 0 ~ 0 an 0 F 080 0 ~ 090 0 ~ u v,n 0 ~ u o.n
- n. lvn M4.Q 0 ~ 030 onlo u ~ o on oo o ~ o on4u
~~~~~6
~649 0 ~ 080 0 ~ lnu V ~ 1LOU 0 ~ 0 0 ~ 0 0 F 359 Oon W
o.n n.o o.o NW 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 vs 020 U ~ 100 0'40 V I V 0 ~ 0'
~ 260 WL ~Q~
~
~23ll
TABLE 7 CONTINUED
~T-~445$
SECTOn 0.13 0.45 1.10 1.99 2.80 4.45 6.91 9.59 13.00 TQTaLS o.o Q.o o.o o.n o.o2o
- o. 140 o.o o.n o.o O.len
~~~~~0 O~-W.~ 4b~
nn no on onla 0020 oueo 00 00 no 0110 E
-FS SE 0 ~ 0 0'
0 ~ 0
~
n.o n.o 0 ~ 0 0'
0 ~ 0 0 ~ 0 0 ~ 0 "o.n o.'n.
u.n ann u.o o.o o.o o.o 0~0 4~
0 ~ Oln 0'60 0 ~ 0 0'30 VS 0 0 ~ 0 0 ~ 0 0 F 100 10 0 06U0~~~% ~0
~47JL O.n O.n2O Q.O3n O.u O.u V.n.,
O.O O.O5O s4+
o.o n.oln O.o o.oso v.o o.n o.o o.neo
~ om~)i~me~~~~
@as o.o
- o.nlo o.o3o u.ouo 0.090 a.o o.a Q.plo 0-Nw o.o n.n o.o O.olo,o.n4o a.neu u.oso o.o n.n o.leo SECTOR 0.13 o.4$
1.
1 o 1.99 2.C 0 4.45 6.91 9.sr 13.00 TOTaLS Q.n Q.o o.n 0.060 O.usn 0.379 u.o90 0.0 u.n 0,579 hE n.n 0.0 Q.nln O.n70-
,o.iso 0.419 Q.o o.o o.o n.e49 o,o n.o o.nlo o,nsn o.nso o.o u.n o.u o.v Q.llo SE 0 ~ n 0 ~ 0 0 ~ 040 0 ~ lbn 0 ~ su9 0'80 n ~ 0 0 ~ 0 0 ~ 0 0 ~ 7/9 S
0 ~ 0 Qen 0+040 0 '99 0'49 u ~ 280 vs 050 0 ~ 0 0 ~ 0 1 ~ 218 n8 SM 0 ~ 0 0 ~ 0 0 ~ nln 0 ~ 020 0'60 0 ~ uuu n,n 0 ~ 0 Q an Q,lan 1
0 ~ 0 0 ~ 0 0 ~ n 0'40 nolso 0 ~ 280 vs 090 0 ~ 0 0 ~ 0 Q ~ 659 0 ~ 0 0 ~ 0 0
n 0'60 0 F 080 0 ~ 339 0'30 0 ~ 0 0 ~ 0 0 ~ 7V9 OR
TABLE 7 CONTINUED StaqlL4-TY CLaSS-F.
~LIL-Lh~'EcToR o.l3 0.45
).10
). )9 2.)III 4.45 6.91 9.s9 13.ov ToTaLs N
0 ~ 0 NE 0 ~ 0 SE'.
0 ~ 0
-O.n Sw on W)II NH'
~ n 0 ~ 0 o.n 0.0 o.n30 0.060
- 0. lun o.)50 o,o (i.n o.u u.339 0~40~,350.~
<<00 II 0
.Il~~ 0'0 0
0 o,n70 0
I)IIO u, )ao v lnv U an U
v u
0 0
4U9 IL(~~ 044~ II-.-II~~~ aua-0 ~ 020 0 F 050 0 F 100 0'20 0 F 050 u ~ 0 0 ~ 0 0 ~ 0 0 ?40
~~
nuu o..natl 0.3tu.
- o. ~.. ~.e~,a 0.440 0.U4o 0.270 0.2)IU 0.7))o U.24U u.n U.o 0.0
).)OU
~~35 0 S~ Se~
3to II.000 0M~ 0 I.,F! t!..
0 ~ 010 0 ~ 419 0 579 0 429 0
2HU u 090 0 ~ i)
U 0'
4)nl
~ni~ u~
n
- 0. ~ I ~)~l )IQQ 0 ~ 010 0 ~ 030 0 ~ 020 0 ~ 0 0 ~ 0 v ~ 0 0 ~ U U ~ 0.
0 ~ 060 M4A~~%~LQ~~AJHO-U e340 neo- -~~U0~0 0 ebon u.n 0.13n 0.25))
0.)4U, o.)(iv u.n50 O.U n.v n.669
)0~~~~7~enTU U~)90 Ueus~en 0.0.0A59 n.o o.olo 0.04n n.nao u.n9o U.090 u.v o.o n.27o ETIS-JKIL=EColtu Futl'.I TIIF..SECI~ECLCEEEC SECTOR 0
13 0 ~ 45
)
10 1
99 2 ~ H('
~ 45 6
91 9 59 13 ~ 00 TOTaLS N
I NE SE, O.n n.n 0 ~ 0 n.n o.o o.ven 0 F 010 0 ~ neu 0 0 12V 0 ~ i)iiv 0 ~ (I v ~ u 9 ~~~&4.
Oe)10 U ~ n 0 ~ 0 V ~ U V ~ i)
(L))~~25~
0 F 010 00(340 0 '6V 0004n 040 U ~ 0 U ~ II IL o~
0.02O O. 160
- n. 12o U.n O.USU o.n o.n u ~ u 0 ~ 0 un 15))
0 ~ 349 n.o 0.2404~
n.o 0.)nn neeO ~~9 I S
.n.n n.OlO O.O9O O.04O O.U9u O.OSU n.n O.O O.O n.2un 0.
~.JSII Sw On OO On On On uO uu VO UO OU sn w
an 0'
0'40 0 '70 u ~ n neo u.o v.'v o.o
- n. )lu Nw 0.0 0.0 o.n2n o.n30 0.0 0.03U U.n 0.0 0.0 '.nt,u C
~0
~M00
TABLE 7 CONTINUED Sto>>4(.4 T.Y-<(..aSS
.(1-MAAt4r-F (uul~~
SECTOR 0.13 0.45 1.1O 1.V9 '.uu
- 4.4b o~Vl V.~V 13.VV lnrnLS u
T(
n.n o.n E
0 ~ 0 Sw n.no2 SE
.0 ~ no?
O.n-0 F 010 0 F 010 0 ~ 0 uav 0 ~ 120 0 ~ 050 0 ~ o o ~ v o.n o ~ o n.0 o.1TO
~44~
Obu-O ~ U.
