ML20100J478
| ML20100J478 | |
| Person / Time | |
|---|---|
| Site: | Sequoyah  |
| Issue date: | 12/31/1982 |
| From: | TENNESSEE VALLEY AUTHORITY |
| To: | |
| Shared Package | |
| ML20100J472 | List: |
| References | |
| NUDOCS 8504100504 | |
| Download: ML20100J478 (38) | |
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maa-L RADIOLOGICAL IMPACT ASSESSMENT SEQUOYAH NUCLEAR PLANT g JANUARY - DECEMBER 1982 g TVA/ POWER /RHS E
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i RADIOLOGICAL IMPACT ASSESSMENT i SEQUOYAH NUCLEAR PLANT JANUARY - DECEMBER 1982 4
2 introduction mi ag 2
Potential doses to individuals and populations have been calculated g for the time period January 1 through December 31, 1982 in compliance with the g_ requirements of Radiological Effluent Technical Specification 6.9.1.9. Dose Ilh ?
calculations are based on Regulatory Guides 1.109, 1.111, and 1.113 to determine E compliance with the dose objectives contained in 10 CFR 50 Appendix I and 40 CFR I 190. The dose calculations have been made using the measured releases listed in j tables 1-2 as input in the Gaseous Ef fluent Licensing Code (for gaseous releases) 1
. and the Quarterly Water Assessment Code (for liquid releases). Dispersion of
- s radioactive effluents in the environment has been calculated using meteorological data and river flow data measured during this period. 'E j Heteorological Data i f Meteorological data were measured, and average quarterly joint fre-
[ quency distributions (JFDs) for ground-level releases were calculated. The g ground-level JFD was derived from windspeeds and directions measured 10 meters 4
{L j above ground-level and from the vertical temperature gradient between 10 and -
45 meters. ;
}{g i The windspeeds were divided into nine windspeed ranges. For calcu-lational purposes, calms were distributed into the lowest windspeed range (0-0.5 mph) according to the directional probabilities in the 0.6-1.4 mph j
range. The quarterly JFDs are listed in tables 3 through 6 for ground-level releases. ,
Gaseous Effluents
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- Ground-level dispersion models were applied to all releases. Radio- i nuclides in gaseous effluents were assumed to be released continuously. Dose ;
estimatea for external air exposures were made at the site boundary. External doses to the skin and total body were estimated for the nearest resident in each j
- t sector.
Internal doses were estimated for real receptors due to the ingestion, ?
inhalation, and external exposure pathways. The milk ingestion doses were
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calculated for farms where milk is consumed without commercial preparat. ion. %
All receptor locations and points of interest are listed in table 2a. Doses I f are given in tables 7 through 10 for these individual exposure pathways at 1 the maximum exposure locations.
j
( Population doses were calculated for an estimated 1,057,010 persons living within a 50-mile radius of the plant site. Population doses were calcu-
[t lated assuming that each individual consumes vegetables and meat produced within j,
' the sector annulus in which he resides. Doses from tilk ingestion were calcu-lated from data on milk production within 50 miles of the plant site. Doses e 3 from external pathways, inhalation, and beef and vegetable ingestion are based on the 50-mile human population distribution. Population dose estimates for 3
_- the gaseous effluents are presented in table 11. ]
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_ _ _ _ _ . . 4
M Liquid Effluents-Doses from liquid effluents were calculated using measured hydraulic data.. The average river flows at the plant site were 61,480 cubic feet per second (cfs) for the -first quarter, 15,550- cfs for the second quarter, 30,280 cfs for the third quarter, and 43,340 cfs for the fourth 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 j drinking water ~from public water supplies between the plant site and the mouth of the Tennessee River. The maximum individual dose from drinking water was assumed to be that calculated at the nearest downstream public water supply
~
(C. F. Industries, Inc.). 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 12 through 15.
Direct Radiation External gamma radiation levels were measured by thermoluminescent dosimeters (TLDs) deployed around SQN. During the preoperational period from August 1975 to January 1980, these levels averaged approximately 23 mR/ quarter at onsite stations and 19 mR/ quarter offsite. These data reflect a difference of 2-5 mR/ quarter (average approximately 4 mR/ quarter) between onsite and offsite radiation levels. These higher values measured onsite may be attributable to natural variations in envi' ronmental radiation levels, earth moving activities onsite, the mass of concrete employed in the construction of the plant, or other influences.
Analysis of environmental TLD data for the period of November 1981 to November 1982 showed that external gamma radiation levels averaged approxi-mately 18.l'mR/ quarter at onsite stations and 15.8 mR/ quarter offsite. This indicates that there was no identifiable increase in dose rate levels attrib-utable 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 Summary Doses calculated for this year result from the: low-level effluent releases of units 1 and 2. For gaseous effluents released in the first quarter, the maximum gamma and. beta air doses were calculated to be 0.02 and 0.13 mrad, respectively. During the second quarter, the gamma and beta air doses were-0.16 and 0.71 mead. For the third quarter,.the gamma and-beta air doses were 0.20 mrad ~and 1.10 mrad. During the fourth quarter the gamma-and beta air doses were 0.04 mrad and 0.20 mrad.
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These quarterly doses are well below the annual air dose guidelines
.(as specified_in Appendix I to 10 CFR-50) of 20 and 40 mrad for gamma and beta radiation, .respectively, for two reactor units. The maximum doses from air submersion to the skin and total body during~ the first quarter were calcu-lated to be 0.03 and 0.02 arem. During the'second quarter, the skin and total body submersion doses were 0.25 and 0.13 mrem, respectively. For the third s
quarter these doses ~were 0.20 mrem and 0.10 mrem for the skin and total body.
And for the fourth quarter these' doses were 0.06 mrem and 0.03 mrem for the skin
- and total body. These compare with annual dose guidelines of 30 mrem to the skin
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and 10 mrem to the total body. Intern'ia doses to the maximum exposed organ were
' estimated to be- 0.01, 0.12,'0.003, and 0.008 mrem for the first, second, third, and fourth quarters, respectively. These compare with the annual dose guideline
'of130 mrem to the maximum exposed organ. The maximum exposed individual was deter-mined based on actual existing pathways. Therefore, these doses were calculated
-with' consideration of ingestion of meat, milk, and vegetables, inhalation, and exposures to external sources of radiation.
For liquid effluents released in the first quarter, the maximum indi-vidual doses to the. adult total body and the maximum exposed organ (child bone) were calculated to be 0.09 and 0.14 mrem,.respectively. In the second quarter, :
the maximum doses to the total-body and. bone were calculated to be 0.14 and 0.68
- nrem, respectively. In the third quarter, the maximum doses to the total body
- and bone were calculated to be 0.22 and 0.35 mrem, respectively. In the fourth
[ quarter, the maximum doses to the total body and bone were calculated to be 1.5 and 1.8 mrem,'respectively. Summing the maximum doses for the.four quarters, '
total calculated: doses of 2.0 mrem to the total body and 3.0 mrem to the bone were determined. These compare with annual dose guidelines as specified in '
Appendix. I to 10 CFR 50 of 6 and 20 mrem to the total body and maximum exposed organ -(bone), respectively, for two units.
Maximum organ doses to the population from gaseous effluents during
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the'first quarter were estimated to be 0.10 man-rem to the bone and 0.099 man-rem to-the liver. For the second quarter, population doses were 0.68 man-rem to the lung and'0.66 man-rem to the gastro-intestinal tract. For the third quarter, these doses were 0.48 and 0.49 man-rem'for the total body and thyroid, respectively. For the fourth quarter, these doses were 0.12 man-rem for the~
total body and 0.15' man-rem for the thyroid.
= From liquid releases during the first quarter, the total population.
along the Tennessee River was-estimatedsto receive 0.43 man-rem to the total body and 2.8.to the maximum exposed organ (gastro-intestinal tract). . For the-second quarter, the Tennessee River population was estimated to receive 5.5-aan-remfto'the total body and 23 man-rem-to the maximum organ (bone). For the third quarter, the' total population along the' Tennessee River.was estimated-to receive:4~.l man-rem to_the total body and 8.7 man-rem to the maximum organ s
(bone)' For the fourth quarter,7 the Tennessee River population was estimated l to : receive 3.2-man-rem to ~the tota 11 body and '8.8 man-rem 'to the maximum'
- organ (gastro-intestinal: tract).
. Population dosesfcan be compared to the natural background-dose.to the 1,057,010. person's.li'ving within 50 miles of the plant of about 159,500~ man-rem /yr (based on an average- individual background dose.of about 150 mrem /yr).
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-To determine compliance with 40 CFR 190, the annual dose contributions to _ the maximum individual from SQN radioactive effluents and all other nearby uranium fuel-cycle sources have been considered. No nearby fuel-cycle facilities other than SQN have been identified which would significantly expose the maximum individual. -The dose to the maximum individual has been conservatively estimated '
by: first, summing the. total body air submersion dose, the critical organ dose from gaseous effluents, and'the critical organ dose from liquid effluents (direct radiation, as reported above, is not identifiable over background levels) for each quarter;.then, taking the sum for each quarter and summing over four quarters. Using this method the total dose to the maximum individual for the-twelve consecutive months in 1982 has been calculated to be 3.4 mrem. This is
.below the limit of 40 CFR 190 (25 mren/yr).
In-addition, no routine activities within the site boundary.by members of the public have been identified which would lead to their radiation exposure.
For the purposes-of determining plant performance over its operational period a summary of the quarterly doses for the past three years is presented in table 16.
In summary, all annual gaseous and liquid ef fluent doses -calculated were below the guidelines of Appendix I to 10 CFR 50 and below the. annual limits specified in the SQN Technical Specifications for plant operation.
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TABLE 1 SEQUOYAH NUCLEAR PLANT GASEOUS EFFLUENT RELEASES '1982
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1st. Quarter 2nd Quarter.1- 3rd' Quarter ^4th Quarter,
.Nuclide -(Ci) (Ci) (Ci) (Ci)
>Xe-131m, :1.97(-1)" 5.03(-1) 5.32(-1) 21.07(+1)
Xe-133.. '. 5.54(+2) ' 1.75(+3) .2.51(+3)- .4.74(+2)
- Xe-133m :;- :1.08(+0)' 5.24(+1) 4.46(+1)' '4.51(+0)-
'Xe-135 11.82(+1)- 1.45(+2)- 1.23(+2) 1.00(+1)
Xe-135m - - - '-
Xe-138' -- - - -
I-131.. '7.22(-6)
- 8.78(-6) 2.32(-4) -7.32(-4)
"I-133 -
9.66(-7) 1.11(-6) 2.46(-4)
Ar-41 1.63(-1) 1.18(+1) 1.84(+0) 9.91(-1)
Cr - - - -
Ma-54 ' -
2.08(-3)
Co -
1.31(-5)
.l.13(-1) 6.54(-3)
Co-60 - - -
2.65(-5)
.Sr 1.71(-6)- -
2.49(-7) 4.19(-8)
Sr-90 .5.95(-6) 9.98(-7) - -
Tc-99m' .3.54(-8) - -
2.19(-6)
Nb-95' - - - -
Rb-88, L- 5.70(-3) - -
Kr-85m l8.34(-2) 7.89(+0) 8.80(+0) 5.17(-3)
Kr-85 -1.66(-1) 5.12(-1) 6.16(-2). 5.70(-1)
~ Kr-87 -
'8.28(-5) 2.84(-3) -
Kr-88 -
9.44(-4) 8.32(-3) -
Ce-144. 2.79(-7) . - -
.1.97(-1) = 1.97_x'10~1 a
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TABLE 2 SEQUOYAH NUCLEAR PLANT' LIQUID EFFLUENTS - 1982 Activity (pCi/ Quarter)
-Nuclide First Second Third Fourth 8
H 1.7E8 3.2E8 3.4E8 9.3E7 Na-24 3.7E5 5.3E4 2.0E3 9.9E0 P-32_ 2.2E4 9.0E4 3.3E4 4.2E4 Cr-51 .4.3E5 '9.1E3 4.9E3 2.4E5 Mn-54 3.5E4 9.1E3 2.8E4 '1.0E5 LFe-55 3.2E4 0.0 5.1E4 1.5E6
'Fe-59 .5.6E4 3.8E3 2.9E2 3.5E4 Co-57 4.2E2- 0.0 7.6E2 9.9E3 Co 6.6ES 9.3E4 8.3E5 3.3E6 Co-60 7.3E4 1.6E4 8.5E4 1.2E6 Zn-65 2.6E3 0.0 0.0 8.6E3 Kr-85 0.0 1.7ES 4.4E3 0.0 Kr-85m 0.0 2.5E2 4.5E2 0.0 Sr 8.9E4 0.0 6.7E3 6.1E3 Sr-90 0.0 3.0E3 0.0 0.0 Sr-92 0.0 0.0 0.0 1.2E3 Y-91m 0.0 6.1E3 0.0 0.0 Zr-95 2.8E4 3.3E2 2.2E2 3.7E4 Nb-95 2.8E4 3.3E2 2.2E2 3.7E4 Nb-97 0.0 0.0 0.0 9.0E2 Nb-97m 0.0 - 0.0 1.0E0 0.0 Mo-99 0.0 0.0 9.7E2 0.0 Tc-99m 2.9E0 2.0E2 1.73E 3.6E0 Ru-103 0.0 0.0 0.0 3.1E2
.Ru-106 0.0 2.7E2 0.0 0.0 Ag-110m 0.0 0.0 0.0 9.9E3 Sb-124 0.0 0.0 3.5E3 2.6E3 I-131 1.7E3 2.7E4- 6.4E4 9.0E3 I-133 :2.9E2 '
4.9E3 2.9E3 1.1E2 I-135 0.0 0.0 2.6E2 0.0 Te-132 0.0 9.3E0 0.0 0.0
_ Xe-133 7.8E3 7.4E4 3.9E4 1.1E5 1.7E8~= 1.7x108
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TABLE 2 (Contd.)
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'SEQUOYAH NUCLEAR-PLANT LIQUID EFFLUENTS - 1982 c
-Activity (pCi/ Quarter)
. .Nuclide s First . Second Third- Fourth Xe-133m - 0.0 0.0- [1.9E2 .0.0
- Xe-135- .'4;9E3 2.4E4'- 3.7E4 2.9E2 Csi134- 'l'.3E3 1.2E3. 1~.6E4 1.7E3 Cs-136- 0.0 0.0 5.1E2 - 0.0-
' 4
- Cs-137L 4.4E3- - 5.0E4' 3.5E4 5.0E3
- Ce-144.: ~5.4E3 1.1E4 4.5E2 0.0' 2W-187~ 1.4E3. 9.1E3 2.2E2 : 0.0.
