ML19296D375

From kanterella
Jump to navigation Jump to search
Effluent & Waste Disposal Semiannual Rept Jul-Dec 1979.
ML19296D375
Person / Time
Site: Crystal River Duke Energy icon.png
Issue date: 02/29/1980
From: Baynard P, Poole D
FLORIDA POWER CORP.
To:
References
NUDOCS 8003040480
Download: ML19296D375 (59)


Text

.

Florida Power m ..m..< _

February 29, 1980 Director Office of Inspection and Enforcement U.S. Nuclear Regulatory Commission Washington, DC 20555

Subject:

Crystal River Unit 3 Docket No. 50-302 Operati ng License DPR-72

Dear Sir:

Attached are six (6) copies of Florida Power Corporation's "Ef fluent and Waste Disposal Semiannual Report" for Crystal River Unit 3. This report is for the period of July 1,19/9 through December 31, 1979.

If you have any questions regarding this report, please contact us.

Very truly yours, FLORIDA 'JWER CORPORATION

(!f ,/

T~U;f.CE(e '

J A. Hancock

' Director fluclear Operations Attachment rile Code: 3-0-17-a cc: Director Di rector Of fice of Reactor Regulation Office of Management Information U.S. Nuclear Regulatory Commission and Program Control Washi ngton, DC 20555 U.S. Nuclear Regulatory Comiission (1 copy) Washington, DC 20555 (2 copies)

Office of Inspection and Enforcemant U.S. Nuclear Regulatory Coanission M

$ Suite 3100 101 Marietta Street 5

Atlanta, GA 30303 /I h

,a SemieffWork(DN-56) 3 003040 General Of fice 320i in.n iovan r st<eci soum . P o 14o42 si Petersou<a r ior.ca 33733 813 866 sisi

STATE OF FLORIDA COUNTY OF PINELLAS J. A. Hancock states that he is the Director, Nuclear Operations, of Florida Power Corporation; that he is authorized on the part of said company to sign and file with the Nuclear Regul ato ry Co'nission the information attached hereto ; and that all such statements mad e and matters set forth therein are true and correct to the best of his knowledge, information and belief.

a

'f '

b l,kL Ift' _ _ _

/J. A. Hancock - - '

Subscribed and sworn to before me, a Notary Public in and for the State and County above named, this 29th day of February, 1980.

w Notary Public Notary Public, State of Florida at Large, My Commission Expires. August 8, 1983 Semie f fwork(Nota ry)Dft-56

EFFLUEi4T AiiD i.'ASTE DISPOSAL SEMIAtlilUAL REPORT 7/1/79 - 12/31/79 FLORIDA PU.'ER CORPURATIOil CRYSTAL RIVER - Uillr 3 FACILITY OPERATli;G LICEi1SE ild. OPR-72 UUCKE T i;0. 50-302 FEBRUARY, 1980 APPROVEU BY: l;acl ea r lant Ma riager l

, _ _ O_ f Date: N- M I" N Manager fluclear Sqpport Services

()

v ;*s ; < , ' ) ) Y.ah < ;, , a , - t

.) l} }'

Date: ,7 'd Seini ef fWo r k (DiiS6 )

TABLE OF CONTEf4TS PAGE I Introduction 1 11 Releases of and Doses from Gaseous Ef fluents 4 111 Releases of and Doses from Liquid Effluents 17 IV Solid Waste Shipments 26 V Meteorological Data 28 FIGURES 111-1 Methods of Meeting 10 CFR 20, Appendix B, 21 Table il, Column 2 MPC Limits SemieffWork(DN-56)

LIST OF TABLES PAGE I-1A Summation of .oses to Individuals from Gaseous and 2 Liquid Ef fluent Releases - Third and Fourth Quarters 1-1B Summation of Doses to Population from Gaseous and 3 Liquid Ef fluent Releases - Third and Fourth Quarters 11-1 Summation of Gaseous Effluent Releases 11 11-2 Summation of Nuclides in Gaseous Ef fluent Ground 12 Level Releases 11-3 Doses to Individuals from Continuous Gaseous 13 Effluent Releases - Third and Fourth Quarters 11-4 Doses to Individuals from Batch Gaseous Ef fluent 14 Releases - Third and Fourth quarters 11-5 Doses to the Population from Continuous Gaseous 15 Effluent Releases - Third and Fourth Quarters 11-6 Doses to the Population from Batch Gaseous Ef fluent 16 Releases - Third and Fourth Quarters 111-1 Summation of Liquid Ef fluent Releases 22 111-2 Sumnation of Nuclides in Liquid Effluent Releases 23 111-3 Doses to Individuals from Liquid Ef fluent Releases - 24 Third and Fourth Quarters 111-4 Doses to the Population from Liquid Effluent 25 Releases - Third and Fourth Quarters IV-1 Summation of Solid Waste and Irradiated Fuel 27 Shi pments V-1 Summation of Meteorological Conditions at 33' (10 29 meters) - Third Qua rter V-2 Sumnation of Meteorological Conditions at 33' (10 36 meters) - Fourth Quarter V-3 Summation of Meteorological Conditions at 33' (10 43 meters) Concurrent with Batch Gaseous Ef fluent Releases - Third Quarter V-4 Sunmation of Meteorological Conditions at 33' (10 50 noters) Concurrent with Bach Gaseous Ef fluent Releases - Fourth Quartcr

1 INTRODUCTION This Ef fluent and Waste Disposal Report is submitted as required by Tech-nical Specific ation 5.6.1.B of Appendix B to the Crystal Ri ver Unit 3 Facility Operati ng License No. DPR-72. The data in this report covers the period from July 1 to December 31, 1979.

There have been no changes to the Technical Specification Requirements for effluents and waste disposal in Appendix B of the Facility Ope rati ng License duri ng the period of thiL re po rt.

