ML20136F854
| ML20136F854 | |
| Person / Time | |
|---|---|
| Site: | Oconee, Mcguire, Catawba, McGuire, 05000000 |
| Issue date: | 03/01/1985 |
| From: | Tucker H DUKE POWER CO. |
| To: | Grace J NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION II) |
| Shared Package | |
| ML20099J651 | List: |
| References | |
| NUDOCS 8503200025 | |
| Download: ML20136F854 (3) | |
Text
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DUKE PowEn Go>ituxv l'.O. ISOX WllilD Cll Altl.OTTli, N.G. 2152 4 2 HAL H. Tt*CKr.R nin.eiow VIeItPWPSIDFST NET.LFA A Peopt E.ttwa (70 {} (l7l) -$$){
March 1, 1985 Dr. J. Nelson Grace, Regional Administrator U. S. Nuclear Regulatory Commission - Region II 101 Marietta Street NW, Suite 2900 Atlanta, Georgia 30323
Subject:
McGuire Nuclear Station Docket Nos. 50-369/370 Semi-Annual Radioactive Effluent Pelease Report
Dear Sir:
Pursuant McGuire Nuclear Station's Technical Specification 6.9.1.7, attached is the Semi-Annual Radioactive Effluent Release Report for McGuire Nuclear Station, covering the period of July to December, 1984. The Report consists of five parts. Attachment I contains a summary of the solid, liquid, and gaseous wastes which were released from McGuire during the period, including dose assessments.
Attachment II presents meteorological data for the calender year 1984, in terms of a summry of joint frequency distributions of wind direction, wind speed, and atmospheric stability. Attachment III lists other reportable events that occurred during the period, which fall within the scope of this report. Attachment IV is Revision 5 of the Of f-Site Dose Calculation Manual (ODCM), copy number 29. Also enclosed is copy number 22 of Duke Power Company's revised Process Control Program (PCP). This program manual is applicable to McGuire, Catawba (Docket Nos. 50-413/414) and Oconce (Docket Nos. 50-269/270/287, and replaces entirely existing control copies of the PCP. By copy of this letter, the resident inspectors at Catawba, McGuire, and Oconre will also receive copies (numbers 23, 24, and 25 respectively) of the Manual, as will the Office of Nuclear Reactor Regulation (Nos. 26-31).
If any additional information is desired, plea'se call Scott Gewehr at (704)373-7581.
Please note also that Revision 4 of the Off-Site Dose Calculation Manual was transmitted to ONRR during this period, by letter of August 16, 1984 (H. B. Tucker to H. R. Denton).
As a result of radiation releases from McGuire Nuclear Station, no member of the public received an annual calculated dose exceeding those set forth in 40 CFR Part 190. This determination was made considering that there are no other fuel cycle facilities nearby which would significantly increase the dose to any member of the public.
Very trulv yours, 1
7MGLnw Hal B. Tucker r p ) e W} \ d/'
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'8503200025 850301 pDR--ADOCK< 05000M g- PDR 1
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f Dr. J. Nelson Grace, Regional Administrator March 1, 1985 Page cc: (w/ Attachments I, II, III, Copies 1-10 of Attachment IV, and Copies 26-31 of Enclosure):
Mr. Harold R. Denton Office of Nuclear Reactor Regulation U. S. Nuclear Regulatory Commission Washington, D. C. 20555 i
(w/ Attachments I, II, III, Copy No. 30 of Attachment IV, Copy No. 24 of Encl.) I Mr. W. T. Orders 1 I
Senior Resident Inspector McGuire Nuclear Station (w/ Attachments I, II, III, Copy No. 33 of Attachment IV, Copy No. 23 of Encl.)
P. H. Skinner Resident Inspector Catawba Nuclear Station l (w/ Attachments I, II, III, Copy No. 41 of Attachment IV, Copy 25 of Encl.
J. C. Bryant Resident Inspector Oconee Nuclear Station i Ibu
Dr. J. Nelson Grace, Regional Administrator March 1, 1985 Page bec: K. S. Canady N. A. Rutherford R. O. Sharpe R. L. Gill P. F. Guill P. B. Nardoci W. H. McDowell J. B. Day E. O. McCraw (MNS)
M. L. Birch L. Lewis l J. M. Stewart l S. T. Apple File: MC-801.02 File: MC-818.02
_ A
f i
I ATTACHMENT I
SUMMARY
OF SOLID, LIQUID, AND GASEOUS EFFLUENTS RELEASED l
l l
4600E00095- 850301 PDR ADOCK 05000369 R PDR
P
(
MCCUIRE NUCLEAR 57ATICN
{ EFFLUENT A D WA5TE DISPOSAL SUPPLEMENTAL INFORMATIOC REPORT DATE: C2/28185 {
PERIOD COVERED: START DAY = 001 STOP DAY = 366
( !. PECULATORY LIMITS A. kCSLE GASE5 - AIR 005E B. LIQUID EFFLUENT 5 - 005E (
- 1. CALENDAR GUARTER - CAMMA 005E = 5 MRAD 1. CALENDAR GUARTER - TOTAL EDDY 005E = 1.5 MREM
- 2. CALENDAR GUARTER - BETA 005E = 13 MRAD 2. CALENDAR QUARTER - ORGAN CO5E = 5 MREM
{ 3. CALENDAR YEAR
- 4. CALEh0AR YEAR
- CAMA DOSE = 10 PPAD
- BETA 005E = 20 MRAD
- 3. CALENDAR YEAR
- 4. CALENDAR YEAR
- TOTAL BODY 005E = 3 MREM
- ORGAN DOSE = (
10 MREM C. 10 DINE - 131 AND 133, TRITIUM, PARTICULATES WIT 1/2 ) 8 DAYS - ORGAN 005E
{ 1. CALENDAR QUARTER = 7.5 PREM
- 2. CALENDAR YEAR = 15 MREM (
II. PAXIP.UM FERMI 551BLE CDVCENTRATIONS
( A. CASEOUS EFFLUENTS - INFORMATION FOUND IN OFF5ITE C05E CALCULATION MANUAL B. LIQUID EFFLL'ENTS - INFORMATICN F0ut'D IN 10CFR20, APPENDIX B, TABLE II, COLUPN 2 {
III. AVERAGE ENERGY - NOT APPLICABLE IV. MIA50 REPENTS AND APPROXIMATIONS OF TOTAL PADIDACT!YITY INFORP.ATION FOUN3 IN OFFSITE 005E CALCULATID1 MANUAL
{ V. BATCH FELEASES A. LIQUID EFFLUENT 1.1.05Et03 = TOTAL NUMBER OF BATCH RELEASES
(
- 2. S.06E+04 = TOTAL TIPE(MIN.) FOR BATCH RELEASES.
{ 3. 2.3 E+03 = PAXIMUM TIME (MIN.1 FOR A BATCH RELEASE.
- 4. 7.71E+01 = AVEPACE TIME (MIN.! FOR A BATCH RELEASE.
- 5. 1.00E+00 = MINIMUM TIME (MIN.) FOR A BATCH RELEASE.
(
6.1.16Et09 = AVERACE DILUTION WATER FLOW DURING RELEA5ES(CPM).
B. CASE 005 EFFLUENT
- 1. 6.63E+02 = TOTAL NUMBER OF BATCH RELEASES.
2.1.0eE+06 = TOTAL TIME (MIN.1 FOR BATCH RELEASES.
{ 3. 4.46E+04 = MAXIMUM TIME (MIN.) FOR A BATCH RELEASE.
- 4. 1.6CE+03 = AVEPAGE TIME (MIN.) FOR A BATCH RELEASE. (
- 5. 1.00E+00 = MINIMUM TIME (MIN.) FOR A BATCH RELEASE.
( VI. AEN04AL RELEASE 5 A. LI2UID {
- 1. NUsEER OF RELEASES O
- 2. TOTAL ACTIVITY RELE35i5iC05IE5I',,, & Q B. CASEOUS k
- 1. NU*BER OF RELEASES 1 2.TOTALACTIVITYRELE55EDICUil55i- b*
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McGuire Nuclear Station Solid Radioactive Waste Shipped to a Disposal Facility Report Period 7-84 through 12-84 Number of Waste Total Types of Wastes Shipments Activity
- Containers Classification Cont. Type Volume ft3 Curies
- 1) Waste from Liquid Systems (A) Dewatered Powdex Resins 9 9 N/A N/A 9 (B) Dewatered Dead Resins 9 4 4 1A,2B,1C LSA 632 622.71 (C) Evaporator Concentrates 9 9 N/A N/A $ $
(D) Dewatered Mechanical Filters 3 25 15A,10B LSA 211.3 (E) Dewatered Demineralizers 82.75 9 9 N/A N/A 9 9
- 2) Dry Solid Vaste (A) Dry Active Waste (compacted) 5 34 34A LSA 3,128 (B) Dry Active Waste (non-compacted) 3.89 5 24 24A LSA 2,208 (C) Irradiated Components 4.72
@ N/A $ $
e TOTAL 87 74A,128,1C 6,179.3 714.07
i Summary of Major Radionuclide Composition Type of Wastes Radionuclide % Abundance
- 1. Vastes from Liquid Systems (A) Dewatered Powdex Resins (none shipped 'his period)
(B) Dewatered Bead Resins Ma-54 3.9 Co-57 0.15 Co-58 38.3 Co-60 21.8 Nb-95 < .01 Cs-134 1.7 Cs-137 2.7 C-14 < .01 H-3 0.3 Ni-63 30.8 Sr-90 < .01 Pn-241 < .01 TRU
< .01 Cm-242 < .01 (C) Evaporator Concentrates (none shipped this period)
(D) Dewatered Mechanical Filters Cr-51 6.9 Mn-54 20.0 Co-58 22.9 Co-60 24.8 Nb-95 2.2 Fe-59 1.0 Ag-110m 1.9 Zr-95 1.8 C-14 < .01 H-3 < .01 Ni-63 18.5
_a
Summary of Major Radionuclide Composition (Continued)
Radionuclide % Abundance (E) Dewatered Mineralizers (none shipped this period)
- 2. Dry Solid Waste (A) Dry Active Waste Zr-95 1.0 (compacted & non-compacted) Ni-63 0.7 Sr-90 .08 Co-60 32.0 Mn-54 5.0 Co-58 13.5 Nb-95 2.0 C-14 45.8 (B) Irradiated Components (none shipped this period)
( PCCU!RE NUCLEAR STAY!CN 1 RADI0 ACTIVE EFFLUENT RELEASES CATE 02/29/03 I. LICUID RELEASES YEAR . 1984 UNITS 15T OTA 2ND OTR 3R0 GTR 4TH OTR
- 1. CROSS RADICACTIVITY TOTAL A.
{ TOTAL RELEASE CURIES 2.22Et00 3.39E-01 3.09E-01 1.54E-01 3.0?E+00 8.
C.
AVERACE CChCENTRATION RELEASED UCIINL 4.01E-09 4.26E-10 3.28E-10 1.74E-10 9.50E-10 (
MAXIMUM CONCENTRATICN RELEASED UC!ll'L 2.81E-09 4 84E-09 3.57E-09 2.0EE-09 2.81E-08
- 2. TRITT!UM
{ A. TOTAL RELEASE
- 8. AVERACE CONCENTRATICN RELEASED CURIE 5 UCIIML 1.14Et02 2.06E-07 1.05Et02 1.59E402 2.70EiO2 6.47E+02 (
1.31E-07 1.69E-07 3.04E-07 2.04E-07 3.
{ DIS 5CLVED NOSLE CASES A. TOTAL RELEASE 8.
CURIES 1.63E-01 1.19E-02 1.43E-02 1.10E-02 2.00E-01
(
AVERACE CCNCENTRATION RELEASED UCIInt 2.95E-10 1.49E-11 1.52E-11 1.24E-11 6.30E 11
{ 4. G2055 ALFPA ACTIVITY A. TOTAL RELEASE CURIES 0.00Et00 0.00E+00 (
- 8. 0.00Et03 0.00Et00 0.00Et00 AVERACE CCNCENTRATICN RELEASED UCit?L 0.00E+00 0.00E+00 0.00Et00 0.00Et00 0.00Et00
{ CANAL LITERS 4.7 bet 06 4.39Et06 4.BGEt06 4.52Et06 2.06Et07 (
- 6. V0t.UP.E CF DILUTICN WATER LITERS 5.52Et11 7.96Et!! 9.4!E+11 8.86Et11 3.18E+12
- 7. RADICNUCLICES RELEASED CURIE 5 hA-24 1.36E-03 1.34E-02 7.10E-05 7.78E-03 2.2eE-02
{ CR-51 e-54 6.26E-02 2.21E-02 1.43E-02 5 14E-03 1.63E-02 3.41E-04 9.36E-02
(
FE-55 3.75E-03 2.16E-03 3.32E-02 1.3 bet 00 1.19E-01 6.31E-02 8.77E-03 1.57E+00 FE-59 1.8tE-0? 3 65E-03 2 25E-03 1 35E-05 2.43E-02
{ CC-59 CC-60 3.4?E-01 1.41E-01 1.23E-01 3.41E-02 1.59E-01 8.57E-02 7.13E-01
(
NI-65 3.89E-02 2.49E-02 2.39E-01 0.00Et00 2.00E-05 0.00E+00 5.45E-07 CU-64 2.05E-05
< 0.00Et00 0.00Et00 0.00Et00 2.61E-06 2.61E-06 IN-65 E 2.28E-03 ED-84 RB-E8 0.00Et00 1.35E-02 2.34E-04 0.00E600 0.00Et00 5.05E-05 0.00Et00 1.03E-06 2.19E-06 2.56E-03 2.19E-06 (
SR-29 1.45E-04 2.48E-04 1.39E-02 1.37E-04 7.01E-06 7.24E-t6 2.63E-05 5R-90 1.78E-04
{ 7.75E-08 5R-92 Y-91P.