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- Total L1.8E8. - 3.2E8- -3.5E8- 9.9E7-1
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TABLE 2A RECEPTOR LOCATIONS AND POINTS OF INTEREST DISTANCE ELEVATION CHI-0VER=Q 0-0VER-0 PDINT srcTOR IM) to ( S / M1*.3 3 (11F *_*.2L 1 LAND SITE BOUNDARY N 911, -6. 9 . 0 5 L. .% _ __ ._1 0
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2 LAND SITE BOUNDARY NNE 2260. -6. 1.74f-96 4.33E-09 3 t A MD if7E BOUMDADY %E 1910. =#.. a.05 L- % $ W L-E_
4 LAND SITE BOUNDARY ENE 1680. =6 6.7sr-GT 1.2PL-39 5 LAND SITE 80Q3RARY r 1} D _. -6. S.62f -Q L -_1 19E-;2_,
6 LAND SITE BOUNDARY ESE 146C.* -6. 7.23t-07 1 10E-?9 7 LAND StTE BOUNDARY $[ ]46f _ *6. 6._,7 2 f - 5 7 1_. 6_4 Q~M 8 LAND SITE BOUNDARY SSE 1550. -6. 1 5 3 t = 16 3 44t=09 9 LAND Stfr 90UNDAny S itt?O. -6. 3_r.Mf ,76 8.77E-99 3C LAND SITE HOUNDARY SSW 1840. -6. 5.14E-06 1.19E-0E 11 LAND SITE DOUNDAJY SW 247_4 -(n 9 7 M t -f.7 ) .S$r d_
12 LAND SITE BOUNDARY WSW 911. -6. 1 431-96 1 46f-89 13 LAND SITE ROUNDARY W 673. -6. 1 77r.*6 1 460-59 14 LAND SITE BOUNDARY WNW 660. -6. 1.54 -04 1.76f=09-15 LAND SITE ROUNDARY NW 660. -6. 2 tR &r- 16 3.21E-09 16 LAND SITE BOUNDARY NNW 730. -6. S.*9L-06 1.65C-06 17 RE SIDENT.G ARDEN N 1344 G. 2.39f -06 6 2.2 r,-0 9 18 RE SIDENT,G ARDEN , NNE 2810. G. 1 29?-UG 2 990-G9 19 RESIDENT, GARDEN NC 3438. 55. a.610-07 2.1CE-09 20 RESIDENT,GARDENe3EEF ENE 2187. 12. 4 55E-07 3.24E-10
._ 21 RESIDENT C 1812. O. 4.53r.17 9.45r-10 22 RESIDENT ESC 1812. 43. 5.22r-07 7 9CE-1D 23 RESIDENT SE 1719 C. 4 . P 6 L- 17 1_.16( - 0
- 24 RESIDENT SSE 2250. 24. M.93r=07 1.RSC-39 25 RESIDENT. GARDEN S 2375. O. 2.2CE**6 4 .R-19_
26 RESIDENT SSW 2250. J. 3.R7L-06 A.12E-G9 27 RESIDENT 'W 2 9 (,9 . 3. 7.53r-37 1.U E.M 9_ .
26 RESIDENT WSW 1067. 17. 1 10f=*6 1.12[=09 29 RESIDENTeGARDEN W 939 6. 1._g 6 E - 0 6 8.42E-10 30 RESIDENT, GARDEN WNW In12. 12. 3.51[-07 3.39E-1G 31 RESIDENT, GARDEN NW 1118, 12, 1 14E-16 1.23E-09 32 RESIDENT - NNW 781. 3. 5.30L-06 1.4AE-DR 33 GARDEN r 2656. 12. 2.57Ff07 4.94E-10 34 GARDEN ESE 2331. 31. 4.42E-G7 6.51E-10 35 GARDEN St 2c62. 3. 3.720-07 9.27E-1 L 36 GARDEN. BEEF SSE 2344 30. 8.39r-07 1.72E-09 37 GARDEN SSW 2750. O. _2.90E-06 5. 77t =' 9 38 GARDEN SW- 3439. 3. 6.17E-07 9.7PE-10 39 GARDEN WCW 1961. 17 1.13f=06 1.12F-O L 40 GARDEN ,NNW 1A75. 15. 1.91E-C6 3.54E=09 41 BEEF NNE 2600. 2. 1.45E-06 3.41E-09 42 st[F NE 3438. O. M.61E-07 2.10E-09 43 BEEF E 2 I_p 7
- 12. 3.43E-07 6.R7E-10 44 BEEF ESE 3125. bd. 2.34f=07 3.12E-10 45 BEEF SE 26S6 85. 2.550 *7 6. 33 E-10 46 BEEF S 6553. 46 5.300-07 7.44E-10 47 BEEF W 70_0. D. 1 6 M,_0 6 1.36E-19 46 SEEF WSW 2062. 12. 4.160-07 3 82E-10 49 DEEF WNW 700. O. 1.410-06 1.60E-09 50.8EEF NW 689. 3. 2 64t-06 - 3.GC E-0 9 91 REEF- %NW 1524. 2. 1.91r-06 4.96E-59
- 52. MILK COW ADULT N 4219 - D. 4.42E-07 8.99E-10 1 53tMILK 'C0W AQULT NNE 4531.- 6. 6.gpr c7 g,31t.cq ]
54 MILK COW ADULT NE 5625. . 61. 4 25E-07 8.83E-10 l 55 MILN COW ADULT $$W 3594. O. 1_g99 Lf,6 3f6 41.0 9.__.,
56 MILM COW ADULT WNW 1875.- 19. '3 35E-07 3.20E-10 57 MILM COW ADULT . NW 2931. 6. 5.12E-07 5.10E-10 l
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TABLE 3 SEQUOYAH NUCLEAR PLANT METEOROLOGICAL DATA GROUND-LEVEL JOINT FREQUENCY DISTRIBUTION IN PERCENT FIRST QUARTER 1982 STAHILITY CLASS A WIND SPEEDS IN METERS PLR SECOND FROM T HE SEtt0R$ INUICATED SECTOR 0.13 0.45 1.10 1.99 2.H0 4.45 6741 9'Ito IJ.00 TOTALS N 0.0 0.0 00 0.0 0.0 0.250 0.050'~ Eko 0.0 c!5 ff--
NNE 0.0 0.0 0.0 0.?00 0.150 0.101 0.100 0.0 0.0 1.152 0.301~070
~
NE 0.0 0.0 0 100 0.150 0.401 0 70 'D . 0 0.4 EF ENE 0.0- 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.d 0.0 0.0 0.0 1.0 0.0 ESE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 SE 0.0 0.0 0.0 0.0 0.6 0 . ~0 67 5 07 0 6.0 0.c SSE 0.0 0.0 0.0 0.0S0 0.0 0.050 0.100 0.0 0.0 0.200 S 0.0 0.0 0.0 0.050 0.0 0.100 0.100 0.0 3!0 0.250 SSW D.0- 0.0 0.0 0.150 0.100 0.452 0.0 0.0 J.0 1.202 SW 0.0 0.0 0.050 0.0 0.IVO 0.401 0.100 0.0 0.0 0.6S1 WSW 0.0 0.0 0.0 0.0 0.050 0.0 0.050 0.0 0.0 C.100 W 0.0 0.0 0.0 d .'O 'O'. 0i IO . 0 WNW 0.0 0.0 0.0 C.0 0~.3 M5 53~
0.0 00 0.0 0.050 0.0 C.o 0.0 0.C50 NW 0.0 0.0 0.0 0.0
- 0. 0 5 0~0.'25 0'~~6.~0 0 . 0 ~ 0.0 NNW 0.0 0 .3 51 -
'O.0 0.0 0.0 0.150 1.002 0.0 0.0 0.0 1.152 TOTALS 0.0 0.0 0 150 '0.601 1.052 4.057 0.0 0.501__C.0 6.361 STAntLITY CLASS tl WIND SPEFOS IN METERS PER SECOND FROM T HE SECTORS '1NDICAT[0 SECTOR 0.13 0.45 1.10 1.99 f.40 4.45 6.91 9.sv la.ou 19 tats N 0.0 0.0 0.050 0.0 0.6 0 100 0.0 G.o 0 .0 U.asa NNE 0.0 0.0 0.050 0.0 0.301 0.150 0.050 0.0 0.0 0.551 NE 0.0 0.0 0.0 0.250 0.351 0.263- 0.0 -a.u u.o U.eut ENE - 0.0 0.0 0.0 0.050 0.050- 0.0 0.0 0. 0 0.0 0.100 E 0.0 0.0 0.0 0.050 0.0 0.1 1. 0 0.0 U.c U.05J ESE 0.0 0.0 0.0 0.0 0.0 0.0- 0.0 0.0 0.0 0.0 SE 0.0 0.0 0.0 0.050 07D 0.0 0.0 U.o u .c -
SSE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 u.usu 0.0 S 0.0 0.0 0.0 0.050 0.050 0.1'00 0.0 0.0 0.0- U.;Uu SSW 0.0 0.0 0.0 0.100 0.301 0.151 SW 0.050 0.0 0.0 0.801 0.0 0.0 0.0 0;153- 07250 0.250~~075 u.o u.u u.sst WSW 0.0 0. 0 - 0.0 0.0 0.0 0.0 0.050 0.0 0.0 0.052 W 0.0 0.0 0.0 0.0 0.0 0.6 OTUTo a.o a.o u.usu WNW 0.0 0.0 0.0 0.0 0.050 0.0 0.0 0.0 0.0 0.050 NW 0.0 0.0 0.0 0.0 0 050 0.0 0.0 u.0 d.u U.uss NNW 0.0 0.0 0.0 '0. 0 0.050 0.050 0.050 0.0 0.0 0.150 TOTALS 5.0 0.0 0.100 0.601 1.453 1.202 0.250 0.0 0.0 3.606 s,
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~ TABLE 3 (CONT'D)
___ _ _ _ __..... _.,ATAHILITY, CLASS.C _ _ __ _,
WIND SPEFOM 14 MEffRS P'f_1[q030 FROM THf SECTONS INDICAffD SFCf04 0.13- 0.45 .1 10 1.95 2.80 4.45 6.91 9.59 13.03 10iALS N 0.0 0.0 0.050 0.0 0.050 0.100 0.0 3.0 0.0 0 . 2 01 ~~
MNE 0.0 0_.L.__ 0.100 0.0i0 0.25 0 0.451 0 .0 0.0 0.0 0 .
- 51,, _
NE 0.0 0.0 0.200 0.301 0.5C1 0.050 3.0 0.0 D .0 1.0S2 EME 0.0 0. 0 ' 020 0 _050 0.0 0.0 3.0 0.0 0.0 0.053 E 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 CIE E,JL 0.Q 0,03 0 0.0 0.0 0.0 0.0 0.0 0.0 0.050 SE 0.0 0.0 0.050 0.0 0.0 0.0 0.0 0.0 0.0 0.053 SSE Q,9 02 9 _ _0.0 0.0 0.050 0.050 0.0 _ 0.0 _ 0.0 0.100 S 0.0 0.0 0.050 0.0 0.050 0.150 0.0 0.0 3 .0 0.250 1su 0.0 0. 0 0.0%0 Of jSP Q,JulJlW.D 0.0 0.0 0.751 SW 0.0 .0.0 0.0 0.100 0.200 0.150- 0.0 0.0 0.0 0.451
. . . .. WSW 0,0 0.0 0.0 0.0 0.0 0.050 0.050 0.0 0.0 0.101 W 0.0 0.0 0.0 0.100 0.050 0.0 0.0 0.0 0.0 0.150 WEW 0,2 Os0 0,0 0.0 0.0 0.050 0.0 0.0 _ 0.0 0.050 NW 0.0 0.0 0.0 0.0 0.0 0.050 0.0 0.0 0.0 C.b50 Nuu o.0 0.0 0.0 0. 0'.0 0.050 0.150 0.0 0.0 0.0 0.250 TAJJLS 0.0 0.0 0.551 0.701_,[.553 1.553 0.050 0.0 0.0 4.401 STAMILITV CLASS 0 WIND SPEEDS IN M_[TERS PER SECOND FROM THC 9ECTOR3 INDICATED SECTOR 0.13 0.95 1 10 1.99 2.80 9.45 6.91 9.59- 13.00 TaiALS
~~
N -0.008 0.050 0.551 1.302~~'1. 4 5 3 2.104 0.0 0.0 0.0 .5.464 har 0.00P 0.050 1.503 2.61b 2.354 3.216 0.100 0.0 0.0 9.e45 NE 0.055- 0.351 1.252 -0.651 0.2S 0 - 0 100 0 .0 0.0 0.0 - 2.660 ENE 0.0 0.0 0.050 0.050 0.0 0.0 0.0 0.0 0.0 0.100 C O.016 0.100 0.000 0.0 0.0 0.0 0.0 0.0 00 0 . 317~~~
ESE 0.0 0.0 0.150 0.0 0.0 0.0 0.0 0.0 0.0 0.150 SE 0.0 0.0 0.150 0.050 0.0 6.0 0.0 0.0 0.0 0.203 str 0.00A 0.050 0.050 0.150 0.250 0.050 0 .0 0.0 0.0 0.55e S 0.004 0.050 0.250 0.301 0.100 0.351 0.0 0.0 .0.0 1.060s SSW 0.016 0.100. 1.302__1.102 1.102 1.753 0.0 0.0 0.0 5.375 SW 0.016 0.100 0.751 1.102 1.102 0.902 0.200 0.0 0.0 4.173 WSW 0.016 0.100 0.150 0.250 0.050 0.250 0 .150' O.0 0.0 0.46n W -0.0 0.0 0.0 0.100 0.0 0.150 0.050 3.0 0.0 0.301 umu 0.0 0.0 0.0 0.250 0.551 0.250 0 .0 0.0 0.0 0.A51
- NW. 0.0 0.0 0.200 0.351 0 200 0.451 0.0 0.0 -0.0. 1.202 Mhu Q.0 0.0 0.301 0.451 1.202 2.404 0.0 0.0 0.0 4.35M Ta f at t '0.151 0.952 6.862 8.725 P.415 11.941 0.501 0.0 0.0 37.596 va e > r w i
i
TABLE 3 (CONT'D)
STAHilliY CLASS E WING SPEr0', IN MrfERS PER SECONO FROM T HE SECTORS TNDICAf(0 0.13 0 45 '1.10 1.49- 2.a0 9.45 6. 's 1 a.59 13.03 10fALs SECTOR N 0.026 0.250; 1.102 0.101 0.791 0.250 0.0 0 ~.'0 5.0 3! TWT ~~~
0.021 0.200 2.254 1.853 0.551 0.100 0.0 0.0 1.0 4.480
~~UN E 0.0-
~
if!h 1.1U~'~~
NE 0.004 0.050 0.501 0.%1 0.0 0 .~c F. ~0 ENE 0.005 0.050 0.800 0.070 0.0 0.0 0.0 0.0 0.0 0.20s E 0.005 0.050 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.055 ESE O.005 0.050 0.0 0.0 0.0 0.0' O.0 0.0 0.0 0.055 0!0 0 . 311 -
~
SE 0.016 0.150 0.100 0.050 0.0 0.5 6'.b 0.0 SSE- 0.010 0.100 0.250 0.200 0.100 0.100 - 0.c50 0.0 0.0 0.811 1 0.G05 0.050 0.351 0.301 0.751 0~. 351 6 . iWF.~5 0.0 1. 9-SSW 0.005 0.050 1.402 1.A53 2.001
~
0.651 0 .0 0.0 0.0 %.76%'
SW 0.005 0.050 1.102 2.765 2'.254 1.002 0.0 0.0 0.0 f.1T4 WSW 0.005 0.050 0.301 0.301 0.100 0.250 0.100 0.0 0.0 1.107 W 0.005 0.050 G.401 0.250 0.0 O!Y0 0~~5 . C O T$ 0.0 9.96R~~
WNW "0.005 0.050 C.100 0.311 0.050 0.050 0.0 0.0 0.0 0.606 NW 0.026 0.250 0.501 0.200 0.050 0.0~ d .'d ~ B .'d O!d 1.~D 2 d NNW 0.0 0.0 0.301 0.351 0.351 0.200 '0.0 0.C 0.0 1.20?