Crystal River Unit 3 has had no measurable radiological impact on the sur-rounding environnent during the reporting pe ri od . Thi s i s ba sed on the Radiological Environmental Monitoring Program showi ng no increases over preoperational data and the doses calculated for individuals and the popu-lation due to ef fl ue nt rel eases being significantly bel ow the l evel s required by 10 CFR 50, Appendix 1.

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

The individual and population doses were calculated using the GASPAR ( for gaseous effluents) and the LADTAP (for liquid effluents) computer codes ob-tai ned fran the Nuclear Regulatory Commission and revised to include site specific data wherever possible. These doses are suanarized in Tables 1-1A and 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-ier, the total of the lower limits of detection for all samples is reportEJ t s "<. X. X XE-X" . The totals of activity released is a total of only the nuclides that had measured activity.

1

TABLE I-1A SUMMATION OF DOSES TO INDIVIDUALS FROM GASEOUS AND LIQUID EFFLUENT RELEASES Third Quarter Beta Air Dose = 1.57E-02 mrad /yr (Desi 9n Objective = 2.00E+01 mrad /yr)

Gamma Air Oose = 9.74E-03 mrad /yr ' Design Objective = 1.00E+01 mrad /yr)

Whole Body Dose Distance Design (Mi.) and Organ Dow Obj ectives_

Direction Age Group (mrem /yr)

Effluent Release (mre  ;

6.33L-03 5.00E+00 4.50 at E Infant N/A Continuous Gaseous Each N/A 2.93E-04 Batch Gaseous 4.50 at E 1.39E-03 5.00E +00 Teen N/A Continuous Liquid N/A li/A 4.52E-03 N/A Teen Batch Liquid Organ Dose Thyroid 2.24E-01 1.50E+01 4.50 at E Infant Continuous Gaseous Each Skin 8.14E-04 Batch Gaseos 4.50 at E 2.91E-03 Teen Bone N Continuous Liquid N/A GI-LLI 4.47E-02 N/A Ad ult Batch Liquid Fourth Quarter Beta Ai r Dose = 9.86E-02 mrad /yr (Design Objective = 2.00E+0 mrad /yr)

Gamma Air Dose = 5.57E-02 mrad /yr (Design Objective = 1.00E+01 mrad /yr)

Whole Body Dose

    • N/A 3.47E-02 5.00E+00 Continuous Gaseous 4.50 at E 6.39E-04 4.50 at E Child N/A 5.00E+00 Batch Gaseous Teen f4/A 2.18E-03 Continuous Liquid N/A 6.20E-03 N/A Teen N/A Batch Liquid Organ Dose
    • Ski n 8.45E-02 1.50E +01 Continuous Gaseous 4.50 at E 1.72E-03 4.50 at E Each Skin Batch Gaseous Bone 9.71E #3 5.00E +00 N/A Teen Continuous Liquid Ad ul t Gl-LLI 4.69E- 12 Batch Liquid N/A
    • Teen, Child or Infant

TABLE I-1B SUMMATION OF DOSES TO THE POPULATION FR0i1 GASEOUS Ar4D LIQUID EFFLUENT RELEASES Third Quarter Whole Body Dose Organ Dose Effluent Release Dose Design Objectives Organ Uose Design Objectives (MAN-REM /YR) (MAN-RLM/YR) (MAfi-R EM/ YR ) (r1AN-REN/ YR)

Continuous Gases 5.88E-02 5.00E +02 Ski n 1.78E-01 5.00E +02 Batch Gaseous 3.82E-03 Ski n 1.34E-02 w Continuous Liquid 1.34E-01 N/A Bone 2.26E-01 N/A Batch Liquid 3.01E-01 N/A Thyroid 5.17E+00 N/A Fourth Quarter Continuous Gaseous 5.10E-01 5. 00E +02 Ski n 1.58E+00 5. 00E +02 Batch Gaseous 1.07E-02 Skin 3.56E-02 Continuous Liquid 1.86E-01 N/A Bone 8.01E-01 N/A Batch Liquid 4.05E-01 ti/A GI-LLI 5.26L '

N/A

II RELEASES OF AND DOSES FROM GASEOUS EFFLUENTS There are three normal methods of releasing gaseous ef fluents to the atmos-phere: 1) continuous release via the Auxiliary Building Exhaust; 2) batch release frcm the Waste Gas 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 fo r gaseous effluent releases are as follows:

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

subscripts v, refers to vent releases i, refers to individual noble gas nuclide (Refer to Table 2.4-5 for the noble gas nuclides considered)

QT

= the total noble gas release rate (Ci/sec)

= Ij Qi sum of the individual nobl e gas radionuclides determined to be present by isotopic analysis K = the average total body dose factor due to gamma enission (ren/yr per Ci/sec)

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

II = the averge air dose factor due to beta emissions (rad /yr per Ci/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 followi ng usi ng the results of the noble gas radionuclide analysis:

=

K (1/QT)EiQiK i

=

L (1/QT)EiQil i Il = (1/QI)EjQjMj g ii =

(1/QT)EiQiN i 4

where the values of Kj , Lj , Mj 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 R1VER UNIT 3 x/Q = 1.46 x 106 sec/m3 at 1450 meters, ENE Dose Factors for Vent Kjy Ljy Mjy Njy Total Body Skin Beta Air Gamma Air Noble Gas rem /yr rem /yr rad /yr rad /yr Radionucl ide Ci/sec Ci/sec Ci/sec Ci/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 5

Q= The measured rel ease rate of the radiciodines and radioactive materials in particulate forms with half-lives greater than eight days. (Ci/sec)