U ~ 0 0
U 0
u 0 ~ 220-0 ~ 0 0 ~ 02O O. 100 0 ~ Onn 0 ~ 0 o) ~ O 0 ~ 0
- n. 0 O. 1H((
nui~.o u.n~~u o~ ~
o.o o.n30 o.n5o O.o o.o v.o o.o o.n O.own
.~un~un~.u m.n..
u.a.
a.o u..a a,.ono 0.010 o.o40 u.orn 0.0 u.o O.n O.v v.n n.12?
nuo ow dl~~~ nuo-O.v 0.020 0.030 O.v.
O.v v.n V.v, o.o n.o5n
~4~ ou-0 ~ 0 0 '
0 ~ V 0 ~ 0.
0 '22 nl u~
o.n n.o o.n2o O.nlo u.n o.O v.u V.o o.o n.o3o IDEAL~lo~
Ll.u w
o.o o.o o.n2o o.n
~
o.o o.o O.o o.o ';o 0'2V
TABLE 7 CONTINUED ELEVATED PORTION OP SPLIT-LEVEL JPD J~
'ECTOR 0,13 0 45 1 ~ 10 1
99 2 ~ 80 4 ~ 45 6
91 9
SY 13 ~ no TOTALS o.o n,o.
o.o o.o o.n O.o v.n n.n n.o n.n
~ll Jl~ IL~M~,B~JL o.o
'o o
o.o o;o o:.o o.o u.n u.v o.o o.o SE.
W blt4 NW 0 ~ 0 o.n 0 ~ 0 0 ~ 0 o.o O.v 0 ~,0 0 ~ 0 o.n o..o Q an
~
0 ~ 0 oon O.n 0 ~ 0 0 ~ 0 0 ~ 0 o.n o.n o.o o.o u.u o.n o.n o.n ll IL
.U.6 Il~
Il L gl o.o n.'o o.v u.v o.v o.o n.n n.o o.u O.u o.n n.u, O.n O.n O.o o.o o.n O.n v.v o.o o.n 0
JL,~,.O ll ILAWD~
0 o.n O.n o.o v.o o.o o.v n.n 0 '
0' 0 '
0 ~ 0 0'
0 ~ 0 0 '
EG '~UbLO FdCH. IHEMECMRSMh,RLCAIE,O SECTOR 0 ~ 13 0 ~ 45 1 ~ 10 1 ~ 99 2 ~ 80 i ~ 45 6 ~ 91 9 ~ 5 J 13 ~ nu TOTAI S N
0.0 O.o O.o O.n O.u u.o u.v u.v u.o o.n NE nn 00 on
.00
. vo uu vu oo no no IL.
F.
o.o O.o o.o o.o o.o n.o v.o O.n o.u o.o SE 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 uiu 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 S
.0 ~ n 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ n 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 SW O.O n.O O.n n.n O.n O.O O.n u.u O.O O.O
~Jl 0
w n.n o.o o.n o.o o.o o.o o.o o.n u.o v.o NW I
o.o o.o o.n O.n o.n o.o u.o o.o n.o '.u
TABLE 7 CONTINUED ELEVATED PORTION
'~
PR144LY~I ASS C
- M1CALF, SE'CTOR 0 ~ 13 0 ~ 45 1 ~ 10 1 ~ 99
~ IIO 4 ~ 45 6
91 9 ~ 59 1 J ~ 00 TUTALS n.o 0 ~ 0 0 ~ 0 n.o.
0 ~ 0 o.n Q.ot U.U o.u U.u Q.n o.o n.n
.I>.0.
u u
a.u u.a a.a 0.0 o.o 0.0 u.o O.n 0.0 o.u 0~0~~~
E 0 ~ 0 0 ~ 0 0 ~ 0 SK 0 ~ 0 0.0 O.o..
S 0 ~ 0 0 ~ 0 0 ~ 0 sw n.o o.o o.o W
0 ~ 0 0 ~ 0 0 ~ 0 O'H 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 o.n o.n U.o o.o o.n o.o'.n '.n o.n n.n A
U 0
Q.u~.u U
U U
0 u.u O.o o.o o.o u.o U.n o,o Q.o 0 ~ 0
. 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ n >
0 ~ 0 0 ~ 0 I
~l 0 44 lj "~
II 0 ~ 0 U ~ 0 0 ~ 0 0 ~ u Oao.
A~~ i04 n,n o.u o.o2o U.n U.o o.o o.o2o 0 ~ 0 0 ~ U 0 ~ 0 0 ~ n
~lj040.44M;4404uj I
.Eujlu~'ETEITS.JKILEEEuu~ljuM TM~EEIOII4MITIjja4TEO S)'CTOR 0 ~ 13 0 ~ 45 1 010 1 ~ 99 8 ~ Ho 4 ~ 45 bu91
'9 ~ 59 13 ~ 00 TOTALS n.o n.o 0.14n 0.?10 0.3U9 1.967 0.130 o.o o.o 2.43~
SE'.
n.n Q.o n.o 0 ~ 050 0 ~ OSO 0 ~ 0 0.319 n.339 U.979 1.04'.
U.Q7U n.o P.~M~
0 ~ QSQ Oe 120 U ~ 180 0 ~ 800 0 ~ U U ~ 0 39 ~4~<fLM9 V~49 U
0 ~ f 89 0 ~ P. TIO 0 ~ I89 1
2UV u ~ n90 0 ~ 0 0 ~ 0 u ~ 0 0 ~ 0 2 ~ 406 0 ~ 579kl 30?54 5
.0 ~ 0 0 ~ 0 0'30 0 '79 0
190 1 ~ 27u 0 ~ 2?n 0 ~ 0 0 ~ 0 2,496
!I II.Ilu0~~
SW O.O n.O O.nSQ 0'99 0'29 0 F 769 0,130 0 ~ 0 0 ~ 0 2 '16 3.~JL2 0 ~ 0 0 ~ 0 0 ~ 180 0 ~ 3? 9 0 ~ H9II 1 ~ 308 0 ~ lun U ~ 0 0 ~ 0 2 ~ II1g HW 0 ~ 0 0 ~ 0 0 ~ OSO 0 '89 0 '19 0 ~ 888 os 070 0 ~ 0 0 ~ 0 '
'56
TABLE 7 CON'TINUED ELEVATED PORTION A4-SF'~
SFCTOR 0 ~ 13 0445 1 ~ ln 1 ~ 99 2 ~ Ho 4 ~ 4b ho91 9 ~ 59 13 ~ 00 TOTALS 0 ~ 0 n.o SF.