2.20E-02 0.00Et00 0.00E600 1.62E-03 4.69E-06 0.00Et00 1.0SE-03 1.05E-05 0.00Et03 4.21E-07 0.00E600 7.75E-08 2.47E-02 (
Y-92 1.52E-05 0.00Et00 3.72E-05 0.00E+00 0.00Ef00 ZR-95 3.72E-05 C 2.65E-03 9.72E-04 9.47E-04 1.37E-05 68-95 4.53E-03 (
1.15E-02 3.61E-03 2.41E-03 1.35E-04 '
M3-99 1.77E-02 0.00E!00 0.00E600 0.00E+00 1.10E-04 1.10E-04 TC-99M 7.15E-04
( RU-103 RU-106 4 64E-05 4.72E-03 5.39E-06 0.00Et00 0.00Et00 3.69E-06 0.00Et00 2.24E-04 1.04E-04 0.00Ef00 7.53E-04 8.2EE-04 4.64E-05
(
AC-1101 5.70E-03 4.54E-02 4 19E-03 2.73E-03 0.00Et00 TE-129M 5.23E-02 0.00E600 0.00Et00 0.00Et03 4 25E-06 TE-132 4.25E-06
{ I-131 2.97E-04 0.00Et00 0 00Et00 0.00Ef00 2.97E-04 1-132 7.04E-02 3.43E-03 1.16E-02 1.41E-02 9.95E-02 Q 1.77E-03 0.00E600 5.2?E-05 8 80E-05 1-133 1.91E ' 1 3 23E-02 1.41E-03 3.46E-03 3.84E-03
{ I-135 1.01E-02 4.!CE .2 C5-134 C5-136 1.0BE-02 1.17E-04 6 3SE-05 4.24E-03 0.00Et00 3.23E44 1.04E-03 0.00E+00 1 11E-03 2.02E-03 9.10E-05 1.16E-02 1.81E-02 (
C5-137 1.49E-02 2.06E-04 C5-133 5.93E-03 1.97E-03 3.01E-03
{ 1.26E-04 2.58E-02 BA-139 0.00E+00 0.00Et00 0.00Et00 1.26E-04 LA-140 0 00Et00 8.75E-04 0.00Et00 0 00E+00 B.7 E-04 (
3.04E-03 5.62E-05 1.90E-04 4.27E-04 CE-141 3.71E-03 7.32E-06 5.24E-06 4.29E-06 7.95E-06 f CE-144 2.4EE-05 A 2.32E-05 0.00Et00 0.00Et00 0.00E+00 FA-144 2.32E-05 NP-239 4.19E-04 0 00Et03 0 00Et00 0.00EtOO 4.19E-04 (
1.25E-03 0.00E600 0.00Et00 0.00Et00 AR-41 2.81E-04 1.2SE-03 1.05E-04 8.2EE-05 1.40E-05 4.82E-04 L KR-85M KR-85 0.00Et00 9.24E-06 0.00E+00 0.00Et00 9.24E-06 KQ-87 0 00Et00 4 09E-05 5.75E-04 0.00Et00 6.15E-04 (
0.00Et00 1.13E-06 0.00E+00 3.52E-06 XE-131M 0 00E600 4.65E-06 0.00E400 4.03E-05 1.20E-04 XE-1335 1.61E-04
( XE-133 7.01E-04 0.00Ef00 0.00Et00 2.52E-05 7.26E-04 XE-135 1.21E-01 1.11E-02 1.32E-02 1.02E-02 1.56E-01 Q 4.02E-02 6.10E-04 4.21E-04 6.06E-04 4.19E-02 k
L L
L
- - _ . ~- - . _ _ - . . _ - . - _ _ _ - .. -
k
) GCCUIRE NUCLEAR STATION L' NIT 1 RADIDACTIVE EFFLUENT RELEASE 5
{ CATE 02/28/85 I. LIQUID RELEASES d
UNITS 15T OTR YEAR : 1994 2ND OTR 3RD QTR 4TN OTR TOTAL
{ !. CROSS RADI0 ACTIVITY A. 101AL RELEASE g CURIES 1.11Ef00 1.70E-01 1.54E-01 7.71E-02
- 8. AVERACE CONCENTRATION RELEASED 1.51Ef00 UC!lNL 2.01E-09 2.13E-10 1.64E-10 8.70E-11 C. MAXIMUM CONCENTRATION RELEASED 4.75E-10 UC!lML 2.81E-08 4.84E-09 3.57E-09 2.0SE-09 2.81E-08 l 2. TRITTIUM A. TOTAL RELEASE CURIES 5.68Ef01 5.23Ef01 7.95Ef01 1.35Ef02 3.23Ef02
- 8. AVERAGE CONCENTRATION RELEASED UCIIML 1.03E-07 6.57E-08 8.45E-08 1.52E-0 7 1.02E-07 i 3. DI550LVED NOBLE CASES A. TOTAL RELEASE CURIES 8.14E-02 5.95E-03 7.17E-03 5.50E-03 1.00E-01
- 8. AVERACE CCNCENTRATION RELEASED UCIlML 1.47E-10 7.47E-12 7.62E-12 6.21E-12 3.15E-11
- 4. CROSS ALPHA ACTIVITY 4 A. TOTAL RELEASE CURIES 0.00Ef00 0.00Ef00 0.00Ef00 0.00Ef00 0.00E400
- 8. AVERAGE CONCENTRATICN RELEASED UC!lML 0.00Ef00 0.00Ef00 0.00Ef00 0.00Ef00 0.00Et00
- 5. VOLUME OF LICUID WASTE TO DISCHARGE 2
CAN!L LITERS 2.39Ef06 2.20H06 2.44Ef06 3.26Et06 1.03Ef07
- 6. VOLUME OF O!LUTION WATER
{ LITERS 5.52Ef11 7.96Ef!! 9.41Et11 8.86Et11 3.18Et!2 7.
]
RADIONUCLIDES RELEA5ED CURIES 1
' { NA-24 CR-51 6.78E-04 3.13E-02 6.6BE-03 7.16E-03 3.55E-05 3.89E-03 1.13E-02
{
8.16E-03 1.70E-04 4.6SE-02 M-54 1.11E-02 2.57E-03 i 1.87E-03 1.09E-03 1.66E-02 FE-55 6.88E-01 5.96E-02 3.15E-02 4.3?E-03 7.83E-01 l FE-59 9.1SE-03
{ 1.83E-03 CD-58 CD-60 1.73E-01 7.04E-02 6.14E-02 1.12E-03 7.92E-02 6.75E-06 4.28E-02 1.21E-02 3.57E-01 (
! 1.71E-02 1.94E-02 1.24E-02 1.19E-01 NI-65 0.00Et00 9.99E-06 0.00Et00 2.72E-07 1.03E-05 CU-64
{ 0.00000 0.00Ef00 0.00Ef00 IN-65 ER-84 1.14E-03 1.17E-04 2.52E-05 1.31E-06 5.15E-07 1.31E-06 1.2SE-03 (
0.00Ef00 0.00Ef00 0.00000 1.09E-06 1.09E-06 RB-E8
- 6. 76 E-03 0.00Ef00 7.26E-05 1.24E-04
{ SR-89 5R-90 6.87E-05 3.83E-08 3.50E-06 3.62E-06 1.32E-05 6.96E-03 8.89E-05
(
1 0.00Et00 0.00E400 0.00Et00 3.83E-08
' SR-92 1.10E-02 8.12E-04 5.40E-04 2.11E-07 1.24E-02 Y-91M 0.00E100 2.35E-06 5.25E-06 0.00Ef00 T-92 7.59E-06
{ ZR-95 0.00Et00 1.33E-03 1.86E-05 0.00Ef00 0.00Ef00 1.86E-05
(
! 4.86E-04 4.73E-04 6.87E-06 2.29E-03 AB-95 5.76E-03 1.80E-03 1.20E-03 6.77E-05 8.83E-03 MD-99 0.00Et00
( TC-99M RU-103 3.57E-04 2.32E-05 0.00Ef00 2.69E-06 0.00Et00 0.00Ef00 1.85E-06 0.00Ef00 5.51E-05 5.22E-05 0.00Ef00 5.51E-05 4.14E-04 2.32E-05 {
RU-106 2.36E-03 0.00EfD0 1.12E-04 3.76E-04 2.85E-03 AG-110M 2.27E-02
' 2.10E-03 1.36E-03 0.00H00 2.62E-02
{
TE-129M 0.00000 0.00E+00 0.00Ef00 2.11E-06 i
TE-132 2.12E-06
' 1.43E-04 0.00000 0.00000 0.00000 1.48E-04 I-131 3.52E-02 1.71E-03 5.79E-03 7 04E-03 4.98E-02 I-132 8.85E-04 0.00Et00
- ( I-133 I-135 1.61E-02 5.04E-03 7.03E-04 3.19E-05 2.64E-05 1.73E-03 1.62E-04 4 40E-05 1.92E-03 5.57E-04 9.56E-04 2.05E-02
{
! C5-134 5.79E-03 5.40E-03 2.12E-03 5.21E-04 1.01E-03 C5-136 9.05E-03
( C5-137 C5-133 5.83E-05 7.45E-03 6.28E-05 0.00Ef00 2.96E-03 0.00000 0.00Ef00 9.87E-04 0.00000 4.55E-05 1.50E-03 0.00000 1.04E-04 1.29E-02
(
- BA-139 0.00Ef00 6.22E-05 4.37E-04 0.00000 0 00Ef00 LA-140 1.52E-03 4.37E-04 2.81E-05 9.51E-05 2.13E-04 1.96E-03
{ CE-141 CE-144 3.66E-06 2.62E-06 2.14E-06 3.97E-06 1.24E-05 92 144 1.16E-05 0.00000 0.00Et00 0.00Ef00 1.16E-05 (~
2.10E-04 0.00000 0.00Ef00 0.C0Ef00 NP-239 6.24E-04 2.10E-04 0.00Et00 0.00Et00 0.00Ef00 (b AR-41 1.40E-04 5.23E-05 4.18E-05 6.24E-04 FR-85M 7.01E-06 2.41E-04 0.00E100 4.62E-06 0.00Ef00 0.00000 ('
FR-35 0.00000 4.62E-06 2.05E-05 2.87E-04 0.00Ef00 i NR-97 3.0BE-04 0.00E600 5.67E-07 0.00Ef00 1.76E-04
- XE-131M 2.32E-06 0.00Ef00 0.00Et00 2.01E-05 6.02E-05 XE-133M 3.51E-04 8.03E-05 0.00Et00 0.00000 1.26E-05 XE-133 3.63E*04 6.07E-02 5.57E-03 6.61E-03 5.12E-03 XE-135 7.00E-02 l 2.01E-02 3.05E-04 2.!CE-04 3.03E-04 k 2.09E-02 l
L
7- 1 MCGUIRE NUCLEAR STATION UNIT 2
(
RADICACTIVE EFFLUENT RELEASES
{ DATE 02/28/85
- 7. LIQUID RELEA5ES YEAR . 1994 UNIT 5 1ST OTR 2ND OTR 3RD QTR 4TH OTR TOTAL 1.
{ CROSS RADIDACT!YITY A. TOTAL RELEASE CURIES 1.11E400 1.70E-01 q
1.54E-01 7.71E-02 1.51E400
- 8. AVERACE CONCENTRATION RELEASED UCIIML 2.01E-09 2.13E-10 1.64E-10 8.70E-11 4.75E-10 C. MAX 1 MUM CONCENTRATICN RELEASED UC!lML 2.81E-08 4.84E-09 c 3.57E-09 2.0SE-09 2.81E-08 A
- 2. TRITTIUM g A. TOTAL RELEASE CURIES 5.68Ef01 5.23E401 7.95Ef01 1.35Ef02 3.23Ef02
- 8. AVERAGE CCNCENTRATION RELEASED UCIIML 1.03E-07 6.57E-08 8.45E-08 1.52E-07 1.02E-07
- 3. D155CLVED N3BLE GASES A. TOTAL RELEASE CURIES 8.14E-02 5.95E-03 7.17E-03 1.50E-03 1.00E-01
- 8. AVERACE CONCENTRATICN RELEASED UCI/ML 1.47E-10 7.47E-12 7.62E-12 6.21E-12 3.15E-11
- 4. CROSS ALPHA ACTIVITY A. TOTAL RELEASE CURIES 0.00Ef00 0.00E400 0.00E100 0.00Ef00 0.00E400
- 8. AVERAGE CCNCENTRATION RELEASED UCIIML 0.00Ef00 0.00Ef00 0.00Ef00 0.00Et00 0.00Ef00
- 5. YOLUME OF LIEUID WASTE TO 015CNARGE CANAL LITERS 2.39Ef06 2.20Ef06 2.44Ef06 3.26Ef06 1.03Ef07
{ 6. VOLUME OF DILUTICN WATER LITERS 5.52E111 7.96Ef11 9.41Ef11 8.86Ef11 3.18Ef12 Q
- 7. RA3IONUCLIDES RELEASED CURIES
{ H-24 CR-51 6.78E-04 3.13E-02 6.6BE-03 7.16E-03 3.55E-05 8.16E-03 3.09E-03 1.70E-04 1.13E-02
(
M-54 4.68E-02 1.11E-02 2.57E-03 1.87E-03 1.0SE-03 1.66E-02 FE-55 6.83E-01 5.96E-02 3.15E-02 4.3?E-03 7.E3E-01
{ FE-59 CO-58 9.1SE-03 1.73E-01 1.83E-03 6.14E-02 1.12E-03 7.92E-02 6.75E-06 4.29E-02 1.21E-02 3.57E-01 (
CD-60 7.04E-02 1.71E-02 1.94E-02 1.24E-02 1.19E-01 NI-65 0.00Ef00 9.99E-06 0.00Ef00 2.72E-07 1.03E-05
{ CU-64 ZN-65 0.00Ef00 1.14E-03 0.00Ef00 1.17E-04 0.00Ef00 2.52E-05 1.31E-06 5.15E-07 1.31E-06 1.28E-03 (
ER-84 0.00Ef00 0.00Ef00 0.00Ef00 1.09E-06 1.09E-06 RB-93 6.76E-03 0.00Ef00 7.26E-05 1.24E-04
( 52-89 5R-90 6.87E-05 3.88E-08 3.50E-06 0.00Ef00 3.62E-G6 0.00Ef00 1.22E-05 0.00Ef00 6.96E-03 8.29E-05 3.89E-08 (
52-92 1.10E-02 8.12E-04 5.40E-04 2.11E-07 1.24E-02 Y-91M 0.00Ef00 2.35E-06 5.25E-06 0.00Ef00 7.59E-06
{ Y-92 ZR-95 NB-95 0.00Ef00 1.33E-03 5.76E-03 1.86E-05 4.86E-04 1.80E-03 0.00Ef00 4.73E-04 0.00Ef00 6.87E-06 1.85E-05 2.29E-03
(
1.20E-03 6.77E-05 8.83E-03 MD-99 0.00Ef00 0.00Ef00 0.00Ef00 5.51E-05 5.51E-05 Tc-99M
{ RU-103 RU-106 3.57E-04 2.32E-05 2.36E-03 2.69E-06 0.00Ef00 0.00Ef00 1.85E-06 0.00Ef00 1.12E-04 5.22E-05 0.00E400 3.76E-04 4.14E-04 2.32E-05 (
AC-1105 2.85E-03 2.27E-02 2.10E-03 1.36E-03 0.00Ef00 2.62E-02 TE-12?M
( TE-132 0.00E400 1.48E-04 0.00Ef00 0.00Ef00 0.00Ef00 0.00Et00 2.12E-06 0.00Ef00 2.12E-06 g 1-131 1.48E-04 3.52E-02 1.71E-03 5.79E-03 7.0(E-03 4.98E-02 I-132 8.85E-04 0.00E400 2.64E-05 4.40E-05 9.56E-04 1-133 1.61E-02
{~ I-135 5.04E-03 7.03E-04 3.19E-05 1.7?E-03 1.62E-04 1.92E-03 5.57E-0 4 2.03E-02 5.79E-03
('
C5-134 5.40E-03 2.12E-03 1.01E-03 5.21E-04 9.05E-03 C5-136 5.83E-05 0.00Ef00 0.00Ef00 4.55E-05
( C5-137 C5-138 7.45E-03 6.28E-05 2.96E-03 0.00Ef00 9.87E-04 0.00E100 1.50E-03 0.00Ef00 1.04E-04 1.29E-02 6.20E-05 (
BA-137 0.00E100 4.37E-04 0.00Ef00 0.00E100 4.37E-04 LA-140 1.52E-03 2.13t-04 2.S!E-05 9.51E-05 1.86E-03 CE-141
( CE-144 3.66E-06 1.16E-05 2.62E-06 0.00Ef00 2.14E-06 3.97E-06 0.00Ef00 1.24E-05
(
0.00Ef00 1.16E-05 PR-144 2.10E-04 0.00Ef00 0.00Ef00 0.00Ef00 2.10E-04 NP-239 6.24E-04 0.00Ef00 0.00Ef00 0.00E100 6.24E-04 AR-41
( KR-85M 1.40E-04 0.00Ef00 5.23E-05 4.14E-05 7.0!E-06 2.41E-04 ('
4.62E-06 0.00Ef00 0.00Ef00 4.62E-06 KR-85 0.OCEf00 2.0$E-05 2.87E-04 0.00Ef00 3.08E-04 KR-87 0.00Ef00 5.67E-07 0.00Ef00 1.76E-06 2.32E-06 XE-131M 0.00Ef00 6.02E-05 0.00E400 2.01E-05 8.03E-05 XE-133M 3.51E-04 0.00Ef00 1.26E-05 0.00Ef00 3.63E-04 XE-133 6.07E-02 5.57E-03 5.12E-03 6.61E-03 7.8CE-02 XE-135 2.01E-02 3.05E-04 3.03E-04 2.10E-04 2.07E-02 L L L .