A. (1) The release rate limit of noble gases from the site shall be such that 2.0 (QTv5 v) Il a nd 0.33 (QTv (Ly+ 1.1Ny)) fl (2) The rel ease rate limit of all radioniodines and radioactive materials in particulate form with half-lives greater than eight days, released to tne environs as part of the gaseous wastes from the site shall be such that 3.5 x 104 Qy 11 B. (1) The average release rate of noble gases tron the site during any cale dar quarter shall be such that 13 (QiyWy) 11 a nd 6.3 (QTvNv) 11 (2) The average release rate of noble gases from the site during any 12 consecutive months shall be 25 (QiyWy ) 11 13 (QTv N v) II (3) The average rel ease rate per si te of all radioiodines and radioactive materials in particulate fona 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 pe r si te of all radiciodines and radioactive materials in particulate fonn with half-lives greater than eight days during any period of 12 consecutive months shall be that 25 (3.5 x 104 Qv) 11 6

(5) The amount of iodi ne-131 released during any calendar quarter shall not exceed 2 Ci/ 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-d uce the release rates to design objective levels li sted in Sec-tion 2.4, and report these actions to the NRC within 30 days from the end of the quarter duri ng which the releases occurred.

(1) If the average release rate of noble gases fran the site during any calendar quarter is such that 50 (QTv5v) >l or 25 (C vE v) >l (2) If the average release rate per site of all radiciodines and ra-dioactive materials in particulate form with half-lives greater than eight days during any calendar quarter is such that 50 (3.5 x 10 4Qv) >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 systen the ef fluent 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 in 2.4.2. A above. The operability of each automatic isola-tion valve listed in Table 2.4-4 shall be denonstrated quarterly.

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

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 a nd 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 ef fluent 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-mi n ed fran the net count rate of the gaseous aonitor (RMA-2G), its Calibration factor, and the total exhaust flow. The activity of radi-ogas is determined by the fraction of that radiogas in the i sotopi c analysis of the Auxiliary Building atmosphere for that period.

B. Iodines - The activity released as Iodine-131,133, and 135 is based 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 tritiun is based on monthly grab sample analysis and total vent flow.

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

A. Fission and Activation Gases - The activity released is based on the v ol ume rel ea sed and the activity of the individual nuclides obtained fran an i sotopic analysis of the grab sample taken prior to the r el ease.

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

C. Particulates - The particulates fran batch releases are i ncl uded in the particulate determination fran the continuous Auxiliary Building release.

D. Tritimn - The activity released as trition is based on the grab sample analysis of each batch ard the batch volume.

8

The radioactivity rel eased by purge rel eases of the Reactor Building through the Reactor Building vent is measured as follows:

A. Fission and Activation Gases - The activity released is determined fran the net count rate of the gaseous monitor (RMA-1G), the monitor calibration factor and the total vent flow. The release of each radi-ogas 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 (RiA-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 relea . sed as tritium is ba sed on grab samples taken for each purge (or the average if more than one grab sample was taken) .

Estimated errors are based on errors in counting equipment calibration, counti ng statistics, vent flow rates, vent sample flow rates, nonsteady re-lease rates, chemical yi eld factors and sample losses for such items as charcoal cartridges.

A. Fission and Activation Gas Total Release as calculated from process moni tor readi ngs and grab sample i sotopics.

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 fran charcoal and particulate filter activity.

Statistical Error 60%

Counting Equipment Calibration 10%

Vent Flow Rate 10%

Vent Sample Flow Rate 10%

Non-Steady Release Rate 10%

Losses fran Charcoal Cartridge 10%

110%

9

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

Statistical Error 60%

Counting Equipnent Calibration 10%

Vent Flow Rate 10%

Vent Sample Flow Rate 10%

Non-Steady Release Rate 10%

100%

D. Total Tritium release as cal cul ated from periodic grab sampl e analyses.

Water Vapor in Sample Stream Detennination 20%

Vent Flow Rate 10%

Counting Calibration and Statistics 10%

Non-Steady Release Rate 50%

90%

4. Batch and Unplanned Releases The batch gaseous ef fluent releases may be summarized as follows:

Thi rd Fourth Quarter Quarter Number of Batch Releases 4.90E+01 4. 30E +01 Total time for all releases (minutes) 1. 51E +05 1.43E +05 Maximum time for any one release (minutes) 1. 25E +04 1.19E +04 Average time for all releases (minutes) 3.08E +03 3. 33E +03 Minimum time for any one release (minutes) 1.00E +00 2. 00E +01 Number of Unplanned Releases 9.00E +00 1.10E +01 Total Unplanned Activity Released (Curies) 4. 68E +00 2.07E+02 The su:anation of gaseous ef fluent releases is in Table 11-1 and the summa-tion of nuclides in gaseous e f fl uent ground level releases is in Table 11-2.

The doses to individuals frun continuous and batch gaseous effluent releas-es are in Tables 11-3 and 11-4, respectively. The doses to the population from continuous and batch gaseous effluent releases are ia Tables 11-5 and 11-6, res pect ively.

10

The unplanned releases for the third and fourth quarters of 1979 are listed below givi ng the date, the Nonconforming Operations Report Number, and the cause of each release:

August 03, 1979 NCOR 79-280 Gland Steam Rupture Disc Failure August 11, 1979 NCOR 79-291 Reactor Purge System Trip August 16, 1979 NCOP 79-302 Reactor Trip, Secondary Steam Release August 16, 1979 NCOR 79-304 Reactor Trip, Secondary Steam Release August 17, 1979 NCOR 79-308 Reactor Trip, Secondary Steam Release August 17, 1979 NCOR 79-309 Reactor Trip, Turbine Driven Emergency Feedwater Pump Steam Release August 23, 1979 NCOR 79-320 RM-A2 trip due to release of Waste Ga s Decay Ta nk September 17, 1979 NCOR 79-355 Reactor Building Purge with RM-Al isolation valve closed and no filter in place Septenbe r 18, 1979 NCOR 79-356 High alann due to ChemRad Sampling October 08, 1979 NCOR 79-370 MJV-3 packi ng leak October 11, 1979 NCOR 79-375 Drain Valve open on waste gas header October 30, 1979 NCOR 79-401 Gas surge in floor drain system November 22, 1979 NCOR 79-415 Leak in waste gas conpressor November 30, 1979 NCOR 79-417 Valve packing leak Dec enber 15, 1979 NCOR 79-421 Drain valve open on Misc. Waste Eva pora to r December 20, 1979 NCOR 79-422 DHV-19 leaking December 20, 1979 NCOR 79-423 Waste Gas Compressor leak December 22, 1979 NCOR 79-424 Reactor Trip, Secondary Steam Release December 23, 1979 NCOR 79-429 Improper performance of sampling procedure December 31, 1979 NCOR 79-432 Sampling makeup tank 10a

