Effluent & Waste Disposal Semiannual Rept, Jan-June 1980

ML19331D561
Person / Time
Site:	Crystal River
Issue date:	08/26/1980
From:	Baynard P, Poole D FLORIDA POWER CORP.
To:
Shared Package
ML19331D558	List: ML19331D557 ML19331D561
References
DN-86, NUDOCS 8009030206
Download: ML19331D561 (59)
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Text

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EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT 1/1/80 - 6/30/80 i

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1 FLORIDA POWER CORPORATION

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CRYSTAL RIVER - UNIT 3 O

FACIUTY OPERATM UCENSE N0. DPR-72 DOCKET NO. 50-302 AUGUST, 1980 APPROVED BY:

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Nuclear Plant Manager k @

Date:

h a b S Ennn..i,.A anaget v/

NuclearSupport) Services.

4 Date: bu.. s _f 6 /fQ O

Semi _effland2*(DN-86) e 5 o09 0 3 0.206P$

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TABLE OF CONTENTS PAGE I

Introduction 1

II Releases of and Doses from Gaseous Effluents 4

Releases of ard Doses from Liquid Effluents 17 IV Solid Waste Shipments 26 V

Meteorological Data 28 FIGURES III-1 Methods of Meeting 10 CFR 20, Appendix B, 21 Table II, Column 2 MPC Limits nV

(~.

%.)

Semieffland2*(DN-86)

b LIST OF TABLES PAGE I-1A Summation of Doses to Individuals from Gaseous and 2

Liquid Effluent Releases - First and Second Quarters I-1B Summation of Doses to Population from Gaseous and 3

Liquid Effluent Releases - First and Second Quarters 11-1 Summation of Gaseous Effluent Releases 11 Il-2 Summation of Nuclides in Gaseous Effluent Ground 12 Level Releases 11-3 Doses to Individuals from Continuous Gaseous 13 Effluent Releases - First and Second Quarters II-4 Doses to Individuals from Batch Gaseous Effluent 14 Releases - First and Second Quarters II-5 Doses to the Population from Continuous Gaseous 15 Effluent Releases - First and Second Quarters II-6 Doses to the Population from Batch Gaseous Effluent 16

,)

Releases - First and Second Quarters

/

III-I Summation of Liquid Effluent Releases 22 III-2 Summatio^n of Nuclides in Liquid Effluent Releases 23 III-3 Doses to Individuals from Liquid Effluent Releases -

24 First and Second Quarters III-4 Doses to the Population from Liquid Effluent 25 Releases - First and Second Quarters IV-1 Summation of Solid Waste and Irradiated Fuel 27 Shipments V-1 Summatior of Meteorological Conditions at 33' (10 29 meters) - First Quarter V-2 Summation of Meteorological Conditions at 33' (10 36 meters) - Second Quarter V-3 Summation of Meteorological Conditions at 33' (10 43 meters) Concurrent with Batch Gaseous Efflu~1t Releases - First Quarter

(~')

V-4 Summation of Meteorological Conditions at 33' (10 50 V

meters) Concurrent with Bach Gaseous Ef fluent Releases - Second Quarter

{}

I INTRODUCTION This Effluent and Waste Disposal Report is submitted as required by Techni-cal Speci fication 5.6.1.8 of Appendix B to the Crystal River Unit 3 Facility Operating License No. DPR-72.

The data in this report covers the period from January 1 to June 30, 1980.

There have been no. changes to the Technical Specification Requirements for effluents and waste disposal in Appendix B of the Facility Operating Li-cense during the period of this report.

Crystal River Unit 3 has had no measurable radiological impact on the sur-rounding environment during the reporting period.

This is based on the Radiological-Environmental Monitoring Program showing no increases over pre-operational data and the doses calculated for individuals and the population due to effluent releases being significantly below the levels required by 10 CFR 50, Appendix I.

The summations of gaseous and liquid effluents, solid waste shipments and meteorol ogical data are in accordance with the tables in Regulatory Guide 1.21 (Rev.1, 6/74) Appendix B.

The individual and population doses were calculated using the GASPAR (for (3

gaseous effluenti) and the' LADTAP (for liquid effluents) computer codes ob-L./

tained from the Nuclear Regulatory Commission and revised to include site specific data wherever possible.

These doses are summarized in Tables I-1A a nd B.

The values reported for the activity of nuclides released are the actual measured activities.

If no activity for a nuclide was detected for a quar-ter, the total of the lower limits of detection for all samples is reported a s " <X. XXE-X".

The totals of activity released is a total of only the nuclides that had measured activity.

(%

%.)

1

. ~.

O O

O TABLE I-1A SUMMATION OF DOSES TO INDIVIDUALS FROM GASE0US AND LIQUID EFFLUENT RELEASES First Quarter Beta Air Dose = 7.76E-02 mrad /yr (Design Objective = 2.00E+01 mrad /yr)

Gamma Air Dose = 3.29E-02 mrad /yr (Design Objective = 1.00E+01 mrad /yr)

Whole Body Dose Distance (Mi.) and Design Effluent Release Direction Age Group Organ Dose Objectives (mrem /yr)

(mrem /yr)

. Continuous Gaseous 4.00 at E Infant N/A 1.87E-02 5.00E+00 Batch Gaseous 4.00 at E Child N/A 1.85E-03 Continuous Liquid N/A Adult N/A 9.29E-04 5.00E+00 Batch Liquid N/A Adult N/A 2.20E-05 Organ Dose m

Continuous Gateous 4.00 at E Infant Thyroid 3.07E-01 1.50E+01 Batch Gaseos 4.00 at E Each Skin 5.30E-03 Continuous Liquid N/A Adult Thyroid 5.37E-03 5.00E+00 Batch Liquid N/A Adult Thyroid 3.88E-04 Second Quarter Beta Air Dose = 3.80E-04 mrad /yr (Design Objective = 2.00E+0 mrad /yr)

Gamma Air Dose = 1.50E-04 mrad /yr (Design Objective = 1.00E+01 mrad /yr)

Whole Body Dose Continuous Gaseous 4.00 at E Infant N/A 6.48E-04 5.00E+00 Batch Gaseous 4.00 at E Child N/A 8.92E-08 Continuous Liquid N/A Adult N/A 1.03E-03 5.00E+00 Batch Liquid N/A Teen N/A 3.24E-03 Organ Dose Continuous Gaseous 4.00 at E Infant Thyroid 2.45E-01 1.50E+01 Batch Gaseous 4.00 at E Each Skin 5.96E-06 Continuous Liquid N/A Adult GI-LLI 9.03E-03 5.00E+00 4

Batch Liquid N/A Adult GI-LLI 8.89E-03 Each = Adult, Teen, Child, or Infant

= _

~

O Q

TABLE I-1B SUMMATION OF DOSES TO THE POPULATION FROM GASE0US AND LIQUID EFFLUENT RELEASES First Quarter Whole Body Dose Organ Dose Effluent Release Dose Design Objectives Organ Dose Design Objectives (MAN-REM /YR)

(MAN-REM /YR)

(MAN-REM /YR)

(MAN-REM /YR)

Continuous Gases 2.84E-01 5.00E+02 Skin 9.44E-01' 5.00E+02 Batch Gaseous 2.45E-02 Skin 8.69E-02 Conti-Jous Liquid 1.11E-01 N/A Thyroid 3.40E-01 N/A i

Batch Liquid 1.84E-03 N/A Thyroid 2.51E-02 N/A w

t-Second Quarter i

Continuous Gaseous 2.05E-03 5.00E+02 Thyroid 5.26E-02 5.00E+02 Batch Gaseous 2.17E-06 Skin 2.13E-04 Continuous Liquid 1.24E-01 N/A GI-LLI 1.15E+00 N/A Batch Liquid 1.87E-01 N/A GI-LLI 6.66E-01 N/A i

1 9

4 i

1 9

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{i II' RELEASES OF AND DOSES FROM GASE0US EFFLUENTS There are three normal methods of releasing' gaseous effluents to the atmos-phere: 1) continuous release via the Auxiliary' Building Exhaust; 2) batch release fran the Waste "3as Decay Tanks; and 3) Reactor Building purge. All three methods release to the atmosphere from one point, the Plant Vent.

1.

Regulatory Limits The Technical Specification limits for gaseous effluent releases are as follows:

Specification 2.4.2 The terms used in these Specifications are as follows:

4 subscripts v, refers to vent' releases 1, refers to individual noble gas nuclide (Refer to Table 2.4-5 for the noble gas nuclides considered) the total noble gas release rate (Ci/sec)

QT

=

EjQj sum of the individual noble gas radionuclides n

=

V determined to be present by isotopic analysis the average total body dose factor due to gamma emission K

=

(rem /yr per Ci/sec) the average skin dose factor due to beta emissions (rad /yr L

=

perCi/sec)

II the average air dose factor due to beta emissions (rad /yr

=

per Ci/sec) 5 the averge air dose factor due to beta emissions (rad /yr

=

per C1/sec)

- The values of K,- L, M and N are to be determined each time isotopic analysis is required as delineated in Specification 2.4.2.J.

Deter-mine the following using the results of the noble gas radionuclide analysis:

(1/4T)Ei4i i K

K

=

E (1/QT)Ei4t i l

=

R (1/QT)Ii41 i M

=

Q

.R

= - (1/4T)Ei41 i N

4 1

1

({])

where the values of Kj, Lj, Mi and Ni are provided in Table 2.4-5 and are site dependent gamma and beta dose factors.

Table 2.4-5 GAMMA AND BETA DOSE FACTORS FOR CRYSTAL RIVER UNIT 3 x/Q = 1.46 x 106 sec/m3 at 1450 meters, ENE Dose Factors for Vent Kiv.

Ljy Mjy Njy Total Body Skin Beta Air Gamma Air Noble Gas rem /yr rem /yr rad /yr rad /yr Radionuclide Ci/sec C1/sec C1/sec C1/sec Kr-83m 7.0 x 10-5 0

0.92 0.035 Kr-85m 0.80 2.1 2.9 0.84 Kr-85 0.0096 2.0 2.8 0.010 Kr-87 2.5 14 15 2.6 Kr-88 6.1 3.5 4.3 6.4 Kr-89 2.79 15 15 0.83 Xe-131m 2.28 0.69 1.6 0.35 Xe-133m 0.22 1.5 2.2 0.29 Xe-133 0.26 0.55 1.5 0.31 Xe-135m 1.2 1.0 1.1 1.1 Xe-135 1.2 2.7 3.6 1.3 Xe-137 0.12 18 19 0.12 Xe-138 2.4 6.0 6.9 2.5

.f~)-

v 5

mO Q=

The measured ' release rate of the radioiodines and radioactive ma-terials in particulate forms with half-lives greater than eight days.

(Ci/sec)

A.

(1) The release rate limit of noble gases frun the site shall be such that 2.0 (QTv5v) Il and 0.33 (QTv (Ly+ 1.1Ny)) 9 (2) TI,e release rate limit of all radioniodines and radioactive ma-terials in particulate form with half-lives greater than eight day 3,. released to the environs as part of the gaseous wastes froin tne site shall be such that I

3.5 x 104 Qy 11 B.

(1) The average release rate of noble gases frun the site during any calendar quarter shall be such that 13 (QTvEv) 11 Q

and 6.2 (QTvNv) 11 (2) The average release rate of noble gases from the site during any 12 consecutive months shall be 25-(QTvEv)11 N

13 (QTv v) 11 (3) The average release rate per site of all radiciodines and radio-active materials in particulate form with half-lives greater than eight days during any calendar quarter shall be such that 13 (3.5 x 104 Qv) 11 (4) The average release rate per site of all radioiodines and radio-active materials in particulate form with half-lives greater than eight days during any period of 12 consecutive months shall be that 25 (3.5 x 104 Qv) 11 O

6

s5) The amount of iodine-131 released during any calendar quarter shall not exceed 2 C1/ reactor.