v
b MCGUIRE LIQUID DOSE- IST QTR '84 RELEASES- 2/26/85/ Rtc u.4t 00000010 SKIN MAXIMUM DOSE- 3.85D-03 MREM CRITICAL AGE- TEEN CRITICAL PATHHAY- SHORE CD 60 85.43 %
BONE MAXIMUM DOSE- 6.82D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHNAY- FISH FE 55 14.81 %
CS 134 23.06 %
CS 137 55.33 %
LIVER MAXIMUM DOSE- 8.84D-02 MREM i CRITICAL AGE- TEEN CRITICAL PATHNAY- FISH CS 134 41.44 %
CS 137 44.30 %
T. BODY MAXIMUM DOSE- 6.21D-02 MREM CRITICAL AGE- ADULT CRITICAL PATHWAY- FISH H 3 7.76 %
CS 134 47.57 %
CS 137 39.63 %
THYROID MAXIMUM DOSE- 5.93D-02 MREM CRITICAL AGE- INFANT CRITICAL PATHWAY- DRINKING H 3 10.49 %
I 131 88.49 %
KIDNEY MAXIMUM DOSE- 3.24D-02 MREM CRITICAL AGE- TEEN CRITICAL PATHNAY- FISH H 3 10.52 %
CO 60 8.64 %
CS 134 36.11 %
CS 137 41.47 %
LUNG MAXIMUM DOSE- 1.90D-02 MREM CRITICAL AGE- TEEN CRITICAL PATHNAY- FISH H 3 17.95 %
FE 55 13.83 *:
CD 60 14.74 *.
CS 134 23.74 %
C5 137 27.95 %
GI-LLI MAXIMUM DOSE- 7.67D-02 MREM CRITICAL AGE- ADULT CRITICAL PATHHAY- FISH H 3 6.28 %
CO SS 5.25 %
CD 60 7.70 %
NB 95 70.43 %
e i
D MCGUIRE LIQUID DOSE- 2ND QTR '84 RELEASES- 2/26/85/ Per U<AT 00000010 SKIN MAXIMUM DOSE- 6.69D-04 MREM CRITICAL AGE- TEEN CRITICAL PATHHAY- SHORE CO 60 82.92 %
CS 137 6.86 %
BONE MAXIMUM DOSE- 1.64D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHHAY- FISH CS 134 31.96 %
CS 137 63.36 %
LIVER MAXIMUM DOSE- 2.40D-02 MREM CRITICAL AGE- TEEN CRITICAL PATHHAY- FISH H 3 9.06 %
CS 134 41.77 %
CS 137 44.90 %
T. BODY MAXIMUM DOSE- 1.84D-02 MREM CRITICAL AGE- ADULT CRITICAL PATHHAY- FISH H 3 16.75 %
CS 134 44.04 %
CS 137 36.89 %
THYROID MAXIMUM DOSE- 6.24D-03 MREM CRITICAL AGE- INFANT CRITICAL PATHNAY- DRINKING H 3 63.70 %
I 131 35.88 %
KIDNEY MAXIMUM DOSE- 1.02D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHHAY- FISH H 3 40.29 %
CS 134 26.20 %
CS 137 31.89 %
LUNG MAXIMUM DOSE- 6.53D-03 MREM CRITICAL AGE- CHILD CRITICAL PATHHAY- DRINKING H 3 62.76 %
CS 134 14.68 %
CS 137 17.96 %
GI-LLI MAXIMUM DOSE- 1.91D-02 MREM CRITICAL AGE- ADULT CRITICAL PATHHAY- FISH H 3 16.08 %
CO 58 5.50 x CO 60 5.21 %
NB 95 68.06 %
2 1
O h MCGUIRE LIQUID DOSE- 3RD QTR '84 REL EASES- 2/26/85 / Pee u+44 00000010 SKIN MAXIMUM D03E- 6.01D-04 MREM CRITICAL AGE- TEEN CRITICAL PATHWAY- SHORE CO 58 5.66 %
CO 60 89.78 %
BONE MAXIMUM DOSE- 4.49D-03 MREM CRITICAL AGE- CHILD CRITICAL PATHNAY- FISH FE 55 6.15 %
CS 134 24.63 %
CS 137 66.10 %
LIVER MAXIMUM DOSE- 1.05D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHWAY- DRINKING H 3 51.09 %
CS 134 17.35 %
CS 137 27.17 %
T. BODY MAXIMUM DOSE- 8.02D-03 MREM CRITICAL AGE- ADULT CRITICAL PATHNAY- DRINKING H 3 49.94 %
CS 134 21.26 %
CS 137 24.11 %
THYROID MAXIMUM DOSE- 1.24D-02 MREM CRITICAL AGE- INFANT CRITICAL PATHWAY- DRINKING H 3 41.93 %
I 131 57.56 %
KIDNEY MAXIMUM DOSE- 6.98D-03 MREM CRITICAL AGE- CHILD CRITICAL PATHNAY- DRINKING H 3 76.52 %
CS 134 8.06 %
CS 137 13.28 %
LUNG MAXIMUM DOSE- 6.07D-03 MREM CRITICAL AGE- CHILD CRITICAL PATHWAY- DRINKING H 3 87.98 %
CS 137 5.52 %
GI-LLI MAXIMUM DOSE- 1.43D-02 MREM CRITICAL AGE- ADULT CRITICAL PATHNAY- FISH H 3 27.96 %
CO 58 8.29 %
CO 60 6.76 %
NB 95 53.89 %
f O N MCGUIRE LIQUID DOSE- 4TH QTR '84 RELEASES- 2/26/85/hr LO4t 00000010
- SKIN MAXIMUM DOSE- 4.18D-04 MREM CRITICAL AGE- TEEN CRITICAL PATHWAY- SHORE CO 60 87.54 %
CS 137 5.06 %
BONE MAXIMUM DOSE- 7.20D-03 MREM CRITICAL AGE- CHILD CRITICAL PATHHAY- FISH CS 134 31.55 %
CS 137 66.44 %
LIVER MAXIMUM DOSE- 1.81D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHHAY- DRINKING H 3 52.99 %
CS 134 20.53 %
CS 137 25.22 %
T. BODY MAXIMUM DOSE- 1.41D-02 MREM CRITICAL AGE- ADULT CRITICAL PATHWAY- DRINKING H 3 51.28 %
CS 134 24.91 %
CS 137 22.16 %
THYROID MAXIMUM DOSE- 1.83D-02 MREM CRITICAL AGE- INFANT CRITICAL PATHHAY- DRINKING H 3 51.08 %
I 131 48.54 %
KIDNEY MAXIMUM DOSE- 1.24D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHWAY- DRINKING H 3 77.63 %
CS 134 9.33 %
CS 137 12.06 %
LUNG MAXIMUM DOSE- 1.07D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHNAY- DRINKING H 3 90.25 %
CS 137 5.07 %
GI-LLI MAXIMUM DOSE- 1.03D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHHAY- DRINKING H 3 92.95 %
- v
D D l
D -
l 4
MCGUIRE LIQUID DOSE- TOTAL 1984 RELEASES PER UNIT- 2/26/85 00000010 SKIN MAXIMUM DOSE- 4.54D-03 MREM CRITICAL AGE- TEEN CRITICAL PATHWAY- SHORE CD 60 85.79 % :
BONE MAXIMUM DOSE- 7.76D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHWAY- FISH FE 55 10.40 %
CS 134 29.06 %
CS 137 58.82 %
1 LIVER MAXIMUM DOSE- 1.13D-01 MREM CRITICAL AGE- CHILD CRITICAL PATHWAY- FISH H 3 22.53 %
CS 134 32.64 %
CS 137 38.55 %
, T. BODY MAXIMUM DOSE- 8.71D-02 MREM CRITICAL AGE- ADULT CRITICAL PATHWAY- FISH H 3 22.00 %
CS 134 39.97 %
CS 137 34.18 %
THYROID MAXIMUM DOSE- 9.10D-02 MREM CRITICAL AGE- INFANT CRITICAL PATHNAY- DRINKING H 3 27.23 % i
, I 131 71.94 %
KIDNEY MAXIMUM DOSE- 5.28D-02 MREM CRITICAL AGE- CHILD 4
CRITICAL PATHWAY- DRINKING H 3 48.40 %
CS 134 21.75 %
CS 137 27.04 %
LUNG MAXIMUM DOSE- 3.81D-02 MREM CRITICAL AGE- CHILD CRITICAL PATHWAY- DRINKING H 3 67.08 %
FE 55 6.36 %
CS 134 10.85 %
CS 137 13.54 % !
4 GI-LLI MAXIMUM DOSE- 1.04D-01 MREM CRITICAL AGE- ADULT CRITICAL PATHWAY- FISH
' H 3 18.40 %
CD 58 5.92 % f CO 60 6.71 %
NB 95 61.74 %
i i
4 t
E PCCUIRE NUCLEAR STATION I EADICACTIVE EFFLUENT RELEASES DATE 02/28185
[ II. AIRPORNE RELEASES UNITS IST OTR 2ND OTR 3RD QTR 4TH OTR YEAR TOTAL 1984
(
- 1. TOTAL NCELE CASE 5 CURIES 1.76Ef03 0.13E102 7.07Et02 1.2SE103 4.56Ef03
- 2. TOTAL HALCCENS CURIES 2.71E ^3 3.27E-03 9.73E-03 9.61E-03 2.43E-02
- 3. TOTAL PART!CULATE
{ GROSS EETA-CAVA CURIES 5.69E-06 1.10E-05 3.41E-04 1.96E-04 5.53E-04
{
- 4. TOTAL TRITIUM CURIES 3.13E+00 1.01EiO! 6.09Ef00 1.03E401 2.95Ef01
- 5. TOTAL PARTICULATE
{ GR055 ALPHA ACTIVITY {
CURIES 0.00E+00 0.0 Et00 0.00E400 0.00E600 0.00Ef00
- 6. MAXIMUM N3BLE CAS RELEASE RATE
{
- 7. RA3!CNUCLIDES RELEASED UC!l5EC CURIES 1.60Ef03 1.60Et03 1.60Ef03 1.40Et03 1.60Et03
(
PARTICULATES
{
CR-51 7.4cE-09 0.00Ef00 2.04E-09
(
3.51E-09 4.45E-08 H-54 5.54E-06 0.00Et00 6.41E-06 6.83E-06 CD-59 1.88E-05
{ 1.19E-07 6.37E-06 2.46E-04 4.3cE-05 2.95E-04 CD-60 5R-89 0.00Ef00 0.00Ef00 6.20E-05 8.32E-09 6.20E-05 ]-
0.00Ef00 0.00Ef00 3.11E-09 2.84E-03 3.15E-CB NB-95 0.00Ef00 0.00E+00 0.00Ef00 4.90E-10 4.90E-10 MD-99 0.00E+00
{ 0.00Ef00 RU-106 C5-134 0.00E400 3.04E-09 0.00Ef00 0.00Et00 0.00E+00 7.25E-09 4.39E-08 7.25E-09 4.39E-09 (
2.23E-09 5.25E-06 3.31E-05 3.84E-05 C5-136 5.62E-10 0.00Et03 0.00E+00 9.62E-09 1.02E-03
{ C5-137 CE-141 1.59E-08 0.00E+00 4.65E-06 0.00E+00 1.42E-05 1.34E-06 1.02E-04 1.21E-04
(
CE-144 2.03E-03 1.3dE-06 2.11E-09 0.00Ef00 5.33E-06 9.85E-06 1.52E-05 HALOGEN 5
(
I-131 2.26E-03 1.79E-03 6.25E-03 6.97E-03 1.73E-02 1-133 4.49E-04 1.49E-03 2.49E-03
{ 2.63E-03 7.05E-03
(
CASES FR-85M 3.05Ef00 . 8CE-01 6.07E-01 1.21Et00 5.65E+00 KR-85 9.53Ef00 2.36Ef00 3.4SEf00 8.73Et00 2.41Et01 KR-87 2.55E-01 2.1EE-02 3.08E-02 1.8CE-01 4.87E-01 KR-99
{ XE-131M XE-13.'M 1.62Et03 6.85Ef00 1.64Ef01 5.6CE-02 1.09Et00 1.56E+01 2.33E-01 4.10Ef00 6.71E400 7.CiE-01 7.5!Et00 1.10E+01 2.62E+00 1.96Ef01 (
XE-133 4.97E+01 1.65Et03 7.61Ef02
( XE-135M XE-135 2.53E-03 4.71E+01 0.00E600 1.37Ef01 6.67Et02 6.00E-04 1.2SE401 1.21Ef03 1.14E-04 2.13Et01 4.29Et03 3.24E-03 9.49E401 g
XE-137 1.53E-01 0.00Ef00 0.00Ef00 0 00Ef00 1.53E-01 AR-41 2.64Et01 1.27Ef01
( 1.15Et01 1.83Et01 6.90Et01
(
(.