TABLE 11-1 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT - 1979 GASEOUS EFFLUENTS - SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total 3 4 Error %

A. Fission and Activation Gases

1. Total Release Ci 3.53E+03 2.45E+04 1.10E +02
2. Average Release Rate for Period pCi/sec 4.44E+02 3.08E+03
3. Percent of Technical Specification Limit  % 6.90E-01j5.29E+00 S. lodi nes
1. Total lodi ne - 131 Ci 3.93E-03 3.46E-03 1.01E+02
2. Average Release Rate for Period pCi/sec 4.94E-04 4.35E-04
3. Percent of Technical Specification Limit  % 1.5 7E-01 1.73E-01 C. Pa rticulates
1. Particulates with half-lives > 8 days Ci 8.49E-05 8.32E-06 1.00E+02
2. Average Release Rate for Period pCi/sec 1.07E-05 1.05E-06
3. Percent of Technical Specification Limit  % 2.30E-02 1.98E-02
4. Gross Alpha Radioactivity Ci 6.74E-08 3.96E-07
0. Tritian
1. Total Release Ci 3.39E+00 1.15E+01 9.00E+01
2. Average Release Rate for Period pCi/sec 4.26E-01 1.45E+00
3. Percent of Technical Specification Limit  % N/A N/A 11

TABLE 11-2 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT - 1979 GASE0US EFFLUENTS - GROUND-LEVEL RELEASES CONTINUOUS MODE BATCri MUDE Nuclides Released Unit Quarter 3 Quarter 4 Quarter 3 Quarter 4

1. Fission gases k _rypton-85 Ci < 2.98E+03 < 2.19E+04 6.77E+00 <2.67E+02 krypton-85m Ci 2.38E+01 1.99E+02 1.07E+00 3.11E+00 k rypto n-87 Ci 6.54E+00 5.99E+01 6.86E-02 1.58E+00 k rypton-88 Ci 1.91E+01 1.70E+02 6.85E-01 2.35E+00 xenon-133 Ci 1.99E+03 2.01E+04 2.91E+02 6.20E+02 xenon-135 Ci 4.61E+02 2.45E+03 9.13E+00 2.75E+01 xenon-135m Ci < 4.09E+01 3.00E+00 6.07E-04 9.36E-04 xenon-138 Ci < l.39E+02 < 1.29E+03 3.00E-04 < 1.50E+01 argon-41 Ci 3.43E+01 2.21E+02 7.80E-01 2.15E-01 xenon-133m Ci 3.69E+01 5.39E+02 6.08E+00 1.70E+01 xenon-131m Ci 1.47E+01 1.27E+02 7.39E-01 3.13E+00 unidentified Ci 6.35E+02 . E 4.11E-01 . E Total for Period Ci 3.22E+03 2. 38E +04 3.17E +02 6.76E+02 lodi nes iodine-131 Ci 3.93E-03 3.46E-03 . E . E i odi ne-133 Ci 7.77E-04 8.37E-04 . E . E iodine-135 Ci 2.87E-05 5.30E-05 . E . E Total for Period Ci 4.74E-03 4.35E-03 . E . E
3. Pa rticulates strontium-89 Ci 1.92E-05 < 4.79E-06 . E . E strontium-90 Ci 2.86E-06 < 3.72E-06 . E ~

. E cesium-134 Ci 1.25E-05 2.53E-06 . E . E cesium-137 Ci 2.19E-05 5.37E-06 . E . L barium-lathanum 140 Ci < l.00E-04 < 5.71E-05 L . E cobalt-58 Ci 2.85E-05 7.07E-07 . E . E niobium 95 Ci . E 4.21E-08 . E . E gross alpha C1 6.74E-08 3.96E-07 . E . E Ci . E . E . E . E Ci . E . E . E . E Total excluding Ci 8.49E-05 8.32E-06~~ . E . E 9ross alpha 12

TABLE II-3 Doses to Individuals from Continuous Gaseous Effluent Releases THIRD QUARTER Beta Air Dose = 1.45E-02 mrad /yr (4.50 miles, E)

Gamma Ai r Dose = 9.25E-03 mrad /yr (4.50 miles, E)

Whole Body Dose Organ Oose Distance Distance (Mi . ) a nd Dose (Mi .) a nd Dose Pathway Direction Age Group (mrem /yr) Direction Age Group Organ (me em/y r)

Plume Immersion 4.50 at E Each 5.91E-03 4.50 at E Each Skin 1.43E-02 Ground Contamination 4.50 at E Each 1.85E-05 4.50 at E Each Ski n 2.17E-05 Inhalation 4.50 at E Teen 1.80E-05 4.50 at E Child Thyroid 2.53E-04 Vegetable Consumption 4.50 at E Child 1.03E-04 4.50 at E Child Thyroid 4.90E-03 Cow Milk Consumption 4.50 at E Infant 1.63E-04 4.50 at E Infant Thyroid 9.89E-02 Goat Milk Consumption 4.50 at E Infant 2.29E-04 4.50 at E Infant Thyroid 1.19E-01 Meat Consumption 4.50 at E Adult 5.26E-06 4.50 at E Child Thyroid 5.18E-04 E3 Total 4.50 at E Infant 6.33E-03 4.50 at E In fa nt Thyroid 2.24E-01 FOURTH QUARTER Beta Air Dose = 9.16't -02 mrad 7yr (4.50 miles, E)