(6) The amount of iodine-131 released during any period of 12 consec-utive months shall not exceed 4 Ci/ reactor.

C.

Should any of the conditions of 2.4.2.C(1), (2) or (3) listed below exist, the licensee shall make an investigation to identify the causes of the release rates, define and initiate a program of action to re-duce the release rates to design objective levels listed in Sec-tion 2.4, and report these actions to the NRC within 30 days from the end of the quarter during which the releases occurred.

(1)

If the average release rate of noble gases from the site during any calendar quarter is such that 50 (QTvIiv) >l or 25 (QTvfi ) >l v

(2)

If the average release rate per site of all radioiodines and ra-dioactive materials in particulate form with half-lives greater than eight days during any calendar quarter is such that 4

50 (3.5 x 10 Qv) >l (3)

If the amount of iodine-131 released during any calendar quarter is greater than 0.5 Ci/ reactor.

D.

During the release of gaseous wastes from the primary system waste gas holdup system the effluent monitor for the Waste Gas Storage Tanks shall be operated and set to alarm and to initiate the automatic clos-ure of the waste gas discharge valve prior to exceeding the limits specified i n 2.4.2. A above. The operability of each automatic isola-tion valve listed in Table 2.4-4 shall be demonstrated quarterly.

E.

The maximum activity to be contained in one waste gas storage tank shall not exceed 47,000 Curies (considered as Xe-133).

AV 7

()

2.

Maximum Permissible Concentrations The maximum permissible concentrations of nuclides in gaseous releases is based on the resultant doses at the site boundary as determined from the concentrations of nuclides at the release point.

The Technical Specifica-tions provide the equations and dose factors that relate the gaseous activ-ity to be released to doses at the site boundary and restrictions are placed on instantaneous, quarterly and yearly release rates.

The gaseous releases do not exceed the concentration limits specified in 10 CFR 20 and are as low as reasonable achievable in accordance with the requirements of 10 CFR 50.

_3.

Measurements and Approximations of Total Radioactivity The gaseous effluent release via the Auxiliary Building Exhaust is treated as a continuous release subdivided into discrete periods of filter changes and the radioactivity measured as follows:

A.

Fission and Activation Gases - The total activity released is deter-mined from the net count rate of the gaseous monitor (RMA-2G), its calibration factor, and the total exhaust flow.

The activity of radi-ogas is detennined by the fraction of that radiogas in the isotopic analysis of the Auxiliary Building atmosphere for that period.

B.

lodines - The activity released as Jodine-131,133, and 135 is based 3(d on the charcoal cartridge activities (RMA-21), the particulate filters activities (RMA-2P) and the total vent flow.

C.

Particulates - The activity released via particulates with half-lives greater than eight days is determined by isotopic analysis of particu-late filters (RMA-2P) and the total vent flow.

D.

Tritium - The activity released as tritium is based on monthly grab sampic analysis and total vent flow.

The radioactivity released by batch releases of the Waste Gas Decay Tanks via the Auxiliary Building Exhaust is measured as follows:

A.

Fission and Activation Gases - The activity released is based on the volume released and the activity of the individual nuclides obtained fran an isotopic analysis of the grab sample taken prior to the release.

B.

Iodines - The iodines from batch releases are included in the iodine determination from the continuous Auxiliary Building releases.

i C.

Particulates - The particulates from batch releases are included in the particulate detennination from the continuous Auxiliary Building release.

D.

bm Tritium - The activity released as tritium is based on the grab sample analysis of each batch and the batch volume.

8

(

)

The radioactivity released by purge releases of the Reactor Building through the Reactor Building vent is measured as follows:

A.

Fission and Activation Gases - The activity released is determined from the net count rate of the gaseous ' monitor (RMA-1G), the monitor cali-bration factor and the total vent flow.

The release of each radiogas is a product of the total curies released times the fraction of that radiogas in the isotopic analysis for that purge.

-B.

Iodines - The total curies released as iodine-131,133 and 135 was de-termined from the charcoal cartridge activities (RMA-11) and the par-ticulate filter activities (RMA-1P).

C.

Particulate - The total curies released via particulates with half-lives greater than eight days is determined by isotopic analysis of each purge particulate filter (RMA-1P).

D.

Tritium - The total curies released as tritium is based on grab samples taken for each purge (or the aver. ge if more than one grab sample was taken).

Estimated errors are based on errors in counting equipment calibration, counting statistics, vent flow rates, vent sample flow rates, nonsteady re-lea se rates, chemical yield factors and sample losses for such items as charcoal cartridges.

A.

Fission and Activation Gas Total Release as calculated from process monitor readings and grab sample isotopics.

Monitor Statistical Error 30%

Monitor Error in Calibration 50%

Vent Flow Rate 10%

Non-Steady Release Rate 20%

110%

B.

1-131 Total Release as calculated from charcoal and particulate filter activity.

Statistical Error 60%

Counting Equipment Calibration 10%

Vent F1ow Rate 10%

Vent Sample F1ow Rate 10%

Non-Steady Release Rate 10%

Losses from Charcoal Cartridge 10%

110%

9

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C..

Particulates with half-lives greater than eight days release as calcu-lated from particulate filter activities.

Statistical Error 60%

Counting Equipment Calibration 10%

Vent Flow Rate 10%

Vent Sample Flow Rate 10%

Non-Steady Release Rate 10%

100%

D.

Total Tritium release as calculated from periodic grab sample analyses.

Water Vapor in Sample Stream Determination 20%

Vent Flow Rate 10%

Counting Calibration and Statistics 10%

Non-Steady Release Rate 50%

90%

4.

Batch and Unplanned Releases The batch gaseous effluent releases may be summarized as follows:

First Second Quarter Quarter O

\\>

Number' of Batch Releases 2.10E+01 1.30E+01 Total time for all releases (minutes) 2.16E+04 7.38E+03 Maximum time for any one release (minutes) 3.26E+03 7.95E+02 Average time for all releases (minutes) 1.03E+03 5.68E+02 Minimum time for any one release (minutes) 1.08E+02 1.90E+02 Number of Unplanned Releases 1.00E+01 0.00E+00 Total Unplanned Activity Released (Curies) 1.56E+02 0.00E+00 The summation of gaseous ~ effluent releases is in Table 11-1 and the summa-tion of nuclides in gaseous effluent ground level releases is in Table 11-2.

The doses to individuals from continuous and batch gaseous effluent releases are in Tables II-3 and II-4, respectively.

The doses to the population from continuous and batch gaseous effluent releases 'are in Tables II-5 'and II-6, respectively.

The~ unplanned releases for the first and second quarters of 1980 are listed below, giving the date, the Nonconforming Operations Report Number, and the cause of each release.

rS l

(/

10

/'T 01/13/80 80-07 RM-A2G and RM-A3 High alarm due to draining of V

Waste Gas System Drain _ Pots.

Isolated drain pots to terminate release.

02/08/80 80-27 RM-A2G and RM-A3 High alarm due to RC evaporator maintenance work.

Isolated leak to terminate release.

01/23/80 80-21 RM-A2G High alarm'due to vents and drains on makeup prefilter housings being left opened and allowing gas to escape into local area -of Auxiliary Build-ing.

Isolated drains and vents to terminate release.

03/04/80 80-48 RM-A2G High alarm due to improper initiation of waste gas decay tank release.

Automatic isolation terminated release.

02/14/80 80-32 RM-A2G High alarm due to improper initiation of waste gas decay tank release.

Automatic isolation terminated release.

02/16/80 80-33 RM-A2G High alarm due to attempt to increase flow during release of waste gas decay tank.

Automatic isolation terminated release.

O 02/16/80

.80-34 RM-A2G H1 h eierm due to movemeat of mekeen prefii-9 ter to waste drumming.

Sealed filter to prevent gas release.

02/16/80 80-35 RM-A2G High alarm due to improper seal on makeup prefilter housing which leaked when pressurized.

Filter housing isolated and seal reworked.

02/26/80 80-51 Unmonitored steam release due to reactor trip.

Steam dumps reseated after pressure dropped to re-lief levels.

03/11/80 80-56 Unplanned release from Reactor Building to Auxili-ary Building due to air lock interlock failure.

Door closed to prevent further releases.

O 10a

TAB E 11-1 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REP (RT - 1980 GASE0US EFFLENTS - StM4ATION OF ALL RELEASES Unit QJarter Quarter Est. Total 1

2 Error %

A.

Fission ard Activation Gases 1.

Total Release Ci

1. 55E+04

4. 51E+01 1.10E+02 2.

Average Release Rate for Period pCi/sec 1.97E+03 5.74E+00 3.

Percent of Technical Specificatien Limit 1.98E+00 2.78E-03 B.

Iodines 1.

Total Iodine - 131 Ci 4.38E-03 1.97E-03 1.10E+02 0

2.

Average Release Rate for Period pCi/sec 5.57E-04 2.51E-04 3.

Percent of Technical Specification Limit 2.19E-01 9.85E-02 C.

Particulates 1.

Particulates with half-lives > 8 days Ci 6.49E-05 5.66E-06 1.00E+02 2.

Average Release Rate for Period pCi/sec 8.26E-05 7.20E-07 3.

Percent of Technical Specification Limit 5.42E-02 2.21E-02 4.

Gross Alpha Radioactivity Ci 3.49E-08 2.53E-08 D.

Tritiun 1.

Total Release Ci 8.28E-00 6.15E-00 9.00E+01 1

2.

Average Release Rate for Period pCi/sec 1.05E-00 7.82E-01 1

3.

Percent of Technical Specification Limit N/A N/A 11 J

(i TABLE 11-2 v

EFFLUENT AND WASTE DISPOSAL SEMIANfUAL REPORT - 1980 GASE0US EFFLUEfRS - GROUND-LEVEL RELEASES

'CONTIf00VS MODE BATCH f4)DE Nuclides Released Unit Quarter 1 Quarter 2 Quarter 1 Quarter 2 1.

Fission 9ases krypton-85 Ci

<5.89E+03

<4.87E+03 1.03E+01 1.68E+00 k rypton-85m Ci 2.49E+01 6.30E+00 1.11E+00

<1.56E-02 k rypton-87 Ci 1.40E+01

<2.62E+01 7.07E-02

<6.29E-03 k rypton-88 Ci 2.73E+01

<2.69E+01 4.86E-01

<4.93E-03 xenon-133 Ci 1.32E+04 3.70E+01 1.00E+03 3.37E-02 xenon-135 Ci 5.43E+02

<1.02E+01 1.13E+01

<2.29E-03 xenon-135m Ci 3.84E+00

<5.60E+01

<2.06E-01

<1.17E-02 xenon-138 Ci-

<2.36E+01

<2.51E+02

<7.87E-01

<4.15E-02 argon-41 Ci 8.15E+01 E

5.7 E-01 E

xenon-133m Ci 2.83E+02

<9.39E+01 1.26E+01

<1.68E-02 xenon-131m 2.13E+02 6.77E-03 1.54E+01 8.96E-02 7 s, unidentified Ci E

E E

E

(_,/

Total for Period Ci 1.44E+04

4. 33E+01 1.05E+03 1.80E+00 2.

lodines iodine-131 Ci 4.36E-03 1.97E-03 1.54E-05 E

iodine-133 Ci 4.44E-04

<2.79E-04

<5.12E-06 E

iodine-135 Ci

<2.86E-01

<4.44E-01

<3.61E-03 E

Total for Period Ci 4.80E-03

1. 97E-0E 1.54E-05 E

3.