L L L L
L l
t-L C L
(
GCCU1RE NUCLEAR STATICN
/
' UNIT 1 RADICACTIVE EFFLUENT RELEASES f DATE 02128s85 II. AIRSCRNE RELEASES
( UNITS IST OTR 2ND OTR 3RD QTR 4TH OTR TOTAL YEAR 1984
(
- 1. TOTAL NOBLE CASES CURIE 5 8.79Et02 4.06Ef02 3.53Et02 6.42E602 2.28Ef03
- 2. TOTAL HALOCENS CURIES 1.35E-03 1.64E-03 4.37E-03
[ 4.81E-03 1.22E-02 Q
- 3. TOTAL PARTICULATE GR055 BETA-GAMMA CURIES 2.84E-06 5.51E-06 1.71E-04 9.7EE-05 2.77E-04 4 TOTAL TRITIUM CURIE 5 1.57E+00 5.03Ef00 3.05Et00 5.13Ef00 1.4SE601
- 5. TOTAL FARTICULATE
{ CROSS ALPHA ACTIVITT CURIES 0.00Et00 0.00Ef00 0.00Ef00 0.00Ef00 0.CCEt00
(
- 6. P.AXIMUM NCSLE CAS RELEASE RATE UCIISEC 1.40Et03 1.60Ef03 1.60Ef03 1.60Et03 1.60Et03
- 7. RADIONUCLICES RELEASED CURIES PARTICULATES ER-51 3.70E-09 0.00Ef00 1.02E-09 1.75E-03 2.23E-08 tW-54 2.77E-06 0.00E+00 3.21E-06 3.42E-06 9.39E-06 CD-59 5.93E-08 3.19E-06 1.23E-04 2.15E-05 1.4EE-04
( CO-60 52-39 0.00Ef00 0.00E+00 0.00Ef00 0.00E+00 3.10E-05 1.56E-09 4.16E-09 1.42E-03 3.10E-05 1.58E-08 (
N3-95 0.00E+00 0.00E+0D 0.00E+00 2 45E-10 2.4*E-10 M3-99 0.00Et00 0.00Et00 0.00Et03 3.63E-09 3.63E-09
{ RU-106 C5-134 0.00Ef00 1.52E-09 0.00E+00 1.11E-09 0.00E+00 2.63E-06 2.19E-08 1.66E-05 2.19E-08
(
1.92E-05 C5-136 2.81E-10 0.00E+00 0.00E+00 4.81E-09 5.09E-09 C5-137 7.97E-09 2.33E-06 7.10E-06 5.12E-05 6.06E-05
( CE-141 CE-144 0.00E+00 1.06E-09 0.00E+00 0.00Et00 6.72E-07 2.66E-06 1.02E-09 4.92E-06 6.82E-07
(
7.59E-06
{ HALCCENS
(
I-131 1.13E-03 8.93E-04 3.13E-03 I-133 3.49E-03 8.64E-03 2.25E-04 7.43E-04 1.24E-03 1.32E-03 3.53E-03
( (
CASES
( KR-85M YR-85 1.53Et00 4.77E+00 3.90E-01 1.!!Et03 3.04E-01 1.74Ef00 6.05E-01 4.37E+00 2.83Et00 1.21Ef01 (
KR-87 1.27E-01 1.09E-02 1.54E-02 9.01E-02 2.44E-01 XR-83 8.10E-01 2.80E-02 1.17E-01 3.53E-01 1.31Et00 XE-131M 3.42Et00
{ XE-133n 8 22Ef00 5.45E-01 2.05Ef00 3.79E+00 9.81Ef00 g 7.79Ef00 3.36E+00 5.50Ef00 2.49E401 XE-133 8.26Et02 3.81E+02 3.34Ef02 6.07Et02 2.15Ef03 XE-135M 1.26E-03 0.00E+00
( XE-135 XE-137 2.36E+01 7.67E-02 6.84Et00 0.00E100 3.00E-04 6.33Ef00 0.00Et00 5.70E-05 1.07E+01 0.00Ef00 1.62E-03 4.75Ef01 7.67E-02
(
AR-41 1.32E101 6.36Ef00 5.77Ef00 9.16E+00 3.45Ef01
(
L L l L L 4 l L k t
?
L
(
MCCUIRE NUCLEAR STATION UN!T 2 RADICACTIVE EFFLUENT RELEASE 5
{ II. AIRBORNE RELEASES DATE 02/28185 YEAR 1984 (
UNITS IST OTR 2ND OTR 3RD QTR 4TH OTR TOTAL
{ 1. TOTAL NOSLE CASES CURIES 8.79Et02 4.06E402 3.53Ef02 6.42Ef02 2.2EEt03
- 2. TOTAL HALOCENS CURIES 1.35E43 1.64E-03 4.37E-03 4.81E-03 1.22E-02 3.
{ TOTAL PAQTICULATE CROSS BETA-CAMA a CURIES 2.84E-06 5.51E-06 1.71E-04 9.78E-05 2.77E-04
- 4. TOTAL TRITIUM CURIES 1.57Et00 5.03Et00 3.05E100 5.13Et00 1.4EEf01
- 5. TOTAL PARTICULATE CROSS ALPHA ACT!?!TY CURIES 0.00Et00 0.00Ef00 0.00E600 0.00E100 0.00Et00
- 7. RA0!ONUCLICES RELEASED CURIES PARTICULATES CR-51 3.7CE-09 0.00Ef00 1.02E-09 1.75E-08 2.23E-08 M-54
{ C3-53 2.77E-06 0.00Ef00 3.21E-06 3.42E-06 9.39E-06 5.93E-08 3.19E-06 1.23E-04 2.15E-05 1.43E-04 Q C0-60 0.00Ef00 0.00Ef00 3.10E-05 4.16E-09 3.10E-05 5R-89 0.00Ef00 0.00Et00 1.56E-09 1.42E-08 1.53E-08
{ N8-95 MD-99 0.00Et00 0.00Et00 0.00EtOO 0.00Et00 0.00Ef00 2.45E-10 2.45E-10
(
RU-106 0.00E400 3.63E-09 3.63E-09 0.00Et00 0.00Et00 0.00Ef00 2.19E-09 2.!?E-08 C5-134 1.52E-09 1.11E-09 C5-136 2.63E-06 1.66E-05 1.9?E-05
{ 2.81E-10 0.00E400 0.00Ef00 4.81E-09 5.09E-09 C5-137 CE-141 7.97E-09 0.00EfC0 2.33E-06 0.00Et00 7.10E-06 5.12E-05 6.06E-05 (
CE-144 6.72E-07 1.02E-08 6.83E-07 1.06E-09 0.00Et03 2.66E-06 4.93E-06 7.59E-06
.{
HALOCENS
(-
( I-131 I-133 1.13E-03 2.25E-04 8.93E-04 7.43E-04 3.13E-03 1.24E-03 3.49E-03 1.32E-03 8.64E-03
(
3.53E-03 CASES
{
tR-85M 1.53E100 3.90E-01 3.08E-01 6.05E-01 2.83E100
(
( KR-87 tR-89 4.77Et00 1.27E-01 8.10E-01 1.18E400 1.09E-02 2.80E-02 1.74E600 1.54E-02 1.17E-01 4.37Et00 9.0!E-02 3.53E-01 1.21Et0!
2.44E-01 1.31Et00 g
XE-131M 3.42Ef00 5.45E-01 2.05Ef00 3.79Ef00 4
XE-133M 9.81E+00 8.22Ef00 i ( XE-133 XE-135M 8.26Et02 1.26E-03 7.78Ef00 3.81Ef02 0.00E+00 3.36Et00 3.34E102 3.00E-04 5.50Et00 6.07Ef02 5.70E-05 2.49Ef01 2.15E103 1.62E-03
('
l IE-135 2.36E601 6.84Et00 XE-137 6.33Ef00 1.07E101 4.75Et01 7.67E-02 0.00Et00 0.00Ef00 0.00Ef00 AR-41 7.67E-02
{ 1.32Ef01 6.36Ef00 5.77Ef00 9.16E100 3.45Ef01 i
{
l
. k L
(.
O
'c \
L
{ C l L t
1
(
i
O MCGUIRE GAS DOSE- IST QTR '84 RELEASES- 2/27/85 /&c u.6t 00000020 DISPERSION FACTOR- 7.20E-05 SEC/CU-M DEPOSITION FACTOR- 2.30E-09 M(-2)
BETA AIR DOSE- 2.29E+00 MILLIRADS GAMMA AIR DOSE- 1.09E+00 MILLIRADS T. BODY CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 7.01D-01 MILLIREM PLUME CONTRIBUTION- 95.57%
XE133 55.35%
XE135 9.74%
AR 41 26.60%
GI-TRACT CRITICAL AGE- CHILD CRITICAL PATHNAY- PLUME XE133 55.36% MAXIMUM DOSE- 7.01D-01 MILLIREM PLUME CONTRIBUTION- 95.58%
XE135 9.74%
AR 41 26.60%
BONE CRITICAL AGE- INFANT CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 6.70D-01 MILLIREM PLUME CONTRIBUTION- 99.97%i' XE133 57.90%
XE135 10.18%
AR 41 27.82%
LIVER CRITICAL AGE- CHILD CRITICAL PATHNAY- PLUME MAXIMUM DOSE- 7.01D-01 MILLIREM PLUME CONTRIBUTION- 95.55%
XE133 55.35%
XE135 9.74%
AR 41 26.59%
KIDNEY CRITICAL AGE- CHILD CRITICAL PATHHAY- PLUME MAXIMUM DOSE- 7.01D-01 MILLIREM PLUME CONTRIBUTION- 95.54%
-XE133 55.34%
XE135 9.73%
AR 41 26.59%
THYROID CRITICAL AGE- INFANT CRITICAL PATHNAY- PLUME I 131 11.06% MAXIMUM DOSE- 7.78D-01 MILLIREM PLUME CONTRIBUTION- 86.13%
XE133 49.89%
XE135 8.78%
AR 41 23.97%
LUNG CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 7.23D-01 MILLIREM PLUME CONTRIBUTION- 95.71%;
XE133 56.43%
XE135 9.63%
AR 41 25.80%
SKIN CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 1.69D+00 MILLIREM PLUME CONTRIBUTION-XE133 64.80% 98.17%-
' XE135 10.69%
AR 41 17.70%
THYROID AGE- ADULT CRITICAL PATHHAY- PLUME TOTAL DOSE-I 131 5.32% 7.29D-01 MILLIREM PLUME CONTRIBUTION- 91.85%
XE133 53.20%
XE135 9.36%
AR 41 25.56%
THYROID AGE- INFANT CRITICAL PATHHAY- PLUME TOTAL DOSE-I 131 11.06% 7.78D-01 MILLIREM PLUME CONTRIBUTION- 86.13%
XE133 49.89%
XE135 8.78%
AR 41 23.97%
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D,ISPERSION FACTOR- 7.20E-05 SEC/CU-M DEPOSITION FACTOR- 2.30E-09 MC-2)
BETA AIR DOSE- l'03E600 MILLIRADS GAMMA AIR DOSE- 4.80E-01 MILLIRADS '
T. BODY CRITICA[ AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE-H 3 25.27% 3.93D-01 MILLIREM PLUME CONTRIBUTION- 74.71%
XE133 45.59%
XE135 5.04%
AR 41 22.88%
GI-TRACT CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE-H 3 25.27% 3.93D-01 MILL'IREM PLUME CONTRIBUTION- 74.72%
XE133 45.59%
XE135 5.04%
AR 41 22.89%
BONE CRITICAL AGE- INFANT CRITICAL PATHWAY- PLUME MAXIMUM DOSE-XE153 60.97% 2.94D-01 MILLIREM PLUME CONTRIBUTION- 99.92%
XE135 6.74%
AR 41 30.60%
LIVER CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE-H 3 25.26% 3.93D-01 MILLIREM PLUME CONTRIBUTION- 74.69%
XE133 45.57%
XE135 5.04%
AR 41 22.87%
KIDNEY CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE-H 3 25.25% 3.93D-01 MILLIREM PLUME CONTRIBUTION- 74.67%
XE133 45.56%
XE135 5.04%
AR 41 22.87%
THYROID CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME H 3 22.07% MAXIMUM DOSE- 4.49D-01 MILLIREM PLUME CONTRIBUTION- 65.25%
I 131 11.20%
XE135 39.81%
AR 41 19.98%
LUNG CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE-H 3 24.65% 4.02D-01 MILLIREM PLUME CONTRIBUTION- 75.34%
XE133 46.75%
XE135 5.01%
AR 41 22.32%
SKIN CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXINUM DOSE-H 3 11.95% 8.30D-01 MILLIREM PLUME CONTRIBUTION- 88.05%
XE133 60.79%
XE135 6.30%
AR 41 17.34%
THYROID AGE- ADULT CRITICAL PATHWAY- PLUME TOTAL DOSE-H 3 16.02% 3.90D-01 MILLIREM PLUME CONTRIBUTION- 75.18%
I 131 7.86%
XE133 45.87%
XE135 5.07%
AR 41 23.02%
THYROID AGE- INFANT CRITICAL PATHWAY- PLUME TOTAL DOSE-H 3 14.78% 4.31D-01 MILLIREM PLUME CONTRIBUTION- 67.99%
Z 131 15 14.