Gamma Air Dose = 5.47E-02 mrad /yr (4.50 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 4.50 at E Each 3.45E-02 4.50 at E Each Skin 8.43E-02 Ground Contamination 4.50 at E Each 0.00E +00 4.50 at E Each Each 0.00E +00 Inhalation 4.50 at E Teen 4.58E-05 4.50 at E Child Thyroid 2.06E-04 Vegetable Consumption 4.50 at E Child 8.81E-05 4.50 at E Child

  • 8.81E-05 Cow Milk Consumption 4.50 at E Infant 5.24E-05 4.50 at E Infant
  • 5.24E-05 Goat Milk Consumption 4.50 at E Infant 1.0/E-04 4.50 at E Infant 1.07E-04 Meat Consumption 4.50 at E Aault 7.14E-06 4.50 at E Adult
  • 7.14 E -06
    • ** Skin 8.45E-02 Total 4.50 at E 3.47E-02 4.50 at E
  • GI-LLI, Liver , Kidney, Thyroid , Lung or Ski n
    • Teen, Child or Infant

TABLE 11-4 Doses to Individuals from Batch Gaseous Ef fluent Releases THIRD QUARTER Beta Ai r Dose = 1.23E-03 mrad /yr (4.50 miles, E)

Gamma Ai r Dose = 4.86E-04 mrad /yr (4.50 miles, E)

Whole Body Dose Organ Dose Distance Distance (Mi . ) a nd Dose (Mi .) a nd Dose Pathway Direction Age Group (mrem /y r) Direction Age Group Organ (mrem /yr)

Plume Immersion 4.50 at E Each 2.93E-04 4.50 at E Each Skin 8.14E-04 Ground Contamination 4.50 at E Each 0.00E+00 4.50 at E Each Each 0. 00 E +00 Inhalation 4.50 at E Teen 4.44E-09 4.50 at E Teen

  • 4.44E-09 Vegetable Consumption 4.50 at E Child 8.59E-09 4.50 at E Child
  • 8.59E-09 Cow Milk Consumption 4.50 at E Infant 5.10E-09 4.50 at E Infant
  • 5.10E-09 Goat Milk Consumption 4.50 at E Infant 1.04E-08 4.50 at E Infant
  • 1.04E-08 Meat Consumption 4.50 at E Adult .96E-10 4.50 at E Ad ul t
  • 6.96E-10 5 Total 4.50 at E Each 2.93E-04 4.50 at E Each Ski n 8.14E-04 FOURTH QUARTER Beta Air Dose = 2.46L-03 mrad /yr (4.50 miles, E)

Gamma Ai r Dose = 1.04E-03 mrad /yr (4.50 miles, E)

Whole Body Dose Organ Dose distance Distance (Mi.) ard Dose (Mi.) and Dose Pathway Direction Age Group 1[nrem/yr) Direction Age Group organ (mrem /yr)

Plume Immersion 4.50 at E Each 6. 35E-04 4.50 at E Each Ski n 1.71E-03 Ground Contamination 4.50 at E Each 0.00E +00 4.50 at E Each Each 0.00E +00 Inhalation 4.50 at E Teen 7.58E-07 4.50 at E Teen 7.58E-07 Vegetable Consumption 4.50 at E Child 1.47E-06 4.50 at E Child 1.4 7E -06

  • 8.71E-07 Cow Milk Consumption 4.50 at E Infant 8.71E-07 4.50 at E Infant Goat Milk Consumption 4.50 at E Infant 1.78E-06 4.50 at E Infant 1.78E-06 Meat Consumption 4.50 at E Adul t 1.19E-07 4.50 at E Adult
  • 1.19E-07 Tot al 4.50 at E Child 6.39E-04 4.50 at E Each Skin 1.72E-03
  • GI-LLI, Liver, Kidney, Thyroid, Lung or Skin

TABLE 11-5 Doses to the Population from Continuous Gaseous Ef fluent Releases THIR0 QUARTER Whole Body Dose Organ Dose Pathway (Man-Rem) Organ Dose (Man-Rem)

Plume Immersion 5.77E-02 Skin 1.78E-01 Ground Contamination 1.25E-04 Ski n 1.46E-04 Inhalation 3.20E-04 Thyroid 3.40E-03 Vegetable Consumption 4.77E-04 Thyroid 4.90E-02 Milk Consumption 8.78E-05 Thyroid 2.37E-02 Meat Consumption 5.47E-05 Thyroid 3.18E-03 Tot al 5.88E-02 Skin 1.78E-01 FOURTH QUARTER Whole Body Dose Organ Dose Pathway (Man-Rem) Organ Oose (Man-Rem)

Plume Immersion 5.07E-01 Skin 1. 58E +00 Ground Contamination 3.43E-05 Ski n 4. 04 E -05 Inhalation 1.18E-03 Thyroid 4.27E-03 Vegetable Consumption 7.20E-04 Thyroid 3.37E-02 Milk Consumption 1.88E-04 Thyroid 2.38E-02 Meat Consumption 1.40E-04 Thyroid 2.47E-03 Total 5.10E -01 Skin 1.58E +00 15

TABLE II-6 Doses to the Population from Batch Gaseous Effluent Releases THIRD QUARTER Whole Body Dose Organ Dose Pathway (Man-Rem) Organ Dose (Man-Rem)

Plume Immersion 3.82E-03 Skin 1.34E-02 Ground Contamination 0.00E+00 N/A 0.00E+00 Inhalation 8.95E-08