Particulates strontium-89 Ci 4.39E-05 2.72E-06 E

E strontium-90 Ci

<1.87E-06

<3.10E-06 E

E cesiunH134 Ci

<1.31E-05

<6.84E-06

<4.96E-08 E

cesiunH137 Ci 3.68E-07

<9.93E-06 (4.53E-08 E

I

, barium-lanthanum-140 Ci

<4.19E-05

<4.23E-05

<1.49E-07 E

Ci E

E_

E E

cobalt-58 Ci 2.05E-05 2.94E- 06

<5.48E-08 E

cobalt-60 Ci 9.97E-08 E

<3.52E-08 E

Ci E

E E

E Ci E

E E

E f })

unidentified Ci E

E E

E 12

O O

O TABLE 11-3 Doses to Individuals from Continuous Gaseous Effluent Releases FIRST QUARTER Beta Air Dose = 6.86E-02 mrad /yr (4.00 miles, E)

Gamma Air Dose = 2.98E-02 mrad /yr (4.00 miles, E)

Whole Body Dose Organ Dose Di stance Distance (Mi.) and Dose (Mi.) and Dose Pathway Direction Age Group (mrem /yr)

Direction Age Group Organ (mrem /yr)

Plume Immersion 4.00 at E Each 1.82E-02 4.00 at E Each Skin

'4.78E-02 Ground Contamination' 4.00 at E Each 3.22E-06 4.00 at E Each Skin-3.87E-06 Inhalation 4.00 at E Teen 4.33E-05 4.00 at E Child Thyroid 1.90E-04 Vegetable Consumption 4.00 at E Child 9.74E-05 4.00 at E Child Thyroid 6.53E-03 Cow Milk Consumption 4.00 at E Infant 2.26E-04 4.00 at E Infant Thyroid 1.31E-01 Goat Milk Consumption 4.00 at E Infant 3.13E-04 4.00 at E Infant Thyroid '1.57E-01

- Meat Consumption 4.00 at E Adult 7.91E-06 4.00 at E Child Thyroid 6.88E-04 Total Infant 1.87E-02 Infant Thyroid 3.07E-01 SECONO QUARTER Beta Air Dose = 3.71E-04 mrad /yr (4.00 miles, E)

Gamma Air Dose = 1.50E-04 mrad /yr (4.00 miles, E)

Whole Body Dose Organ Dose Distance Distance (Mi.) and Dose (Mi.) and Dose Pathway Direction Age Group (mrem /yr)

Direction Age Group Organ (mrem /yr)

Plume Immersion 4.00 at E Each 9.23E-05 4.00 at E Each Skin 2.65E-04 i.

Ground Contamination 4.00 at E Each 2.11E-06 4.00 at E Each Skin 2.55E-06 Inhalation 4.00 at E Teen 5.69E-05 4.00 at E Child Thyroid 2.55E-04 Vegetable Consumption 4.00 at E Child 1.19E-04 4.00 at E Child Thyroid 5.57E-03 Cow Milk Consumption 4.00 at E Infant 2.14E-04 4.00 at E Infant Thyroid 1.11E-01 4

Goat Milk Consumption 4.00 at E Infant 3.11E-04 4.00 at E Infant Thyroid 1.33E-01 Meat Consumption 4.00 at E Adult 9.80E-06 4.00 at E Child Thyroid 5.86E-04 Tot al Infant 6.48E-04 Infant Thyroid 2.45E-01

(S C) 0)

s_;

s s-TABLE II-4 Doses to Individuals from Batch Gaseous Effluent Releases FIRST QUARTER Beta Air Dose = 8.96E-03 mrad /yr (4.00 miles, E)

Gamna Air Dose = 3.11E-03 mrad /yr (4.00 miles, E)

Whole Body Dose Organ Dose Di stance Di stance (Mi.) and Dose (Mi.) and Dose

Pathway, Direction Age Group (mrem /yr)

Di rection Age Group Organ (mrem /yr)

Pl ume Immersion 4.00 at E Each 1.83E-03 4.00 at E Each Skin 5.29E-03 Ground Contamination 4.00 at E Each 1.33E-08 4.00 at E Each Skin 1.61E-08 Inhalation 4.00 at E Teen 1.93E-06 4.00 at E Teen Thyroid 3.49E-06 Vegetable Consumption 4.00 at E Child

3. 79E-06 4.00 at E Child Thyroid 4.04E-05 Cow Milk Consumption 4.00 at E Infant 3.22E-06 4.00 at E Infant Thyroid 7.4 7E-04 Goat Milk Consunption 4.00 at E Infa nt 5.72E-06 4.00 at E Infant Thyroid 8.99E-04 Meat Consumption 4.00 at E Ad ul +.

3.09E-07 4.00 at E Child Thyroid 4.11E-06 Total Child 1.85E-03 Each Ski n 5.30E-03 SECOND QUARTER Beta Air Dose = 8.65E-06 mrad /yr (4.00 miles, E)

Gamma Air Dose = 1.39E-07 mrad /yr (4.00 miles, E)

Whole Body Dose Organ Dose Distance

~

Di stance (Mi.) and Dose (Mi.) and Dose Pathway Direction Age Group (mrem /yr)

Direction Age Group Organ (mrem /yr)

Pl ume Immersion 4.00 at E Each 8.02E-08 4.01 at E Each Ski n 5.95E-06 Ground Contamination 4.00 at E Each 0.00E-00 4.00 at E Each 0.00E-00 Inhal a tion 4.on at E Teen 1.73E-09 4.00 at E Teen 1.73E-09 Vegetable Consumption 4.00 at E Child 3.35E-09 4.00 at E Child 3.35E-09 Cow Milk Consumption 1.00 at E Infant 1.99E-09 4.00 at E Infant 1.99E-09 Goat Milk Consumption 4.00 at E Infant 4.06E-09 4.00 at E Infant 4.06E-09 Meat ronvrnrt ion 4.00 at E Ad ul t 2.71E-10 4.00 at E Adul t 2.71E-10 Total Child

8. 92E -C.;

Each Skin 5.96E-06

• GI Tract, Liver, Kidney. Th y r oi d. 1.u nn. a n't Sk i n

m O(~T TABLE 11-5 Doses to the Population 'fran Continuous Gaseous Effluent Releases FIRST QUARTER Whole Body Dose Organ Dose Pathway (Man-Rem)

Organ Dose (Man-Rem)

Plume Immersion 2.82E Skin 9.42E-01 Ground Contamination' 2.18E-05 Ski n 2.62E-05 Inhalation 1.10E-03 Thyroid

.5.98E-03 Vegetable Consunption 7.06E-04 Thyroid 6.51E-02 i

Milk Consumption 2.30E-04 Thyroid 4.27E 02 Meat Consunption 1.37E-04 Thyroid

4. 55E -0.

Total 2.84E-01 Skin 9.44E-01 SECON0 QUARTER Whole Body Dose Organ Dose Pathway-

__ (Man-Rem)

Organ Dose (Man-Rem)

Plume Immersion 6.99E-04 Skin 2.44E-03

()

Ground Contamination 8.19E-06 Ski n 9.93E-06 Inhalation 6.81E-04 Thyroid P.',Cc-03 Vegetable Consumption 4.84E-04 Thyroid 3.07E-02 Milk Consumption 9.64E-05 Thyroid 1.66E-02 Meat Consunption 8.47E-0 5 Thyroid

2. 0 /E-03 Total 2.05E-03 Thyroid 5.26E-02 I

a 15

,,e..

.-,.v--er...

~ ~

"=n'~~+

4 TABLE. II-5 Doses to the Population from Continuous Gaseous Effluent Releases FIRST QUARTER Whole. Body Dose Organ Dose Pat % y (Man-Rem)

Organ Dose (Man-Rem)

Plune Immersion J.UE u sh

<f.y> E 4 '

Ground Contamination

,J. s E ' 5

2.c. E-t ',

e Inhalation f.,. E c '

Vegetable Consumption y.a E c /

Th,rJe./

3..;; E. i

&. 5, E 4 4 Milk Constrption 2.s E c /

e' s..o E-c 2 Meat Consumption f. 5/ E 4 -/

a..% E - C v

Total 2.SVE-t/

pc,.

e.aE-o-SECOND QUARTER Whole Body Dose Organ Dose Pathway (Ma n-Rem)

Organ Dose (Man-Rem)

Plume Immersion 6.W E-vv Scc

..Z. W E-J )

O Ground Conteminetioa u

E-c<

y

<>e Inhalation j,.5,E-tv rAyr'"j a. 4. E-t.1 Vegetable Consuaption s.svE-es

'g.<, E-ea Milk Consumption 9 :u E-e 6

,../ E < -

Meat Consunption s.y7 E-t ';

,.z.,- E-c ;

Total

.:.3,E-t i Thq,. O 5.:t E L '

i O

15

_. _.-_, --.,~._ -- _ _ _.__-.,_ _. -..,. - -.. _ _ -

TABLE II-6

,~ 3 Lt Doses to.the Population from Batch Gaseous Effluent Releases FIRST QUARTER Whole Body Dose Organ Dose Pathway (Man-Rem)

Organ Dose (Man-Rem)

Pl ume Immersion 2.44E-02~

Skin 8.68E-02 Ground Contamination 6.48E-08 Skin 7.87E-08 Inhalation 3.69E-05 Thyroid 6.08E Vegetable Consanption

2. 23E-05 Thyroid 3.46E-04 Milk" Cons umption 5.52E-06 Thyroid 1.72E-04 Meat Consumption 4.70E-06 Thyroid 2.57E-05 Total 2.45E-02 Skin 8.69E-02 SECOND QUARTER Whole Body Dose Organ Dose Pathway (Man-Rem)

Organ Dose (Man-Rem)

Plume Immersion 2.05E-06 Skin 2.13E-04

('l Ground Contamination E-E-

Inhalation 6.07E-08 6.07E-08 Vegetable Consunption 4.34E-08 4.34E-08 Milk Consumption 6.36E-09 6.36E-09 Meat Consumption 8.48E-09 8.48E-09 Total 2.17E-06 Skin 2.13E-04

• GI Tract, Liver, Kidney, Thyroid, Lung, Skin 4

4 O

16 A

v

.e,.

,y..

,~,,-

_--y~

r'~3 III RELEASES OF AND DOSES FROM LIQUID EFFLUENTS V

There are two sources of -liquid effluents released to the discharge canal:

1) the Laundry and Hot Shower Sump and 2) the Evaporator Condensate Storage Tanks..

Both are batch type releases made through' the plant liquid release monitor, RML-2.

There 'is one sourceiof ' liquid effluents released to the Chemical / Industrial Waste Water Ponds:

the turbine building sump.

This is a continuous mode type release.

1.

Regulatory Limits The Technical Specification limits for liquid effluent releases are as follows:

Specification 2.4.1 A.

The instantaneous concentration of radioactive asterials released in liquid waste effluents from all reactors at the site shall not exceed the values specified in 10 CFR Part 20, Appendix B,

Table II, Column 2, for unrestricted areas.

B.

The cumulative release of radioactive materials in liquid waste effluents excluding tritiem and dissolved gases, shall not exceed 10 Ci/ reactor / calendar quarter.

C.

The cumulative release of radioactive materials in liquid waste

()'

effluents excluding tritium and dissolved gases, shall not exceed 20 Ci/ reactor in any 12 consecutive months.

n.