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b b O MCGUIRE GAS DOSE- 3RD QTR '84 RELEASES- 2/27/85 / Otr LA it 00000020 DISPERSION FACTOR- 7.20E-05 SEC/CU-M DEPOSITION FACTCR- 2.30E-09 MC-2)
BETA AIR DOSE- 9.06E-01 MILLIRADS GAMMA AIR DOSE- 4.28E-01 MILLIRADS T. BODY CRITICAL AGE- ' CHILD H 3 18.65% CRITICAL PATHNAY- PLUME XE133 48.64% MAXIMUM DOSE- 3.23D-01 MIL LIREM PLUME CONTRIBUTION- 81.23%
XE135 5.72%
AR 41 25.27%
GI-TRACT CRITICAL AGE- CHILD H 3 18.66% CRITICAL PATHWAY- PLUME MAXIMUM DOSE-XE133 48.68% 3.22D-01 MILLIREM PLUME CONTRIBUTION- 81.29%
XE135 5.72%
AR 41 25.29%
BONE CRITICAL AGE-XE133 59.70% INFANT CRITICAL PATHWAY- PLUME MAXIMUM DOSE-XE135 7.02% 2.63D-01 MILLIREM PLUME CONTRIBUTION- 99.69%
AR 41 31.01%
LIVER CRITICAL AGE- CHILD H 3 18.63% CRITICAL PATHWAY- PLUME XE133 48.59% MAXIMUM DOSE- 3.23D-01 MILLIREM PLUME CONTRIBUTION- 81.14%
XE135 5.71%
AR 41 25.24%
KIDNEY CRITICA' ?GE- CHILD H 3 18.61% CRITICAL PATHNAY- PLUME MAXIMUM DOSE-XLi53 48.54% 3.23D-01 MILLIREM PLUME CONTRIBUTION- 81.06%
XE135 5.71%
AR 41 25.22%
THYROID CRITICL
- 6-H 3 7.03% INFANT CRITICAL PATHNAY- PLUME MAXIMUM DOSE-I 131 43.36% -
5.50D-01 MILLIREM PLUME CONTRIBUTION- 47.67%
XE133 28.55%
AR 41 14.83%
LUNG CRITICAL AGE- CHILD H 3 38.13% CRITICAL PATHNAY- PLUME MAXIMUM DOSE-XE133 49.71% 3.32D-01 MILLIREM PLUME CONTRIBUTION- 81.58%
XE135 5.67%
AR 41 24.57%
SKIN CRITICAL AGE- CHILD H 3 8.52% CRITICAL PATHNAY- PLUME MAXIMUM DOSE-XE133 62.68% 7.06D-01 MILLIREM PLUME CONTRIBUTION- 91.47%
XE135 6.92%
AR 41 18.51%
THYR 7ID AGE- ADULT CRITICAL PATHWAY- PLUME H 3 9.16% TOTAL DOSE-I 131 25.98% 4.14D-01 MILLIREM PLUME CONTRIBUTION- 63.35%
7E133 37.94% -
AR 41 19.71%
THYROID AGE- INFANT CRITICAL PATHWAY- PLUME H 3 7.03% TOTAL DOSE-I 131 43.36% 5.50D-01 MILLIREM PLUME CONTRIBUTION- 47.67%
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MCGUIRE GAS DOSE- 4TH QTR '84 RELEASES- 2/27/85/ fkr U+4i' 00000020 DISPERSION FACTOR- 7.20E-05 SEC/CU-M DEPOSITION FACTOR- 2.30E-09 MC-2) 1 BETA AIR DOSE- 1.64E+00 MILLIRADS GAMMA AIR DOSE- 7.51E-01 MILLIRADS T. BODY CRITICAL AGE- CHILD CRITICAL PATHNAY- PLUME H 3 18.06% MAXIMUM DOSE- 5.60D-01 MILLIREM PLUME CONTRIBUTION- 81.85%
XE133 50.89%
XE135 5.52%
AR 41 23.09%.
GI-TRACT CRITICAL AGE- CHILD CRITICAL PATHNAY- PLUME H 3 18.07% MAXIMUM DOSE- 5.60D-01 MILLIREM PLUME CONTRIBUTION- 81.91%
XE133 50.93%
XE135 5.53%
AR 41 23.11%
BONE CRITICAL AGE- INFANT CRITICAL PATHWAY- PLUME XE133 61.98% MAXIMUM DOSE- 4.60D-01 MILLIREM PLUME CONTRIBUTION- 99.69%
XE135 6.73%
AR 41 28.12%
LIVER CRITICAL AGE- CHILD CRITICAL PATHNAY- PLUME H 3 18.03% MAXIMUM DOSE- 5.61D-01 MILLIREM PLUME CONTRIBUTION- 81.73%
XE133 50.82%
XE135 5.51%
AR 41 23.06%
' KIDNEY CRITICAL AGE- CHILD CRITICAL PATHHAY- PLUME H 3 18.03% MAXIMUM DOSE- 5.61D-01 MILLIREM PLUME CONTRIBUTION- 81.73%
XE133 50.82%
XE135 5.51%
. AR 41 23.06% '
THYROID CRITICAL AGE- INFANT CRITICAL PATHWAY- PLUME H 3 8.12% MAXIMUM DOSE- 8.01D-01 MILLIREM PLUME CONTRIBUTION- 57.28%
I 131 33.19%
XE133 35.61%
AR 41 16.16%
LUNG CRITICAL AGE- CHILD CRITICAL PATHNAY- PLUME MAXIMUM DOSE- 5.76D-01 MILLIREM PLUME CONTRIBUTION- 82.37%
H 3 17.57%
XE133 52.05%
XE135 5.48%
AR 41 22.47%
SKIN CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME H 3 8.12% MAXIMUM DOSE- 1.25D+00 MILLIREM PLUME CONTRIBUTION- 91.88%
XE133 64.50%
XE135 6.57%
AR 41 16.63%
THYROID AGE- ADULT CRITICAL PATHNAY- PLUME H 3 9.83% TOTAL DOSE- 6.49D-01 MILLIREM PLUME CONTRIBUTION- 70.69%
I 13? 18.47%
XE133 43.95%
, AR 41 19.94%
i THYROID AGE-8.12% INFANT CRITICAL PATHWAY- PLUME H 3 TOTAL DOSE- 8.01D-01 MILLIREM PLUME CONTRIBUTION- 57.28%
I 131 33.19%
N3 :53 15. 6 t f, he M l L. lL9,
r A o MCGUIRE GAS DOSE- TOTAL '84 RELEASES PER UNIT- 2/27/85 00000020 DISPERSION FACTOR- 7.20E-05 SEC/CU-M DEPOSITION FACTOR- 2.30E-09 M(-2)
BETA AIR DOSE- 5.87E+00 MILLIRADS GAMMA AIR DOSE- 2.75E+00 MILLIRADS T. BODY CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 1.98D+00 MILLIREM PLUME CONTRIBUTION- 85.19%
H 3 14.76%
XE133 51.06%
XE135 6.95%
AR 41 24.64%
GI-TRACT CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 1.98D+00 MILLIREM PLUME CONTRIBUTION- 85.22%
H 3 14.76%
XE133 51.08%
XE135 6.95%
AR 41 24.65%
BONE CRITICAL AGE- INFANT CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 1.69D+00 MILLIREM PLUME CONTRIBUTION- 99.84%
XE133 59.85%
XE135 8.14%
AR 41 28.87%
LIVER CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 1.98D+00 MILLIREM PLUME CONTRIBUTION- 85.13%
H 3 14.75%
XE133 51.03%
XE135 6.94%
AR 41 24.62%
KIDNEY CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 1.98D+00 MILLIREM PLUME CONTRIBUTION- 85.10%
H 3 14.74%
XE133 51.01%
XE135 6.94%
AR 41 24.61%
THYROID CRITICAL AGE- INFANT CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 2.56D+00 MILLIREM PLUME CONTRIBUTION- 65.81%
H 3 7.33%
I 131 25.69%
XE133 39.44%
XE135 5.37%
AR 41 19.03%
LUNG CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 2.03D+00 MILLIREM PLUME CONTRIBUTION- 85.59%
H 3 14.35%
XE133 52.18%
XE135 6.88%
AR 41 23.96%
f SKIN CRITICAL AGE- CHILD CRITICAL PATHWAY- PLUME MAXIMUM DOSE- 4.47D+00 MILLIREM PLUME CONTRIBUTION- 93.47%
H 3 6.52%
XE133 63.65%
XE135 8.12%
AR 41 17.45%
THYROID AGE- ADULT CRITICAL PATHWAY- PLUME TOTAL, DOSE- 2.18D+00 MILLIREM PLUME CONTRIBUTION- 77.18%
H 3 8.43%
I 131 13.59%
XE133 46.26%
XE135 6.29%
AR 41 22.32%
THYROID AGE- INFANT CRITICAL PATHWAY- PLUME TOTAL DOSE- 2.56D+00 MILLIREM PLUME CONTRIBUTION- 65.81%
ll 3 7 ML Lon 2,5 617.
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Artti It oSP,
ESTIMATED TOTAL ERROR PERCENT The estimated total error percent range for gaseous and liquid effluents at McGuire Nuclear Station was determined using intuitive experience.
The error percent range was estimated to be 25-100 percent. A more accurate method of making this estimation is being evaluated, j
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- q u e w 2 , w E !I otw ot : -
x -e a w 'W 2i 2. - b 2 -
M- Z T.
1 '
o e t '. . w. 66 M. M. it 4M - . B. t 4 6 ,
s (4-I
. _ _ ,_ __ __3 __ . . , , , ._.,...,.7.,_ , _ __, , , _ .. , _ ., , , _ _.% ,_m,y__
.- - - . . . _ _ = . . _ - - . _ - . - _ ~ - ,. . -
f 1984 NETEOROLOGY JOINT FCEQUENCIES: . JIRE MJCLEAR STATICN O 3 b 19:00 TUESDAY, FEBRUARY 12, 1985 PASQUILL STABILITY 0 HIND SPEED CLASS 0.45-l 1.50-l 2.50-1 3.50-1 4.50-1 5.50-1 6.50-l 7.50-1 8.50-l>9.50 1.49 l 2.49 3
.............,1 _ 3.49. ,l_..... 4.49 ... .I.5.49
. -- 4 6.49 1 7.49 .I.8.49
...... ..... ......I.9.49
- .l M/S . TOTAL ......
PM. ..._,I NO. l tm. l NO. _,I.NO.......I NO....... .I PM .
. ...... ....... ... .,_ .I .NO ...... ,I _iM ....__ ,I t 'O ..I......,_... iM.
I i
SECTOR I 1
)
-N- 27
+
__. ... . . _.., 23,... 69,_
.. 37,1 _ _............ ..........___,
18 4 . . .
. 178
-NNE- l 45
. . -__, 12,1 .. 83,1
__ .. _ ....,1_ . 4 71..._261._.
.. __, 131 .. . 12,l 4 ,1 2,1_ - - . ,I 244
-NE- 147 48
.. _ . .I lol... 801 ......1.
- .. 1861.
.. 90l........_,1_ 30,1 11..... I
. .,I 592
-ENE- l .1
._ _,_ 7,1 48,1 . 1191.-
82,1 _
15,1__.. ..1,1 . . 2,1
_ . ,l
. 1,1.. 275
-E. 40l
-ESE-
.. _ ,I 10,1 37,1 _ ......,
88 -
- I. ...
,1____..1.....
,I .I
-+-
.l 95 l
-SE
.. 91 . 31,1
. ._ 20,1 10,l 11......I .
.I. _.. I.....
I
.I 71 l 9
-SSE-
.- 35,1_ 32,1 ..1.... 31.
. ____1,1 . ,1 .I
.. __..,I _
. ,I
. ,1.- 80 l 43,1 -
39,1__.. 5 1 S.l.... 21 .
.l
.1
. . ,l _____..I
. .... 1.. ...94 .
-S- l
_.- ._ , 35,1_ __135,1 ___ 1491... 851... 30l.. -
-. .. 71 ... 31
. .- 31. _. 1,1 . .I.__448
-SSH.
l 410
. .._........ 37,1. 126,8- 131,1 _
63,1--
341... _12,1
- _ 4,l_
2,1_ .l
... _..,l I
.SH. 491 911 761 11 353
... . ,I- =,.- -s- _-+- 721- _
32,1 _
141.. . ._ _1 - 1,1_ _...S _,l ... 2,1 . _ ...__.
.HSH- l 221 381 151
+ _+ 36,1 34,1 7,8 4,1 21
.I....__ ,I 158
-+-
-H- l 231 331 241 9 161
-HNH-41,1 .
+- 16,1 11,l
.1 2,1 21 .... .I.
..1 191 .. 23,1 19,l 241 Il 141 148
+- 20,l= .._.._,l , 11,l 7,l
. ,l .
-NH- l
., 13,1 16,1 _
20,1 281-.+ 141. 11,1 21.... 21 . 1,1 . ,I _...._107
-t::<- l 221 261 15,1 24,1....14.l ._,l . _.... .l .I 108
. .. __.s. _
. 7.l ....__. .- I ... .-
-CALM- l 11 -
.i
.._...........1....._.,I
.l .
. ,l -
._.1.... . _. ,I . ,I - ...,l _.___. 1 TOTAL I 3631 146 91l
_.. 9011 . 9221 __
7221 3281
-__...1 . ....... 1 28 181 41 3523 __-- _
I
- , . _ _ - ._ . __ . _ _ _ . . _ _ . _ . ,__ _________m., - . - . . _ _ . . .- _. _ _.
'h 1984 NETEOROLOGY JOINT FREQUENCIES: e. aJIRE WCLEAR STATISI 4 19:00 TUESDAY, FEBRUARY 12, 1965
~
t l PASqu!LL STABILITY E NIND SPEED CLASS 1 ...........__....__._____................. .
I
. 0.45-l 1.4 9 -,I_.__. 1.50-[
_2.4 9 ,3_____., 3.49 I 4.49 l 5.49 l2.50-1 3.50 1 4.50-l
- ,______.- 6.49 .l .7.49 .i 9.49
_....___,I 5.50-1 6.50-l 8.49 l7.50-1 8.50-l>9.50 M/S . TOTAL ......
1 NO. NO.
.-- . ________ .. -,I NO.______.I NO.._,I_NO.__...,I_NO._____.I NO.......,I _,I NO...I NO. .I .No ...___.1.NO.
SECTOR
-N __..___ 41 24,.
-NNE.
__... __ ..__,.. 12,_ _
.10.....
. 6.._
1 1.. ., -
_+_____.
95 161.. ......,132 5 5 108
- NE.
. .. __,l _ __.ti.l...
.. 151...._10,1 ___...1
.. _ . ... 21. ....__,1 2,1____.,I .
.__,I 181 17 I I
. 361..___25,1-
.. . 16l+......1 ... 16,1__. ..l.. 31.__.. . .,1 __132
-ENE. 20l 27 1
.____. ._____..... ..I...___7,l ___ ......__,1.. 191
. ._ ,1.....4 ,1___....l-9 I
.I.__... ,I .I 87
-E- l 91 16l 9l . ,1 . . . 34
._ . _...__. ., .__...,___.... .I.
..i.___..1 . ,1_ _._ _ _. ,I___...1 .
-ESE. 19
,I_. .9,1______,1 25,1 9,l 1,1
._,1.
. ,1 .1.__. 1
.- .,1..__63 __
-SE-l 7l .1
-SSE-l 201....301 - ..
ti 7
1,1 . ,I 1
.l
. _+- .1.....
I
. .I. .
58 i
.- - _,_ 361.. __.,l _..1_____51 _ 3,1____ .1 ....I.
11.. -
___.1.....__,1 . 74
-S- l 851 751 .1
___. . 155,1 30,1_..._10,1_ __ 4,1_ . ,I _-_ __ ,l___...,I.. 359
-SSM. 114 .1 i
-SH-
_.___. ...__. ,I 871..__81,1 __ 71,1..
_ 371_ _ - =+ 31.....
+
1
... 1,1 .