  • 8.95E-08

'!egetable Consumption 6.18E-08

  • 6.18E-08 Milk Consumption 8.51E-09
  • 8.51E-09 Meat Consumption 1.14E-08
  • 1.14E-08 Total 3.82E-03 Skin 1.34E-02 FOURTH QUARTER Whole Body Dose Organ Dose Pathway (Man-Rem) Organ Dose (Man-Rem)

Plume Immersion 1.06E-02 Skin 3.56E-02 Ground Contamination 0. 00E +00 N/A 0.00E+00 Inhalation 1.98E-05

  • 1.98E-05 Vegetable Consumption 1.10E-05
  • 1.10E-05 Milk Consumption 2.41E-06
  • 2.41E-06 Meat Consumption 2.27E-06
  • 2.27E-06 Total 1.07E-02 Ski n 3.56E-02
  • GI-LLI, Liver, sidney, Thyroid, Lung or Skin 16

III RELEASES OF AND DOSES Frui LIQUID EFFLUENTS There are two sewrces of liquid effluents released to the discharge canal' .

1) the Laundry uad Hot Shower Sump and 2) the Evaporator Condensate Storage Tanks. Both are batch type releases made through the plant liquid release moni to r , R4L-2. There is one source of liquid effluents released to the Chemical / Industrial Waste Water Ponds: the turbine buildi ng sump. This is a continuous mode type release.
1. Regulatory Limits The Technical Specification limits fo r liquid ef fl uent releases are as follows:

Specification 2.4.1 A. The instantaneous concentration of radioactive materials released in liquid waste effluents fran all reactors at the site shall not exceed the values s peci fi ed in 10 CFR Part 20, Appe ndix B, Table II, Column 2, for unrestricted areas.

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

C. The cumulative release of radioactive materials in liquid waste ef fluents excludi ng tritium and dissolved gases, shall not exceed 20 Ci/ reactor in any 12 consecutive months.

D. Duri ng release of radioactive wastes, the ef fl uent control moni-tor shall be set to alarm and to initiate the automatic closure of each waste i solation valve prior to exceedi ng the limits specified in 2.4.1. A above.

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

F. The equipment i nstall ej in the liquid radioactive waste systen shall be maintained and shall be operateu to process radioactive liquid wastes prior to their discharge when the projected cumula-tive release could exceed 1.25 Ci/ reactor / calendar quarter, ex-cludi ng tritium and dissolved gases.

G. The maximun radioactivity to be contained in any liquid radwaste tank that can be discharged directly to the environs shall not exceed 10 Ci, excludiry tritium and dissolved gases.

H. If the cunulative 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 i nves tiga-tion to identify the causes for such releases, define and initi-ate a progran of action to reduce such releases to the design 17

objective levels listed in Section 2.4, and a report of these actions shall be made to the USNRC in accordance with Section 5.6.2.C(1).

2. 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 measurenents and calculations, the nuclid6s of Column 2 which can be produced in a fission reactor have been grouped according to MPC value and type of radiation as shown in Figure III-1.

The concentration of each of the 23 gamma emitting nuclides specifically noted in Figure III-1 is measured individually because of interest in that nuclide. For any of the 23 nucliaes not detected in the gamma scan, the MDA Limit is conputed fran 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 uCi/ml. Individual measurements are made on proportional conpos-ite liquid radwaste samples to determine the Sr-89 and Sr-90 concentration or MDA value to be applied to individual batch release caiculations.

Although the MPC limit for tritium is greater than 9 x 10-6 pCi/ml, a sepa-rate measurement is made for tritium. A distillation and liquid scintilla-tion counting technique is used to measure tritium concentration.

The measured and calculated concentration values for each batch are used to calculate the dilution ration, rel ea se rate, and dilution rate prior to release of each batch. Both the concentration and release data are stored on a computer disc file. The disc file data is used to assure that quar-terly and annual release limits are not exceeded. Bases used for the data of Table III-1 are as follows:

A. Fission a rd activation products The total release val ues (not including tritium, gases, alpha) are conprised of the sum of the indi-vidual radionuclide activities in each batch released to the discharge canal for the respective quarter. These values represent the activity known to be present in the liquid radwaste ef fl uent. Percent of applicable limit is determined from 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 effluent releases during the quarter.

B. Tritium - The measured tritium concentration in a conposite sample is used to calculate the total release and average diluted concentration duriry each period. Average diluted concentration divided by the MPC limit, 3 x 10-3 pCi/ml, is converted to percent to give the percent of applicable limit.

18

C. Di ssolved and entrained gases - Concentrations of dissolved and en-trained gases in liquid ef fluents are measured monthly by Ge(Li) spec-troscopy on a one liter sample fran a representative liquid radwaste ba tch . Dissolved and entrained gases for which measured or MDA con-centrations 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-13 5, Xe-13 3m , Xe-13 3, a nd Kr-85. Iodine radionu-clides in any fonn are determined during the isotopic analysis for each batch, therefore a separate analysis for possible gaseous fonns is not performed because it would not provide additional information.

A conservative release limit, the maximum sensi tivity limit of 4 x 10-5 pCi/ml of each dissolved and eritrained radionuclide as speci-fied in Table Note 5, Table 2.4-1, Environmental Technical Specifica-tions, has been applied in determining the percent of applicable limit.

3. Measurements and Approximations of Total Radioactivity Details of the analytical procedures fo r liquid radwaste analysis are as f ol l ows .

Measurement Frequency Method

1. Gamma Isotopic Each Batch Ge(Li) spectrometry with on-line conputer
2. Gross Beta Each Batch Liquid scintillation
3. Sr-89 Monthly Camposite Chenical separation and gas flow proportional counting
4. Sr-90 Monthly Canposite Chenical separation and gas flow proportional counting
5. Tri ti wn Monthly Conposite Distillation a nd liquid scintillation counting
6. Al pha Monthly Conposite Gas flow proportional counting
7. Di ssolved Gases One Batch / Month Ge(Li) spectrometry with on-line computer Estimated errors are based on errors in counting equipnent calibration, counti ng statistics, nonsteady release flow rate, chenical yield factors, sampling and mixing losses, and volune determinations.