During release of radioactive wastes, the effluent control monitor shall be set to alann and to initiate the automatic closure of each waste isolation valve prior to exceeding the limits specified in 2.4.1.A above.

E.

The operability of each automatic isolation valve in the liquid radwaste discharge lines shall be demonstrated quarterly.

F.

The ' equipment installed in the liquid radioactive waste system shall be maintained and shall be operated to process radioactive liquid wastes prior-to their discharge when the projected cumula-tive release could exceed 1.25 Ci/ reactor / calendar quarter, ex-cluding tritium and dissolved gases.

G.

The maximum radioactivity to be contained in any liquid radwaste tank that can be discharged directly to the environs shall not ex-ceed 10 Ci, excluding tritium and dissolved gases.

H.

If the cumulative release of radioactive materials in liquid ef-fluents, excluding tritium and dissolved gases, exceeds 2.5 Ci/

reactor / calendar quarter, the licensee shall make an investigation to identify the causes for such releases, define and initiate a

/~3 program of action to reduce such releases to the design D.

17

p'.

objective levels listed in Section 2.4, and a report of these ac-tions - shall be made-to the USNRC in accordance with Sec-tio n 5.6.2.C(1).

Maximum Permissible Concentrations The maximum permissible concentration values used in determining allowable liquid radwaste release concentrations are taken from 10 CFR Part 20, Ap-pendix B, Table II, Column 2.

Release rate and dilution ratio for each batch are determined by a mixed nuclide MPC calculation performed before the release of the batch.

To facilitate the measurements and calculations, the nuclides of Coltrnn 2 which can be produced in a fission reactor have been grouped accordi ng to MPC val ue and type of radiation as shown in Figure III-1.

The concentration of each of the 23 gamma emitting nuclides specifically noted in Figure 111-1 is measured individually because of interest in that nuclide.

For any of the 23 nuclides not detected in the gamma scan, the MDA Limit is conputed from the measured data for that sample.

Only two pure beta emitters, Sr-89 and Sr-90, have MPC values less than 9 x 10-6 Ci/ml.

Individual measurements are made on proportional compos-ite liquid radwaste samples to determine the Sr-89 and Sr-90 concentration or MDA value to be applied to individual batch release calculations, bn Although the MPC limit for tritium is greater than 9 x 10-6 Ci/ml, a sepa-rate measurement is made for tritium.

A distillation and liquid scintilla-tion counting technique is used to measure tritiun concentration.

The measured and calculated concentration values for each batch are used to calculate. the dilution ration, release rate, and dilution rate prior to re-lease of each batch.

Both the concentration and release data are stored on a conputer disc file.

The disc file data is used to assure that quarterly and annual release limits are not exceeded.

Bases used for the data of Table III-1 are as follows:

A.

Fission and activation products - The total release values (not includ-ing tritium, gases, alpha) are comprised of the sum of the individual radionuclide activities in each batch released to the discharge cana?

for the respective quarter.

These values represent the activity known to be present in the liquid radwaste effluent.

Percent of applicable limit is determined fran a mixed nuclide MPC calculation.

The average concentration for each nuclide summed over all batches is divided by the corresponding individual MPC value.

The sum over all nuclides of the Ci/MPCi ratios times 100 is the percent of applicable limit for ef-fluent releases during the quarter ~

B..

Tritium - The measured tritiun concentration in a composite sample is used to calculate the total release and average diluted concentration during each period.

Average diluted concentration divided by the MPC 4

limit, 3 x 10-3 Ci/mi, is converted t.o percar.t to give the percent of O

e99'icabie i$=$t-18

('

C.

Di ssolved and entrained gases - Concentrations of dissolved and en-

~ V) trained gases in liquid effluents are measured monthly by Ge(Li) spec-troscopy on a one liter sample from a representative liquid radwaste batch.

Dissolved ard entrained gases for which measured or MDA concen-trations are determined include noble gases with half lives greater than 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />s: Xe-135, Xe-133m, Xe-133, and Kr-85.

Iodine radionuclides in any form are determined during the isotopic analysis for each batch, therefore a separate analysis for possible gaseous forms is not per-formed because it would not provide additional information.

A conservative release

limit, the maximum sensitivi ty limit of 4 x 10-5 Ci/ml of each dissolved and entrained radionuclide as speci-f ed in Table Note 5, Table 2.4-1, Envirormental Technical Speci fic a-tions, has been applied in determining the percent of applicable limit.

3.

Measure.nents and Approximations of Total Radioactivity Details of the analytical procedures for liquid radwaste analysis are as foll ows :

Measurement Frequency Method 1.

Gamma Isotopic Each Batch Ge(Li) spectrometry with on-line computer 2.

Gross Beta Each Batch Liquid scintillation

,o 3.

Sr-89 Monthly Composite Chemical separation and gas flow

(.)

proportional counting 4.

Sr-90 Monthly Composite Chemical separation and gas flow proportional counting 5.

Tritium Monthly Composite Distillation and liquid scintillation counting 6.

Al pha Monthly Composite Gas flow proportional counting 7.

Dissolved Gases One Batch / Month Ge(Li) spectrometry with on-line computer Estimated errors are based on errors in counting equipment calibration, counting statistics, nonsteady release flow rate, chemical yield factors, sampling and mixing losses, and volume determinations.

A.

Fission and Activation Products Total Release as calculated for each i

ba tc h.

Statistical Error at MDA 60%

Waste Volume 10%

Counting Equipment Calibration 10%

Sampling and Mixing 20%

100%

O 19

[])

B.

. Total Tritium Release as calculated from a monthly composite.

Waste Volume 10" Counting Equipment Calibration 10%

Sampling and Mixing 20%

40%

C.

Di ssolved and Entrained Gases Total Relea se as calculated from one batch per month.

Statistical Error at MDA 60%

Waste Volume 10%

Counting Equipment Calibration 10%

Sampling and Mixing 20%

100%

D.

Total Gross Alpha Radioactivity Release as calculated from a monthly composite.

Statistical Error at MDA 60%

Waste Voltzne 10%

Counting Equipment Calibration 10%

Sampling and Mixing 20%

100%

4.

Batch and Unplanned Releases The batch liquid effluent releases may t5e summarized as follows:

First Second Quarter Quarter e

Number of Batch Releases 4.50E+01 7.20E+01 Total Time for all Releases (minutes) 9.36E+03 1.16E+04 Maximum Time for any one Release (minutes) 3.15E+02 6.25E+02 Average Time for all Releases (minutes) 2.08E+02 1.61E+02 Minimum time for any one Release (minutes) 9.50E+01 1.00E+00 Average dilution flow of Units 1, 2, and 3 during all Releases (liters / minutes) 1.86E+06 2.69E+06 Number of Unplanned Releases 0.00E+00 0.00E+00 Total Unplanned Activity' Releases (Curie) 0.00E+00 0.00E+00 The summation of liquid effluent releases is in Table III-1 and the sAma-tion of nuclides in liquid effluent releases is in Table III-2.

The doses to individuals from liquid effluent releases are in Table III-3 a nd the doses to the populatio n from liquid effl uent rel eases are in Table III-4.

These doses are based on the dilution of the radioa'ctive lig-uid effluents by the condenser cooling water of Units 1, 2, and 3.

s p

There were no unplanned releaser for the first and second quarters of 1980.

L/

20

{}-

Figure III-1 METHODS OF MEETING 10 CFR 20, APPENDIX B TABLE II, COLUMN 2 MPC LIMITS MPC RANGE G44MA-RAY BETA ALPHA.

(uCi/ml)

EMITTEP:

EMITTERS EMITTERS I-131, I-132, I-133 Sr-89, Sr-90 1

' 135, Cs-134 (Separation and Gas

<9 x 10-6 Flow Counting)

(Ge(L1) Gamma-Ray Spectroscopy)

All (Gas Flow Counti ng Sensitivity s10-7 pC/ml as Pu-239)

Ba-La-140, Na-24, Cu-64 Tritium

- Co-60, Fe-59, Zn-65 (Distallation and Liquid Scintillation p)-

>9 x 10-6 Ag-110m, Mn-54, Co-58 Counting $10-5 pCi/ml)

\\,,

Z r-Nb-95, Cs-Ba-137

- As-76, F-18, C r-51 All others Np-239, Ce-141 (Liquid Scintillation 4

Counting $10-5 pCi/ml as Cs-137)

Mo-Tc-99, Ce-Pr-144 (Ge(Li) Gamma-Ray Spectroscopy) s 21

~. - -.,, _.

TABLE III-1 Lm)^

EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT - 1980 LIQUID EFFLENTS - SlM4ATION OF ALL RELEASES Unit Quarter Quarter Est. Total 1

2 Error %

A.

Fission and Activation Products 1.

Total Release (not including trititzn, gases, alpha) 2.86E-02 2.03E-02 1.00E+02 2.

Average diluted concentration during period pCi/ml 2.86E-08 1.58E-08 3.

Percent of applicible limit 4.40E+00 4.88E-01 B.

Tritiun 1.

Total RE1 ease, Batch itde Ci 3.79E+01

4. 71E+01 4.00E+01 2.

Average diluted correntration during period.

pCi/ml 4.11E-05

3. 66E-05 3.

Percent of applicable limit 1.37E+00 1.22E+00 4.

Total release, Continuous Mode Ci

3. 21E+00 5.74E-07 4.00E+01 C.

Dissolved ani entrained gases 1.

Total release Ci 4.06E-01 1.59E-03 1.00E+02 2.

Average diluted concentration during period, Batch ibde pCi/ml 4 06E-07 1.23E-09 3.

Percent of applicable limit, Batch Mode 1.35E-02 4.10E-05 D.

Gross alpha radioactivity 1.

Total release ~

Ci

<6.30E-04

<1.58E-04 1.00E+02 E.. Volune of Waste released (prior to dilution) 1.

Batch ibde liters 9.00E+05 1.59E+06 1.00E+01

2. -Continuous Mode liters

1. 76E+07

7. 56E+06 F.

Volune of dilution water used during period 1.