5w o.n 0 ~ 0 o.n.
n.o o.n Nw
~ 0 0 ~ 0 n.n 0.050 O.n8O 04389 0.7US Q.U O.n O.u 1.?28
~tt~ 44~! IU II iVU'-II 414 II~ II II~ UU~
o.o5o O.n o.12u o.309 U.bc 9 U.n2o U.n o.o l.neu w~).4v9~ )u 040 0 ~ 090 Oa130 0 ~ 230 0 ~ 280 U ~ ))ln U ~ 0 0 ~ 0
'U ~ 73V 0 ~ 409 0 ~ 839 0 ~ eb9 uob19 U ~ 010 U ~ 0 0 ~ 0 2 ~
43'V~
VVV II,VVV U,.ll \\4 IV~,ll I.It*I-n ~ 0 0 ~ OSQ 0 ~ 589 0 ~ Ue9 1 ~'108 U ~ 070 U ~ n~
0 ~ 0 24326 UV~IW~UII~A~
n.O O.OSn O.4bS 0.53~
O;b79 O.03n O-U O.n loe97 449 U. 44V ll 4UV U,U!U-~~ U~ -444 0 '
0 '4Q 0 ~ 459 0 '89 Oob39 0'30 OUU 0 ~ 0 1 ~ 637 UU~UVV U
VVVU&l ILJtU~I UUU o.o o.nso o.2bo'.389 0.25o o.n o.u o.o
,o.v78 SF CTOR 0 ~ 13 MLE~EE~HU EdQ8 I~ECIGtLS~WILAT.
n.<5 l.ln io99 2.80 4.4b e.Vl 9.59 13.OO TnrALS N
n.o o.o n.n
- o. 130 O.U80 u.449 O.u n.u o.o noe59 0 ~ 0 0 ~ u 0 ~ O'Sn 0 ~ 2bn 0 '20 0 ~ 489 0 ~ uln 0 ~ 0 0 ~ 0 U ~ 958 U
I 9
O.n O.O O.n O.n40 0.) en 0.21U u.t)
U.u u.O uo4O9
~~ 4~l ~~U~
~M29 SF, 0 ~ 0 0 ~ 0 0 ~ 090 0 ~ ?89 0 ~ le))
0 ~ 289 U ~ 0 0 ~ 0 0 ~ 0 I) ~ 829 5
. o.o O.o o.oso 0.040 o.l2o o.22o o.o o.o o.o n.4ev sw o.n o.o O.n o.o4o o.3u9 U. 180 U.o au 0,0 0.529 449 W
O.Oae O.O5O O.OSO O.nnn ooleO O.?en U.O O.O U.O O.e5b o.o o.o o.n Q.n O.lSU o.o U.olo o.n o.o'.leo
TABLE 7 CONTINUED ELEVATED PORTION "n~Lu-TV-Ca, ASS-e Qln-j">n)A~H~)L)~~g~y SECTOA 0 ~ 13 0 ~ OS 1
10
- l. 99 2 ~ VV 4 ~ AS h 91 9
5V 13 UV TntnLS s~
0.0 o.o o.n o.o
~~A o.o o.o o.o o.n o.o
- o. lln U.o o.n U.n U.1lv
~t4l~~M O.o o.o n.o n.n o.o o.o U.n U.o U.o 0.0
~40 lv o.o o.v n.o V.non O.n~o V. iso U.n U.v v.n o.elv
~>
a n.tt n.n,u.n a aia
.u.u... u.u,
. u.n,
.u.ritu..
NE n.n 0.0 o.0 V.non U.n~v U.v~v U.v U.v U.n
- n. 1~v t Illa
.tt tl umtt.~t~
lt tl ttull-o.o O.o o.n o.o n.n U.o U.n~o V.n o.o U.nan n
Van~
V~V--.-VS 0-...-U an.
U.V 0 ~ 0 0 '
sf 0 '
0 '
,G,nso V.pro n.n~u O.vl'0
.0 ~ 0 o ~ 0 V.o
- n. >e9
~F ~w~~~
onn a tl-(t llntl
.U tt tl tl.
a o
nwno s
nn oo on on vnvn vv~0 vn nn oo 0
1 pv tn a t~ a~t;'
uhno~)
a 0 ~ 0 0 ~ VHV Voo Ono 0 ~ 0, 0 ~ ORV a~a-~~ o~
n or ouND-LEYFL AFLEASfs "-3c ~ 9 r fnCFLT ELEYATFO AfLEASES.=
el.l PFHCfr;T
TABLE 8 BROWNS FERRY NUCLEAR PLANT METEOROLOGICAL DATA ELEVATED JOINT FRE UENCY DISTRIBUTION IN PERCENT STACK RELEASES FIRST UARTER 1980 TAGLLILYMLASSA
~INILSQE EILSECGNQ&BGG~~ECIOES IIIUICATEQ sECToR 0013 0 ~s lf10 1099 2 ~ 00
- f. Ds
~ 91 9
~9 1300 0
N o,p o.o o,o o.o o,o, o,o o.o o,o o,o 0.0
- mNa a.o.~,o o..o O.a o..o.'.o a.o..p.o n.a 00 0 NE otp 0'to
.Qto 0 ~ 0 0>0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 4M 0 MO~,~
~ II.
E 'tp 0 ~ o.
oto 0 ~ 0 000 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0
~a~.a.~.a'.a Qao~.o ~.o~.a 0.0=0.'~.0 SE 0 ~ 0 0 ~ 0
~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0
'0 ~ 0 0 ~ 0 IMSE o,o.
o.o '.o~.o.~.o O..o o.o o.o. ~.0 o.o 5
Oto 0 ~ 0 0 ~ 0 Oto Oto 0 ~ 0 Oio 0 ~ 0 0 ~ 0 0 ~ 0
~SR~,o
~dL 0"".
=
Otp O.O OBO 'DO O,O O.O O.O C.u o o o.p
~L
.OtOL AtL oto of a OrO 0 ~ 0 0 ~ 0 Oto.
~
Oto QNV- --.
W 'tp 000 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 NW 'tp 0 ~ 0 0 ~ 0
- oto, 0 ~ 0 Otp 0 ~ 0 0 ~ 0 pto 0 ~ 0
~
NNW~o
~0.0~
0
%4XA~ 0 I
0 0-0,0 ~ ~,o,....
~INCLSDOSD~MEIEE~SILSECOIIQ DBQILIM~ECIOBS.INDICAXEQ SECTOR 00 13 Ot0>
1 ~ 10 1 ~ 99 2 ~ 80 f ~ DS
~f 91 9 ~ 59 13 ~ 00 1UT1ILS N
otp oto 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 000 0 ~ 0
NNI ~0~0 0 0'~ 0~ 0~~
00,0.~
0 Il~ O.-..
NE 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 ENE.~0OQ0000~.0 00~0UU.~0
- all, E
ofP 0 ~ 0 0 ~ 0 Ofo ofo 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ v ESE 0 ~0~to~f0 Ofo Mto~fp~00 000 ~00 000- -
SE O,'O O.O O,O O,O O,'O O,p O.O'.O" O,O nfo
SSE 0,0.~ 0~ ~,O ~ 0~g~ II 0.0. I4~ U.,
S 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0
-ssw
'on o o o o 00~0 oooo.
o o
.n o oo SW 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 wsw p,o o.o o,o o.o ~,o of0 ~.n,
. o.o...