'f 6T ALS' O.141 1.453 8.765 9.577 6.962 1.055, 0 . 10 1 0.0 0.0 30.262 STAHILifY CLASS F WIND SPErDS IN METERS Pt.R 50C040 FROM THE SECT 6RS IN0!CATED SECTOR 0.13 0.4S 1.10 1. 39 2.40 4.4S 6.91 T.S9 13.GG 10TALS N 0.0. 0.0 0.351 6.050 0.0 0.0 0 .0 0 .'D 07D 0.90r--
NNE 0.017 0.200 1.302 0.551 0.0 0.0 '0.0 0.0 0.0 2.071 NE 0.013 0.150 0.451 0.150 0.0 0.0 00 0.0 0.0 1.16S ENE 0.0 0.0 0.0 0.0 0.0 0.0 00 0.0 0.0 0.0 E 0.009 0.100 0.D O'. 6 67U 0.0 0.0 9.0 a.u u.to" f:SE 0.009 0.100 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.104 SE 0.004 0.050 0.100 0.0 0.6Td- 0.0 0 .3 0.0 0.0 0.209
$$E 0.009 0.100 -0.050 0.0 0.0 0.0 0.0 0.0 0.0 0.159 %
.5 0.01T 0.200 ,0.301 0.100 0.0 0.0 0.0 0.0 0.0 0.618 SSW 0.004 0.050 -l.002 0.651 0.090 0.0 0.0 0.0 0.0 1.757 SW 0.004 0.050- 1.152 2.254 0'.'331~~D !) 00 0.0 0.0 J.76L WSW 0.004 0.050 0.150 0.0 0.050 0.050 0.0 0.0 0.0 0.305-W 0.004 .0.050 0.450 0.0 0 .'l - 0.0 0.0 0.0 0.0 0.tu, WNW 0.004 0.050 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.054 NW 0.0 0.0 0.050 0.050 0.0 0.0 0.0 0.0 0.0 9.100 NNW 0.0 0.0 0.0 0.050 0.0 0.0 0.0 0.0 0.0 0.050 TOTALS 0.098 -1.152 5.359 3.85F 0.451 0.050- 0.0 '0.1 0.0' 10.967 3
-TABLE 3-(CONT'D)
. . . . _ . _ . __ : . ._...; 4TAHit.!TY CLA3S G u t un . SPEED $._th.,JLIEjCi_PE3, $(C04Q.,[f QLJ H+_eg(_TORj,[pnICATFD
- Sf C TO.1 0 15 0.45 1.10 1.49 2.d0 9 45 6.41 M.99 13.00 T O T A LS N - 0.0 0. 0 ' O.200 0.0 0 0- 0.0 0.0 ", . 0 0.0 0.200
'.NNE _. _0,0. _ 0.100_ 0.nQ1. 0.100 0.0- 0.0 0.0 0.0 0.0 I.00?
.NE 0.0- 0.100 0.601 0.0 0.0 0.0 0.0 0.0 0.0 0. 701 rkr D.o 0.0 Da0 0,0 09 0.0 O.0 0.0 ff L J .0'
'E 0.0 0.0b0 0.050 0.0 0.0 0.0 0.C G.0 c.0 0.100 E5r 0 , g. O dgA 0 ._Q 0.0 0.0 0 . 0 _ .,0 .0_ 0 . 0_ - 0.0 0.100 SE. 0.0- 0.0 0.0S0 0.0 0.0 0.0 0.0 00 .0.0 0.050 sgr (10 .0,g$p _ q.tg3 _0.0,_. 0,0,,,__0.0 0.0 _ 0.0- n.c 0.130 S 0.0 0.0 0.501 .0.0 0.0 0.0 0.0 03 C.0 0.501.
Mu n.o a.150 04 901 0,0 1.8.53
- 0. 2.21 _ D.0 0.0 C .) 0.0 SW 0.0 0.050 1.002 0 . 802 0 103 0.C O.0 0.0 0.0 2.054 usu 020 0 119. 4 29_0 _.0 0 p.n _ ,,,0 9 _ 0.0 c.g . n.n 0.301 0.0 W 00 0 100 0.0 0.0 0.0 0.0 0.0 0.0 .0.101 Whu 0. Q __ D . O . _. 0.,91Q._,.9,0 10 00 ' 0 ,4 .C , 0 0.0 9 050 ftti 0.0- 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 -0.0 kuu n.a 0.050 0.0 cp a 0.0 0.0 0.0 0.0 3.0 0.050 TATA1_t o.D o.751 4.U L t.703 0 300 0_. 9 0_. 0 0.0 0.0 6.412
-~
l l
TABII 4 SEQUOYAH NUCLEAR PLANT METEOROLOGICAL DATA GROUND-LEVEL JOINT FREQUENCY DISTRIBUTION IN PERCENT SECOND QUARTER 1982
__ _ ... 7I.A8til ! TV CL.AS ( A.. , _, , , , , .
WIND SPEF01 IN fo r f r R S 64. ,# StrqND reOM TN 30CioRc IM#trAftp '
SECTON 0.13 0.49 1 10 1. w 2.43 4.45 S .l w.So !!.00 toraL4 N 0.0 0.0 0.2h1 0.231 0.100 0.CSC .s . 0 0.9 0.0 ~0 .' 'h~
NNC 0.0 0.0 0.7S1 1.275 1.175 0.(13 0.0 0.0 0.0 3.264 N1 0.0 0.0 0.162 0.u13 0.613 0.2S1 0 .if 0.0 0.0 1. 0 FL" Or 0.0 0.0 0.0 0 100 0.0 0.0 0.0 0.0 J.L 0.100 E . 0.0 0.0 0 050 0.1JD C.0 0.0 0.0 0.0 0.0 0.1$1
~C S E O.0 ^0.0 0.0 0.151 0.0 0.0 0.0~ 0.0 0.0 0 .1 ".1 5E 0.0 0.0 0 100 0.141 . 0.0 0.0 0.0 0 .T *d '.T 07.' fi f~
J jf 0.0 0_,3 h0 0. q's ! 0.053 0.0 0.0 0.0 0.3 0. 10!
4 S 0.0 0.0 0.050 0.211 0.151 0.151 0 .3 0.0 0.0 0.n 0 3_
s?W 0.3 0.0 0.151 0.M13 1.547 0 112 0.0 0.0 0.0 ?.462 Sk 0.0 0.0 0.0 0.J62 0.f13 0.201 0.0 0.0 0.0 1.2 FS WSW 0.0 0.0 0.0 0.0 0.100 0.0 0.201 0.0 0.n 0.301 W 0.0 0.0 0.050 0.03 0 0.0 0.050 0.%0 *
.0 0.0 0.2 01' ~
WhW 0.0 0.0 0.0 0.0 0.0 0.100 0.0 2.0 0.0 0.100 NW 00 0.0 0.0 0.0S0 00 0 512 0.0 0 ."6' ~ d'.0 p .3 ( F~~~
ANW 0.0 0.0 0.0 0.0 0.100 0.100 0 .0 0.0 0.C 0.201 TOTALS 0.0 0.0 1.205 4.519 4.S4* 2.440 - 0 .23 1 a .0 0.0 13.064 M T AHit.I TV Ct.491 H WIND SPECOS IN MtifRS PER $6COND FRHM T Ft S t C i t'R i l '.t>1 C Ai[H SLCIOR 0.13 0.45 1.10 1. w 2.et o 4.45 W1 .8 IS$6 T5f'AEs" N 0.002 00 0 050 0.100 0.050 02 ~0.0 ~ J70 j 70 0.20T ~
~
Nhr 0.002 0.0 0.050 0.251 0.?51 0.201 0 .0 0.0 0.0 0.754 NE 0.00F 0.0 0.151 0.331 0.100 0.0$0 0.0 0.3 6.0 0.610 thE 0.0 0.0 0.0 0.0~ 0.0 0.0 0.0 0.0 0.0 0.0 E 0.007 00 0.151 0.0 0.0 ~ 0.0 D .~0~ 0~. 0~ 6. B ~ 0 . Wl-ESE 0.0 0.0 0.0 0.151 0.0 0.0 0.0 0.0 0.0 0.151 Q
~
SE 0.005 0.0 .0.100 0 151 60 0.0 670 0 .'d 0.J C
$$E ~0.0 0.0 0.0 0.151 0.030 0.0 0.0 0.0 0.0 0.201 S 0.002 0.0 0.000 0.412 0.0 0.050 0.0 0.0 0.0 0.514 S$W 0.013 0.0 0.251 0.713 0.251 0.0 0.050 0.0 0.0 1.27a SW 0.003 0. 0 0 050 0.71.) 0 341 J . t' 0 0.0 0.~5 W ~0.0 1784 WSW4 0.003 0.0 0.050 0.050- 0.050 V.0 -0.0 0.0 0.0 0.154 0.100 078.T T.0 W 0.0 0.0- 0.0 0.0 ('~6 0.0 0.151 WNW 0.002 0.0 0.050 0.050 0.0 0.050 00 0' 0.0 0.153 NW. 0.0 . 0.0 0.0 .
0.0 0.0 0 0NTO ~7 30 d.0 0.050 NisW 0.002 0.3 0.050 0.0 0.050 0.050-OL&{ 0.0 0.153
.a . , . . - .