Batch Mode 1iters 1.74E+10 3.12E+10 1.00E+01 p

i A/

2. - Continuous Mode liters 2.49E+11 7.00E+10 1.00E+01 22

p TABLE III-2 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT - 1980 LIQUID EFFLliNiS CONTINUOUS MODE BATCH MODE Nuclides Released Unit Quarter 1 Quarter 2 Quarter 1 Quarter 2 strontium-89 Ci 6.38E-04

<7.59E-04 8.35E-05

<9.56E-04 strontium-90 Ci

<7.43E-05

<2.06E-04 1.34E-05

<2.82E-04 cesium-134 Ci 8.13E-04 3.04E-04 3.32E-04 6.49E-04 cesium-137 C1 1.43E-03 4.35E-04 4.68E-04 5.46E-04 iodine-131 C1 1.60E-03

<2.00E-03 1.13E-02

1. 73E -03 cobalt-58 Ci 6.71E-04 7.06E-05 4.95E-03 6.04E-03 cobalt-60 Ci

~~~3.17E-05

<2.86E-03 1.88E-03 6.63E-03 i ron-59 Ci

. 47E-03

<3.70E-03 1.28E-04 2.16E-05 zinc-65 Ci

<1.15E-03

<2.87E-03

<1.63E-04

<3.62E-04 manganese-54 Ci (6.66E-04

<1.90E-03 2.79E-04 7.17E-04 chromitsn-51

<5.64E-03

<1.81E-02 3.08E-03 8.15E-04 zi rconium-niobitsn-95 C1 1.59E-03 4.48E-03 2.32E-04 4.93E-04

()

molybdentsn-99 Ci

<3.74E-03

<1.58E-02

<5.73E-04 4.86E-06 technetitzn-99m Ci 8.79E-06 8.91E-04 3.07E-05

<1.27E-04 barium-lanthanum-140 Ci

<3.19E-03

<9.37E-03 6.67E-05

<8.42E-04 ceritsn-141 Ci

<1.04E-03

<2.66E-03

<2.49E-04

<2.78E-04 Ci E

E E

E Ci E

E E

E Ci E

E E

E Ci E

E E

E Ci E

E E

E Ci E

E E

E unidentified Ci E

E E

E Total for period (above)

Ci 6.77E-03 6.18E-03 2.27E-02 1.77E-02 xenon-133 Ci 9.15E-04

<8.41E-05 3.89E_01 1.59E-03 xenon-135 Ci 1.50E-05

<9. 36E-05 6.30E-04

<1.58E-04 A

w; 23

()

TABLE III-3

\\>

Doses to Individuals from Liquid Effluent Releases FIRST QUARTER - CONTINU0US RELEASES Whole Body Dose Organ Dose Dose Dose Pathway Age Group (mrem /yr)

Age Group Organ (mrem /yr)

Fish Adult 7.22E-04 Adul t Thyroid 2.43E-03 Invertebrctes Adult 1.41E-04 Adult Thyroid 2.87E-03 Shoreline Use Teen 3.73E-04 Teen Ski n

4. 35E-04 Total Adult 9.29E-04 Adult Thyroid 5.37E-03 SECOND QUARTER - CONTINUOUS RELEASES Whole Body Dose Organ Dose Dose Dose Pathway Age Group (mrem /yr)

Age Group Organ (mrem /yr)

Fish Adul t 8.20E-04 Adul t GI-LLI 8.10E-03 Invertebrates Adult 1.30E-04 Adult GI-LLI 8.45E-04 Shoreline Use Teer 4.73E-04 Teen Ski n 5.52E-04

()

Total Adult 1.03E-03 Adult GI-LLI 9.03E-03 FIRST QUARTER - 3AlCH RELEASES Whole Body Dose Organ Dose Dose Dose Pathway Age Group (mrem /yr)

Age Group Organ (mrem /yr)

Fish Adul t 9.70E-06 Adul t Thyroid 1.78E-04 Invertebra tes Adult 7.37E-06 Adult Thyroid 2.09E-04 Shoreline Use Teen 8.87E-06 Teen Ski n 1.04E-05 Total Teen 2.20E-05 Adult Thyroid 3.88E-04 SECOND QUARTER - BATCH RELEASES Whole Body Dose Organ Dose Dose Dose Pathway Age Group (mrem /yr)

Age Group Organ (mrem /yr)

Fi sh Adult 9.02E-04 Adul t GI-LLI 3.11E-03 f

Invertebrates Adul t 7.40E-04 Adult GI-LLI 5.43E-03 Shoreline Use Teen 1.91E-03 Teen Ski n 2.24E-03 Total Teen 3.24E-03 Adult GI-LLI 8.89E-03 O

v 24

n TABLE III-4 U

Dases to the Population from Liquid Effluent Releases FIRST QUARTER - CONTINUOUS RELEASES Whole Body Dose Organ Dose

' Pathway (Man-Rem)

Organ Dose (Man-Rem)

Sport Fish 1.03E-01 Thyroid 2.57E-01 Commercial Fish 1.06E-04 Thyroid 2.06E-04 Sport Invertebrate 5.85E-03 Thyroid 8.45E-02 Commercial Invertebrate 4.16E-05 Thyroid 4.72E-04 Shoreline Use 1.67E-03 Skin 1.95E-03 Swimming 1.05E-05 Thyroid 1.05E-05 Boating 1.05E-05 Thyrofd 1.05E-05 Total 1.11E-01 Thyroid 3.42E-01 SECOND QUARTER - CONTINU0US RELEASES Whole Body Dose Organ Dose Pathway (Man-Rem)

Organ Dose (Man-Rem)

Sport Fish 1.17E-01 GI-LLI 1.12E-00

{

Commercial Fish 1.20E-04 GI-LLI 1.12E-03 Sport Invertebrate 5.24E-03 GI-LLI 3.27E-02 Commercial Invertebrate 3.77E-05 GI-LLI 2.29E-04 Shoreline Use 2.12E-03 Skin 2.47E-03 Swimming 3.58E-05 Thyroid 3.58E-05 Boating 3.58E-05 Thyroid 3.58E-05 Total 1.24E-01 GI-LLI 1.15E-00 1

O FIRST-QUARTER - BATCH RELEASES Whole Body Dose Organ Dose Pathway (Man-Rem)

Organ Dose (Man-Rem)

Sport Fish 1.47E-03 Thyroid 1.89E-02 Commercial Fish 1.49E-06 Thyroid 1.52E-05 i

Sport Invertebrate 3.30E-04 Thyroid 6.15E-03 Commercial Invertebrate 2.32E-06 Thyroid 3.44E-05 Shoreline Use 3.97E-05 Skin 4.67E-05 Swimming 3.59E-07 Skin 3.59E-07 Boating 3.59E-07 Skin 3.59E-07 Total 1.84E-03 Thyroid 2.51E-02 SECOND QUARTER - BATCH RELEASES Whole Body Dose Organ Dose Pathway (Man-Rem)

Organ Dose (Man-Rem)

Sport Fish 1.42E-01 GI-LLI 4.49E-01 Commercial Fish 1.46E-04 GI-LLI 4.59E-04

)

Sport Invertebrate 3.64E-02 GI-LLI 2.17E-01 Ii Commercial Invertebrate 2.60E-04 GI-LLI 1.55E-03 Shoreline Use 8.54E-03 Skin 1.00E-02

' Swimming 4.00E-05 Thyroid 4.00E-05 Boating 4.00E-05 Thyroid 4.00E-05 Total 1.87E-01 GI-LLI 6.66E-01 O

25 1_

([])

IV.

SOLID WASTE SHIPMENTS Solid waste shipments fran the plant may include irradiated fuel, solidi-fied liquid waste and compressed solid waste.

1.

Regulatory Limits The Technical Specifications for solid waste' shipment are as follows:

Specification 2.4.3 A.

The total curie quantity and principle radionuclide composition shall be determined by measurement or estimates for all radioac-tive solid waste shipped offsite.

B.

Reports of the radioactive solid waste shipments, volumes, prin-ciple radionuclides, and total curie quantity, shall be submitted in accordance with Section 5.6.1.

The sunmation of solid wa ste and irradiated fuel shi pments i s in Table IV-1.

AV i

O 26

-.-.--,...w.. - +

.-,,--r

.,.,,-.-.,---,-y

.v.--r-

-.-,-w.-

TABLE IV-1 EFFLUENT AND WASTE DISPOSAL SDilANNUAL REPmT - 1980 SOLID WASTE AND IRRADIATED FUEL SHIPMENTS A.

SOLID WASTE SHIPPED OFFSITE FOR BURIAL m DISPOSAL (Not irradiated fuel)

First 1.

Type of waste Unit 6-month Est. Total period Error, %

a.

Spent resins, filter sludges, evaporator m3 2.26E+02 bottoms, etc.

C1 1.11E+03 3.70E+01 b.

Dry cmpressible waste, contaminated m3 2.04E+02 equip, etc.

Ci 7.61E+01 6.50E+01 c.

Irradiated camponents, control m3 E

rods, etc.

Ci E

E d.

Other (describe) m3 E

Ci E

E 2.

Estimate of major nuclide conposition (by type of waste) a.

Cs-137 5.0E-01~

Cs-134 2.5E-01 O

Co-5s 1.0s-01

.E b.

Cs-137 4.0E-01 Cs-134 3.0E-01 Co-58 1.0E-01 Co-60 1.0E-01 E

c.

E E

E E

d.

E E

E 3.

Solid Waste Disposition Nuter of Shipments Mode of Transportation Destination 45 Chem-Nuclear Transport Truck Chem-Nuclear Systems, Inc.

Exclusive Use Vehicle Barnwell, South Carolina B.

IRRADIATED FUEL SHIPMENTS (Disposition)

O Number of Shipments Mode of Transportation Destination

\\A

%m tR W

27

O v METE 0a0t0GiCat 04TA The meteorological data at 33 feet (10 meters) is sumarized in Tables V-1 (for the First Quarter), V-2 (for the Second Quarter), V-3 (concurrent with batch gaseous effluent releases - First Quarter), and V-4 (concurrent with batch gaseous effluent releases - Secord Quarter).

The classifiction of atmosphere stability is as follows:

Stability Pasquill Temperature change Classification Categories with height ('C/100m)

Extremely unstable A

<-1.9 Moderately unstable B

>-1.9 to <-1.7 Slightly unstable C

J_-1.7 to <-1.5 Neutral D

>-1. 5 to <-0. 5 Slightly stable E

T-0.5 to < 1.5 Moderately stable F

?_ 1.5 to < 4.0 Extremely stable G

?_ 4. 0 The data recovery rate for the first quarter was 92.7*. and for the second quarter it was 60.3%.

For the first six months of 1980, the data recovery O