O.e 0.0 w
000 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 ODV 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 NW 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 Of0 0 ~ 0 0 ~ 0 0 ~lp 0 ~ ts
.MNN 0,0.~ Q~
Q ~ ~,Q D ~tl t4D
.0 0
Ol~.,il,o
~-TOT'Als~pto -Mfa~to OrO Orn
-Otp Oro 0 ~ 0- ~O 0 ~ 0
TABLE 8 CONTINUED
~TASlLBJY-,CLASS C.
~QIU, SPEEQS ItLHKT~E~Ef~gCUNOMRUHM~ECTU~NDICATL!l
'ECTOR,
~ 13 0 ~ t5 lelp
'le99 2f80 t 45 6 91 9 ~ 59 13 ~ 00 fUIALb N
0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 Qep 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 000
WNQ O.O O.G=O~~.O O,O O.O O.O O,OO.o~.a NE 0'ep Otp'
~ 0 Ofp
~ 0 0 ~ 0 Otp 0 ~ 0 0 ~ 0 t) ~ 0 E,
O,p 0.0 0.0 Ofp 0,0 0,0 O.O 0.0 0.0 O.O A-0 0=0 0 0 0 0 0.~~
0,00 0 ~0>> 0 SE Otp 0 ~ 0 0 ~ 0 0 ~ 0 090 'tn Qep 0 ~ 0 0 ~ 0 0 ~ 0 MS~,O...00~ 0M' 0,~ ~ O~,O 0,0~ ~ 0 S
Oep Otp 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ n Otp 0 ~ 0 0 ~ 0 000
.~ ~O SH OOP 0 ~ 0 Of0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 4 ~ 0 0 ~ 0 0 ~ 0
~SN 0 0XA 0,0=0,0 O,0=041 0 (~~0;O~Q H 'tp 000 OEP 0 ~ 0 0 ~ 0 OEV 0 ~ 0 0 ~ 0 0 ~ 0
~ 0
'~NN~0. ~
0~ ll ~~ 0~ 0 O,IL>> 0 NH Oep 0 ~ 0 0 ~ 0 OtQ 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 nt
~TALS OOO.
0 ~40~tp OtU~tU~0 ~O Ue
~TNO SPEEQ~TLJTETE~ER SECONO kRQtLZN~ECTG~NGTCSTE SECTOR 0 ~ 13 0 ~ 45 1 ~ 10 1 ~ 99 2 ~ 80 4 ~ 45 6 ~ 91 9 ~ 59 13 ~ 00 TUTALS N
0 ~ 0 0 ~ 0 0 ~ 140 0 ~ 330 1 ~ 190 4 ~ U89 3 ~ 329 0 ~ 520 0 ~ 050 9 ~ 647
~NE 0 0,.-~
0~10~
290 0 ~ 520~SR~ 009~ 2900~ 293 NE 0 ~ Q 0 ~ 0 0 ~ 100 0 ~ 570 0 ~ 620 2'39.
1 ~ 520 Q ~ 24p Q ~ Q 50288 EWE~ Ot p. -MOO Ot 050 Oe>20 Ot>20 2 ~ 189. 0 ~ 000 0 ~ 140- tt ~n,to!9 L)-
E 0 0 0 ~ 0 0 ~ 1 tp 0 ~ 380 0 480 1 ~ 859 Qt 860 0 ~ 240 0 050 4 ~ 009 ESF ~.a..~.O 0.480 0.26~.O94
- 2. SO9
.L.709..0 4aa u.52~.8M SE Oep 0 ~ 0 OE380 0 810 0'70 1 709 4 '89 2 '09 1 ~ 62Q 11 986
~Ski pep-- 0 0~t?80P<<38~ AS~OVO~W6~0R5g 0 XLO~&88 S
0 ~ Q 0 ~ 0 0 ~ 330 0'80 0 ~ 980 0'50 2 '79 0'PP 0.52P 60138 SSH.>>'
~ 0
.A)~ 0 Oe 100.,0t 290.
0 ~ 1 tp pt 710 " 0 ~ 900 0 ~.ISO,. t) ~ 1 t0.,2
~ 75 SW 0 ~ Q 0 ~ 0 00240 09290 0 ~ 330 1 ~ 000 1 ~ 520 0 ~ 71Q 0 ~ 240 4 ~ 329
HSH 0 ~ 0
. 0 ~ 0 00140 00100--0
~ 480--0 900 10140 00670...O 380.~080')
H 0 ~ 0 0 ~ 0 0 ~ 100 Oe 480 Ot 330 1 ~ 190 1 ~ 520 Oe 6? 0 0 ~ 1')0 4 ~ 429
HNH Otp->>-pt OO0=4e330 &30 1+U50l<<00~9330M05l~<<709.
NH 0 ~ P 0 ~ 0 0 ~ 100 0 ~ 240 0 ~ 240 1 ~ 190 3 ~ 239 1 ~ 430 00620 7 ~ 058
-NNH..--.000,.004 0 ~ 240 00330 OO860 2t~29le859~0484..
0 ~ 190~0284 WQVAhSptp
-0~~9'P~tM~25~ae+klM2<<AA~ZSe 5.84~v apl
TABLE 8 CONTINUED STAR 14 IZY-CLASS-E-kSHQ-SF 6 6 QS-CINNNPRES-0 SR-S ECON 0-NRQINRHR46 CTQRS.- IIIOTCRCE4 SECTOR Ot 13 006lS le lp 1 ~ 99 Re RQ sit 66>
< ~ 91 9 ~ 59 130 00 TVTALS N
0 ~0'00 '
~ 0 0 ~ 0 0 ~ 0 OOV 0 ~ 0 0 ~ 0 Otp 000 NNS 0,0O,l~,o~ 0 0 0 0 0 0
0 0.0 0,~.0..
NE OOQ 000 0 ~ 0 0 ~ 0 0 ~ 0 r
000 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 E '00 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 VS 0 656~
0 0,0 0
00~0 0
4,0 0 0 0,0-~,0 0 0-.