. .___,I
. __291 l 74 131 1 11 155
........ .___. .._..__.1.___361 _. . 25,1 __._51.+_____.1....__,I .
+ .I......_,I .
-HSH. l 121 81 .1 .1 i 571.- 22,1 4,1 . ,I _ .I
+_.. _.+ +- .I
... . 103.__
-N. 38
,I ____5 71.. ____,1- 21,1 128.. 5,1 2,1__.___,I . 11 .
_- . ,I___.__.I __136 i -ws4 71
,I 23,1 24,1 28 ,1 17,1 2,1- 1,1___.__I . .I
. ,I 102
+
-NH.
241 241
__ _ .I 28,l-e- e.. 19,l 8,1 2,1 ._1,1 .I
. . ,l .I 106
-rea4 1
131 24
_. .. ,1._ . ......1 . ..._16,1
. Il,l 121 3
..1.. .11 . ,1 1
. .. ,1- . ,I 81
-CALM. l 4
-, . ._., 4,1 . ,l
. ,I .,1. .. ,1_ .. ,1___....I .
..__..,I__ . 1.-
. ,1_-
TOTAL I 555 6191 417 222l
...... .. __. . ._.. .._.1 . ....1.. 1081 441
..__.._______..___1 8l 12
__.31...__ I __1988 8
l k
?
1 k
I 3
i.
l l
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=
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E
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0@ ,
5 eg = e4 Mi w I 0
6 3 0 8 8 I 8 0 04 9 0 t A I e 8 8 i 1 0 4 4 4 0- l-m 3 +=i=,' B
+=-+==+===+==+=i=+==+==+==+===+==+==+==+=+==+==+==+-=.
0 4 i 0 0 0 8 9
>= 3 ,
3 . . e e i et e oI ee e8 e ee .e ee e eI e i eI e
( 0 i '
4 1 0 0 0 0 8 9 I 6
O i
9 i e 4 M i .M '
1 I 0 0
9 0 0 t 0
i 0
O 4
i 9
1 4 -@ '
l s 0 0 0 t 0 0' 0 8 A -
4' 0 0 0 0 I i B B 0 0 ====+==+
+ = .= + = =e, +e= = + = = +eg= =eI = +eI = =eI + = e9
+e = = + = = +e= = +e - + =e= + - + = = + = = + = * =
3 5 n g e i e i o e e o O 8 6Oe' e i e i s 0 t I i O i e4 5 0 8 0 0 0 nO. f. I I I 0 t t I
@= $P I 0 t t 0 0 0 M I 5 1 6 0 $ $ 0 I I e 4-=-+==+ +==+==+==+-=+==+==+==+==+==+==+==+==+==+==+==+==+==
I e 0 ee o e e t e i ee o et e I e oe o eI e e e I - OPf 0 I I i 0 0 0 eI e 0
I I 4 i 9 8 8 0 nA f 4 = I I 4 4 8 0
0 2 4 5NC8 8 4 0 t I O I e I I e i : 0 i i < 0 I
4 M i I=-==+==+ +==+=e+==+-+==$==+==+==+==+=-+==+==+==+==+==+==+== i
>= 0 t t I 3 e e e e e i o e oe *
- i e o I e e8M e.I e ; e4
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>= 8 e 1 M t IA.fe4 i 9 8 4
i t
B i s
l s
i4N0 t 4 0 K O 4 I :
9 0 ' . O eg Mi ===+==+
W M. =e e + = = + - + =i =e + = = *+ = = + = = + = = + = = + = = + = = + - + = = + = = . + = - + = = + = = + = = .
i
- 0 e0N *I e8 ee . M l e e i e *9MI e e 4-
=J t *C i OP0 0 0 '
I I I t 6 a J e4 4 0 e 0 e i 9 i 0 t U * *I e 0 9 8 8 M48 9 0 i 4 .
I O e e B 1 '
8 4 w 0 l- '
w i-+===+ +==+=+==+==+==+-+==+==+-+==+==+==+4 ==+==+==+==+-=
g w .I I Ng eIMi e i e eii e i e i e IN$ e a e e'4 o Mt e 'N C. OP I I 0 i B l l '
4 eg lM =4. f.
- t t 5 0 1 4
i s
(=
t 8 0 3 0 i 3
9Q f 10 1 9 I 0 0 0z I 0 0 0 0 9 I e ce - + = = + +===+==+==+===+==+==+==+==+===+==+=m+==+==+e+==+=+i
- 8Z l9 0 I MSNlM e o e e i ee4 4'M e M iM M'N e4ei M S i lO@l 4 i e w 6 i e4 4 9 e I 4 s iNi n
M 8 ll *=5 0 0 i
eMtt 0 a
i 0
t 9
e e u .
e ,
i 8=====+e-+ + = = + = = + = = =I +e = =' + ==+==+=-+==+==+==+==+==+==+==+==+==+==
i N ' to e N i
I 8 9 e4 e4 , e e MiMtN0
- M '4 iN M e w
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- 4 '
i e4 e4 0 $ .O i
4 g lAo t. I i t
i 4
3 4
8 A NM i e ll 9 0 :
8 4 i I i 9 9 0 0 0 g
s i=====+==+
' S 4
+==+==+==+==+==+==+==+==+-+==+-+4 14 I O .P M
=-+-+==+-+==+== ,
. t *8M ifi@840N i4404 @0N If e . e-e M i O@ l e4 !M 0 i N 'i M M e 0 0 t l
- 6 9 M. fe i 4
i 6
N
.9 e4 N 8 9 !
.I
- l O O 4' 0 0 i I e 0 0 t t 0
+==+-+===+==+==+==+-+==+==+==+==+-+==+8 i
.====+==+ ==+==+==e==
t B 44 ' 44 4IM N f'N O940 OIM OO@ N iM 4 en
.J l BA P ' 8 et ' t '
et t G 4404 NOM 'M N i e4
' e4 O
I i
ff'e el I =0 I e 8 0 '
i la i Mi 4 i 0 9 9 9 9 OMS 4 '
I f l t 0 $ $ '
I 4 4 4 s I 4
+ +-+==+==+==+==+-=+==+==+==*==+==+E = = + = = + = = + = = + = = + = =
0 1 1 I I 4 8 I i 1 0 0 $ I O 4 I
$ 1 0 t I I O I 8 4 4 9 l 9 0 0 0 t I e I i
e t I 8 l
,it i i i e
i i e i.
t 9 0 0 I j t A
t 0 :
I 4 C' 8 I
9 O M 4
=d 8 9 i M i t ! t N l 9 8 9 M i i 4
4 1 9 0 a.t 0 l I i g i e
=J $ i i s I e MB 4 0W l 5 0 t t 4 i t t - 9 9 9 E J4 8
I I>=
iu et*
9 y.
- e. i e 00 Iw W
t l I e
3 8 g og J =eg N
aC I
l
!w M
ZOI e 0 e' ei wI e1 wUwIM 0 0 8 4 5 0 'M s a i
e a Z I IaT ta O e a e >=
En I
8 M
a N
M
>=
E 5
1 I I nn i e 8 O I N iC l' e N 0 e=0 t N .i 4 i e4 'N lM '@ l N 4 CUM - 'l I =J B N INON M e 44 8 IeeN @ '@ M 'IM' M N U@
C 0 40 0 0 0M N0M 'N l
W l >0Oe 8 0 9 0 .M I
I b 4 O8Z t B 4 0 i I k6 0 '
8 0 .
I I a
I
+==+ i
>= 'i e +==+===+I=
et e= + i e= = + e= = + e =i=e + = i = e = + e= = i +
e = = o+ = = e = + oI = =e+ =i =o + = =e + = e= + = = + = = + = =
4 O i -
t i i t 4 O i e t i I e M
e 4Ae e g
==
9 0 t 1 0 t
4 A 0 l 0 '
I .
I t 9 i
- + = = + +==+==+-+==+==+==+==+==+==+==+==+===+==+==+==+===+==
B I l l e e e e o e0 et eI e8 e o e Ie *0 e Ie e3 e O ice 1 0 i 8 8 4 ll O i e.t. , e I
, Sel g I t t t
=
9 ,
e a. I 9 0
0 0
s M t i a u 0 0 0 t I====+==+ +==+==+==+==+==+===+===+==+==+==+===+==+==+==+==+==+==
9 0 e ll 8 e e i e0 e0 e e e e0 e e o e e i e e e e e 8 0Oe i e i 0 0 0 8 O nn t i e i 0 0 e i I e 9 4 4N4e !:D 8
2 9 Z 0 0 0 D
i l
8 8 4
0 $ 0 8 I M
O 9 6=====+==+
>= 0 0 0 t e +==+==+==+-+==+==+==+-+==+==+==+==+==+==+==$==+==0 e e o I e i ee e e I eI e e8 o e I e e I o e e4 0 0OF0 eI 1 0 1 0 t i I e
$= t e a4 f I e O i 4 i M 9 8 e esO i 4 e E
I
- 4N8Z t t I 4 e i I t .
9 4 4 t t t a4 5 M 8 - + == + +==+==+==+==+==+==+==+==+==+==+==+==+==+4 ==+==+==+==
W 4MB e I et e .O e o e e ' e e o e o e I e I e e eI e
=J 40OPI I i
I i e
=J0@40
- I i i Q l . *6Q 8 i l 14 4 0 Z ' 8 8 8O I i 1 0 t . '
s W $w i=====+==+ +=u=+==+==+==+===+===+==+==+==+==+==+==+==+==+===+==+==
E 8 tas i 9 6 e e *8 e i ei e i o e eI eaM e e o e o e e
- 80. IOPh 8 0 Mll 0 $
IM '44 i
- 4
( ., t IQ 4 44 ' ==
'g 0
t 0
0 t 0 I I
9 i i i 0 0 4e ' = = = = + = = + l i
1 e ee iX e0+ =* = + = eI = + = = + = e= + = = + = = + = = + = = + = = + - + = = + = = + = = + = = + = = + = = = + = = .
e e e M OPI i e e i eIN iM4 e e i o e I e e4 e i 04 I i ll 4 w hn f I e i e i 3
0 0
t 0
i 8
I M e e tQ t I e i i
3 U M 4 8 ar= 9 0 0 8 9 9 0
Z 4 0 0 0 t t '
i 4
+==+ +==+==+==+===+==+==+==+==+==+a=+ese+==+==+4 =ms+==+==+
0 1 0 MIMONI *
- i et * .
- 8 64 i M
- s' M l N i' N r.4 e O' llOP I O O O 4 0
' W l 44 f I *8 8 I
$ I ' l' N 0 0 e i e E 8 l e e O8 0 0 8 8 e Gian 4 1
0' e
N M .'Zt I g 0 i 0 i e i
i i O 8 6 8 4 E I i l
Z i
ll9 i-+==+ +==+==+==+==+==+===+=+==+==+==+i O
==+=,=+==+=+==+==+=.=,
0 1 04 iMeMS e M
- f4 P% 8M N 0 M :' fs 'N iM i4 e iM M i OPO M i 6 0 -@ 0ee i
'1445 N 1 '
0 .
I e e
% 0 0
e -e eNG.g i
e 5
6 0
M t 8 1 0 $
i 0 0 4 0 i e $ '
====+==+
I t 5 N +-+==+==+==+=i=+==+===+==+==+==+==+==+==+==+==+==+=.=
I @ i' 44 4 4 SIC 9N N. C aa I
M 4 M .O N e O'N 4440 la e e e '
I iM 'M0 t og 4 M
O ' 7%. C .i e N
i@
IM c tw M M N 4 4 *e0C e i
' .e9 e t
0OMeZ 9 o 0
{e i i l $ i
. i i
I + +==+==+==+==+==+==+==+==+-+-+===+==+==+==+==+==+==
W D 8 0 0 0 l 0 0 E
i 9 4 0 0 0 1 0 t i 4 0 8 9 i t t t 8 4 6 g '
0 I t i 0 0 1 0 8 8 i 0 0 M 8 0 0 4 9 0 4 0
0 0
8 8
1 9
0 9
i l
9 8 6 8 8 0 8 4 I
0 I
0 I
{
I s
I
.$ 0 0 $ 0 0 0 0 0 0 8 4 0 0 1 4 9 e i M ,
0 8 4 M 9 C I 4
>= 4 i 8 s M i e il 6 4 4 9 i 0 4 8 8 e 0 0 0 l J E t i t t t t D
M H g 4
10 0W' 0 0 t i e i 9 9 0 0 90 = -J o u 5 i 8Z iW iM W 8 l l 0 t
$ P 9
Q J =(
<o o w .zl M t l 2 4
'E9wIw
- 8 I I . .
0
'w 8
MC I e0 . M. 't 0 l 548 0 0
0 : z. 2.
4 i
2i
- =4 T u w I H
o fan 0 I
l l
1984 METEOROLOGY JOINT FREQUENCIES: e. AIIRE NUCLEAR STATION 7 19:00 TUESOAY, FEBRUARY 12, 1985 ALLSTABILITYCLAbES MIND SPEED CLASS 0.45- 1.50 1.49 2.49 2.55-3.49 3.50. I.55- 5.55 6.b0 7.50 8.b0U >9.50 4.49 5.49 NO.
s.__ .. 6.49 ..7.49 -
8.49.. ...... 9.4 9 ..M/S. _ .. ...... TOTAL
.I Ho.._. ..I.NO.......I.NO......,I NO. -,I NO... .I .PC . l NO. NO.
SECTOR
..._.........I.NO.......I ,I _NO
-N- 69 40 6
...... ......... 181... 114.... 58...
... .. +- 13,....
-_ . 3...- 2, .
+-
486
-Pf4E.
451 646
... ,I 50,1 171,1
__ 1301__.1171
_, .. 74,1 -
.. - 33,1
-- 211.... 41...__I,l- . _
-NE- 48 15C 241
... .. -_..,____..1.......l......1-l 2911 173,1 891
. 451 -- 71.....1,1 .l 1045
-ENE-l 1601 32
-E.
. . ___, 22,I_
79,1 . -_ 112,l ...-_.,1
.._ . ... 61 . 3,1_...._. ,I .1
. ...I,l 415
_.. ..,_-...,1 l 34 62,1 -
54,1- - - 9,1 ..
.1
.- . ,I. . ,I .I.....
. ,1- .
_ .. ,1- 159
-ESE. l
... , 30,1 61,1.- 61,1 -
22,1 _.
31
......,1 .
. ,1 .l
. ,1__ .,1__.177 ._.
-SE- l
.. ,. 72,l- _...._83,1....2 7,l. -- 5,1_ I,l-- . ,1 .._. _. ,I-
_ . ,1 . ,I . ,I __..laa
-SSE. ._
..1....1.._...1,......+..
146
.. .I..._..,1_ ....,1 78 12 5 2 .1 .l 262
.....- _ ._ 18,1 1,1 _ ._ ,I............_
.S- l 514 265
-SSH-
....___.1- 4361
. ......1.. 1531...