rate was 77 o5-O 28

a-

- {:. 'e G.

T AB LE V-1 F LORID A P OWER COR PORA TI ON HOURS AT E ACH WIND SPEED AND D IRECTICN O

P ER IOD OF R EC OR D - JA NU AR Y 1, 1980 THRO UGH MA RCH 31, 1980 STABILITY C LA SS A

y E LE VA T I ON 33 F T.

C W IN D W INO SPEED (M PH )

DIR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL

---u b

N O

O O

O O

O O

C NNE O

2 5

0 0

0 7

NE O

5 14 5

0 0

24 ENE 2

10 15 3

0 0

30

(>

E O

4 6

9 0

0 19 ESE 3

7 4

1 0

0 15 SE 1

7 8

3 0

0 19 b

SSE 1

5 15 9

0 0

30 S

0 11 20 23 6

0 60 SSW 0

9 38 3

4 0

54 C'

SW D

17 10 1

0 0

28 WSW 0

27 15 1

0 0

43 W

1 19 36 15 3

0 74 b

WNW 0

10 10 13 5

0 38 NW D

2 11 4

0 0

17 NNW 0

1 3

0 0

0 4

b TOTAL 8

136 210 90 18 0

4 62 eO rERIOoS Or CALH < HOURS >

0 29 C

C

..._......------,c.-.

.._----w._---_....-....--.

O G

l

]

T ABLE V-1 FLORID A POWER COR PORA TION HOURS AT E ACH WIND SPE ED AND D IR ECTION b

P ER IOD OF R EC OR D - JA NU AR Y 1, 1980 THROUG H MA FCH 31, 1980 S T A BILI TY CLASS

-B E LE VA TI ON 33 F T.

C WIND W IND SPEED (M Pn 's DIR 1-3 4-7 8 -1 ?

13 -1 8 19 -2 4 24+

T OT AL N

0 0

0 0

0 0

0

('

NNE D

1 1

0 0

0 2

NE O

2 7

5 0

0 14 EhE O

3 1

0 0

0 4

b E

O 1

0 0

0 0

1 ESE 1

1 0

0 0

0 2

SE O

1 1

0 0

0 2

O SSE 0

4 4

0 0

0 8

S 0

4 6

2 4

0 16 SSW 0

1 4

0 1

0 6

b SV 0

7 2

2 0

0 11 WSW D

3 0

0 0

0 3

W 1

3 2

1 1

1 9

b WNW 1

4 9

5 6

2 27 NW 1

2 4

0 2

0 9

NNW 0

1 3

1 0

0 5

b T OT AL 4

38 44 16 14 3

1 19 b

P ER 10DS OF CA LM ( HOUR S) 0 30 O

G

u.m 2.._

. aa a A.. -

s., L

. -. s....

I G

T ABLE V-1 F LORID A P OWER COR PORA TI ON HOURS AT E ACH WIND SPEED AND D 1RECTICN

(*

P ERIOD OF R EC OR D - JA dU AR Y 1, 198 0 THRO UGH MARCH 31, 1980 S T A BI LI TY CLASS

-C E LE V AT I ON 33 F T.

(

W IN D WIND SPEED (M PH )

D IR 1-3 4-7 8-12 13 -1 8 19-24 24+

T OT AL O

N O

O O

O O

O O

b NNE D

0 1

0 0

0 1

NE O

3 3

0 0

0 6

C ENE O

O 3

0 0

0 3

C E

1 1

1 0

0 0

3 ESE O

O O

O O

O O

SE 1

1 1

0 0

0 3

C SSE O

1 0

0 0

0 1

S 1

1 5

2 3

0 12 SSW 1

2 1

0 0

0 4

O SW 0

4 2

0 0

0 s

W SW D

1 0

0 0

0 1

W 0

0 0

3 2

3 8

b WNW 0

0 5

3 0

0 8

NW 0

2 0

0 0

0 2

NNW 0

1 1

2 0

0 4

b T OT AL 4

17 23 10 5

3 62 C ()

PERIODS OF CALM (HOURS) 0 31 g

(

.-.. a..l..2

....; s _ a a -

u..

--....__._r_.2.

O (i

T ABLE V-1 FLORIDA POWER COR POR A TI ON HOUFS AT E ACH WIND S r'E ED AND D IR EC TI CN b

PERIOD OF REC OR D - JA NU AR Y 1, 198 0 THROUGH MABCH 31, 1980 STABILITY CLASS

-D ELEVATION 33FT.

b WIND WING SPEED (M PH )

D IR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL

)

N O

1 0

0 0

0 1

b NNE 1

12 20 0

0 0

33 8

NE 4

37 50 5

0 0

96 EhE O

14 13 0

0 0

27 b

E 2

6 11 0

0 0

19 O

ESE 4

10 5

5 0

0 24 O

SE 3

6 13 1

0 0

23 b

SSE 5

15 7

0 0

0 27 S

3 24 17 18 12 0

74 SSW 4

14 10 8

8 0

44 b

SW 0

6 11 3

0 0

20 WSW 5

5 8

1 0

0 19 W

5 8

4 7

5 1

30 b

WNW 3'

7 14 13 11 1

49 NW 0

6 9

?

3 0

20 NNW 1

17 28 5

0 0

51 b

T OT AL 40 188 220 68 39 2

5 57 CO PERIOoS 0, CAL, < nouR S, _

0 32 0

l. c a.u.a

.. a - _a- '.. _

_ w a _ _.. :...........

O.

c-T AB LE V-1 FLORID A POWER COR PORA TI ON HOURS AT E ACH WIND SPEED AND DIRECTION C'

P ER 100 0F R EC ORD - JA NU AR Y le 198 0 THROUG H MA RCH 31, 1980 S T A BI LI TY CLASS

-E

.(.

ELEVATION 33 F T.

(

W IND WIND SPEED (HPH)

D IR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL

(.

N O

3 1

0 0

0 4

O NNE 0

12 9

0 0

0 21 i

NE 3

25 49 0

0 0

77 ENE 9

17 2

0 0

0 28 C

E 5

17 3

0 0

0 25 ESE 5

24 3

0 0

0 32 SE 3

34 13 0

0 0

50

(

SSE 4

16 11 7

0 0

38 S

7 13 23 7

7 1

58 SSW 11 7

4 1

0 1

24 b

SW 2

15 14 0

0 0

31 WSW 6

8 11 0

0 0

25 W

6 14 3

0 0

0 23

'b WNW 4

4 10 0

0 0

18 NW 6

14 2

1 0

0 23 NNW 3

23 13 0

0 0

39 b

T OT AL 74 246 171 16 7

2 5 16 b

PER IODS OF CA LH '(HOUR S) 6 33 g

(C

.......-..u---u..

--.. -~~- :-:....

O 0

{)

T AB LE V-1 FLORID A POWER CORPORA TI ON

(..

HOURS AT E ACH WIND SPEED AND D IRECTICN C'

P ERIOD OF R EC ORD - JA NU AR Y 1, 1980 TH R0 UG H MARCH 31, 19SO S T A BIL I TY C LA SS F

E LEVAT I ON 33 F T.

b W IND WIND SPEED (MPH)

D IR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL b,

N 0

4 0

0 0

0 4

b NNE O

10 1

0 0

0 11 NE 4

17 3

0 0

0 24 E NE 6

21 0

0 0

0 27 I-E 8

8 1

0 0

0 17 ESE 5

9 0

0 0

0 14

(,

SE 2

10 2

0 0

0 14 I

SSE 3

1 0

0 0

0 4

S 3

3 4

0 0

0 10 SSW 2

2 0

0 0

0 4

C-SW 4

2 1

0 0

0 7

WSW 2

0 0

0 0

0 2

W 3

0 0

0 0

0 1

b WNW 8

1 0

0 0

0 9

NW 5

2 0

0 0

0 7

NNW 3

15 1

0 0

0 19 C'

TOTAL 56 105 13 0

0 0

1 74 b

P ERIODS OF CALM ( HOUR S) 1 34 0

b

.m a. _ _..

. A _.. _ - -

._.........._.___.a._._u.

c T ABLE V-1 F LORIDA POWER COR PORA TI ON HOURS AT E ACH WIND S PE ED A ND D IR EC TI CN b

P ERIOD OF R EC ORC - JA NU AR Y 1, 198 0 THROUG H MA RCH 31, 1980 S T A BILI TY CLASS

-G E LE VA T I ON 33 F T.

('

WIND W IND SPEED (MPH)

D IR 1-3 4-7 8 12 13 -1 8 19 -2 4 24+

T OT AL O

N O

2 1

0 0

0 3

O NNE 4

4 1

0 0

0 9

i NE 9

2 s

0 0

0 16 ENE 13 28 0

0 0

0 41 C

E 12 10 0

0 0

0 22 O

ESE 3

11 0

0 0

0 14 O

f SE 3

3 1

0 0

0 7

C SSE 1

1 1

0 0

0 3

S 2

1 0

0 0

0 3

SSW 0

0 0

0 0

0 0

b SP 1

1 0

0 0

0 2

WSW 0

1 0

0 0

0 1

W 1

0 0

0 0

0 1

C WNW 0

0 0

0 0

0 0

NW 1

1 0

0 0

0 2

NNW 1

2 0

0 0

0 3

O TOTAt 31 si 0

0 0

1 27 0O

,ERIOoS Or CAEH < HOURS) 1 35 C

O

...u

.s.l--..

~~.....

b.I C1 TABLE V-2 FLORID A POWER CORPORA TION

,(;

HOURS AT E ACH WIND SPEED AND D IRECTION b

P ER IO D OF R EC OR D - AP RI L 1, 1980 THROUGH JUNE 30, 1980 S T ABILI TV C LA SS A

E LE VA T I ON 33 F T.

b W IN D WIND SPEED (M PH )

D IR 1-3 4-7 8-12 15 -1 8 19 -2 4 24+

T OT AL N

0 O

O O

O 0

0 NNE O

O 1

0 0

D 1

NE O

3 5

0 0

0 8

ENE 1

7 11 1

0 0

20 c.

E O

12 25 0

0 0

37 O

ESE O

6 2

0 0

0 8

{

SE 2

2 8

0 0

0 12 C

S SE 1

1 4

5 0

0 11 S

0 4

5 5

0 0

14

{

SSW 1

8 15 4

0 0

28 1

SW D

6 12 8

0 0

26 W.s 1

21 31 3

1 0

57

{,

W 0

20 50 24 4

0 98 W NW 0

8 19 10 0

0 37 NW 0

1 3

1 0

0 5

{.

NNW 0

1 3

0 0

0 4

TOTAL 6

100 194 61 5

0 366 en V

PERIf ?S OF CA LM ( HOUR S) 0 36

. g, 0

. ::.::.a..;_ _ _ _...... :_ a.. : '

._-.._-...:~__

i O

T AB LE V-2 g

FLORID A POWER COR PORA TI ON HOURS AT E ACH WIND SPE ED AND D IR EC TI ON P ER 100 0F RECORD - APRIL 1, 1980 THROUGH JUNE 30, 1980 S T A BILI TY C LA SS

-B g

E LE V A T I ON 33 F T.

WINO WIND SPEED (M PH )

D IR 1-3 4-7 8-12 13 -1 8 19-24 24 +

T OT AL g

N 0

0 0

0 0

0 0

(

NNE O

g 1

0 0

0 1

NE O

2 1

0 0

0 3

w E NE O

4 2

0 0

0 6

~

E D

1 4

0 0

0 5

ESE O

1 3

0 0

0 4

{,

SE O

O 2

0 0

0 2

S SE O

2 2

0 0

0 4

S 0

1 1

0 0

0 2

{

SSW 0

3 8

1 0

0 12 SW 0

1 5

2 0

0 8

WSW 0

4 1

0 0

0 5

{

W 1

3 5

1 0

0 10

(-

WNW 0

0 8

2 0

0 10 0

NNW 0

0 1

0 0

0 1

0 T OT AL 1

22 45 6

0 0

74 b

PERIODS OF CA LM (HOURS) 0 g

37

~~

~ - - - -

...... ~..

O C.

T ABLE V-2 FLORIDA POWER COR POR A TION HOURS AT E ACH WIND SPE ED AND D IREC TI ON b

P ER IOD OF R EC ORD - AP RI L 1, 1980 THROUGH JUNE 30, 1980 S TABILITY CLA SS C