A. Fission and Activation Products Total Release as calculated for each b a tc h.

Statistical Error at MUA 60%

Waste Volume 10%

Counti ng Equipnent Calibio ion 10%

Sampling and Mixing 20%

100%

19

B. Total Tritium Release as calculated from a monthly composite.

Waste Volume 10%

Counting Equipment Calibration 10%

Sampli ng and Mixi ng 20%

40%

C. Dis sol ved a nd Entrained Gases Total Release as calculated f r an one batch per month.

Statistical Error at MDA 60%

Waste Volume 10%

Counti ng Equipaent Calibration 10%

Sampling and Mixing 20%

100%

D. Total Gross Alpha Radioactivity Release as calculated fran a monthly c omposite.

Statistical Error at MDA 60%

Waste Volume 10%

Counting Equipment Calibration 10%

Sampli ng and Mixi ng 20%

100%

4. Batch and unplanned Releases The batch liquid effluent releases may be sumnarized as follows.

Thi rd Fourth Quarter Quarter Humber of Batch Releases 5.50E+01 5. 20E +01 Total Time for all Releases (minutes) 1.40E+04 1.04E +04 Maximum Time for any one Release (minutes) 1. 57 E +03 4.50E +02 Average Time for all Releases (minutes) 2.54E+02 2.00E+02 Minimum time for any one Release (minutes) 1.05E +02 1.50E +01 Average dilution flow of Units 1, 2, and 3 duri ng all Releases (liters / minutes) 3.4 3E +06 1.85E+00 Number of Unplanned Releases 2.00E+00 0.00E+00 Total Unplanned Activity Releases (Curie) 5.96E-04 0.00E +00 The suranation of liquid effluent releases is in Table 111-1 and the sucina-tion of nuclides in liquid ef fluent releases is in Table 111-2. These re-leases are based on the dilution of the radioactive liquid effluent by the condenser cooli ng and nuclear services water of Unit 3.

The doses to individuals fran liquid effluent releases are in Table 111-3 a nd the doses to the population fran liquid ef fl uent releases are in Table 111-4. These doses are based on the dilution of the radioactive liquid ef fluents by the condenser cooling water of Units 1, 2, and 3.

20

The unplanned releases for the third and fourth quarters of 1979 are listed below givi ng the date, the Licensee Event Report Number, and the cause of each release:

August 17, 1979 LER 79-074/01T-0 Inadvertent release to the Chemical-Industrial Waste Water Ponds August 21, 1979 LER 79-074/01T-0 Inadvertent release to the Chemical-Industri al Waste Water Ponds 20a

Figure 111-1 METHODS OF MEETING 10 CFR 20, APPENDIX B, TABLE II, COLUMN 2 MPC LIMITS MPC RANGE GAMMA-RAY BETA ALPHA (pCi/ml) EMITTERS EMITTERS EMITTERS 1-131, 1-132, 1-133 Sr-89, Sr-90 1-135, Cs-134 (Separation and Gas

<9 x 10-6 Flow Counting)

(Ge(L1) Gamma-Ray Spectrosc opy) All (Gas Flow Counti ng Sensitivity s10-7 pC/ml as Pu-239)

Ba-La-140, Na-24, Cu-64 T ri ti um Co-60, Fe-59, Z n-65 (Distallation and Liquid Scintillation

>9 x 10-6 Ag-110m, Mn-54, Co-58 Counti ng s10-5 pCi/ml)

Zr-Nb-95. Cs-Ba-137 As-76, F-18, C r-51 All others Np-239, Ce-141 (Liquid Scintillation Counti ng $10-5 uCi/ml as Cs-137)

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

TABLE 111-1 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT - 1979 LIQUID EFFLUENTS - SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total 3 4 Error %

A. Fission and Activation Products

1. Total Release (not including tritium, gases, alpha) Ci 7.89E-02 3.58E-02 1.00E +02
2. Average diluted concentration during period pCi/ml 4.17E-09 4.75E-08 9 Percent of applicable limit  % 2.11E-01 3. 68E +00 B. Tritium
1. Total Release, Batch Mode Ci 5.18E+00 3.28E+01 4.00E+01
2. Average diluted concentration during period pCi/ml 3.12E-07 4.36E-05
3. Percent of applicable limit  % 1.04E-02 1. 45E +00
4. Total release, Continuous Mode Ci 7.17E-01 5.18E+00 4.00E+01 C. Dissolved and entrained gases
1. Total release Ci 2.87E-01 1.00E-01 1.00E+02
2. Average diluted concentration during period, Batch Mode pCi/ml 1.52E-08 1.33E-07
3. Percent of applicable limit  % 3.80E-02 3.32E-07 D. Gross alpha radioactivity
1. Total release Ci 2.21E-06 <7.67E-03 1.00Et02 E. Volume of Waste released (prior to dilution)
1. Batch Mode liters 1.35E+06 1.02E+06 1.00E+01
2. Continuous Mode liters 2.98E+07 1.88E+0/ 1.00E+01 F. Volume of dilution water used duri ng period I 1.87E+10 4.01E+08 1.00E +01
1. Bath Mode liters
2. Continous Mode liters 1.67E+08 3.32E+08 1.00E+01 22