SE 0'
0 ~ 0 0 ~ 0 0 ~ 0 OtQ 0'
0 ~ 0 0 '
0 ~ 0 0 ~ 0
'-AS~,0 JI 0
0 0 0
Q ~
00,0.~0 0 0 S
0 ~ 0 0 ~ 0 0 ~ 0 Otp 0 ~ 0 0 ~ V 0 ~ 0 0 ~ 0
~ 0 0 ~ 0 SW 000 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 'e 0
000 0 ~ 0 WSHWr00,0040000~0 0000~'~0 W
0' 0 ~ 0 0 ~ 0 0 ~ 0 000 0 ~ V 000 000 0 ~ 0 000 NW Otp 0 ~ 0 Otp 0 ~ P 0 ~ 0 0 ~ 0 OTO 0 ~ 0 0 ~ 0 0 ~ 0 AM+~~SS-
HIHQ-SFFF~NIETERS-FER.RECQNQ-FRQH-THO46CTQRS IIIoiCRTEQ
~ SECTOR 0 ~ 13 0 ~ tS 1 ~ 10 1 ~ 99 Zt80 6 ~ t5
~ ~ 91 0 ~ S9 13 ~ 00 TOTALS N
000 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 '
0 ~ 0 NE 000 0 '
0 ~ 0 0 ~ 0 0 '
0 ~ 0 Otp 0 ~ 0 0 ~ 0 0 ~ 0 ENE 0,0 0,0~
0 0,0 0
0 0 0 0 0 0,00,4~ 0 E
0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ V 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 ESE OMO,~rO ~roOro~ 4 0
0 0 0 0 0 0 0 SE 0 ~ 0 0 ~ 0 0 ~ 0 000 0 ~ 0 OOV 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 SS~rO 0.0 OroOr~ 0 0 0~ 00.~,4~0 S '
~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ V 0 ~ 0 000 0 ~ 0 0 ~ 0 SSW 0 ~ 0 0 ~ 0 OEO'60 060 OEV~HO 0 ~ 0 VOO 000 SW 000 000 000 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 000 000 0 ~ 0 HSH OrO
-0 u~
0 0 0 Oru O,u 0,0.O,O.
0 0 0 0=
W 0 ~ 0 0 ~ 0 0 ~ 0 000
. 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 NW 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 000
,0 ~ 0 0 ~ 0 0 ~ 0 NNII Oro 0 0'"
0 0~ 0Or~ 0 0 0 0 ~ 0 0 0 0 4 HOTAL~Q
-0 ~ 0 Qe0=0~
v~
OOO Oe
TABLE 8 CONTINUED 8EN~EWAS PER SECON~II~~KCQILS.II:1liCAtED SECTOR
~ 13' 0 ~45, 1g10 1 ~ 99 2gap 4 ~ %5 6 ~ 91, 9 ~ S9 13)00 TOlAL5 N'
Oop 0 ~ 0 Ot'0 0 ~ 0 Oip 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 OqP NN5 ~TO Oep~tO ~@0~F0 Oep~op-0 ~ 0.~eO
-0+0-.
NE 00 00 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 Oi0 E
~
" 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0
%$ 8 Otp Oep~rO 0+0 0 ~ 0" 0+0 0+O~op -~op Oop
~
SE Oyp 0 ~ 0 010 Oy0 0 ~ 0 0 ~ 0
~ 0 0 ~ 0 0 ~ 0 0 ~ 0 S
O,Q 0,0 0.0 0/0 0 ~ 0 0 0 0 ~ 0 0 ~ 0 0 ~ 0 U 0 SM, 0.0 0.0 0,0 0,0 0,0 p,v 0,0 O. ~
0.0 0.0
,o~.o ~~~
a ~.~.o ~.o~.~.n N '~0 0 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0
- ~~0 4 0 3~+0 Og 0.
NH Oyp Ot9:
Otp 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 Ot0 0 ~ 0 0 '
~0.
l I
GROUND>>LEVEL RELEASES
'~
'Oop PERCENT ELEVATED RELEASES lpptp PERCENT
TABLE 9 BROWNS FERRY NUCLEAR PLANT METEOROLOGICAL DATA ELEVATED JOINT FRE UENCY DISTRIBUTION IN PERCENT STACK RELEASES SECOND UARTER 1980 STAHILITY CLASS A
wINO SPEEDS IN PETERS PEA SECOND FRn<<THE SECTORS IN01CATFO SEC OR 0 ~
~ 4b 1 ~ 10 1 ~ 99 2 ~ Vn 4 ~ 4b 0 ~ 91 9 ~ 5'I 13 ~ uu TO TALS N
~ n 0 '
an 0 ~ 0 0 ~ 0 VS 0 NttE oao 0'
an 0
hatt 0 ~ 0 vs 0 Ne
.0 o..o o.n O.n U.n o.n EtiE n.n Y
0.0 O.n '.n o.o o.o V.O O.v O.O O.n 0 ~ t)
Oev VS 0 0 '
u.'ii U.U O.n o.o u.n U.o 0.0 n.n E
~ 0 U ~ 0 0+0 0 '
0 '
0 '
0 ~ 0 0 ~ 0 0 '
0 ~ 0 EsF.
00 00 00 00 00 nn uo 00 on nn se n.o o.o v.o o.n o.v o.u u.v U.U u.o U.n SSE 0 ~ 0 0 ~ 0 an an 0 ~ 0 0'
.u ~ 0 au 0 ~ 0 AU 5
n.u sw '~n Sw 0 ~ 0 wsw O.n 0 ~ 0 0 '
0 ~ 0 0 ~ 0 0 ~ 0 O.n 0 ~ 0 o.n O.n O.U n.n o.o
.." u 0.0 O.U o.o U.u O.o v.o
~.0 u.o o.o o.n o.o o.v U.o O.o 0'.o n.o wttw O.o O.o o.o o.n o.o V.u v.v u
n n.o O.n O.n n.o O.n o.o o.n U.n o.n O.o U.o 0.0 t4W 0 ~ 0 0 ~ 0 0 ~ 0 0 ~,n U ~ 0 U ~ 0 V ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 NNW 0.0 o.o O.n 0.0 0.0 n.o u.o
'0.0 n.o n.n TDT~Ls on o
o o
o on o
o u
o 0
o 0
0 o
o on STARILITY CLASS H
WIND SPEEDS IN Pf TFRS PFH SECOND FROM TttF.
SECTO4S INO1CATt;0 SEC R
0 ~ 13 0 ~ 45 1 ~ 10 1
99 2 dn 4 ~ 4b 6
91 9 ~ SV ld,un TOTALS N
o.o o.o o.o o.n o.n n.o u.n o.o u.o O.n t tif 0.0 n.n 0.0 O.n 0.0 O.u U.o 0.0 0.0
~ n.n ne on no oo oo vo oo oo oo oo ou EtE on
.00 on oo on oo oo ou on on E
o.o O.o o.n o.n
.o u.u
.u U.u o.o u.o FsE o.o o.o o.n o.n o.o o.o u.o o.o n.n o.n se, o.
o.
o.n
.n u.n u.
~ U AU 0 ~ 0 0 ~ 0 SSE o.o o.o o.o o.n o.n o.n u.o o.o o.o n.n s
o.o n.o o.n o.n o.o o.v vto o.u o.o o.n ssw '.o o.o o.n o.n o.n o.o o.'o U.n U.o o.o Sw o.n o.o v.n
.0 v.