E LE VA TI ON 33 F T.

b WIND WIND SPEED M PH )

DIR 1-3 4-7 8-12 13 -1 8 19-24 24+

T OT AL g

N 0

0 0

0 0

0 0

NNE C

0 0

0 0

0 0

NE O

O 1

0 0

0 1

L ENE O

O O

O 0

0 0

E C

1 3

0 0

0 4

i E SE O

1 2

t' O

O 3

{.

SE O

2 0

0 0

0 2

i S SE O

2 0

1 0

0 3

s 0

1 0

0 0

1 2

> (.

SSW 0

1 1

2 0

0 4

SW D

4 0

0 0

0 4

W SW D

1 0

0 0

0 1

{

W 0

0 1

1 0

0 2

WNW D

2 1

0 0

0 3

NW 0

1 0

0 0

0 1

p, NNW 0

0 0

0 0

0 0

T OT AL 0

16 9

4 0

1 30 P ERIODS O F CALM (HOURS) 0 38 C

l C

...~,.....__...

s...._____....__......,_;.:....

(i 0

TABLE V-2 FLORID A POWER CORPORA TION HOURS AT E ACH WIND SPE ED AND D IREC TI ON b

P ER IO D OF REC ORD - APRIL 1,

1980 THROUGH *1dE 30, 1980 STABILITY C L A SS D

E LE VA TI ON 33 FT.

b WIND WIND SPEED (M PH 3 D IR 1-3 4-7 8-12 13 -1 8 19-24 24+

T OT AL

]

N 0

1 0

0 0

0 1

NNE O

4 6

0 0

0 10 NE O

8 6

0 0

0 14

{.

E NE 1

12 11 0

0 0

24 E

2 11 10 0

0 0

23 E SL 2

7 8

1 0

0 18

{,

SE O

5 7

2 0

0 14 C-SSE 2

3 4

2 0

0 11 S

3 5

4 0

2 0

14

{

SSW 1

11 6

1 0

0 19

('

SW 2

13 11 3

0 0

29 W SW 0

7 6

0 0

0 13

{

W 1

7 10 7

1 0

26 C

WNW 2

8 21 11 0

0 42 NW D

4 12 2

0 0

18

{,,

NNW D

2 5

0 0

0 7

C T OT AL 16 106 127 29 3

0 2 83 PERIODS Of CA LM ( HOUR S)

O g

39 0

:a_;

___ w

__a-.. - -.-_

(!

G T ABLE V-2 F LORID A P OWER CORPORA TION HOURS AT E ACH WIND SPEED AND D IRECTION b

P ER IOD OF R EC OR D - APRIL 1, 1980 THROUGH JUNE 30, 1980 S T A BILI TY C LA SS E

C L E VA T I ON 33 F T.

b WIND WIND SPEED (M PH )

DIR 1-3 4-7 8-12 13 -1 8 19 -24 24+

T OT AL N

O 1

0 0

0 0

1 b

NNE O

7 4

0 0

0 11 NE 1

18 3

0 0

0 22 ENE 2

39 3

0 0

0 44 E

6 31 6

0 0

0 43 ESE 4

10 4

0 0

0 18

(,

SE 6

11 11 0

0 0

28 O

SSE 5

12 9

0 0

0 26

(

S 3

6 5

6 0

0 20 SSW 2

5 8

2 0

0 17

(.

l SW 2

9 5

3 2

0 21 WSW 1

23 14 0

0 0

38

{

1 W

2 17 15 3

0 0

37 C

WNW 2

9 17 6

0 C

35 NW 1

4 6

0 0

0 11

{,

NNW 0

4 0

0 0

0 4

(

T OT AL 36 206 110 22 2

0 376

(. O P ERIODS OF CA LM (HOUR S) 0 (l

40

.......-.-..:.a............L:.~.

~^

C',

6 T ABLE V-2 g

F LO RI D A P OW ER CORPORA TI ON HOURS AT E ACH WIND SPEED AND D IR EC TI ON b

P ERIOD OF REC ORD - APRIL 1, 1980 THROUGH JUNE 30, 1980 STABILITY CLA SS F

E LE V A TI ON 33 F T.

WIND W IND SPEED (*t PH )

D IR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL g

N O

1 0

0 0

0 1

NNE O

6 0

0 C

0 6

NE 6

8 0

0 0

0 14

{

E NE 3

35 2

0 0

0 40 E

9 16 0

0 0

0 25 ESE 11 11 0

0 0

0 22

{,

SE 11 6

0 0

0 0

17 O

SSE D

2 0

0 0

0 2

S 6

3 1

0 0

0 10

(

SSW 1

0 0

0 0

0 1

SW 0

0 0

0 0

0 0

W SW 2

1 0

0 0

0 3

{

W 1

2 0

0 0

0 3

WNW D

0 0

0 0

0 0

NW 2

0 0

0 0

0 2

{,

NNW 1

1 0

0 0

0 2

T OT AL 53 92 3

0 0

0 148 b

P ER IODS OF CA LM (HOURS) 3 41 C

0

......--.;e-

...a

.a.-.~..

6.

T AB LE V-2 F LORID A P OWER COR POR A TI ON HOURS AT E ACH WIND SPEED AND D IRECTION b

P ER IOD OF R EC OR D - AP RI L 1, 1980 THROUGH JUNE 30, 1980 S T ABILITY CLA SS G

E LE VA TI ON 33 FT.

C W IND WIND SPEED (4PH)

DIR 1-3 4-7 8-12 13 -1 8 19-24 24+

T OT AL g

N 0

0 0

0 0

0 0

NNE O

2 1

0 0

0 3

NE 2

2 0

0 0

0 4

{.

ENE 3

7 2

0 0

0 12 O

E 3

4 0

0 0

0 7

O E SE 2

0 0

0 0

0 2

{;

SE 2

1 0

0 C

1 4

SSE O

O O

O O

1 1

S 1

0 0

0 0

0 1

(

SSW 1

0 0

0 0

0 1

S i' O

O O

O O

O O

WSW D

0 0

0 0

0 0

{

W 1

1 0

0 0

0 2

WNW D

0 0

0 0

0 0

NW D

0 0

0 0

0 0

{.

NNW 0

0 0

0 0

0 0

T OT AL 15 17 3

0 0

2 37 PERIODS OF CALM (HOUR S) 0 42 C.

C

(I G

p T ABLE V-3 0v F LORIDA POWER COR PORA TION HOURS AT E ACH WIND SPEED AND DIRECTICN

(

P ERIOD OF R EC OR D - JA NU AR Y 1, 1980 THROUG H MA RCH 31, 1980 B AT CH R ELE ASE S S T A BILI TY CLASS

-A ELEVATION 33 F T.

C W IND W IND SPEED (M PH )

DIR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL N

O O

O O

O O

O C

NNE O

1 0

0 0

0 1

NE O

O O

O O

O 0

E NE O

2 2

0 0

0 4

Oo E

O O

2 0

0 0

2 O

ESE O

1 2

0 0

0 3

C.

SE O

2 0

0 0

0 2

C SSE O

O 2

1 0

0 3

S 0

1 6

6 1

0 14 SSW 0

0 9

0 0

0 9

(.-

SW 0

7 0

1 0

0 8

WSW 0

3 3

0 0

0 6

W 0

4 9

3 3

0 17 b

W NW 0

2 0

0 2

0 4

NW 0

0 0

0 0

0 0

(:

1 NNW 0

1 0

0 0

0 1

O T OT AL 0

24 35 9

6 0

74 0O l

e t, IO o, o, c, <,, nco, s, _

o 1

(.,

43 l

' ~ " -'

.a..........

C-c..

Q T AB LE V-3 FLORIDA POWER COR PORA TI ON HOURS AT E ACH WIND SPEED AND D IRECTICN b

PERIOD OF R EC OR C - JA NU AR Y 1, 198 0 THRO UGH MA RCH 31, 1980 B AT CH R ELE ASES S TABILITY CLA SS B

E LE VA TI ON 33 F T.

C W IN D WIND SPEED (M PH )

DIR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL

(.

N 0

0 0

0 0

0 0

(

NNE O

0 0

0 0

0 0

i NE O

1 1

0 0

0 2

ENE O

1 0

0 0

0 1

b E

O O

O 0

0 0

0 i

ESE O

O O

O O

O O

' C SE O

O O

O O

O O

b SSE 0

0 1

0 0

0 1

S 0

1 1

0 1

0 3

SSW 0

0 0

0 0

0 0

b SW D

2 0

0 0

0 2

WSW 0

1 0

0 0

0 1

g, W

0 0

0 0

1 0

1 b

WNW 0

1 0

0 0

0 1

NW 1

0 0

0 2

0 3

g NNW 0

0 0

0 0

0 0

b TOTAL 1

7 3

0 4

0 15 b

PERIODS OF CALM (HOUR S) 0 44 0

('

i

... ~..... -

_ -... ~...

O, G.

T AB LE V-3 FLORIDA POWER COR PORA TION HOURS AT E ACH WIND SPE ED AND D IRECTICN

(*

P ERIOD OF R EC OR D - JANU AR Y 1, 198 0 THRO U'3 H MA RCH 31, 1980 B AT CH R ELE ASES S T ABILI TY CLA SS C

ELEVATION 33 F T.

(.

W IN D WIND SPEED (M PH )

D IR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL N

0 0

0 0

0 0

0 b

NNE O

O O

O O

O O

NE O

O O

C 0

0 0

EhE O

O 1

0 0

0 1

C E

O O

1 0

0 0

1 O

ESE O

O O

O O

O O

(

SE O

0 0

0 0

0 0

b SSE O

O O

O O

O 0

S 0

0 1

0 0

0 1

SSW D

0 0

0 0

0 0

C SW 0

1 0

0 0

0 1

W SW 0

0 0

0 0

0 0

W 0

0 0

1 0

0 1

(-

WNW D

0 0

0 0

0 0

NW 0

0 0

0 0

0 0

NNW 0

0 0

2 0

0 2

(

T OT AL 0

1 3

3 0

0 7

(-

PERIODS O F CALM (HOURS) 0 G

45 C

.---....___a._~s_.

,......._.......___.........u.....

O, O.

T ABLE V-3 FLORIDA POWER CORPORA TION HOURS AT E ACH WIND SPEED AND D IRECTION b

P ER100 0F R EC OR D - JA NU AR Y 1, 198 0 THROUGH MA RCH 31, 1980 B AT CH R ELE ASES S TABILITY CLA SS D

E LE VA T I ON 33 F T.

C W IND WIND SPEED (M PH )

D IR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL N

0 O

O O

O O

O b

NNE O

1 0

0 0

0 1

NE O

7 2

0 0

0 9

j ENE O

O 3

0 0

0 3

b E

O 2

2 0

0 0

4 O

ESE O

O O

O O

O 0

C SE O

O O

0 0

0 0

C-SSE i

9 3

0 0

0 13 S

0 1

2 1

6 0

10 SSW 0

2 5

0 7

0 14 b

SW D

1 1

1 0

0 3

WSW 1

0 0

0 0

0 1

W 1

2 1

1 0

0 5

b WNW 1

2 1

2 3

0 7

NW 0

0 0

0 0

0 0

NNW 0

1 0

0 0

0 1

C-T OT AL 4

28 20 s

14 0

T1 b

PERIODS OF CA LM (HOURS) 0 0

O

s... _... A - _ :.... a

.-._._.__w...

....a........-.

Q c

T AB LE V-3 FLORIDA POWER CORPORA TI ON HOURS AT E ACH WIND SPEED AND D IRECTION b

P ER IOD OF REC OR D - JA NU AR Y 1, 198 0 THROUG H MA FCH 31, 1930 B AT CH R ELE ASES S T A BI L I TY C LA SS E

E LEVAT ION 33 F T.

('

WIND WIND SPEED (MPH)

D IR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL b

N 0

O O

O O

O O

b NNt 0

3 3

0 0

0 s

f. f.

1 3

2 0

0 0

6 ENE 4

6 0

0 0

0 10 C

E 2