fet&L1 ~ 0 4 48 ' O. 0 1.004 3.043 1.205 0.552 0.050 ~ O x agJ.fl 5.953' A,ppyst - s . .mMvy y
~
TABLE 4 (CONT'D) 1 I
S TAHIL 11 Y CLASS C Wf yn 1Prt 09 I4 W Tf N S f'E l S'C;WO FN04 T Pe. 1 CC T N3 INutC4ffD SECTOR 0.13 9.45 1.10 1.*9 2.a0 4.45 6..L ~775C-~17.00 TalALs N 3.003 0.0 0.100 0.100 0.0 0. WO d~J C.0 f.3 f. 2T4~ ~
NNC 0.001 0.0 0.3%0 0.100 0.251 3.151 0 .4 0.0 0.C 0.553 h[ 0.011 0.0 0.412 0.f75 7 .0 0.F~07u 0.3 0.0 0 .M 3~-
ENT p.001 0.0 0.040 0.050 0.0 0.0 0.0 C.0 0.0- 0.101 E 0.001 0.0 0.0S0 0.0:20 0.0 0.0 0.0 G.0 U.0 0.1d1
'FSC 0.03* 0.0 0.151 0.0 0.C 0.0~ 0.0 0.0 0.C 0.154 SE 0.0 0.0 0. 3 . 0.050- 0.0 0.0 0.0 J.0 0.0 0.733 SSC 0.004 0.0 0.191 3.151 0.0 0.7 0.0 0.3 n.0 0.335 S 0.001 0.0 0.0S0 J.JJ1 f.0 0.0 0.0 0.0 0 T0 J.J52
$$W 0.00r 0.0 0.201 0 . 4 v.? 5.100 0.100_.0.0 0.0 0.0 0.271 Sb 0.004 0.0 0.J01 0.loj 0.201 0.201 0.0 0.0 J.J 1 .4 74 WSW 0.003 0.0 0.100 0.0%0 0.050 '0.0 0.0 0.0 C.0 0.204 W 0.004 0.0 f.* fTO 0.0 0.0 J.J 0.3 i0 J.1 U .0 C.T54 kNW 0.0 0.0 0. 0 - 0.050 0 100 0.0 NW 0.0 0.0 0.0 0.151 0.0 0.0 0.0 0.0 0.151 0,0 0.0 0 .~ d w.0 a.131 Nkw 0.001 0.0 0.050 0.090 0.100 0.100 0.0 3.0 0.0 0.502 TOTALS 0.044 0.0 1.16F 2.279 3.454 0. '.0 3 0'.030 J.0 0.0 S.70,f, STAH1Lifv CLASS 0 Wir0 SPEr00 IN M*;TrN S PE9 SECONO FROM Thr' SECf 0RS INDIC4TfD SECf0H 0.13 0.45 1.10 1.94- 2.H0 4.45 6.91 9 . 5'I~IT. 7f TOTALS N 0.0 0.050 0 .713 0.412 0.251 0 251 0.0 00 C.c 1 6TT NNF O.0 0.050 0.163 1.024 1.115 1.024 0 . 0' C.0 0.0 0.0 4.037 NE 0.050 0./13 0.301 0.0 00 0.0 G.0 0.0 1.G4e ENE 0.0 0.0 0.100 0.0 0.0 0.0 0.0 0.0 0.0 0.100
-E 0.0 0.050 0.251 0.0S0 0.0 0.0 3.0 c .~5 0.0 E!E 0.0 0 331 0.100 0.0 0.0 0.0 0.0 0.0 0.0 J.0 0 100 '
SE 0.0 0.0 0.231 0.0S0 0.040 0.0 0.0 0.0 00 a.att SSE 0.0 0.0 0.562 0.362 0.151 0.462 0.0 0.0 0.0 1.536 S 0.0 0.100 1.2/5 1.6ar 0.412 0.613 0.0 G.0 0.0 4.097 SSW 0.0 0.0 1.426 2.249 1 326 1.597 0.0 0.0 0.0 6.SPT SW 0.0 0.050 1.074- 1. 4 2 rr 0.914- 0 151 0 .55 0 0.0 0.0 J . Tea WSW 0.0 0.0 0.663 0.462 0.151 0.050 0.050 0.0 0.0 1.376 W 0.0 0.050 0.251 0.050 0.100 0.050 00 03 0.n 0 502 WNW 0.0 0.050 0.151 0.201 0.0 0.0$0 3.3 3.0 0.0 0.452 NW 0.0- 0.0 G.151- 0 . i ts i - 0.201- 0 050 0 100 0.0 0.0 0 674 NNW 0.0 0.100 0.412 0 251 0.412 0.100 0.0 0.0 0.0 1.275
- T O T AL S 0.0 0.653 8.756 M.616 S.141 4. 33 R 0.201 0.0
~
0.0 27.416 4
i
I l
TABLE 4 (CONT'D)
$_f AH 1L! f Y CL ASS E u1NO spCFtM I N C f r 4 0 Pr 4 U CO'l0 FROM TH "JJieH1 I NfJ1C A T F 0 SECTOR -0 13 0.45 1.10 1. '> Y ?.40 9.4S 6.11 3.da 12 00 To14LS-
'l 0.003 0.100 1.437 1.Ma6 0.412 0 100 0.0 0.0 0.C m.140 NNE 0.021 C.663 2.101 1.613 -0.462 0.100 0.0 0.0 0.0 4.560 NE 0.0 0.0 0.512 0.100 0.0 Egr 0.0 0.0 0.0 C.0 6 ~.'613 0.00? c.050 0.151 0.0 0.0 0.0 S.C C.0 0.1 0.203 E 0.307 0. Pat 0.251 0.0 0.0 0.0 0.0 J.0 0.0 0 . 4 5
ESC 0.00% 0 1'il 0.100 0.0 0.0 0.0 0.0 0.0 00- 0.254 SC 0.005 0.1$1 0.412 0.0 0.0 0.0 0.3 J.3 0.J . C.56I'~"~'
S!r '0 0.10 0.301 02RH 1, _0. 0$ R ,_C .1,0 0 ' O.05C 0.0 00 0.0 0. F_6 3 S 0.009- C.251 1.376 0.912 0.201 0.100 0.100 6.0 . J .0 2.44*
S!W 0.007 0.?nt 2.039 0.d11 0.71 3 0.251 J.0%0 4
0.0 0.0 4 .0 74 SW- 0.003 C.100. 1.13r 1.215 0.291 0.1S1 0 .0 0.0 00 3.514 WSW 0.005 c.1 5 LO_.14J.jil_0 062 0.10J^ 0.E0 0.0 0.0 1.133 W 0.003 C.100 0.763 0. L51 0.151 0.050 0.0 WNW 0 007 CtF01 0.201 0.0 0.0 ~1.21a 0.100 0.090 0.100 0.n 0.0 0.0 0.68.0 hk 0.004 C.2b1 0 362 0.101 0.0 0.0 0.3 "'
NNW 0.002 0.050 0.713 0.663 0.040 0.0 0.0 -C.771
- 0. 0 0.0 C.0 0.0 1.4 T4 t
7 TOTALS 0.096 2.42?.14 1064 5.511 2.751 1.004 3.2*1 0 . 0_ , , , ,0 . 0 ?F.561 STAHILITY Class F WIND SPEEOS IN prTER0 PCM SECdND F90M THt GECinRS.INDICATEn SECTOR 0.13 0 45 1.10 1. 9 2.00 4.45 6.u1 s.s F fr.'5 M tALS N 0.002 0.100 2.249 0. S ',2 NNE 0.011 0.4h2 4.150 0.?01 0 .~ 0 ~ 'd . 0 f.0 076 5.0 2.uf4 0.0 0.0 0.0 0.0 0.0 5.524 Nr 0.004 0 151 0.864 0 100 0.C 0.J.
EAE 0.001 0.U50 0.0. 0.G 3.c 1 110 0.0 0.0 0.0 0.0 0.3 0.0 0.0 0 051 E 0.006 0.251 0.0 070 0.0 0. 8~7'. h ~ f.1 G'G OMT ESE 0.003 0.151 0.050 0.0 0.0 0.0 0.0 C.0 0.0 SE 0.002 0 204 0 100 0.151 0.0 0.0 0.0 C.C 0.3 C.0 SSC 0.004 0.151 0.301 U.253 .
0.0 0.0 0.0~ ' 0.0 0.0 0.0 0.456 ,
S 0.003 0.100 0.$12 0.0 00 0.0 0$0 0.0 070 .0 616 SSW O.005 0.201 0.412 0.151___0.0 0.0 0.0 0.0 0.n SW 0.0 0 7,64 0.0 0.174 0.201 0.0 0.0 C.J 0. f 6~. 3 1 173 WSW 0.002 0.100 0.301 0.100 =0.0 0.0 0.0 =0.C 0.0 0 504 W .0.002 0.0
~
0.100 0.100 0.0 0.0 WNW 0.0 0.0 0.050 0.0 0.0 0.0 0.0 0.0 .0.203 0.0 0.0 0.c 0.0 0.050
- NW 0.001 0.050 0 1b1 0.0S0 0.0 0.0 0.0 0.0 0.0 C.252
' NWW 0.002' O.100 0.301 0.201 0.0 0.0 0.0 0.0 0.0 0.605 TOTALS ~0.044 2.069 11.267 't.467' O.0 0.0 0.0 0.0 0.0 14.950 i
3, a
r-
?"-
TABLE 4 (CONT'D)
STArittlif CLASS G W I?40 SPt
~
( .4FTi!C1T;W"~T6rIF-0.001 OI D ~6 M~T.~ J
~
'l 0.012 0.0 0.0 0.0 6.~'T 5~."211 NME 0 . 01 t, 0.151 1.374 0.1's t 0.0 0.0 0.0 0.3 0.n 1 . 3'82 NC 0.011 0.r01 0.9 I'0.T
~
7.1 07 0~ ~~$~.~d- ~0. i~ ~ 1 ;b ~ [732 C-r%F 0.00F 0.1S1 ' 0 . 0 'a 0 0.0 0.0 0.0 0.0 0.0 1.0 0.20s
.E 0.013 0.1U0 0.050 0.0-~ 0 . e Etr 0.015 0.201 -0.100 0.0 0.0 0.0 0.0 02 %
0.0 00 0.0 0.0 0.0 -0.0 C.316
.SE 0.G15 0.261 0 . F07. 0 03 0 .~5 02 0~1 - ~U.0 U!eso S$C 0.003 0.201 0.412 0.0 0.0 0.0 0.0 0.0 ;3 .0 0.616' S 0 003 0. 0'a 0 0.100 0.0 S$w 0.n 0.0 0.0 3.0 0 70- 7.D ' O .UI4
- 0. 0 'a 0 0.111 c.050 0.0 0.0 0.0 0.3 0.0 0.251 SW 0.0 0.0 0.251 3.000 0.0 0.0 00 0.0 0.0 0.301 WSW 0' O.0 0.050 0.0 0.0 0.0 0.0 0.0 0.0 0.05n 40 00 0.0 0.0 0.0 0.0 0.0 d2 60 kNw 0.0 J.O 0.0 0.0 0.J 0.0 0.0 0.0 0.0 0.0 0.0 0.0 NW 0.0 0.0 0.0 0.0 J . I""5 ;0 T;T Pih k 0.0 0.0 n.0 0.0 7.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 TOTALS
~
0.09F 1.335 3.304 0.241 0.0 3.0 0.n =3 0 0.0 4.'154 s
0 0 .
TABLE 5 SEQUOYAH NUCLEAR PLANT METEOROLOGICAL DATA GROUND-LEVEL JOINT
-FREQUENCY DISTRIBUTION IN PERCENT THIRD QUARTER 1982 STAHILITY CL ASS A ,
7 dtFR~ 0WIND 13 SPEEOS
~'.4*f~
0 IN PE TERS PER SEC040 FROM THE SECTORS IN0!CATED
~1'.10"~1.99'~~ 2.40 ~ 4;45~ 6.91~ '9.59 13. 00 -"TO TA LS N
NNE 0.0-~~~b~. 0 ~~0.19 0 ~ 0. 319 ~ 0. 2 3 0 ~ 0. 0 5 0 0.0 'O.0 0.0 ~ ~' O.771 0.0 0.0 'O.459 1.417 0.637 0.140 0.0 NE-~ 0. 0 '" 0.~0 "'" 0.5 99 ~ 0. 5 4 9 ' 0. 0 5 0 ~ ~ 0 0 ~ 0.0 0.0 0.0 0.0 3.115 ENE 0.0 0.0 0.319 0.1PO 0.0 00~ '1 199
~'
t ~0.0 0.0 0.0 c.0 0.498 0 '. 0 03 0;4 0f 0 14 0~ ' 0.0 5 0 '0. 0 ~ ~ 0.0 - " 0. 0 ' O .0 ~-~" 0.599 -
ESE 0.0 0.0 0.090 0.09C 0.050 0.0
"*""~g t"' t iG~ ' O .'0 ~ 0.0~ 0.000 '0.0 'O.0 0.0 0.0 0.0 0.233 SSE O.0 0.0 0.0 00 00 ' C.090 0.050 0.409 0.549
- ~~~5~ 0.0 0.0 0.0 1.00a SSW 0 0 ~ 0. 0 ~ 0.0 'O.639 '0.549 0.050 0.0 0.0 0.0 0.0 1.23n 0.0 0.0 0.050 0.599 1.2TR 0.0$0 0 .0 0;0~~ 0.0 5 0' O .R 19 " 0. 4M ' ~ 0.'2 30 'O.0 ' O . O ~ ' O0.0 s'W 0.0 00 1.977 WSW 0.0 0.0 0.0 0.090 0.0
.D ' ~1.597 V 0 ~0 0.0" ~~~ 0.0 0.05 0 ' O .0 " 0.0 0.0 0.0 0.0 0.0a0 WNW 0.0^ - 0.0 0.0 0.0 '
- 0.050 0.0 0.0 0.0 0.0 0.0 kW O'.' O 0.0 0.0 0.0 0.0 0.0 NNW 0.0 0.0' 0.0
~ 0.0 " 'O.0~ ' 0.050-~0.0 0.0' 'O.0 0.0 ' " ' O.050 0.0 0.010 0.0 0.140 0.0 0.0 0.0 0.230 TOTALS 0.0 0.0 2.206 5.940 3.143 0.659 0.0 0.0 0.0 12.748
. . . . ~ . - .. ..- ..
STAHILITY CLASS H SEC f 0R WIND O'1FE4 SPEEDS 5 ~ l.' 10 INPETERS
' t .99 ~ ~PER2.R SEC040 O ~ 4 ;45FRON - 6.91THE SECTORS I NDIC A TED 9.59' 13.00~~ TOTALS ~
N 0;u ^6;B-NME 0.0 00 0.090 0.110 0.030 0.0 'O .0 ~ 0. 0 * '0.0~ " 'U.314-0.409 0.549 0.050 0.090 0.0 NE c.s 0.0 0;499 ~5;140'~0.050 ~0.0 ~ ~0.0'
- 0.0 0.0 1.098 ENE 0.0 0.0 0 050 0.0 0. 0 ~ ~* 0.0 0.689 ~
0.0 0.0 0.0 E Gu 0.'O 0.230~ 0 0 " 0. 0 - ~ 0. 0 ' ~ 0.0 0.0 0.0 0.8 50 ESE 00 0.0 0.090 0.0 00 n.0 ' 0. 0 ~~ ~~ 0 2 SE 0.0 00 0.0 0.0 0.0 0.090
~ 0. 0 ' 0. 0 .'~ 0. 0'i 0 0. 0 ' "-' O . 0 ' ~ 0. 0 SSE 0.0 0.0 0.0 4 0' '"70 050' 0.050 0.140 0.0 0.0 0.0 5 00. 00 0 14 0 ~ 0.WF ~ 0. 31 Y~~0;0 '- 0.0 -" O . 0 ~ 0.0 0.0 0.190 SSW 00 0.0 0 140 0.A11 0 270 0.0 0.0--~~~~0 91 r -
~5V 0.0 07tT ~ '0;050~ 0.499 0.2 30 ~ 0. 0 ~ ~"*0.0 0.0 - 0.0 1.22*
WSW 0.0 0.0 0.0 0. 0 ' O .0
' - 0.7 T=
0.090 0.140 0.0 0.0 0.0 W 0.0 0.0 0.230 s.O 5;0 0;050 ~Oa0 ~ '0.0 'O.0 ~~'0.0' O.0 - 0 0 ~~O.050 WNW 0.0 0.0 0.090 0 050 0.0 0.0 0.0 0.0 Nu D.s 0.s .0.5 0 ; 0~ ~0 ;0 5 0'"O . 0 ~'~ 0". 0' 0.0 0 140 NNW 0.0 0.0 0.050 0.0 0.140 0.050 O.0*- 0.0-~~ 0.0 50 -
0.0 0.0 0.0 0.240 TOTALS 0.0 0.0 2.026 2.995_ 1.~.19R. 0. 140 0.0._ _ 0.0
. 0.. 0 6.349 4
w-
l 1
1 TABLE 5 (CONT'D) l STAMILitt CLASS C
_. _ WIMO SPECD1 IN, METERS,PE4,SFC040 FROM T R SECfDAS IN0!CATED SECT 04 0.13 0.45 1.10 1.99 2.M0 4.45 6.91 9.59 13.00.. TOTALS N 0.0 0.0 0.146~0.050 0.160' O.0 0.0 0.0 0.0 0.369 NNE 0.0 0.0 0.639 0.549 0.140 0.0 0.0 0.0 0.0 1.328 NE 0.0 0.0 0.549 0.0 0.0 0.0 0.0 0.0 0.0 0.549 J NE _ 0.0 0.0 0 230 0.050 0.0 0.0 0.0 0.0 0.0 0.2 90 .