.u v.
O.U U.n n.o wsw o.o neo o.o own ohio ohio u.v o ~ u ohio o ~ 0 w
HNW 0.0 0.0 0.0 U.n O.U O.v u.n 0.U o.o o.o O.n o.o o.o o.n o.o o.o U.o o.o n.o o.o NW an 0 ~ V an an au vs 0 VS 0 0 ~ 0 040 an NNw o.n O.o o.o O.o o.o o.o U.o o.o n.o o.n TDTALS. o.n o.o o.o o.n o.o o.o U.o o.o o.n 0 ~ 0
TABLE 9 CONTINUED SECTOR
'TARING TY CI.ASS 4
tl N
SP F
N M "IFIIS P ~>S OONgl FIIOH T~H'~TONS Il;,II~I,\\FTI 0 ~ 13 0.45 1 ~ lo I ~ 99 2 ~ 80 4 ~ 45 6 ~ 91
~.~9 13.vn TOTaLS I
N o.n NN
'oen 0 ~ 0
~
0 ~ 0 f '
~ 0 s
O.n SE 000 SSF n.n 0 ~ 0 n.o 0 ~ 0 n.n NE 0 ~ 0 "tn ~ 0 N
A 0
0 o.o o.n o.o n.rt n.n A.A Q.o U.n O.n
~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 "0
0 n n.
on U ~ 0 A.n's U
I ~ 0 0 ~ A AU o.n o.n
. n.o.;
o.u 0
n a ~ o v.n' n,o V ~ V V I V U an V I V Von IS ~ Q V.o Ueu U ~ 0 0 ~ 0 0 'It U an 0'
u ~ u n ~ 0 0 ~ n 0
II II 0 II,II tl 0
0 II
'll
~It n.n urn 0 ~ >>
VS 0 0 ~ 0 non 0~00 0
II 0
5 o.o o.o o.o
n.o O.n n.u n
sw.
o o
o o
on' o
u o
0 u
wsw' 0
n ~ 0 o
n o.o own 0 ~ o w'.o o.u o.n o.n
- o. o u,u n
n n,~e~n 040 Nw n.n o.o o.n o.n o.o u.o 0
0 n
0 ~ 0 0 ~ I)
Ueo VS 0
~ 0 VS 0 UII 0~000 Qnfl n,n nnn AU 0'
0 ~ 0.
n ~ U U.o o.u o
o n
n 0
Ven VS 0 0 ~ 0 VS A u
~ I 0
TO UL II 0
0.0 0
n O.n 0.0 0.0 0.0 O.u ll.n n.n
'4 WIND 59FKOS IN MFIERS VE> SECONI)
FRO~
TnF.
SECTO>>S INI)lCATEO SECTOR 0
13 0'5 1
10 1 99 2 ~ Ho 4'5 6'1 9 59 13 F 00 TOTALS N
0 ~ A 0 ~ 0 00140 0 ~ slu U ~ 690 2068U 8031(I 0 ~ 4>u A ~ 0 6 ~ 7e9 NN n.n A.n 0
0 ?t)n 0 ~ stlo F 490 00,360 0,6ssu 0.0 I
270)
NF 0 ~ 0 0 ~ 0 0'eo 0 F 510 0'50 3eleo 20440 0'
/V 0 '
7 '29 ENE'.0 0.0 Q.len 0.?HU 0.650 I-'890 v.600 O.OY0 0.050 3,14v ESE 0 ~ A O~ik 0 ?30 0 510 U 920 1,2bv 1 uln Q ~ 6vv U.ubu 4 ~ STU SV 0.0 O.u 0.310 0.92A 0.970 2.260 e.?60 O.nnv U.23U 7,609 0 ~ A 0 ~ 0 so 0 'S90
, I'n
?
170 2.)Su 0 hsn 0,4?n 7 97V s
o.n o.o 0,42'0 0.69n n.65u SSW'.n n ~ O 0 F 140 0'80 0 '60 Sw n.O O.O O.n50 0.510 0.55u wsw own A.o 0.)en o
46 o 0'jt) w O.n o.oso Q.len 0,460 1.?90 WNw A
0
?
3>>A NW 0 '
0',
0'90 0'?0 10'lou NNW 0
0 0 ~ 050 0
140 0 '60 U ~ 550 I O52V C ~ 310 0 ~ uru U ~ 28V 2 '40 3'30 0 ~ SSO U
1".0 2el20 30 50 lelsU V ~ thn I 940 2 35Q Q ~ 4.WU O,.l&n 2'40 10690 0'9V 0 '20 3~6~)0 l 0 1'jg 0O~4U 0
0 2'60 0'50 0'8u 0 ~ 0 1,060 1,010 0 'SU 0 ~ 0 60839 70979 e, ')F9 r: ~ 409 70419 1 474 4 '50 3 '2V TOTALS 0 ~ 0 0
100 2 '40 7 '69 12 F 589 34 '27 31 347 8 959 2
170 10Q ~ nnn
STAHILITY CLASS F.
WINO SPEEOS IN HFTFRS PFR SECO)<U FROW THE br:CTr)r)5 Ihl)ICA+TO SECTOR 0, 13 0 ~ 45 1 ~ 10 1 ~ 99 B,r)0 4 ~ 45 6 ~ 91 9 ~ '.i~
13 ~ Vu TOT ALS N
0 ~ 0 0 ~ 0 0 ~ 0 0 ~ n 0000 r) ~ V 0 ~ 0 0 ~ 9
~0,.
0 ~ 0 NNE 0 n-0 0
0 0
0 0
0 0
0 0
van 0
0 0
0 0 ~ n NE, oo
. oo ou on on ou Uo vu uo Uu NF, nn no on 0'o on 00 on 00 no no E
~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 U au 0 ~ 0 0 ~ 0 0 ~ 0 EsE 0.0 n.o o.n o.n o.o o.o U.o 0.0 o.o 0.0 sE O.n o.o o.o
~ o.u o.o U.o u.v o.o o.o o.o ssE o.n 0.0 o
0 0.0 o.o 0.0 u.o o.v 0.0 n.n 5
n.n n.o o,n o,o o.u U.u u.v o.o o.o n.n w.'
nu'n o.o U.n u.o p~),
n 0
sw o.o o.o o.n o.n o.o o.o U.o
'"o o.o o.o wsw o.n 0.0 0.0 0.0 n.o o.o u.o u.n u.'0 n.n o.n n.o 0.o 0.0 n.n o.o U.o 0.0 n.o n.n WNW n.n 0.0 on 0.0 0.0 u.u U.n U.o 0.0 n.n Nw ohio ohio
~
ohio 000 o
o o ~ 0 0 ~ o o
o o
o o
o NW n
0 n
0 U
0.0 u.o 0.