0 0

0 0

0 2

O

(.

ESE O

2 0

0 0

0 2

SE 1

7 3

0 0

0 11

(.

SSE 1

4 3

1 0

0 9

S 1

4 6

3 5

1 20

(.

SSW 1

3 3

0 0

1 8

I (

SW 0

7 10 0

0 0

17 WSW 2

2 8

0 0

0 12 C

W 1

8 3

0 0

0 12 b

WNW 2

0 0

0 0

0 2

NW 2

0 0

0 0

0 2

NNW 2

3 0

0 0

0 4

b T OT AL 19 52 41 4

5 2

123 b

PERIODS OF CALM (HOURS) 0 47 O

D

O.

b.

T ABLE V-3 FLORID A POWER COR PO RA TI ON HOUR S AT E ACh WIND SPEED AND D IRECTION b

P ERIOD OF R EC OR D - JA NU AR Y 1, 198 0 THROUG H K4 FCH 31, 1980 B AT CH R ELE ASES S T A BILI TY CLASS

-F Ls E LE VA TI ON 33 F T.

b WIND WIND SPEED (M PH )

D IR 1-3 4-7 8-12 13 -1 8 19 -24 24+

T OT AL N

0 0

0 0

0 0

0 b

NNE O

O O

O O

O 0

NE 1

0 0

0 0

0 1

ENE 1

0 0

0 0

1 b'

E 1

1 0

0 0

0 2

O E SE 1

2 0

0 0

0 3

(.

SE C

4 2

0 0

0 6

b SSE 1

I O

0 0

0 2

S C

3 1

0 0

0 4

SSW 0

0 0

0 0

0 0

(;

SW 1

1 1

0 0

0 3

WSW 2

0 0

0 0

0 2

W 0

0 0

0 0

0 0

b WNW 3

0 0

0 0

0 3

NW D

0 0

0 0

0 0

NNW 1

5 1

0 0

0 7

T OT AL 12 17 5

0 0

0 34 P ERIODS OF CA LM (HOUR S) 0 48

G l 0

1 w x a. =

u;._

u

- _ a _ _ _ _ _

a _ a. - -.w- _ *u a.. - +......

O.

h l

O ras't v-s FLORIDA POWER CORPORA TION O

HOURS AT E ACH WIND SPEED AND D IRECTION 1

O

+

P ERIOD OF R EC cR o - JA NU AR Y 1, 1980 THROUGH MA RCH 31, 1980 B AT CH R ELE ASES S TABILITY CLASS G

C E LEVA TI ON 33 F T.

b W IND WIND SPEED (M PH )

DIR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL N

0 O

O O

O O

O C

NNE O

O O

O O

O 0

NE 1

0 0

0 0

0 1

ENE O

1 0

0 0

0 1

b E

5 1

0 0

0 0

6 E SE O

2 0

0 0

0 2

SE D

1 1

0 0

0 2

b SSE 0

0 1

0 0

0 1

S 0

1 0

0 0

0 1

SSW D

0 0

0 0

0 0

(

SW 0

1 0

0 0

0 1

WSW 0

0 0

0 0

0 0

W 0

0 0

0 0

0 0

b WNW 0

0 0

0 0

0 0

NW D

0 0

0 0

0 0

b.

NNW D

2 0

0 0

0 2

b T OT AL 6

9 2

0 0

0 17

(. O P ER10DS OF CA LM ( HOUR S) 0 49 O

A

i e..>.x..s.~....w............---............:..

,e O-g ()

T ABLE V-4 F LORIDA POWER COR POR A TION g

HOURS AT E ACH WIND SPE ED AND D IR EC TI ON O

P ERIOD OF R EC ORD - AP RI L 1, 1980 THROUGH JUNE 30, 1980 BA TC H RELE ASES S T A BILI TY CLA SS A

ELEVATION 33 FT.

O v ino w ino secco ty ps, D IR 1-3 4-7 8-12 15 -1 8 19 -2 4 24+

T OT AL N

0 0

0 0

0 0

0 NNE O

O O

O C

0 0

NE O

O O

O O

O O

Cs E NE O

O O

O C

0 0

0

(~

E 0

0 0

0 0

0 0

'S' O

SE 0

0 0

0 0

0 0

S SE O

O O

O O

O O

S O

SSW 0

0 0

1 0

0 1

SW 0

0 0

6 0

0 6

WSW 0

0 3

1 0

0 4

g, W

D 0

2 5

n 0

7 W NW 0

0 1

3 0

0 4

0 NNW 0

0 0

0 0

0 0

TOTAL 0

0 6

16 0

0 22 o%

P ERIODS OF CA LM (HOURS) 0

D

a..u-....--..-L.,..u--~~-.~...

.s

--am--~

C.

O.

T AB LE V-4 FLORIDA POWER C OR POR A TI ON HOURS AT E ACH WIND SPEED AND DIRECTION h

P ER IOD OF R EC ORD - APRIL 1, 1980 THROUGH JUNE 30, 198 0 BA TCH FELEASES S T A BI LI TY C LA SS B

E LE VA T I ON 33 F T.

b W IN D WIND SPEED (M PH )

DIR 1-3 4-7 8-12 13 -1 8 19 -24 24+

T OT AL l

N 0

O O

0 0

0 0

NNE O

O O

O O

O O

NE O

O O

O O

0 0

ENE O

O O

O O

O C

E O

O O

O O

O O

O E SE O

O 1

0 0

0 1

g SE O

O O

O O

O O

SSE 0

0 0

0 0

0 0

S 0

0 0

0 0

0 0

g SSW 0

0 0

0 0

0 0

SW D

0 0

1 0

0 1

4 WSW C

0 0

0 0

0 0

{,

W G

0 0

0 0

0 0

WNW D

0 0

0 0

0 0

NW 0

0 0

0 0

0 0

g.

NNW D

0 0

0 0

0 0

T OT AL 0

0 1

1 0

0 2

b PERIODS OF CALM ( HOUR S)

O 51 g

C

v.

......__..__w_.2.._.

b, C-g.

TABLE V-4 F LORIDA POWER COR PORA TI ON 4:

HOURS AT E ACH WIND SPE ED AND D IR EC TION k

P ERIOD OF R EC ORD - APRIL 1, Ic80 THROUGH JUNE 30, 198 0 BA TCH RELE ASLS S T A BI LI TY CLASS C

.(.

ELEVATION 33 FT.

WIND WIND SPEED (%PH)

D IR 1-3 4-7 8-12 13 -1 8 19 -24 24+

TOTAL

(,

N 0

0 0

0 0

0 0

C-NNE P

0 0

0 0

0 0

i NE O

O O

O O

O O

{;

ENE O

O O

O O

0 0

E O

O O

O C

0 0

C SE O

O O

O O

O O

g, SE O

O O

O O

O O

O SSE O

O O

O C

0 0

S 0

0 0

0 0

0 0

{,

SSV 0

0 0

1 0

0 1

{.

SW 0

0 0

0 0

0 0

WSW 0

0 0

0 0

0 0

{,

W D

0 0

0 0

0 0

WNW D

0 0

0 0

0 0

NW 0

0 0

0 0

0 0

NNW 0

G 0

0 0

0 0

b.

T OT AL 0

0 0

1 0

0 1

O V

P ER IODS O F CA LM (HOURS) 0 52 0

C

)

..i...._..'

._L.

... _ _ ~ -. --.......

...;.a a-a.s-

' (j. ' e C'

,()-

T ABLE V-4 FLORIDA POWER CORPOR A Ti ON HOURS AT E ACH WIND SPE ED AND D IR EC T s uN

(

P ERIOD OF REC ORD - AP RIL 1, 1980 THROUGH JUf4E 30, 1980 BATCH RELE ASES STABILITY CLA SS 0

ELEVATION 33 F T.

b W IND W IND SPEED (M PH )

D IR 1-3 4-7 8-12 13 -1 8 19 -2 4 24+

T OT AL

-~~~

--~~

--~~

--~~~

C N

0 0

0 0

0 0

0 N NE O

O O

O O

O O

NE O

O O

O O

0 0

{

E NE O

O O

O O

O O

E 1

1 1

0 0

0 3

E SE 1

1 0

0 C

0 2

{

SE O

O O

O O

0 0

S SE O

O O

O O

O O

S 0

0 1

0 0

0 1

{

SSW 0

0 0

0 0

0 0

SW 0

0 1

0 0

0 1

WSW 0

0 1

0 0

0 1

{.

W 0

1 0

0 0

0 1

C W NW D

0 0

0 0

0 0

i NW D

0 0

1 0

0 1

{.,

l N NW D

0 0

0 0

0 0

TOTAL 2

3 4

1 0

0 10 0

PERIODS OF CA LM (HOURS) 8 Ci C1

.. - - -. ~ -

(.".

7 l

T ABLE V-4 FLORID A POWER CORPORA TION HOURS AT E ACH WIND SPEED AND D IRECTION b

P ERICD OF REC ORD - APRIL 1, 1980 THROUGH JUNE 30, 1980 B A TC H RELE ASES S T ABl LI TY C LA SS E

{.

ELEVATION 33 FT.

W IND WIND SPEED M PH )

P ;H 1-3 4-7 8-12 13 -1 8 19-24 24+

T OT AL N

0 0

0 0

0 0

0 NNE O

O O

O O

O O

NE D

1 0

0 0

0 1

{

E NE O

O O

O O

O O

(S E

D 6

0 0

0 0

6 V

ESE 1

0 0

0 0

0 1

{,

SE 1

1 0

0 0

0 2

SSE 1

3 1

0 0

0 5

S 0

0 1

0 0

0 1

(-

SSW 0

0 0

0 0

0 0

SW I

3 1

0 0

0 5

WSW 0

4 0

0 0

0 4

{

W 0

0 0

0 0

0 0

WNW 0

0 0

0 0

0 0

NW 0

0 0

0 0

0 0

{.

NNW 0

0 0

0 0

0 0

b TOTAL 4

18 3

0 0

0 25

'p PERIODS OF CALM (HOURS' 0

(,

54 O --.

-~__

. ~ _.... '. -....

[

t G

T AB LE V-4 0)% )

~~

F LO RI D A P OW ER CORPORA TION HOURS AT E ACH WIND SPEED AND D IRECTION b

P ER IOD OF R EC ORD - AP RI L 1, 1980 THROUGH JUNE 30, 1980 BATCH RELE ASES S T ABILI TY CLA SS

-F E LE VA T I ON 33 FT.

WIND W IN D SPEE D (1PH)

DIR 1-3 4-7 8-12 13-18 19 -2 4 24+

T OT AL N

0 0

0 0

0 0

0 NNE O

O O

O O

0 0

NE O

1 0

0 0

0 1

{,

ENE O

2 0

0 0

0 2

x E

1 0

0 0

0 0

1 a

{

E SE 1

0 0

0 0

0 1

SE O

C 0

0 0

0 0

0 S SE O

0 0

0 C

0 0

S 0

0 0

0 0

0 0

{

SSW 0

0 0

0 0

0 0

('

SW 0

0 0

0 0

0 0

WSW 0

0 0

0 0

0 0

{

W D

0 0

0 0

0 0

C WNW 0

0 0

0 0

0 0

NW D

0 0

0 0

0 0

{-)

NNW 0

0 0

0 0

0 0

T OT AL 2

3 0

0 0

0 5

O PERIODS OF CALM (HOURS) 0 G

55 0

i O

?

j

( o f'~"')

T AblE V-4

,(

v F LO F,l D A P OJ ER COR POR A TION HOURS AT EACH LIND S PE LD Aen 3IP.ECTI(N P ER IOD CF k EC CR:s AP 'i! L 1.

1990 1HAOUGH JU'sE 30, 198 0 t' A TC n AELE.4LS S T A BI L I lY CLASS G

E LE VA T I ON

'3 F'.

W l.N D

.' I N ' SPEE2 M FH )

1 D IR 1'

4-7 8-12 13-1d 19-is 24+

TGT*L j

N

(

0 0

0 C

0 0

l e

N tal L

0 0

0 i

C 0

N t.

^

C 0

0 0

0 C f.E 1

1 0

2

~

e'y E

O r

r:

0

(

f v

E sf O

O c

C 0

0 SL 0

0 0

C 0

S SE i

r J

1 3

S t

C G

C C

0 0

S Sk O

?

C 3

3 0

SL t

S G

0

'1 0

0 WSW D

C 0

C C

0 0

W f:

C 0

C S

0 W X.

r' L

3 C

0 NW D

C 0

C e

0 0

NNW C

0 0

f.

t 0

0 k

i01AL 1

1 T-0 2

P ERIODS OF CALM (HOURS) 0 56

_._.