E 0.0 0.0 0.050 0.0 0. 0 "~ 0. 0 "~~~ d . d ~ ~ 0 . 0 ' ~ 0 .0~ 0.050~~
~~ ESE 0.0 0.0 ~'"0.0 0.050 0.0~~ 0.0 0.0 C.0 0.0 0.050 5E'~ ~ d.O 0.0 0.050 ~ 0.050 0.0 0.0 'O.0'~'0.0 0.0 ' ' O.100 '
SSE 0.0 0.0 0.050 0.0 0.0 0.0 0.0 S 0.0 0.0 0.230- 0.050 0.1e0 0.459 0.090 0.0 - 0.0 0.0 --
0.0 0.283 0.719 SSW 0.0 0.0' 'O.369 0.6R9 0.270 0.0 0.0 0.0 0.0 1.328 SW 0.0 0.0 0.140 'O.729 0.090 0.0 0 . 0 '~ 0 . 0 "" 0 .0~ " 0.954~'
WSW 0.0 0.0 0.0 0.050 0.050
'0.090 0.0
- 0. 0 ' ' O.050 0.0 ~ 0.0 0.0 ' 0.0 0.0 0.100 W 0.0 0.0 O.0 0.0 0.140 WNW 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 NW 0.0 0.0 0.0 0.050 0.050 0.0 0.0 0.0 0 .0 0.100 NNW 0.0 0 ._0, _0.090,,_0.140 0.0_90_ 0,.090 ,0.0 ,,00 _0.0 _ 0.409 ,
_. .T O T_ AL Sa,0.0_ ,_0.0 _
2.625, 3.095 0.918 0.140 0 .0 0.0 0.0 6.R1a STAHI1 TTY CLASS D WIND SPECOS IN METERS PE9 SEC390 FROM THE SECTORS I NDIC A T ED SECTOR 0 13 0.45 '1.10 1.99 2.n0 ~ 4.45 6.91 9 59 13.00 TOTALS N 0.8 d .~0 5 0~1.69T~0.729"'O.090~ 0.0 0.0 ~ 0.0 0.0 " 2.556~
NNE 0.0 0.0 1.276 1.507 0.369 0.0 0.0 0.8 0.0 3 155 NC O.0 0.'d 6ii~ 0. 599~'6.~040 ~ 0.0 ~~ . O'0"~~0.0*0.0 ^ 0.0 ~ ~ 0. 7 31 ~
~ ~ ~ ~
CNE 0.0- 0.0 0.090 0.0 0.0 0.0 0.0 0.0 0.0 _ 0.090 E 0'.~4 5.050'~0.140 *O.0 "~ 0.0 ~ 0.0 0.0 0.0 0.0 "' O.193~
ESE 0.0 0.0 0.050 0.0 0.0 5.0 0.0 0.0 0.0 0.050 SE~ 50 0.090~ 0.1a0 0.140 0.0- " c.0 00. - 0. 0 ~ ~ 0.0 ~~ 0.44*
SSE 0.0 0.0 0.699 0.270 0.0%0 0.0 _ 0.0 .0.0 -1.R2F
$ 0.0 0.~d56~ 0.819~2.
2.246 4 2I b. 319 ~~ 0. 0 5 6 ~ 0 . 0 ' ~ ' O . 0 - ' ' O .0 ' ~'~ 5 SSW 0.0 0.090 2.516 1.877 0.6h9 0.090 0.0 0.0 0.0 5.261 SW 0.0 0.d90"i.418 ~ 1.09R "0.499 70.0 0.0 ^ 0.0^ 0.O ~ ~ ~ 3.10 5 ~
USW 0.0 0.050 0.319 0.270 0.180 0.140 0.0 0.0 0.0 0.95R W s'~0 0. 0~ ~0.'4 99~ 0.050O.050' 0.0 ~ 0.0 ~ 0.0 " '0.D~~~~*'O.599 ~~
WNW 00 0.090 0.270 0.050 0.050 0.050 0.0 0.0 0.0 0.509 NW 0.0 6.055 0.230'~0.230 - ~0. 3 t $~ 0. 0 ' ~ 0 . 0 " 0 . 0 ~~ " 0 . 0 ' '~ ' C . s 29 ~ ~~
NNW 0.0 0.0 0.409 0.459 0.319 0.090 0.0 0.0 0.0 1 27R TO T AL S 0.0 0.659 12.788 9.653 3 155 0.469 0.0 0.0 0.0_ _ 26.724
_. . - ~ . . - . - , . .- . - - - . _ . . . -
M 4
5
TABLE 5 (CONT'D) 4 STARILITY CLASS E WIND SPEEDS IN METERS PER SEC340 FROM THE SECTORS INDICATED 1;)9 ~ - 2.h o ~'~ 4 7 4 5 ~ ~ 6. 91 ~~ 9.59 ~13.00~ TOTALS-
~
~
SM IM~~ D .~13 0.4$'~ 1;10 N _ 673 0 6'~6.~ F F9 ~ 4.2 5 3 ~ ' 1. 414 ' ' 0.2 7 0 ' ' 0. 0 ' ~ 0 .0 0.0 0.0 ~ 'G.724-NNE 0.006 0.FF9 2.695 0.06" 0.050' 0.0 0.0 0.0 0.0 4.49n Nr~ ~ ~0'.003~ 0;369 0.459 0.0 'O.0 O.0 0.0 0.0 0.0 ' O.A3?
ENE 0.0 0.0 0.090 0.0 01 0.0 0.0 C.0 0.0 0.09P 0 0.003~~0.~4'04-~0;1DO ~b.0 7 0'.. ~ ~ 0;0~ 0.0 'O.0 ~0.0' ~0.592 ~
ESE 0.003 -0.319 0 230 0.0 0. L 10 0.0 0.0 0.0 0.0 0.602 '
SE 0 ;0 02 D.270 ~'0 ;$99 ~'0.050 ' O.090 ^ 0.0 'O.0 0.0 0.0~ ~ 1.010"'
SSE 0 002 0.270 0.729 0.050 0.090 0.0 0.0 0.0 0.0 1.140
~~ ~5 0.003~~0;369 ~1.647 0.549~~0;0*O.0' O.0 0 . 0 -~ 0 .0 '~~ 2.569 -
$$W 0.001 0.140 3.334 1.467 0.010 0.0 0.0 0.0 0.0 - 5.072 SW 0.0lif~~E23 0 ~ GO6 D'.91 si 0~.* 14 0 0.~0 ~ ~~ 0 ;c ~~ 0. 0 ~~ ~0.0 ~~ 3.714"-
WSV 0.003 0.369 1.048 0.050 0.050 0.0 0.0 0.0 0.0 1.520 W 0.0 01~0;18 0 1;0 4C'0.14 0 0.050' ~ 0.0 '0.0 ~0.0 0.0~ " 1.419 ~"
WNW 0.003 0.319 0.409 0.0 0.090 0.0 0.0 0.0 0.0 0.R22 NT 07004 0.~459 0~.4 09~ 0;140 "0.0 " 0.0 ~ ~ 0.0 ^ ~ 0. 0 ' O.0 1.052~
NNW O.003 0.409 1.647 0.729 0.180 0.050 0.0 0.0 0.0 3.019 TOTALS 0.045 5.710 21.203 6.419 1.14R 0.050 0.0 0.0 0.0~ 34.575 STARtLITY CLASS F WIND SPEEDS IN METERS PER SECOND FROM T HE SECTORS INDICAf tD
$ftTom 0. 0 0745'-~1;10 ~~1.99 ~ ~2.A0 4.45 6;11 ~ " 9.59 ~ 13 0 0 ~ TOTALS
N 0~0 0' 2 30 ~'4.9 41 " 0.2 7 0 0 ;0 ~~' O .0 0.0 ' '0.0 0.0 ' 5.441~
NNE O.0 0.459 3.793 0.0 0.0 0.0 0.0 0.0 0.0 9.253 NE O.0 O!2 3 0' O'.0 5 0 0.0 0. 0 ~-~0. 0 ' O.0~ 0. 0 0.0" - 0.2 A3 ~ ~
ENE O.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 E 0.0 0;14 0^ 0.0 5 0 ~0. 0 '~ ~ 0. 0 ^ *
- 0. 0 ' ~ ~ 0.0 - 0.0'~"0.0 -'0.190 ESE 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 SE .0;0' 7 0;140 0.0'~~ 0.0~' O . D ~~~~ 0 . 0 * ^ 0 . 0 ~ ~ 0. 0 ' ~C.0 - "0.140' SSE _ 0.0 0.140 0.090 0.0 0.0 0.0 0.0 0.0 0.0 0.230 s 0.0 6!050 T OHF'~0.0 0.0 ~~~0.0- 0.U' 0.0 ~~~0.0 - '~0.140 ~~
SSW 0.0 0.090 0.230 0.0 0.0 -0.0 G.0 0.0 0.0 0.311
~~~ Til 0.0 0.' O OTIP O ~~ 0. 0 ~~" 0. 0 ~~ 0 ; 0 ' ~~ 0. 0 " 0. 0 ~ ^~ 0.0 0 180"*"
kSW 0.0 0.0 0.050 0.0 0.0 0.0 0.0 0.0 . 0.0 0.050 v UTO 0;050~~0.230~ 0.0*~O.0 '" 0.0 ~ 0.0 - 'O.0 - ' O .0 -* 0.2 80 -
WNW 0.0 0.0 0.140 0.090 0.0 0.0 0.0 0.0 0.0 0.230 NW 0.0 00 . 0.110~~0.0'~~~0;0 0. 0-~~~~ 0. 0 3.0 Eu D.14u NNW 8.0 0.140 0.230 0.230 0.0 0.0 0.0 0.0 0.0 0.639 TOTALS 0.0 1 70F 10.212 0 599 00 0.0 0.0 0.0 0.0 12.509
l
-l 2 -
TABIJL 5 (CONT'D) i l
t J
L i
STAgtLITY CLASS &
i '
WO SP((OS IN METERS PER SEC090 FROM f ME SECf 0NS IN0!Caf ED i
l .
-SECTOR 6. I~ 0445~.I.10 1.M ' ~ ' 2. M i ~ 4.4 5 :~ ~ h.91 ' 9.59 13.00~~f0fALt ~
! N US 0$0. 0.094 ~ 4.4 ~~ 0 4 0 '* ' G e t' . Gas 0.0 ' O .0 ' ~0.090 NN! 0.0- 0.0 ~ 06090 0.0 060 , See ~00 00 0.0 NE Skb s Sa050.~06050-~b.0'* J.0 ~~ 0.0 " 8.0 0.0 0.0 ~' 'O.090 O.100
- E NE - 0.0 -- S&O. Oat . 0.0 -0.0 0+0 0.0 . O it 0.0 0.0
~f 0.0 6. (~~'~ b & O ~~ ~ 1. 0 ~~" 0 6 0~ '~ 0. 0 ~ ' t .0 ~~ P . O 0.0 ~~~ 0 .0 ~~ ~
1 ESE~ 0.0 0.0 0.0 0.0 00 0.0 0.0 J.0 0.0 0.0
, ~4E W.6" O. 6 ~ ^ 0 . 0"~~ 0.0 O . 0 ~ ~~ 0. 0 ~' O .0 ~ 0.0' - 0.0 ~ 0 . 9 ~ ~' -
--S S.E -00. - 0.0. .0.0 . 0.0 00 n.00 0.0 0.0 0.0 0.0 ^ , 0.0
.0.0 '060' O.0 4.0 SSW 0.0 - 0. 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 'O.0 SW 0.0- 0'S 6.0. 0.0 0.0 " ~~ 0.0 ~ ~~ 0 .0 ' O.0 O.4 ~'0.0"
-.. W S.W-.~ 0. 0 - 0.0 0.0 0.0 0.0' -0.0 0.0 0.0 0.0 0.0 0 J ~ M M ~~* M ' M 0d
- 0.0 0.0 0.0 0.0
'WNW .
0.0- 0.0 0.0. 0.0 ~ 0.0 0.0 0.0 0.0- 0.0 0.0 g . - g g, - 0. 0 ' ' ' O .0 " "' O 0. ~ 0.0 0.0 0 60 0.0 - 0.0 0.0 NNW - 0.0 0 . _0 _ 00 0.0 0.0 0.0 00 0.0 0.0 0.0
{ ._ TAT _8L.S 8 8 - ,l8.0s0 '0.230 0.0 00-. 00 0.0 0.0- c.0 0.no l
k G
A 4
i 3
a ~
t 6
I e
a 4
i i
TABLE 6 SEQUOYAH NUCLEAR PLANT METEOROLOGICAL DATA GROUND-LEVEL JOINT FREQUENCY DISTRIBUTION IN PERCENT FOURTH QUARTER 1982 Sf4BILifY Cull $ A WINS TPEEDt IN " r f ( # .i Pf4 *ECOP]2 FROM T U Eff049 INQltafLD SECTOR 0 13 0 45 1.10 1.o9 2.dp *.45 f. 91 9.S9 13.Ca TOTALS -
N S.0 0.0 0.3 0. t'5 0 0.34n 0.,470 f.9 0.0 a.0 0.ona JLNr 0.0 0.9 a . oy L_3 g 7 9 p.e5;i _0.=7t _0.a
_g . L__;.1, m a l_
NC 00 03 0 2aC 0.2mt d.)an 0.3 (.' 3.? 0.a 'J .65 3 ENE 0.9 0.9 0.* 0.097 4.9 0.? 0.9 r.n 17 '.901 t 0.0 0.0 0.0 0.9 1.3 0.' O.3 1.c u.c 30 ESE 10 0.n a.C50_ a, . ' *r . -) 1.L _ t. t 0.0 J.1 9.0Se SE. 0.0 0.0 00 0.0 J.3 0 . .t 0.4 C.0 ?.0 0 . 't
$$E a.0 0.9 0.0 0.?$0 J.11F 9.M i 0.* h.1 p.4 0.33 5 00 00 0.350 9.95* 3.1'3 0 390 0.3 0.0 a.o 1.3aa 4
stW 0.6 0.0 a.nac 3.24a '.12a.
e.*90 0.3 *.9 n.a 9.n17 SW 0.0 03 0.3 0 420 C.710 0.159 0.e L.J L.e 1.1 ! 0 WSW 3.0 0.* S.9 0.0 0.0 0.a a.1 3 . *. 3.1 1.0' W 00 0.0 00 0.010 J.0 0.a 0.7 00 c.0 J.091 WNW 9.0 0.0 Def 0.3 0.0 p.9 C.0 0.1 7,3 ?.3 NW 0.0 0.0 0.C 0.C 6.0 0.650 0.0 (.0 00 9.'54 NNW 9.D aa 0.? f.056 f.14t 9.0 6.a p.C a.c 1.fon 70fALS 0.0 0.0 0.52i 2.S91 2.971 1.316 3.0 *
.0 0.0 7.39?