n.n 0
0
'I ToTAL o.n o.o o.n u.n u.o 0.0 o.o o.u 0.0 0.0 STAHI ITY CLASS F
WINl) SPFEOS IN Mr:TFRS PFH SECOND F)ruN THE SECTORS INI)ICaTEO SECTOR 0
13 0 ~ 45 1 ~ ln I 99 2 ~ 80 4 ~ 45 r0 ~ 91 9 ~ 5 13 ~ on TOTALS N
n.n O.O O.n O.n O.O u,.n U.O O.V U.O n.n NNF n.n n ~ 0 0
u.n 0 ~ 0 an 0 ~ 0 0 ~ 0 0
0
- n,n o.n o.o o.n o.n o.o o.o u.o o..u n.o o.o E)rF.
o.n o.o U.n n.n o.n o.o o.o I)~0 o.o o.o F.
an 0 ~ U u ~ 0 van 0'
re 0 0 ~ 0 0 ~ U 0 '
0 ~ 0 ESE n.o 0.O O.n O.O o.n o.o u.n O.u U.o o.o 5E n.n n.o o.o o.o U.o u.o u.o o.o o.o o.n ss 0.0 n.o 0.0 n.n u.o U.o o.o n.u n.n o.n s
o;n n.o o.n o.o o.u o.o 0'.0 o.u v.o o.o ssw '.0 o.o 0.0 o.n o.n u.o u.n U.o n.n 0.0 sw o.o n.o o.o o.o o.o o.o U.o u.u U.o o.o wsw nn no on on on on uu nu 00 nr) w 0 ~ 0 000 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ U U ~ 0
'0 ~ 0 0 ~ 0 0 ~ 0 W
0 tl (I
0, 0 tl II (I
0 0
N)(
0 ~ 0 0 '
0 '
0 AU au 0'
0 ~ 0 0 '
0<0 r) ~ 0 NNW 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 ran 0 ~ 0 TQTALS 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0 0 ~ 0
TABLE 9 CONTINUED START TY C AS~6 w
N OP F
IN Nt:0~n.
Urn Fca~ll FN~M~lf UFcgl~n.
Ia~c~agil SECTOR 0
13 0 ~ 45 1 ln 1 99 2 ~ Hn 4 ~ 4b 6 91 9 59 13 ~ 00 TOTALS N
N NE N
S'w wsw o.n n
o,n n.n o.n n.o 0.0 n.o n
n.o o.n o,n o.o n.o o.o o.n o.o o.u v.o o.n u.o n.n n
n O.o a
n 0.0 0
0 n.n n.n 0.0 o.o n.n n.o o.n n.n n.n u.n v.o o.n o.o n.o n.0~n~ fl fl ~Wl~l I)
II $
I} ~l) l~n O,ll 0,0 ll,tl U,ll 0,0 O,ll 0,0 O,ll n
n.n u.n o,o v,o o.
o o
o.!)
oo on un uo no ov
on un 00 oo ou un on on oo oo oo on on uo 0'ii on nn n.o o.n'.o o.o o.u u.n vno n.o n.n o.o 0
n n.n o.u n.n v.n n.u n.n n.o hw, NNW 0 ~ 0 n.n 0 ~ 0 0.0 o.o o.o o.n o.o u.o -
o.v o.o o.n n.n n.n n.o o
n u.u n
0 0
0
'fy, ToTALS"- o.n n.u 0.0 n.n n.u o.o v.o o.u n.n n.n GROUNO;LEVEL RELEASES
~
0 ~ 0 PERCFhT LEVATED RFLEASES
~
100.0 PERCENT
TABLE 10 BROWNS FERRY NUCLEAR PLANT INDIVIDUALDOSES FROM GASEOUS EFFLUENTS FIRST'ARTER 1980 Effluent Noble gases
~Pathwa g Air dose 8 Air dose Guideline*
30 60 Point Max.
Exp'ax.
Exp.
Dose 0.35 mrad 0.44 mrad Total body Skin 15 45 Residence 0.21 mrem Residence 0.31 mrem Iodines/Particulates Thyroid (critical organ) 45 Real Pathway O.ll mrem a
Breakdown of Iodine/Particulate E
osures mrem)
Vegetable Ingestion Child 5.93x10 Adult 4.03xlO Beef Ingestion" Inhalation Ground Contamination 2.06xlO 7.79K10 3.87x10
~
2.09x10 4.42xlo
'.87x10 Total 1.08x10 8.55x10
- The annual guidelines 'are defined in Appendix I to 10 CFR 50.
1.
Maximum exposure point is at 1620 meters in the NNW sector.
2.
Dose from air submersion.
3.
Receptor is at 1860 meters in the NNW sector.
4.
Beef ingestion dose is calculated at the site boundary at 1620 meters in the NNW sector.
TABLE 11
~
I BROWNS FERRY NUCLEAR PLANT INDIVIDUALDOSES FROM GASEOUS EFFLUENTS SECOND UARTER 1980 Effluent
~Pathwa Guideline*
Point Dose Noble gases g Air dose g Air dose 30 60 Max. Exp.
Max. Exp.
0.39 mrad 0.48 mrad Total body Skin2 15 Residence 0.22 mrem Residence 0.33 mrem Iodines/Particulates Bone (critical organ)
Real Pathway 1.19 mrem Breakdown of. Iodine/Particulate E
osures mrem Child Adult Vegetable Ingestion 1.14 5.36x10 Beef Ingestion" Inhalation 1.06x10 7.74x10 1.03xl0 5.43x10 Ground Contamination 4.32.10 4.32xl0 Total
- l. 19 6.44xl0
- The annual guidelines are defined by Appendix I to 10 CFR 50.
1.
The maximum exposure point is at 1550 meters in the N sector.
2.
Dose from air submersion.
3.
Receptor is at 1740 meters in the N sector.
4.
Beef ingestion dose is calculated at the site boundary at 1550 meters in the N sector.