.. 5..7,1 _ ,. 201
.. A,l_____31. ......1 1
.I..1453...
462 258
. ........1 ......1 . ..1 2271... 1211
. . . . . - 578... -+ 19,1
.. . 41...._31.
-+ .....I......,1
. 2 1153
-sH. 3351 106 18 161
-H:34
..........- ..... .I + 1491......1 - 93,1 -
391......,1 . ...21 ......1.... 7 41 769--
,I 186,1 66,1 511 46,l 6 389
+ .
24,1 -
8,1_ ......,1 2,1- .I
.l
+-
-H- 66 16
.. . _. .1- 1901... 851 .. .... .1... 39l
_. - 23,1- ......1 -
101.... 4,1 . _..
2
.1..... I _.435
-Hrn-
. ... ... . ..l _,190 551._
58
..1 461.......1......1 31 14
. 15,1 Il,l-8,1.. 11.._329 ___
-tm-l 98 ,1 511 - 501 221 31 1 308
_,- 54,1 24,1 . 5,1 ....._,1 . ,I
-t#54 l 72 49 421
_. _. ...,- 491......1......1.. 34.l....121
.. 5,1._____,I......1
. 1
... .1..
. 264
-CALN. l
._ .- 39,1...._ ......1.. . 1.
. 1 .
.I........I .
. .1.....
1.......1 - _,I..
. 39 TOTAL 1 24341 2037l 16771 12201 6171 2841 152l 601 27l 91 8517,
( - - - - -
tti tti AAAAAAAAAA CCCCCCCCCC 8888888888 O b Nt M .333333333 6%i'H 665 4% JJJJJ.JJJJ HMNAA MMtM AAAAAAAAAAAA CCCCCCCCCCCC 888888888888 333333333333 666666666666 4444 JJJJJJJJJJ Nttti AA CC CC 88 88 33 33 66 66 % 44 JJ tti til tti Ptt AA AA CC 88 88 33 66 %% JJ HH tttttt HN AA AA CC 88 88 33 66 % 44 JJ HH tti t1H AAAAAAAAAAAA CC 88888888 3333 66666666666 444444444 %
NN AAtAAAAAAAAA CC JJ ttt 88888888 3333 6666M6666M 444 % 444 % 44 JJ NH tti AA AA CC 88 88 33 66 66 44 tti tti AA AA CC JJ 88 88 33 66 66 % JJ JJ tti tti AA AA CC CC 88 88 33 33 66 66 44 JJ JJ tti HH AA AA CCCCCCCCCCCC 888888888888 333333333333 6666666M666 44 791 tti AA AA JJJJJJJJ CCCCCCCCCC 8888883888 3333333333 66666666% 44 JJJJJJ JJJJJJJJJJ 4% 2222222222 3333333333 8888888888 8888888888 JJJJJJJJJJ 44 % 222222222222 333333333333 888888888888 888888888888 JJ % 44 22 22 33 33 88 88 88 88 JJ 44 44 22 33 88 88 JJ 44 44 88 88 22 33 88 88 88 88 JJ 44444444444 22 3333 88888888 88888888 JJ 44 % 444444 % 22 3333 88888888 JJ % 88888888 22 33 88 88 88 88 JJ JJ 44 22 33 88 88 88 JJ JJ 44 22 88 33 33 88 88 88 88 JJJJJJJJ 44 222222222222 333333333333 888888888888 JJJJJJ % 888888888888 222222222222 3333333333 8888888888 8888888888 E3 END JOB M 38 HAC8364J 0001 0001 1 CASPER FH NORM PH37 ROCH 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB EtiD 8e tQ E t3D JCB 4238 MAC83MJ 0001 0001 1 CASPER FH NCRtt PH37 RCGt 7.02.30 Ptt 12 FEB 85 PRINTR9 SYS SYSB END 88 c3 Et:0 JOB 4238 ttAC83MJ 0001 0001 1 CASPER FM NORN PH37 ROOH 7.02.30 PH 12 FEB 85 PRItiTR9 SYS SYSB END 85 50 Et40 JOB 4238 ftAC83 MJ 0001 0001 1 CASPER FM NORM PH37 RO3f 7.02.30 PH 12 F EB 85 PRItTR9 SYS SYSB E!!D 8e c3 END JOS 4238 HAC83 MJ 0001 0001 1 CASPER FM NCRtt Ptt37 RCatt 7.02.30 PM 12 FEB 85 PRINTR9 SYS SYSB EllD Be C3 END JOB 4238 HAC83MJ 00010001 1 CASPER FM F30Rt1 PH37 RCG1 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB E t3D 8m c3 END JCB 4238 ttAC83 MJ 0001 0001 1CA;PER FH NORif Pit 37 ROCH c3 Et40 JOB 4238 MAC8364J 0001 0001 1 CASPER 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYLB END 88 FM tCRtt PH37 RCatt 7.02.30 PM 12 FEB 85 PRINTR9 SYS SYSB END 8e E4 END JCB 4238 HAC83MJ 0001 0001 1 CASPER FM PERM PH37 RC31 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB Ett0 8*
CG END JOB 4238 MAC8364J 0001 0001 1 CASPER FH NORM Pit 37 ROG1 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB EttD 53 END JOB 4238 NAC8364J 0001 0001 1 CASPER 88 FH NORN PH17 ROCH 7.02.30 PM 12 FEB 85 PRINTR9 SYS SYSB Et3D 8e C3 Etc JCB 4238 ftAC8364J 0001 0001 1 CASPER Ft1 NOR!t Ptt37 ROOH 7.02.30 PM 12 FEB 85 PRINTR9 SYS SYSB END 8*
cQ END JCB 4238 ttAC8364J 00010001 1 CASPER FM PORM PH37 ROCH 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB Et4D 8e e4 END JOB 4238 ftAC8364J 0001 0001 1 CASPER FH PCRH PttI7 RCCH 7.02.30 PH 12 FEB 85 PRI'tTR9 SYS SYSB END 8*
CQ END JCB 4238 ttAC83MJ 0001 0001 1 CASPER TH NORtt Ptt37 ROGt 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYLB END C3 EPID JCB 4238 HAC8364J 0001 0001 1 CASPER Fit icRit Pit 37 ROG1 8e C3 END JC3 4238 ttAC83MJ 00010001 1 CASPER 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB EPID 8m FH tCRM Pit 37 RCOM 7.02.30 PM 12 FEB 85 PRINTR9 SYS SYSB END 50 Et;D JCB 4238 ftAC8364J 00"1 0001 1 CASPER FM tJORM PH37 ROOH 7.02.30 PM 12 FEB 55 PRIIITR9 8m E4 END JCB 4238 MAC83M J 0001 0001 1 CASPER SYS SYSB Ef 3D 8e FH NORN PH37 RCCH 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB Et3D Be na END JC3 4238 HAC83MJ 0001 0001 1 CASPER Ftt NORH PH37 RO0tt 7.02.30 PH 12 FEB 85 PRItiTR9 SYS SYSB EttD 8e c3 END JCB 4238 ttAC83 MJ 0001 0001 1 CASPER FH NORN Pi137 RCOM 7.02.30 PM 12 FEB 85 PRItiTR9 SYS SYS8 Et3D 8e e3 Et2D JCB 4238 ttAC83MJ 0001 0001 1 CASPER Fil NORtt Ptt37 R031 7.02.30 PM 12 FEB B5 PRINTR9 SYS SYSB Et3D 8e e8 Et:0 JOB 4238 ttAC8364J 0001 0001 1 CASPER FM P10Rtt Pit 37 RCQ1 7.02.30 Pit 12 FEB 85 PRIr3TR9 SYS SYSB END 8e c4 Et;D JOB 4238 ftAC83MJ 0001 0001 1 CASPER FM NORH PH37 RCatt CG Ef10 JCB 4238 ttAC83MJ 0001 0001 1 CASPER 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB Etc 8*
THICRM PH17 ROOH 7.02.30 PH 12 FEB 85 PRItiTR9 SYS SYSB E t3D 8m c3 END JCB 4238 HAC83MJ 00010001 1 CASPER FN FORN PH37 RCCH 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB E t40 8*
E4 END JC3 4238 ftAC8364J 0001 0001 1 CASPER FH PORN PH37 RCort 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB END 8*
03 EtJD JC3 4238 ftAC8364J 0001 0001 1 CASPER FH torn PH37 R031 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB EtJD 85 c3 END JCB 4238 MAC8364J 0001 0001 1 CASPER FM NORM Ptt37 RO3t 7.02.30 Pit 12 FEB B5 PRItiTR9 SYS SYS8 ft4D 8e C2 Et3D JCB 4238 ftAC83MJ 0001 0001 1 CASPER FN tcRit Pit 37 R00H 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB Ef40 8e
- 3 EPO JCB 4238 HAC83MJ 0001 0001 1 CASPER FM PCRit Pi137 ROCH 7.02.30 PM 12 FEB 85 PRINTR9 SYS SYLB E t40 8e c4 E t4D JOB 4238 HAC8364J 0001 0001 1 CASPER FM PCRtt PH37 ROCH 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB E ttD Be
- 3 END JCB 4238 ftAC83MJ 0001 0001 1 CASPER FM tmRH PH37 ROCH 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYLB END 8e c3 EtJD JOB 4238 HAC8364J 0001 0001 1 CASPER FH PURN PH37 ROOH 7.02.30 PM 12 FEB 85 PRINTR9 SYS SYSB Etc Se c4 END JCB 4238 HAC8364J 0001 0001 1 CASPER Ft1 t40Rtt Pit 37 ROOT 7.02.30 Ptt 12 FEB B5 PRINTR9 SYS SYSB Et4D 8e CQ Etc JCB 4238 HAC8364J 0001 0001 1 CASPER Fit PORtt Pit 37 ROCH 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB Etc 8e c3 EtJD JOB 4238 MAC8364J 0001 0001 1 CASPER FM PERM PH37 ROGt 7.02.30 PH 12 FEB 85 PRINTR9 SYS SYSB END 8e na END JCB 4238 ttAC83MJ 00010001 1 CASPER FM tcRN Ptt37 ROG1 7.02.30 Ptf 12 FEB 85 PRINTR9 SYS SYSB Et3D 8m
- 8 END JCB 4238 HAC8364J 0001 0001 1 CASPER Ftt NORM Ptt37 ROCH G4 EP D JOB 4238 MAC8364J 0001 0001 1 CASPER 7.02.30 PH 12 FEB 85 PRIIITR9 SYS SYSB END 8e FM PCRH PH37 RO31 7.02.30 PM 12 FEB 85 PRINTR9 SYS SYSB EttD 8e
- 8 E!C JCB 4238 HAC83MJ 000100012 CASPER FM tcRit Ptt37 ROOH 7.02.30 PM 12 FEB 85 PRINTR9 SYS SYSB END 84
3 .--nJa B ' -~ m A A -.ao_<- - ~s d
4 ATTACIDIENT III OTHER REPORTABLE EVENTS 1
4 J
i i
1 d
a l
I 1
t
.i a
E It i
i 5
r h
4
, , . - - - -n.., 4.--.,-- -
-. ,., . , -- ,-- .,- , - - ,- ,.n,.,- . , . - , , , . . , _ , -,,,,.,n.r---r.., e-~-- = . - - . - -vv~,..,
III. A. LEAKING SOURCE A 2.12 mci Technetium-99 (Tc-99) source was leak tested, per Technical Specification 3.7.9, on November 5, 1984, and was found to have .068 pCi of loose surface contamination.
The source was manufactured by Isotope Products, Inc. , of 1800 N. Keystone Street, Burbank, California 91504 and is source number 107-14-1. The source was subsequently de-contaminated and repaired.
III. B. UNPLANNED RELEASES
- 1. On July 14, valve WG179 (auto-drain valve on H 2 Recombiner Phase Separator B) was inadvertently placed in the Manual /
Open position during a Waste Drain Tank transfer to the Recycle Holdup Tank. The phase separator drained and allowed the release of gas from Waste Gas Decay Tank "E"
- to the WEFT sump.
A total of 17.03 curies of noble gases were released from Waste Gas Decay Tank "E". No Technical Specifications limits were exceeded.
- 2. On November 13, while changing a diaphram on 1WG233 gas from WGDT "B" leaked past 1WG234 or 1WC236 and into room 607 on elevation 716'. A total of 9.49 Curies were released from WGDT "B" into the atmosphere.
! A functional test was performed on 1WC234 and 1WG236 on November 15, but it was not determined which valve leaked.
- No Technical Specification limits were exceeded and the
- release was not an NRC reportable event (see attachments for calculations).
1 III. C. INOPERABLE INSTRUMENTATION
- 1. Containment Ventilation Unit Condensate Line Continuous Composite Samplers (Units 1 and 2)
On June 1, 1984, Units 1 and 2 Containment Ventilation Unit Condensate Line Continuous Composite Samplers were declared inoperable. The samplers have remained inoperable since that date and have exceeded the thirty (30) day inoperable period limit identified in action 33 of Technical Specification 3.3.3.8.
The samplers were originally declared inoperabic on June 1.
Frequent inoperabic periods had been experienced and an investigation identified that the affluent had a higher solids content than the instruments were designed to sample. An appropriate replacement has tentatively been identified and installation is scheduled for July 15, 1985.
- 2. On July 5, 1984 at 0911, the Containment Ventilation Unit Condensate Drain Tank (VUCDT) effluent monitor, 2WLFT5900, was removed from service. At 0905 on August 7, 1984, Planning identified the effluent monitor had exceeded the 30 day limit identified in Action 34 of Tech. Specs. section 3.3.3.8.
The effluent monitor was originally declared inoperable on July 5. A work request was written to break flanges and rotate the effluent monitor. On August 7, 1984, IAE technicians discovered the effluent monitor was still inoperable.
On August 22, the VUCDT effluent monitor was declared operable.
ATTACIDiCNT IV REVISION 5 TO Tile ODCM
~
~
Kbbb349 PDR R
i
September 7, 1984 SUBJECf: OFFSITE DOES CALCULATION hlMIAL - REVISION 5 The General Office Radwaste Engineering Staff is transmitting to you this date, Revision 5 of the Offsite Dose Calculation blanual. As this revision affects the manual's generic section, the approval of each station manager has been obtained. Please update your copy no. J. , and discard affected pages.
RDOVE TIIESE PAGES INSERT T1ESE PAGES Page 1-1 Page 1-1 Revision 5 Page 1-2 Page 1-? Revision 5 Table 1.2-2 Revision 1 Table 1.2-2 Revision 5 Page 3-2 Page 3-2 Revision 5 Page 3-3 Page 3-3 Revision 5 Page 3-9 Page 3-9 Revision 5 Table 3.1-3 (3 of 3) Table 3.1-3 (3 of 3) Revision 5 NOTE: As this letter contains "LOEP" information, please insert this letter in front of the August 7,1984 letter.