STAHfttfY CLAMS P WINO SPEEDS IN METERS PER SECONO FROM THF SECTORS INDICATLD SLCTOR 0 13 0.95 1 10 1 99 2.8J 4.45 6.91 9.59 13.00 total 5 N G.0 00 0.0 00 J.090 -0.193 c.5 r. . o con 0 183 NNE 0.0 0.0 0.140 0.1*9 0.140 0.33a r.r 9.9 0.9 a.ana NL 00 0.0 0 360 0.ler 0.0 00 0.n C.0 6.0 G.52t CNE 3.0 0.0 0.090 0.0 00 0.a 70 0.0 3.0 0.05*
L 00 0.0 0.0 00 0.0 0.1 01 03 0.0 0.0 t$C 0.0 0.n n.0 0 050 00 39 0.0 0.0 2.0 9.050 5[ 0.0 0.0 00 0.050 0.0 0.0 0.3 '.0 e.? 3.r50 SSE 9.0 00 9.9 0 140 9.853 f.iMO 0.* 9.3 0.n 0.?41 S 00 00 0 050 0 050 00 0 140 0.0 0.0. 10 0.29' isW 0.0 0.0 0.0 0 190 3.244 0 140 0.0 00 0.0 0.57*
$W 0.0 0.0 0 090 0 090 2 J90 0 3S0 0.0 u.> c.0 0.32n
__WSW 0.0 00 0.050 0.050 0.0 .0." 0.0 0.h o.n- 0 10r W n.0 00 0.0 0.090 00 03 00 1.C 0.G C.090 WNW 0.0 0.0 0.0 0.4 0.6 0.98 a.* a.0 *.e 9.c56 NW 0.0 00 00 0.050 0.0 00 03 0.' O.C 0 05C
. NN W 00 00 0.0 00 00 _0.?50 0.a 00 e.0 0 050
~
70fALS 00 00 0 760 1.090 .0.610 0.900 0.0 0.0 C0 3.341
.. W c*
- y TABLE 6 (CONT'D)
]
. .._.$1A0!LifY CLA$3.C _ __._..-__ . . . . _ _ - ~
uten enrrne im artree cru errnan sanw tur crernae 6.91 tentcA.Itn 9.59 13 00 TOTALS SLCTOR 3.13 0 45 1.10 1 99 2 40 4.4$
0 09? 0. r- 5 0 C.0 0.0 ?.0 0.29?
N- 00 00 0.330 0.090 .J . 6 M eggs 0.ng__r . rJ L_. . 2f.1_l .1.__ 1 3 3.2 wr o.9 9.9 f.0 a. 7.0 a.423-AL 00 0.0 0.290 0 0*3 e.05) dsa e." d.a 3. h rur 9.c 9.4 c.ru eg n.1 n .<. : .1 3.0
- .3 f.* C.0 a.9 9.0 L 00 03 0.S C.C it . e -. J . 0_.
rer o.e s.e .o.j e.* a .gL_1 1_ _t. a _.2.c 0.1 20 tr . 2 3.a 9.Dai SE 0.0 01 a.390 0.0 00 e.n 0.aac...1.C. D.199__2 112 ;.0 1 1- _ 2.321 ter e.e c.1 '.0 9.9 1. 3 7 r.
S 0.c 3.3 3.950 c.14e 0 39b C.Saa 6.0 a6 e.o n.m s.a. s.a a.39a e.sen n.sna r. t.9
. s.c e.t u 0.993 0.9 7.2 10 0.990 SW 00 0.0 0.390 0.920 c.390 2.0 _
10 e.1 t.2 i.2 1. 0.
Wiw e.c G.o 9.g 0 ..e 0.n 9.a a.0 J.0 W 00 09 ?.c 0.? c.0 0.9 e,e 0 ,.0 .i.. . Q 2. piL WNw 0.0 0.9 4. M 0 .3 1 0 1____2,e 0.G ?.? C.0 S.237 NW C.0 70 c.050 0.0 0.999 0.'90 3.9 9.c a. toc muu e.e o.e e.e 9.asa c.a 3.ase n.1 0.3 0.890 latit (.17S G.*40. 0 140 DaL f.0 t.191 TOTatt 0.9 tTARettTV etARK O utan RPrrDE tN MrfrRS PER KrCOND FROM ~TH E. SE C T QR1_lhD1C A f13.00 rD TOTALS 1 10 1 99 2 80 9.45 6."1 9.54 SECTOR 0.13 0 45 0.610 0.940 0.0 0.a 2.0 3 051 N 0.0 00 0.753 3.750 a.aes e.a a.e f.et?_
s.*7*
mar e. ens e.aqo 1.5me 9. set t . a r,
- 03 0.0 1 135 0 003 0 050 3.900 0 190 0.34a 0.0 00 NC a.o t,c 93 _a.n Ga233.
thf 0.008 0.140 0.gi L Jt s o ,.3 00 31 0.4 9.055
[ 00 00 0.050 C.3 0.0 9.?
Qa f.f E t 2.. Ene e . D S.L
___ERE 90 0.1 D a110... 0 s 5 12 c.) 0.c 0 199 00 0 190 03 c.0 0.a f.9 SE 00 6.66a 0.s49 e.t9a 3.3 0.0 2. sag tar e.een e.14n'- e.2ea S.AtS 0.710 c.191 0 2 A 0 0.1 S.0 *0 . 2 409 5 0 008 0 140 1.08C D.e 3 . L)f.,
D.005 0 990 1.320 14 080 0 61t 0.333 C.? 2a? .
11W 00 2.894 0.3 9.0
__ SW 0 003 0 050 1 040 10.050 230 0.330 0 243 0.090 0.~90 01 e.o P.a es f,Q WSW 0 003 0.050 1520 0.0 0.620 0.1 W 00 00 0.280 0 050 09.95a 240 0'3.050 a 0.9 Do ?.e 9.0 0.133_
umu' a.on3 3.eSe 1.? 0.1 0.140 0.090 0.*99 0.3 03 3.9 0 460 NW 00 .3 0 0 140 0.0 1 893_
0.140 0.389 0.610 0.F19 04 9.0 NNW 0.083 0 050 S.111 5.741 C.240 0.0 0.0 27.7SS_
TOTALE 0.849 "0.850 A.252 7.432
-t r
h TABLE 6 (CONT'D)
STAQ1LITY J Q}$_,L_,,
WINP 'PECOS IN MffE43 PE4 SEC0hD FROM TMt SECf04$ INDICATED SECTOR 0 13 0 45 1 10 1.9' 2.80 4.45 6.11 9.5* 13.C0 TOTALS N r.005 0 140 2.5rl 1 376 0.940 0.143 00 3.0 s.0 5 14 5'~
NNE- 0.027 0.A07 2.}61 1 160 0.470 0.14? 0.9 02 2.0 4.971__
NE 0 073 0.390 0.4?3 0.0"1 0.1 0,1 0.' J.0 P.0 3.613 ENE 0.005 0.140 0.P50 c.0 0.0 0.? cea a.a n.9 0 185 0 0 009 0.280 0.J50 G.0 0.0 1.0 3.7 3.3 s.O J.339 LSE 7.009 0.?d0 0.550 0.? 1.0 0.9 5.9 a.1 3.r i.33'8 SE 0.C11 0 330 0.1*0 0.C93 00 0.0 C.1 0.0 0.0 0.621 95E n.005 0 143 0.610 0.970 0.573 1 130 0.190 1.1 a.3 3.?!A .
5 0 0C9 0 26C 1. 140 C.750 3 570 0. 71 0 0.990 23 02 3.451 tsW S.P17 0.526 ?.361 1.130 0.66a e.7S* a.1 7.1 c.t* 5.43u SW 3.C11 0.330 2.401 1 441 3.850 0.393 3.n 00 r.? 5.812 WSW o.9 0.t 9.P50 1.290 ?.S 0.n S.* C.3 0.* -1t111_,
W- 0 075 C.140 0.422 1.1"3 02 07 3.050 7.0~ 00 0.005 WNW 0.011 0.330 0.330 0.540 0.9 C.9 0.P ~ C.S 1,f Laj}1__
Nd 0 005 0 140 0 300 0.24r 0 190 G.193 00 't . 0 0.* 1.145 NNW 0.SC9 0 ?90 0.71 3 0.520 0.190 0. 150 0.a 0.0 9 . ." 1.799
,.e TOTALS 0.141 4.221 14.723 8 63? 4.441 3 541 0.350 0.0 36 0?*
ST Apit if Y class 7 WIND SPECOS IN MtT[R$ PCP SECOND FROM THE SECT 0*$ LNDICATFD SECTOR 0 13 0.45 1 10 1."9 2.Pc 4 45 6.at 95' 13 00' TOTAL $
N i.0 0 330 3 481 C.280 0 05C c.t 0.9 0.0 c.n 4 151 NNE 0.0 0.520 3.011 0.42" ?.6 0.e 3.1 n.7 0.a 4.PS1 NE 0.0 0 330 0.900 0.0 G.0 03 C.0 00 70 1.231 FNE 00 0 140 0 150 C.0 (.0 0.? ?.0 3.3 0.0 3.190 L 00 0.050 0.C50 0.0 0.0 0.0 00 0.0 0.0 -0.100 ESE 0.0 0 090 0.390 0.? 00 1." 00 0.? 3? 0.140 SE 00 0 050 0.050 00 00- non 0.n a.3 ?.0 3 10c SSE 0.0 0.190 0.330 0.0 0.0 0.a ?.0 0.0 3.0 0.52*
S 0.0 00 0.380 3 399 00 00 0.3 C.0 -00 7 473
$$W 00 0.050 0.940 0 33* 9.0 3.0 0.1 9.0 0.0 1.32P SW 0.0 0.050 0 710 0.260 0.0 0.7 0.0 0.0 0.C 1.043 WSW 0.0 'O.090 0.C50 0.8 0.0 0.9 00 9.0 90 0 140 W 00 0.050 0 190- 0.250 00 0.3 C.0 0.0 00 3.290 JNW 0.0 0.0 0.140 0.140 0.0 .3.a S.S 9.0 00 3 290 NW- 00 00 0.140 0 190 00 0.1 - 00 00 0.0 J.333 NNW 0.0 _ 0.190 0.750 0.420 0.0 0.? ?.? n.0 30 1 36* ,
TOTALS 0.0 2 130 12 133 2 200 0.05C 0.a 00 0.0 00 16.514
._ s.
i TABLE 6 (CONT'D) stan11_III etAss c.
uten corrne tu urtree era err nun team tur cr e r na e wi t r a r r n SECTOR 0 13 0 45 1 10 1 99 2 40 4.45 6.91 9.S9 13 70 TOTALS N 30 0 050 0 093 0.090 0.0 3.* 3.3 0." 3.0 0 23:
NNE 0.0 0.099 1.$60 9.9 0.0 la ? **U ?.S L. S 1m O.L NC 0.0 9.090 0.610 0.3 0.0 0.? 0.2 f.C t.' 3.70C rur o.e e.e91 e.ess s.9 e.S S.a e . t. a.9 t.? 1.14e
[ 03 0.393 03 C.3 0.0 0.0 0.0 0 . C.0 0 39' Est a.S 9.a 0.M0 9,9 e.e 0,c 'e.9 1.D 34 9 idi SE 0.0 0.140 0 250 0.1 0.0 90 90 3.0 0.0 2.192
-SSE D.0 0.330 3.*50 0.9 f.? a.* f.* e ,L 039 0 34L
$ 00 0 093 0 2PC 3.? 00 0.0 3.G d . "- C.C Q.370 teu eo e.e a.Mac a. nn i.e 1.* a.- 9.a <, . 6 SW 0.0 0.0 9.a t 0 240 0 090 !.C 0.0 f." 10 00 C.339 unw 9.9 e.rsa e d5WO 0.0 1.9 S.9 ano E.$ S.13e W 30 00 00 0.0 0.5 a . r- 3.0 0.0 e.a 1.0 vn 9.6 e.e tc5 0 . . S .2___ t.1 a.- r,? 3 tu . e hcit Nw we 0.0 0.0 c.rst c.) 30 9.a 0.c -?.2 00 2.cse a.e e.n c.a 3.3 ,.e e., a.. e., ~.. e.n TOTAtt c.0 1.82s 3.511 0.233 0.8 0.9 c,3_, j .3 , g ,e gyg j s
5
-i i
_ 2 TABLE 7 9
=
=
F SEQUOYAll NUCLEAR PLANT - INDIVIDUAL DOSES FROM GASEOUS EFFLUENTS -1:
FIRST QUARTER 1982
]=
_ Effluent Pathway Guideline
- Point Dose h, Noble gases 1 T Air dose 10 Max. Exp.1 2.4x102 mrad E Air dose 20 Max. Exp.1 1.3x10~1 mrad Total body 2 5 Residence 3 1.6x102 mrem Skin 2 15 Residence 3 3.2x102 mrem Iodines / I
(
particulates 4
=
Bone 15 Real A e (critical organ) Pathway 4 1.3x102 mrem Breakdown of Iodine / Particulate Exposures (mrem)
L Child
. Adult -
Beef ingestion 5 -
1.5x10 s 1.8x10~5 3 Inhalation 4.5x105 3.0x10 s Vegetable ingestion g 1.3x102 5.9x10~3
, Ground contamination 1.3x108 1.3x10~8 j Total 1.3x102 5.9x10~3 i
-kThese are the annual guidelines per unit defined by Appendix I to 10 CFR 50. 'i
- 1. Maximum exposure point is at 1,840 meters in the SSW sector.
- 2. Dose from air submersion.
- 3. Receptor is at 2,250 meters in the SSW sector. -
- 4. Real pathway location is at 2,750 meters in the SSW sector.