TABLE 12 GASEOUS EFFLUENT DOSES POPULATION First uarter 1980 suBHERs ION GRouND THYROID INFANT CHILD TEEN z,e5E-QZ
},65E-ol
],05E-Q]
TOTAL BODY ADVLT TOTALS INFANT CH}LD TEEN ADULT Tkur~LL'5 4 '7E<<O}
7'3E ol 2 '58-02
]065}:-~O 1 ~ 05E-Q]
4 '7L-O]
.4 '76 03 3 '4E 02 1,93E OZ 8 95E 02 1 44E-Ol
'i 87E 03 3 EE-OZ 1 ~ 93E 02 8.95'-V2 1 ~ 4
~ E-V}
- }NHAI.ATIUN COW HILK
]90}h 03
] ~ 04E 02 4003K OX 1 ~ 428 02 3 ~ 26E 02 5 ~ 54E 02
] ~ 43E 01 3 ~ 8}E 02 1 ~ 52E Dl 3 ~ 89E 01 2,755 0~5,592-0~2, 20'9 " 1,202-02 1,171-0Z Z.DOE-OE L.okE-O~O.OSS-OZ 2.25 -05 5.95E-OZ" BEEF INGESTION VEG INGESTION 0 ~ 0 395]E~03
]950E 03 9982'3 1 ~ 48E 02 000 9~68E 03 40]IE9903 2'4E 02 3 '3E~QZ 000 0 ~ 0 1 OEE-0~9 ~ 900-05 9.070-09 1 ~ 19E-05
~ 62E OM,64E+05 l,9]E 04
] ~ 05E 03 Second uarter 1980 SuBHERSION 7
GRouND 1NHAI.ATION CO'k HILK 1NFANT THYROID CHII.D TEEN AouLT 7 ~ 64E 02 4s76E Ol 3)03E 01 1040E 00 TOTAI.S 2,2eE no 4e]7E 03 2060E~OZ
]yebEeoz 7 '7E~OZ
]023E~O]
6 ~ 97E"04 7 ]?E-03 Zye]E 03 1 ~ 14F 02 2
]BE 02
'4 024E 02
] ~ ]OE>0]
2 ~ 9]E<QZ 1 ~ leE990]
2098E<0]
}NFANr TOTAL BODY CHlLD TE EN ADUI T TOTAI,S 3 '5E+V5 5 '7E 04 293}E 04 3020E~OZ 1,43E-V3 e, 15E-V3 2,4]E-o3 9,32E-03 3028E~QZ
]093E9902 7 '4EO'Vz 4 '6E 01 3 '3E<0]
] ~ 40E 00 2 '6E 00 4 ~ 17E9903 zqeoE 02
] ~ 66E9902 7 ~ 67E~OZ 1 ~ 23E0901 BEEF INGEST10N 000 VEG INGESTION 0 0 2 '7E 03 9>7]L 04 6'5E 03 9'9E 03 6,24@-03 z,e9E-o3 l,e4E-o2 2,53E-OZ 000 000 7q67E 04 4 ~ 5BE 04 2085E 03 4 '7E~03 800}E 03 4 '6E 03 2 '2E 02 3 ']E<02 TOTAL HA"4REH 1024E-Q]
6028E 01 3055E"0]
1063E 00 2074E 00'
~ ZVE~VZ 5 ~ ]BE"0}
3 ~ ZBE 01
]955E 00 2'8E 00
TABLE 13 LI UID EFFLUENT DOSES FIRST UARTER 1980
'BONE
.GI TRACT THYROID TOTAL BODY SKIN
~IX IIU~UEOLVJOllh~OSF IYIIZIXI Ver PLYWOOD-CHAMPION PAPER 488F-04 ATE-04 103E-03 2'E-04 2'E-04 RE TOTAL POPULATION DOSE (HAN-REH) 53EE RAVE!L H ~ 32-02 5 1E-.Q3 ~,08=02~92=.03 ~~E~
II~ FISH CONSUHPTION A ~
MAXIMUM INDIVIDUAL DOSE (HREH)
EE~~ELO
.1E.-IIZ i..QELQZ.
&.ZE.-02 ~.22-0~2-22 LOJQL ZOZULQIZQB 885v TENNESSEE RIVER 1.0E+00 4 'E"01 I ~ 4E+00 I ~ 3E+00 1 3fo00 II I ~
RECREATION IN-HATER ABOVE-)5 TOTAL BODY SKIN TOTAL BODY ATER SKIN SHORELINE TOTAL BODY SKIN A ~
MAXIHUM INDIVIOUAl DOSE (NREM)
M~HF <~A~BE)W FN 32=08~,12-05 8.02=05 I.QE.-.~.9E-Q~.ZE-QZ O>>OZVu TENNESSEE RIVFR M
N R
H 6 'E"05 I ~ 3E-04 1 ~ 6E-04 3'E-04 3'E-02 4 'E-02 IV TOTaL BONE GI TRACT THYROID TOTAL BODY SKIN A
MAXIMUM INUIV OUA DOSE (HREM) 2'E-02 B~
POPULATION OOSF.
(MAN-REM)
N V
1 ~ lE+00 5 ~ 3F 01 1 ~ 5E+.00 ~ 8.3EM+0 ~83E+09
TABLE 14 LI UXD EFFLUENT DOSES - SECOND UARTER 1980 BONE i s ss Gl TKACT s ass¹ ~
Tet YRO I 0
¹ as ass TOTAL BODY s ~ sselsss
~ s SK IN HATER I;(GCST IOti A ~
i(AXIHUH INDIVIDUAL DOSE (HREH)
U,S, PLYttOOD<<CHAttP IGN PAPER Be TOTAL POPULAT IOiN DDSC
.(HAN-REH)
TENtiESSEE RIVER le9E-p4 4 'E-p3 7.3E-u5 1
7C 03 3.8E-04 B, IE P5 8,1E 05 4.4E-n3 2.1E 03 2.1E-03
~ FISH CONSUHPTIO:I A ~
HAXIt)UH IttglVIDUAL DOSE (HREH)
Ht)EELER LAKE BELGet BFtt be3E-p3 4e5h 03 9e2E-p3 8 ~ OE p3 8 ~ DE-03 8 ~
TOTA'L POPO(.ATIOW DOSE (HAN-RE'I]
TENiNESSEE RIVER 2e 9E-01 2 ~ IE"01
< ~ IE-01 3e7E 01 3e7E"01 RECR'EAT ION IN-HATER as ss ~ 'ss TOTAL BpgY SKIN ssssas s
ABOVE"MATER ss ~ss¹s¹¹ss TOTAL BeJDY SK IN s sss¹s s
sass SHORELINE
¹s sass TOTAL BODY SKIN sassa sass
¹sas HAXIHUH It(DIVIDUAL DOSE (HREH) ttHEEI.ER LAKE BELGH BF't 8,
TOTAL POPULATION DOSE (HAN RE'I)
TEttNESSEE RIVER 4 'E"05 7eSE-D5 9'E-05 1.6EW4 I ~ ZE-0<
2'E 04 2 ',E-02 Ze5E~OZ 2 ~ PE-04 4 ~ LE~04 4 ~ 3E 02 5 ~ OEie02 TtJTAL A ~
HAXIHUII INDIit IDUAL DOSE (HREH) as sa 6e5E 03 Gl TRACT sssaasss 4 'E'-03 THYROID s ~ s ~ ¹ ~ ¹ 9e6E 03 TOTAL BODY
~ sssseis¹¹s 2'E 02 SKIN sass 3'E-02 Be PGPULATIOtt DOSE (HAN REH)
TE')NESSEE RIVER 3e4E-pl 2.5E-01 4¹6E-Ol
- 4) lE 01 4e2E pl