Approval Date: // ///f/V Approval Date: 3 - Zf-N O
C/
Effective Date: 9-10-84 Effective Date: 9-10-84
/
Stary L. irch ,
. W. Ilampton, blanager System Engineer Radwaste Engineering fff Catawba Nuclear Station Approval Date: A M Approval Date: 8 fdi Effective Date: 9-10-84 Effective Date: 9-10-84
/ e . hC h! D. h!cIntosh, blanager bl. S. Tuckman, hfanager hicGuire Nuclear Station Oconce Nuclear Station If you have any qtestions concerning Revision 5, please call Jim Stewart at (70 373-5444.
% ffl $B/
James bl. Stewart, Jr.
p Associate IIcalth Physicist l,"/ Radwaste Engineering WC-2339
. DIS /ncm
1.0 RELEASE RATE CALCULATIONS P
The release rate calculations presented in the following sections are site release limits. Sites containing two or more units shall administratively control releases to assure that the release rate calculations limit releases as stated in the Technical Specifications. Administrative controls could limit the number of releases occurring at one time and/or apportion the release rate between the units.
1.1 LIQUID EFFLUENTS To comply with Technical Specifications and to assure that the concentration of radioactive liquid effluents from the site to the unrestricted area is limited to the concentrations of 10CFR20, Appendix B, Table II, Column 2, the following release rate calculation shall be performed:
n f i F + (o I i )
i=1 MPC.
I where:
C.
- = The concentration of radionuclide, 'i', in undiluted liquid effluent, in pCi/ml.
MPC g = the concentration of radionuclide, 'i', from 10CFR20, Appendix B, Table II, Column 2, in pCi/ml.
f = the undiluted effluent flow from the tank, in gpm.
F = the dilution flow from the site discharge structure to unrestricted area receiving waters, in gpm.
o = recirculation factor at equilibrium; this factor accounts for the fraction of discharged water reused by the station; this factor is one for stations on rivers or lakes where discharged water cannot be reused, and varies for sites where water is recirculated and is specified in the appropriate Appendix.
1.2 GASEOUS EFFLUENTS In order to comply with the Technical Specifications and to assure that the dose rate, at any time, in the unrestricted area due to radioactive materials released in gaseous effluents from the site is limited to 1500 mrea/yr to the total body and $3000 mres/yr to the skin for the noble gases and is limited to $1500 mres/yr to any organ for all radiciodine and for all radioactive materials in particulates form and radionuclides other than noble gases with half lives greater than 8 days, the following release rate calculations shall be performed. These calculations, when solved for 'f', i.e. flowrate, are the release rates for noble gases and for radioiodines, particulates and other radionuclides with half-lives greater than 8 days. The most conservative of release rates calculated shall control the release rate.
1-1 Revision 5
. 9/10/85
1 1.2.1 Noble Cases v
IK x [(X/Q)Q ]
g i
<500 mrem /yr, and 1
s l
I (L.1 + 1.1 M.)
1
[(X/Q)Qg ] <3000 mrem /yr where:
K. = The total body dose factor due to gamma emissions for each identified
- 3 noble gas radionuclide, in mrem /yr per pCi/m from Table 1.2-1.
L. = The skin dose factor due to beta emissions for each identified noble
- gas radionuclide, in mrem /yr per pCi/m3 from Table 1.2-1.
M. = The air dose factor due to gamma emissions for each identified noble gas radionuclide, in mrad /yr per pCi/m 3 frcm Table 1.2-1 (unit con-
] version constant of 1.1 mrem / mrad converts air dose to skin dose).
{ P.
- = The dose parameter for radionuclides other than noble gases for the
! inhalation pathway, in arem/yr per pCi/m3 and for the food and ground l plane pathways in m2 .(ares /yr per pCi/sec) from Table 1.2-2. The dose 1
factors are based on the critical individual organ and most restrictive i age group (child or infant).
s QI = The release rate of radionuclides, 'i', in gaseous effluent from all release points at the site, in pCi/sec.
I X/Q = The highest calculated annual average dispersion parameter for any area at or beyond the unrestricted area boundary.
W = The highest calculated annual average dispersion parameter for estimating the dose to an individual at the controlling location.
I Qg =kCf+k2 t g = 4.72E+2 C f
, where:
J
" C.* = the concentration of radionuclide, 'i', in undiluted gaseous effluent, in pCi/ml.
f = the undiluted effluent flow, in cim.
ki = conversion factor, 2.83E+04 al/ft3 k2 = conversion factor, 6.0E+01 sec/ min.
1.2.2 Radioiodines, Particulates, and Others j
s i
IP [W Qg ]
g
< 1500 mrem /yr i
where the terms are as defined above.
i 1-2 Revision 5 9/10/85 i
l k TABLE'rf2-2 (1 of 1)
DOSE PARAMETERS FOR RADIOIODINES AND RADIOACTIVE PARTICULATE, GASEOUS EFFLUENTS
- P(I), DOSE PARAMETERS FOR RADIGIODINES AND RADIOACTIVE PARTICULATES IN GASEOUS EFFLUENTS Pathways Pathways Inhalation Food and Ground Inhalation Food and Ground (mrem /yr per (m2. mrem /yr per (mrem /yr per (m2. mrem /yr per Radionuclide pCi/m3) pCi/sec) Radionuclide __pci/m3 ) pCi/sec) 11 3 1.125 E+03 2.4E+03 RU 103 6.625 E+05 1.6E+08 Alpha Act 1.100 E+08 1.8E+10 RU 106 1.432 E+07 2.0E+08 CR 51 1.698 E+04 1.lE+07 AG 110M 5.476 E+06 1.5E+10 MN 54 1.576 E+06 1.lE409 CD 115M 2.920 E+05 5.2E+07 FE 55 1.110 E+05 1.1E+08 SN 123 3.550 E+06 3.7E+09 FE 59 1.269 E+06 7.2E+08 SN 126 1.120 E+07 1.lE+10 CO 58 1.106 E+06 5.8E+08 SB 124 3.240 E+06 1.4E+09 CO 60 7.067 E+06 4.6E+09 SB 125 2.320 E+06 9.1E+08 NI 63 8.214 E+05 3.0E+10 TE 127M 1.408 E+06 1.0E+09 ZN 65 8.399 E+04 1.8E+10 TE 129M 1.761 E+06 1.3E+09 RB 86 1.983 E+05 2.1E+10 CS 134 1.014 E+06 5.6E+10 SR 89 2.157 E+06 1.lE+10 CS 136 1.709 E+05 5.7E+09 SR 90 1.010 E+08 1.0E+11 CS 137 9.065 E+05 5.0E+10 Y 91 2.627 E+06 5.9E+06 BA 140 1.743 E+06 2.6E+08 ZR 95 2.231 E+06 3.5E+08 CE 141 5.439 E+05 3.2E+07 NB 95 6.142 E+05 3.8E+08 CE 144 1.195 E+07 1.6E+08 MO 99 1.354 E+05 3.2E+08 I 131 1.624 E+07 1.0E+12 I 133 3.848 E+06 9.6E+09
- If SR-90 analysis is performed, use P(I) given in I-131 for unidentified components. If SR-90 and I-131 analyses are performed, use P(I) given in CS-137 for unidentified components. If SR-90, I-131, and CS-137 analyses are performed, use P(I) given in Zn-65 for unidentified components.
Revision 5 9/10/85
i t
I where:
8
., 1.14E5 = 10 pci/pci x 103 ml/kg + 8760 hr/yr.
t U, = Water consumption by age group, 2/yr.
, infant 330 child 510 teen 510 l adult 730 h D = Dilution factor from the near field area to the potable water intake.
i U,g = fish consumption by age group, kg/yr.
infant --
t child 6.9 i teen 16 adult 21 -
BF* = Bioaccumulation factor for radionuclide, 'i', in fish, pCi/kg per pCi/1, from Table 3.1-1.
'* .I = Dose conversion factor for radionuclide, 'i', by age group in pre-
! selected organ, t, in arem/pCi, from Tables 3.1-2, 3.1-3, 3.1-4, and i
3.1-5, respectively.
Using the above information, A values for the adult have been calculated .
for each site. This informati$nI is provided in the Table "X" 4.0-3 where "X" j is the appendix for the site in question.
3.1.2 Gaseous Effluents 1
j The doce contributions from measured quantities of radioactive materials j identified in gaseous effluent released to unrestricted areas shall be cal-culated for the maximum exposed individual using the following equations:
2 3.1.2.1 Noble Gases j
, For gamma radiation: i i D = 3.17 E-8 .' t. [(X/Q) Qi ]
Y i=1 '
For beta radiation:
f Dg = 3.17 E-8 I Ng l(X/Q) Qg ]
i=1 l where:
}
i 3.17E-08 = The inverse of the number of seconds in a year.
Hg = The air dose factor due to gamma emissions for each identified i
noble gas radionuclide, in mrad /yr per pCi/m3 from Table 1.2-1, 1
- 3-2 Revision 5 9/10/85
_. - ~__ _ , - . - _ - ,- - - . - - _ . . - -- ._- , . - - - . - - _ , . - _ . . --. - . . - . - _ - - - .
I l N. = The air dose factor due to beta emissions for each identified j
4 noble gas radionuclide, in mrad /yr per pCi/m3 from Table 1.2-1.
X/Q = The highest calculated annual average relative concentration for any '
area at or beyond the unrestricted area boundary, i
Q = The release of noble gas radionuclides, 'i', in gaseous effluents, j in pC1.
J j
3.1.2.2 Radioiodines, Particulates, and Others j
These calculations apply to all radioiodines, radioactive materials in partic-
) ulate form and radionuclides other than noble gases with half-lives greater than 8 days:
l j D = 3.17 E-8 IiR.* [WQg ]
} where:
i 3.17E-08 = The inverse of the number of seconds in a year.
s j Qg = The release of radioiodines, radioactive materials in particulate form 1 and radionuclides other than noble gases in gaseous effluents, 'i',
} in pCi. Releases shall be cumulative over the calendar quarter or year i j as appropriate.
W = The annual average dispersion or deposition parameter for estimating the dose to an individual at the controlling location.
W = (X/Q) for the inhalation pathway, in sec/m3 .
W = (D/Q) for the food and ground plane pathways, in meters a, t
' R.* = The dose factor for each identified radionuclide, 'i', in m .(mrem a /yr) per pCi/see or mrem /yr per pCi/m3 , for each pathway. (Tables 3.1-12 + 3.1-30) 1
) where:
InhalationPathwayFactor,Rf[X/Q) ..
Rf[X/Q]=K'(BR),(DFA),(mres/yrperpCi/m) g 3 '
where:
! K' = a constant of unit conversion, 10s pCi/pci.
l (BR), = the breathing rate of the receptor of age group (a), in m3 /yr.
The breathing rates (BR) for the various age groups are tabulated below, as given in Regulatory Guide 1.109.
1 3-3 Revision 5 9/10/85 1 -
/N 3.3.4 Fuel Fabrication
(_-)
No fuel fabrication operations occur within fifty miles of any Duke Nuclear Station. The increment of dose from fabrication operations to any individual within fifty miles of any Duke Nuclear Station is negligible.
3.3.5 Nuclear Power Production The production of electricity for public use using light-water-cooled nuclear power stations results in increments of dose to individuals within fifty miles of any station due to liquid and gaseous effluent releases and direct radiation or skyshine. The increments of dose resulting from liquid and gaseous effluent releases will be calculated using the methodology presented in Sections 3.1.1 and 3.1.2. The dose from direct radiation, skyshine, and radiation from the station storage facilities has been estimated using conservative assumptions (see Section 3.1.3).
In certain situations more than one nuclear power station site may contri-1 bute to the doses to be considered in making fuel cycle dose assessments in accordance with 40CFR190. Situations involving more than one station will be presented in the section on site specific information.
I 3.3.6 Fuel Reprocessing No fuel reprocessing operations occur within fifty miles of any Duke Nuclear Station. The increment of dose from reprocessing operations to any individual within fifty miles of any Duke Nuclear Station is negligible.
To summarize, only dose increments from nuclear power production operations (Section 3.3.3) need be considered in calculations to demonstrate compliance with the requirements of 40CFR190.
I 3-9 Revision 5 9/10/85
- - - _ - - _ _ _ - .. ..__--- -- . - . . c __- - ___ -
- TABLE 3.1-3 4
(3 of 3)
INGESTION DOSE FACTORS FOR TEENAGER j
O (MREM PER PCI INGESTED) j NUCLIDE BONE LIVER T. BODY THYROID KIDNEY LUNG GI-LLI BA 140 2.84E-05 3.48E-08 1.83E-06 NO DATA 1.18E-08 2.34E-08 4.38E-05 i
BA 141 6.71E-08 5.01E-11 2.24E-08 NO DATA 4.65E-11 3.43E-Il 1.43E-13 i BA 142 2.99E-08 2.99E-11 1.84E-09 NO DATA 2.53E-11 1.99E-Il 9.18E-20 LA 140 3.48E-09 1.71E-09 4.55E-10 NO DATA NO DATA NO DATA 9.82E-05
- LA 142 1.79E-10 7.95E-11 1.98E-11 NO DATA NO DATA NO DATA 2.42E-06 CE 141 1.33E-08 8.88E-09 1.02E-09 NO DATA 4.18E-09 NO DATA 2.54E-05 l
! CE 143 2.35E-09 1.71E-06 1.91E-10 NO DATA 7.67E-10 NO DATA 5.14E-05
. CE 144 6.96E-07 2.88E-07 3.74E-08 NO DATA 1.72E-07 NO DATA 1.75E-04 l PR 143 1.31E-08 5.23E-09 6.52E-10 NO DATA 3.04E-09 NO DATA 4.31E-05 1 PR 144 4.30E-11 1.76E-11 2.18E-12 NO DATA 1.01E-11 NO DATA 4.74E-14
{ ND 147 9.38E-09 1.02E-08 6.llE-10 NO DATA 5.99E-09 NO DATA 3.68E-05
{ W 187 1.46E-07 1.19E-07 4.17E-08 NO DATA NO DATA NO DATA 3.22E-05 t
j NP 239 1.76E-09 1.66E-10 9.22E-11 NO DATA 5.21E-10 NO DATA 2.67E-05 I.
!O J
I l
1
\
L i
i i
i i
O 1
l TABLE 3.1-3 Revision 5 i (3 of 3) 9/10/85 i . _ _ _ . _ _ _ . . _ . _ _ . _ . _ _ _ _ _ . _ _ _ _ _ _ _ _ - . . _ . _ . _ _ _ . . . , _ . . _ _ . _ _ _ _ _ _ . _ _ -,
- _ _ _ . _ . _ _ _