_ 5. Maximum exposure point is at 2,600 meters in the NNE sector.
v g
F ln J :
b Q d
i I ,
I
C
'_^
TABLE 8 c
- SEJ[UOYAll NUCLEAR PLANT - INDIVIDUAL DOSES FROM GASEOUS EIT_L_UENTS 'I SECOND QUARTER 1982 _
i A
Effluent Pathway Guideline
- Point Dose
, Noble gases T Air dose 10 Max. Exp.1 1.6x10~1 mrad
$ p Air dose 20 Max. Exp.8 7.lx10~8 mrad _
Total body 2 5 Pasidences 1.3x10~1 mrem _
Skin 2 15 Residence 3 2.5x10~1 mrem {
lodines/ ,
particulates I GI Tract 15 Real '
(critical orgae) Pathway 4 1.2x10~1 mrem Breakdown of lodinefParticulate Exposures (mrem) -
Teen Adult -
1 -
Beef ingestion 5 4.0x10~3 7.6x10~3
, Inhalation 7.8x10~4 8.8x10~4 r -
- Vegetable ingestion 1.0x10~1 1.0x101 '-
E Ground contamination 1.5x102 1.5x102 .
t 5
Total 1.2x101 1.2x101 m .
- I These are the annual guidelines per unit defir.ed by Appendix I to 10 CI'R 50. #
- 1. Maximum exposure point is at 730 meters in the NNW sector. ,
- 2. Dose from air submersion.
L
- 3. Receptor is at 781 meters in the NNW sector.
i 4. Real pathway location is at 1,344 meters in the N -_,
' sector.
- 5. Maximum exposure point is at 688 meters in the NW sector.
- m ir _-
N _
7~
TABLE 9 SEQUOYAH NUCLEAR' PLANT - INDIVIDUAL DOSES FROM GASEOUS EFFLUENTS
-THIRD-QUARTER 1982 Effluent Pathway Guideline
- Point Dose Noble gases T Air dose 10 Max. Exp.1 2.0x10~1 mrad S Air dose 20- Max. Exp.1 1.1x10+0 mrad Total body 2 5 Residence 8 9.5x102 mrem Skins 15 Residence 3 2.0x10~1 mres' Iodines /
particulates Thyroid 15 Real (critical organ)- Pathway 4 ,
2.9x10'3 mrem Breakdown of Iodine / Particulate Exposures (mres)
Child Adult
~
Vegetable ingestion 2.4x10 8 1.1x10~3
~
Beef ingestion 5 1.1x10 5 1.0x10 s
~
Inhalation 4.4x10 4 2.2x10~4
~
Ground contamination 5.2x10 7 '5.2x10~7
~
Total '2.9x10 3 1.3x10~8
- These are.the annual guidelines per unit defined by Appendix I to 10 CFR 50.
- 1. Maximum exposure point is at 1,570 meters in the S sector.
- 2. Dose ~from alr submersion.
- 3. Receptor'.is at'2,375 meters in the S sector.
'4. Maximum-exposure point is at 1,344 meters in the N sector.
5.- Maximum exposure point is at 688 metersiin the NW sector.
___ .__m--- - - - -
TABLE 10 1
SEQUOYAH NUCLEAR PLANT - INDIVIDUAL DOSES FROM GASEOUS EFFLUENTS FOURTH QUARTER 1982 Effluent Pathway Guideline
- Point Dose Noble gases T Air dose 10 Max. Exp.1 3.6x102 mrad p Air dose 20 Max. Exp.1 2.0x10~1 mrad Total body 2 5 Residence 3 2.8x102 aren Skins 15 Residence 3 5.8x102 ares
.lodines/
particulates Thyroid 15 Real (critical organ) Pathway 4 7.7x103 mres l
Breakdown of Iodine / Particulate Exposures (area)
Child Adult Vegetable ingestion 5.3x103 2.5x10~3 Beef . ingestion 5 4.0x10~5 3.6x10~5 Inhalation 1.4x103 6.7x10~4 {
j Ground contamination -9.4x104 9.4x104 Total 7.7x10~8 4.1x10 s
- These are the annual guidelines per unit defined by Appendix 1 to 10 CFR 50.
- 1. Maximum exposure point is at 730 meters in the NNW sector.
- 2. Dose from air submersion.
- 3. Receptor is at 781 meters in the NNW sector.
- 4. ~ Receptor is located at 1,344 meters in the N sector.
- 5. Pathway is located at 1,524 meters in the NNW sector.
4
emgn. . - w w w.um,--- --.-* m-- - - - - - e*=-
TABLE 11 SEQUOYAH NUCLEAR PLANT -
GASEOUS EFFLUENT POPULATION DOSES FIRST QUARTER 1982 liver _laone -
I MF Afs t CHILD TEE 4 ADULT TOTALS IP4F A*ir C4ILC TCEN AUtiCr f$TALs SUR*ERSION 3.3*E-03 2.0FE-02 1. 33 E - 32 6.14E-C2 ".83E-02
, 3.340-03 2.0*E-C2 1.33E-02 6.14 E-02 9.sbE-02 se OU40 1 71E-05 1 07E-G4 6.TvE-01 3 13E-38 5.06E-35 1. T I E - 0 '4 1.tFE-Oe 6.F9E-09 3.15E-JB 5.06E-08 kNt' AL AT ION 1.74E-04 2.25E-O F '.42E-Os 3.17E-C 7 6.52E-07 5.71E-C5 1.3CL-G4 5.96E-35 2.53E-04 4.52EI DT7 COW MILE 5 30E-Ca 1.35E-C7 4.0FE-08 1.37L-07 3.66F-31 2.2hE-05 1.2et-04 3.94E-05 1.66E-04 3.56E-04 SEEF INGESTION C.0 4.59E-09 2.2JE-09 1.19E-09 1.3TL-Cm 0.0 2.43E-GS 1.18E-C5 3.05E-05 1.16E-c4 VEG INGESTIO80 0.0 4 60 E-C as 2.24E-04 1.15E-Or 1.M3E-37 C.0 3.61E-04 1. ACE-04 1.160-03 1.7DE-G3 TOYAL #AM-RFM 3.34E-03 2.0er-02 1.35E-32 6.14E-02 9.9AE-02 3.370-03 2.15E-02 1.35E-02 6. 31 E- 02 1.01E-01 SECOND QUARTER 1982 9.i. tract lung
{tJA%T CH}[O IUN AOULT r5Ydi3 INr A 4T tw KD TCEN auuli susats SC E *E r O 10:4 1.15L-02 1.3hl-C1 6.%/E-J4 3.1*L-01 '2.13 t. - J A 1.75t-d2 1.UsE-01 6.tiL-32 J.let-ul 3.IJL-ul G"0 N 1*3*E-C3 . 3 t t - 3 5 ",. 535-33 2. 4 7E-42 4.3 f f .2 1. pt7 6T-- Q )c-ca 5.a3L-a3 g.grg-uz J.w it-U z-IhMALATICM 4.100-C'. 1.11E-03 1. 3 -:- D f . 51FO'3~ W E70~J G"WU3 J . 6 3 F C2 z. gut-uz 6 4TL-uz 1 26t-UX Com MILM 1. C .' L- G o 7 . e t -i,
- 6.37t-G9 3.J*L-03 4.nfL-15 c., D.L u.E v.u u.u BEEF I NGL O T I P4 0.0 3.50E-03 5.G h-35 4. 2 *et-J 2 5.T4T- G 2 c.y U.G U.u u.u u.u VEG 17.GE S T I Ltd u.J 5. 3i,E -C 3 3.95'.-35 3.15E-G2 3.E2L-;J 0.a L.; u.u u.u u.u TOTAL M A N -W EM 1.nME-02 1.250-31 3.51E-02 4.2?E-01 6.57F-91 2. t r,E- 0 2 1.5Er-01 9.4DE-02 4.0eE-01 6.78E-01 h
1
TABLE 11 (CONT'D)
THIRD QUARTER 1982
~~ ^
THY 40!D . TOTAL-BSDY thFANT CHILD IEEN A 3 ULT TOTALS I F;F ANT
.~~.'
C4ILO TEEN ' ADULT TOTALS SUMMCASIOh 1.63E-02 1.02E-01 6.47E-02 3.00E-01 4.82[-01 1.63E-02 1.02F-01 6.4FE-02 3.00E-01 't.02E-01
_' G.R O.U_N__D ' 3. 2. F E_- 0 8.._ 2 .,0 4 E 0 7. . 1. 3C. E 0._7..
6.02E-07.. S.68E-07 . _ 3.27E 08 .
,2 0 4 E-0 7._1_. 30E-0 7__6_. 02 E _17___9.68E
_*7 INHAL ATION 1.05E-04 1. 0 6E-0 3 4.11E-04 1.5FE-03 1.50E-07 3.15E-03 .
1.92C-06 7.94E-07 2.R4E-06 5.69E-06 COW MILK 5 _3,0 E- 04 1. 36. E 3_ ._3. 61E.. 0 4 1. 3 7.. E-0 3 3. 61 E-9 3_ ._ . 7. 11 E ._0 7. _2. 3 4.E. 6. 1 E - 0 6
. .C 6. _.6__. 6 6_E -0 7.. _. ,,,,, _1
. 2.39E_06
_R.E_E._F_I.N.E E_.S._T. .I O N0_. 0.
. . . 4. ._0 5E -0.5._ 3 72.E,-.0_5 1.05E-04 1.62E-04 .._0.0 7. gee CP 3.21E_.04,_,1.65E _-07 _2.49E-07 VEG INGESTION 0.0 4.0dE-04 1.75E-04 1 01E-03 1.59E-03 0.0 7.21E-07 3.29E-07 1.85[-06~ 2.95E-C6
' TOTAL MA4-REN l i & 9C'-02 ~' 1.0 4E-01 '6.56E-02" 3.04E-01 9,91E-01 - ~1.63E-02 1.02 C-01' G~.47E-327.30 E-st-~~4.82E-01 FOURTH QUARTER 1982, Twwanin intar anny INFANT CHILD TEEN A DUL T TOTALS INFANT EHILO TEEN ADULT TOTALS SuSNERSION 3,92E-03 2 44E-r2 1 56E-02 7 21E-32 1,16E-01 3.92E-03 2,44[ 62 1 56E-02 7.22C+62 1 16(=C1 GROUND , 4,04E-04 6.31E-04 4.02r=04 1. t & E e 33 3,0JE-05 1.01E-"4 6.380-04 4.?2E-04 1.e6E-03 3 00E-03 INHALATION 4.04L-94 4.91E-23 1 0PC-05 7.13C-13 1.44E-02 1.L6E-G6 1 52E+e5 6.31E-06 2.39E-05 4.65E-05 COW HILK 1,6TE-c3 4 29E-r3 1.14E-03 4.31E-03 1.14r-02 6.93E-06 3.45E-05 1.t7E-05 4.41E-05 9.e2E-t5 BEEF INGESTION -0.0 1,51E-C4 6.41E-05 3.9GE-04 6.36E-04 0.0 1.29r-C4 5.53E-05 3 23E-04 5 07E-04 VEG INGESTION 00 1 52E-33 6.54E-04 3.77E-03 5.94E-C3 ".3 - *.91E-05 4 26E-05 2 34E-34 3.76E-04 infAL MAN-arm 6.1&r-G3 3.59E-f2 ~ 1.97T-02 A.85F=02 1.51r-91 4.93r-t3 2.53E-P) 1.'61 r- 0 2 7.49r-t2 1.2cr-et
- r?t g .. . ;., _,
,,.-...;,e,... '7 '-'"yl . y 7 . ;. , , - , , . , , . . . g , . . , , ,, . _ .
.,.T4 ., -; . ,,. e :, - ] ....
,5 e ,- .s <
, ew .- m.,.. . , .,,.,t,,
. , ., , . . . . , . , , . . . ' 4 3.,..,_, , ., _ - :. .
I TABLE 12 LIQUID EFFLUENT DOSES SEQUOYAH NUCLEAR PLANT ROUTINE RELEASES FIRST QUARTER 1982
- c- m +. Y,.sa.%VM:*. ,% s urr o +
I, . . . / ~ '
..e .r .. . -
^~ "
BONE GI TRACT THY 90!D TOTAL 800Y ?.s.r LIVER: M% - :^ % .SKIb ff'??
l ==== == ===== ======= ===== ==== ===== ===
!. W AJJR INGE S TIO N AT
- ICE AMERICA, INC. (VAAP) ^
'L A. MAXIMUM INDIVIOUAL CHILO (MREM) e.1E-03 2.~5Cr0 3 z.1T-oJ , z.Ii-us - 2;1r;U3*
- J R. M AX I PUM IN0!v! DUAL' ADULT (MREM 3.4E 3 2. 7r. C 3 2'.'3r:t3 1.6E-C3 1. 4 E-C 3
- 1.4E-03' 1.4E _. ,
-Je; C. TENNESSEE RIVER POPULATION (MAN-REMD 4.5L-61 2.SC-01 ___ 1.R CM1 I;6E;OI i . GC D I-- ----~176E Cg e-
'~~~ ' ~
_ II. FISH INGESTION FROM ~ ~ ~ ~ ~ ~~'
.C.H,ICK A M AU_G A_L AKr _B ELOW SQN _ _ _
l
- 4. MArIMUM INDIVIOU AL CHILD (MAEF) 3.sE-52 1. 0 E - 0 2 2.2E-03 2.1E-53 9. 5 E -0 3 2.1E-03 B. MAXIPUM If,0!W10UAL ADULT ( .* P E M ) . .
2.V-Y JM2 0 J 3.;r-;3 3.2 L-0 3 4. H -U J J . Z L - U .:
C. TINNESSEE *IVER PCPULATION ( M AN-4 Ew ) 2.0E+03 2. 4 F+ C ; 2.2r-01 2.1E-C1 3.5 E -01 2.1E-01
~
III. RECREATION AT ~ ~ ' - ~ ~~
CHICK AM AUG A L AME t$ELOW SON
- 4. SHOREL1 ht I ADIVI DUAL (MR EMt 9.%E-02 7. 4 F - 32 6.7 E-C2 ' ~7. i E; C 2~'~ ~ ~ ~ W.' 6 0;U 2 %3E-0 2 -
- POPULA TI.ON ( MA N-R E M )
_. 6. 3 E . 02_.
5.30-32 _ 4 . r F- 02_ _. _ _._S__. 5 E - 02 4.70-02 6. 7E - 0 2__.
9 IN-WATER INDIVIOUAL ( M RE MI 1.4E-Ci I.3C-03 1.3r-03 1.30-03 1.1 E -0 3 1.5E-03 POPUL AT ION (MAN-REM) 2.1T2 0^4~ ~1'.4 0 4' IDC'ET' L.M.-c4 L . s t - F,4 z.zt-99
~
^
C. AM VE-W ATER DDlVIDOAT TPREFI 1. 4 E s0 3 - ~ 1.3r-03~ 1. 5 r 0 3---- 1.2 c; g 3 1.17 . g 3 1. 5 t.gz --
POPULATION (MA1-RE*1 5.SE-64 4.7f-04 4 .90 -04 4.*E-04 4.2 C-0 4 5.3E-34
- I.V. TOTAL- - - - . _ - - _ _ _ _ _ _ _ _ . . . _ _ _ _ . . . _ _ _ _ _ _ _
A. MAXIMUM INDIVIDUAL CHILD (MREM) 1.4E-31 a.0E-02 7.45'-C2 S. 4E-C2 7.4E-02 1.CE-01 M'. MATIPUM IND19!DiTTL ADOT. M MRi.A> -- ~ f.~2 E- O l ~" - 1.2 901 ~ ~~ G4 F z a.sc-c7 r. 4T;77 r.70-c i C. TFNNESS EE R IVER POPUL A TI ON ( 't 4N-R EM I 2.5C+C1 2. r E + 0 3 __
4.4E-01 4.3E-31 5.6E-01 4.4E-01 l
220 220 21 44 44 11 0 000 000 00 00 00 000
- - + - -
- IN.
K .
. - - +
EEE 512 EEE 292 EE 35 EE 03 EE 87 EEE 255 S.
111 364 71 93 88 1 15 220 11 0 21 44 44 11 0 000 000 00 A0 00 000 R= - - + - - + - - - - - - - - +
E =
V = _ EEE 723 EEE 006 EE
- l. l.
EE 63 EE
- 4. .l EEE 771 IL= = _ 1l1 11 7 51 62 66 1 1 9 Y e .
Dm Oa Rs 220 000
- - +
EEE 220 000
- - +
EEE 21 00 EE
+4
'00 EE 44 00 EE 1 1 0 000 EEE Ls A s _ 5. l. 2 292
- l. 3 57 41 1 45
- 1 1 5 T e Os 111 364 61 7 2 77_
T s 220 220 21 44 44 1 1 0 00 00 00 000 0= 000 000 1 = - - + - - + - - - - - - - - +
0= EEE EEE EE EE EE EEE 53 355 S
R=
Y =
_ 72.l. 7. *. 3 3. l. 4. l. 1
- E M=
T =
322 374 51 76 1 1 6 S
A 7_ 2
- E _
L _
E 220 220 21 44 44 21 0 R T = 000 6 00 00 00 00 0 00 C= - - - - + - - - - - - - - +
S E a = FEE FFE EE EE EE EEE 2 N 2 a= 423 555 82 66 57 029 S I 8 T =
O T 9 11 1 141 51 72 76 91 D U 1 T =
O G= -
3_
T R R 3 N E _ _
1 E T T U N R 220 11 1 21 44 44 1 1 L E L A A 000 000 00 00 00 0 00 L F L U - - + - - + - - - - - - _ - - +
FFE B F P Q E = FEE F EE FE EE FE _
A N = 592 94 62 44 803 T
E R D 0= R.1. .l _
6= 112 542 61 83 88 D A N I E O _ 652_
U L C _
QC E _ _
I U S _
LN H
A Y
O
)
M I
M _ )
M_
E E _ E U Q R B Q - . - )
E S H )M A EEM N _
N )w A EEM N
)
M
_ ) ) R M
E )MMA EEM
) R.
E H2(
( (
w N .
RR(
" M
( ( N M) -R )
_M E
R 4
EN RA
- RR L_
(MM ( N_
_ O O EN M - MM O OTI OTI RA EN ( ( OTI LLT LLT RA LLT I UA I UA (MM( LN I UA
_ HOL MDL wM(
( AO HDL CA U N N LN _ 0I CAU
_ D D 3 AO LN 3T P
_) LLO AAP U GAUA_A P L& S uI DT AO UI
! A VL
_ LLO A AP A f t U d yU w I A DT I U _
UU
_PA DDR 0 L
DDR IIE o
L VL IU lA lL DP NO
._ DDR
_V I! E VvV E V.V V E DP lU IP _ IIVVV E T
_(. l!I OOR wB 0
JII ODR R NO IP QP NO R I I I DDR A C NN RE N_ N E I P E NN N IIE FK LIE K E T IIE N I E E - A N R A E O MMS NtA. M MS L I _ E W MMS I
JA
. UdS MvE O
I A U US M ME .
T A A L _
E _ W T
A E._ UUS MME SC (I
GR II N xXN aAE TG SU EA II N X ( N A AE
-. ONuGA R OM
_ -N B
V O
_ II N XXN AAE NE M M.T GM + MT 4
I M S _ I A MMT I M NA T A _
A . . . IK . . .. _ A K . _ . . .. .
R ABC ARC . ECI A _ B C EI 4' C I
. CHR L
A A8c TC _ SM _ _ T AI IC EC O d F _ R _
T
_. ~
I _ I _
I _ _ V I I _ I
_ J_ _
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..!.l . r TABLE 14 LIQUID EFFLUENT DOSES SEQUOYAH NUCLEAR PLANT ROUTINE RELEASES THIRD QUARTER 1982
- 4. v ~ . v. m
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_ __. __ _ _ __ __. 80NE GI TRACT THYROIO _ TOTAL _ BODY _____ LIVER ' SKIN _ '4
==== == ===== ======= ===== ==== u==== ==== 7 la_WAIER INGESTION AT _ _ _ _ _ _ _ _ _ _ ___ _ _ . _ __ _ _ .
'T l
l ICI AMERICA. INC. (VAAP)
A. MAKIMUM INDIVIOUAL CHILD (MREM) 1.2E-02 7.8E-03 3 7E-02 7.4E-03 8.SE-03 7.4E-03 R. MAKIMVM_INDIVIOyAL_ADULI (MREM) . 6.6E-03 7.3E-03 2 0E-02 5.7E-03 _5 8E-03 S.7E-03 C. TENNESSEE RIVER POPULATION (MAN-REM) A.3E-01 7.7E-01 2.lE+00 6.6E-01 7.0E-01 6.6E-01 II. FISH INGESTION FROM
. __ ._. CHICKAMAUGJLt.AKE 8ELOW SON _ . _ _
_ A. MAXIMoM 1901X100M CHILD (EREM) 1 4E-01__ 4 0E-03 _ l.8E-02 _ .__.l.2E-02 4.7E-02 1,2E-02
- 8. MAKIMUM INDIVIDUAL ADULT (MREM) 9.7E-02 1.3E-02 4.3E-02 3.6E-02 5.lE-02 3.6E-02
_ . _ _ C. TENNESSEE RIVER PO?ULATION (MAN-REM) 7.2r.no 7.0E-01 3.lE+00 2.8E+00 4.9E.00 _____ 2.8E+00
_IIJ . RECRE ATION AT CHICKAMAUGA LAME BELow S3N A. SHORELINE INDIVIDUAL (MPEra ) 2.0E-01 1.7E-01 1.5E-01 1.8E-01 1 5E-01 2.1E-01
_____ POPULA_ TION (MAN-REM) 6.6r-nl S.6E-nl s.0E-01 5.8E-01 4.9E-01 7.0E-01 l
_J} . I N-WAT E R_ I ND I V_LDV D A L_._(.M_ REM ) 1.3E-03 9.7E-04 A.4E-04 1.1E-03 9 0E-04 1 3E-03 P000LATION (MAN-REM) 1.4E-03 1.!e-93 9.2E-04 1.lE-03 9.8E-04 1.4E-03 i 1
~
C. ABOVE-WATER ~'NDIVISUAL I (MREM) 1.2r-03 9.5F-04 R.3E-04 1.0E-03 '8.8E-04 1.3E-03 POP'lL A T I ON (MAN-REM) 3.6E-03 d.RE-08 2 4E-03 3.0E-03 P.6E-03 3.TE-03 IV. TOTAL A. M4(IMUM INDIVIDUAL CHILD (MoEM) 3.5F-01 1.8E-nl 2.lE-01 2.0E-01 7.lE-01 2.3E-01
- 8. M A t ! MtN INDIVIOUAL ADULT (MPEM) 3.lE-01 1.7E-01 2.2E-01 2.2E-01 2.lE-01 2.3E-01
_ _C._TE*!ESSEE RIVER PODULATION (MAN-REM) a.7F.no 2. 0 E + 0.0 A.7E+00 4.lE+00 6.lE+00 4.2E+00 l
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TABLE 15 LIQUID EFFLUENT DOSES SEQUOYAH NUCLEAR PLANT ROUTINE RELEASES FOURTH QUARTER 1982 BONE GI TRACT THYROID TOTAL 803Y LIVER SKIN' +
== ===== ======= ===== ==== =====
- 1. WATER INGESTION AT Ici AMERICA, INC. (VAAP)
A. MAXIMUM INDIVIDUAL CHILD (MREM) 7.6E-03 6.3E-03 7.0E-03 3.9E-03 3 0E-03 3 9E-03 B. MAXIMUM INDIVIDUAL ADULT (MREM) 3.30-03 1.1L-02 3.6E-03 2.1E-03 1 8E-03 2.1E-03 l C. TENNESSEE RIVER POPULATION (MAN-PEM) *.4E-01 4.4E-01 4.2f!T1 2.6E-01 2.2E-01 2 6E-01 II. FISH Ih6ESTION Fhom CHICKAMAUGA LANE 8ELOW SON A. MAXIMUM INDIVIDUAL CHILD (MREM) 9.62-02 2.2E-02 6 9E-03 6.1E-E3 1.0E-02 6.1E-03
- 9. MAXIMUM INDIVIDUAL ADULT (MREr> 6.et-02 9 5E-02 6.3E-03 7.6E-03 1.1E-02 7.6E-03 C. TENNESSEE RTVER POPULATION ("AN-RFM) 4.6f*00 5.5E+00 5.9E-01 5.6E-C1 4.5E-01 5.6E-01 III. RECREATION AT CHICNAMAUGA LANE BELOW SON
- 4. SHORELINE INDIVIDUAL (MPEMI 1.TE*00 1.5E+00 ~T.~3} + 0 C 1 5E*00 1.3E*00 1.8E*00 POPUL A TICN (MAN-REM) 2.6r.00 2.3F+00 2.1E+00 2.4E+CD 1.0E+00 2.SE+0D
- 9. IN-WATER INDIVIDUAL (MRE") 5.Dr.c3 g.cr.03 3.5E-33 4.3E-03 3.5E-03 5.2E-03 POPUL A TION (MAN-REM) 2.7E-03 2.2E-03 1.9f-03 2.3E-03 2.0E-03 2. 8TT63 l l
C. AB0VE-WATE' INDIVIDUAL (" REM) 4.*E-03 3.9E-03 3 4LIf3 4'!21 ;'03 3.5f!63 5.1E-03 POPULATION (M AN-R EM ) 7.1E-03 5.7L-0? 5.1E-03 E.1E-03 5.2C-03 7.5E-03 1
IV. TOTAL I l
A. Max! MUM INDIVIDUAL CHILD (FREM) 1.Ef+00 1.5E+00 1.4E+00 1.5E+00
~-
1.3E+a0 1.gr.00
- e. Max! MUM INDIVIDUAL ADULT (MREM) 1.9E+00 1.6E+00 1 4E+00 1.tE+L0- 1.3 fi C D 1.3rT50 C. TENNESSEE RIVER POPULATION ( M a r;- P i n ) 7.7r.C0 8.02 00 3.10 0C 3.2E+06 3.1E+C0 3.6[+00
--- m m ,m . . , . . _ _
1 TABLE 16 SEQUOYAH NUCLEAR PLANT THREE YEAR
SUMMARY
OF QUARTERLY DOSES Air Submersion Real Pathway Liquids Effluents Air-T Air- Skin T.B. Max. Organ T.B. Max. Organ Year Quarter (mrad) (mrad) (mrem) (mrem) (mrem) (mrem) (mrem) 1980 1 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1.8x10 11 7 l 2 1.8x10 0 0 0.02 bone 0.02 0.06 GIT l 3 0.01 0.01 0.02 0.01 3.1x107 GIT 0.35 9.1 bone
- 4 0.21 1.3 0.27 0.12 0.17 bone 0.53 14 bone
- 1981 1.3 0.35 4 1 0.23 0.18 2.8x10 GIT 0.28 6.9 bone 2 0.06 0.28 0.10 0.05 0.03 Thyr. 0.06 0.34 bone **
3 0.28 1.5 0.44 0.22 6.4x10 Thyr. 0.16 0.99 bone 4 0.12 0.68 0.16 0.08 3.3x10 4 bone 0.03 0.30 bone 1982 1 0.02 0.13 0.03 0.02 0.01 bone 0.09 0.14 bone 2 0.16 0.71 0.25 0.13 0.12 GIT 0.14 0.68 bone 3 0.20 1.10 0.20 0.10 0.003 Thyr. 0.22 0.35 bone 4 0.04 0.20 0.06 0.03 0.008 Thyr. 1.5 1.8 bone
- The validity of these doses is discussed in TVA report RH-81-2-SQ1, " Radiological Impact Assessment, Sequoyah Nuclear Plant, July - December 1980."
- During 1st Quarter 1981, operation of additional radwaste equipment was initiated to reduce P-32 releases.
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l ENCLOSURE 3 TABLE I-1 October 22, 1971 CTRR 5 Mw ,
NUCLEAR INSTRUMENTATION Scram Alnrm Instrument Name and Indicator Chamber Type - Annunciator Function Location and Location Circuit Designation Annunciator Plate Alarm Circuit Pinte Flux Amplifier No.1 CA UIC a. Power Trip No.1 Power Trip No.1 power range monitor (H10)
- b. Trouble Sig. Low Ion Chamber {
l
-Low Voltage Voltage
-Channel Check Pulse -
- c. Calib. Sw. Calib. Sw.
Flux Amplifier No.2 CR UIC a. Power Trip No.2 Power Trip No.2 power range monitor (1117) b. Trouble Sig. Low Ion Chamber
-Low Voltage Voltage
-Channel Check Pulse
- c. Calib. Sw. Calib. Sw.
Log N-Period Ampli- CR CIC Pos. Period Pos. Period -
fier No.1 (H22B) Neg. Period Neg. Period intermediate range Ion Chamber Volt. Low Ion Chamber
^
monitor Volt.
Chassis Intik. Calib. Sw.
Calib. Sw.
Log N-Period Ampli- CR CIC Pos. Period Pos. Period fier No.2 (H218) Neg. Period Neg Period intermediate range Ion Chamber Volt. Low Ion Chamber monitor Volt.
Chassis Intik. Calib. Sw.
Calib. Sw.
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