TABLE 111-2 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT - 1979 LIQUID EFFLUENTS CONTINUOUS MODE BATCH MUDE Nuclides Released Unit Quarter 3 Quarter 4 Quarter 3 Quarter 4 strontium-89 Ci 2.13E-03 7.21E-03 3.33E-02 3.87E-05 strontium-90 Ci 4.27E-04 1.83E-03 1.91E-03 8.54E-06 c esi um-134 Ci 8.52E-04 2.30E-05 1.37E-03 ~ 1.63E-03 cesi um-137 Ci 1.39E-03 1.27E-04 2.24E-03 2.68E-03 i odi ne-131 Ci 6.27E-04 ~~T.05E-05 4.89E-03 5.47E-03 cobalt-58 Ci 2.75E-03 6.89E-05 1.46E-02 7.03E-03 cobalt-60 Ci 4.93E-04 3.66E-05__ 6.93E-03 7.46E-03 iron-59 Ci . E . E 7.62E-05 8.61E-06 z i nc-65 Ci . E . E < 2.82E-04 < 3.44E-04 manganese-54 Ci 1.64E-04 . E 8.86E-04 8.51E-04 chromium-51 Ci . E . E 1.32E-03 2.57E-04 zi rconi um-ni obi um-95 Ci 1.89E-05 . E 1.20E-03 6.13E-04 molybdenum-99 Ci . E . E 4.52E-05 _ < 1.06E-03 technetium-99m Ci . E . E 6.83E-05 2.80E-05 barium-lanthanum-140 Ci . E . E 1.79E-05 ~~ 7.89E-06 cerium-141 Ci . E . E 3.14E-vo < 2.91E-04 sodium-24 Ci . E . E < 6.48E-05 1.13E-05 silver-110m Ci . E . E < 1.78E-04 1.77E-05 iodine-132 Ci . E . E 3.021 15 8.07E-07 iodine-133 Ci 4.58E-05 1.45E-05 1. C i t"-03 1.30E-04 i odi ne-135 Ci . E . E 4.04E-05 7.25E-06 cerium-144 Ci 1.44E-05 . E 2.41E-05 < 1.23E-03 tungsten-187 Ci 5.32E-06 . E . E . E Total for period Ci 8.92E-03 9.38E-03 7.00E-02 2.64E-02 (above) xenon-133 Ci 0.00E+00 1.00E-02 2.86E-01 8.80E-02 Ci 0. 00E +00 ___2.50E-03 0.00E+00 0.00E+00 xenon-135 23

TABLE Ill-3 Doses to Individuals from Liquid Effluent Releases THIRD QUARTER - CCNTINU0VS RELEASES Whole Body Dose Organ Dose Dose Dose Pathway Age Group (mrem /yr) Age Group Organ (mrem /yr)

Fish Adult 7.32E-04 Adult GI-LLI 1.36E-03 Invertebrates Adult 4.68E-04 Teen Bone 1.42E-03 Shoreline Use Teen 4.54E-04 Teen Skin 5.32E-04 Total Teen 1.39E-03 Teen Bone 2.91E-03 FOURTH QUARTER - CONTINUOUS RELEASES Whole Body Dose Organ Dose Dose Dose Pathway Age Group (mrem /yr) Age Group Organ (mrem /yr)

Fish Adult 6.77E-04 Teen Bone 2.89E-03 Invertebrates Teen 1.47E-03 Teen Bone 6.78E-03 Shoreline Use Teen 3.93E-05 Teen Skin 4. 5.7-05 Total Teen 2.18E-03 Teen Bone 9.71E-03 THIRD QUARTER - BATCH RELEASES Whole Body Dose Organ Dose Dose Dose Pathway Ace Group (mrem /yr) Age Group Organ (mrem /yr)

Fish Adult 1.33E-03 Adult GI-LLI 3.77E-02 Invertebrates

  • 1.66E-03 Adult GI-LLI 6.63E-03 Shoreline Use Teen 1.80E-03 Teen Skin 2.12E-03 Total Teen 4.52E-03 Adult GI-LLI 4.47E-02 FOURTH QUARTER - BATCH RELEASES Whole Body Dose Organ Dose Dose Dose Pathway Age Group (mrem /yr) Age Group Organ (mre.n/yr)

Fish Adult 2.15E-03 Adult GI-LLI 3.75E-02 Invertebrates Adult 1.29E-03 Adult Thyroid 1.02E-02 Shoreline Use Teen 3.61E-03 Teen Skin 4.23E-03 Total Teen 6.20E-03 Adult GI-LLI 4.69E-02

  • Adult or Teen e* 24

TABLE III-4 Doses to the Population from Liquid Effluent Releases THIRD QUARTER - CONTINUOUS RELEASES Whole Body Dose Organ Dose Pat 5way (Man-Rem) Organ Sport Fish Dose (Man-Rem) 1.09E-01 GI-LLI 1.82L-01 Commercial Fish 1.13E-04 Bone Sport Invertebrate 1.86E-04 2.23E-02 Bone 6.69E-02 Commercial Invertebrate 1.60E-04 Bone 4.79E-04 Shedeline use 2.03E-03 Skin Swimming 2.38E-03 1.17E-05 Thyroid 1.17E-05 Boati ng 1.17E-05 Thyroid 1.17E-05 Total 1.34E-01 Bone 2.26E-01 FOURTH QUARTER - CONTINUOUS RELEASES Whole Body Dose Organ Dose Pathway Organ (Man-Rem) Dose (Man-Rem)

Sport Fish 1.36E-01 Bone 4.81E-01 Commercial Fish 1.19E-04 Bone Sport Invertebrate 4.94E-04 6.91E-02 Bone 3.17E-01 Conmercial Invertebrate 4.98E-04 Bone 2.27E-03 Shoreline Use 1.76E-04 Ski n Swimmi ng 2.06E-04 7.06E-07 Thyroid 7.06E-07 Boating 7.06E-07 Thyroid 7.06E-07 Total 1.86E-01 Bone 8.01E-01 THIR0 QUARTER - BATCH RELEASES Whole Body Dose Organ Dose Pathway Organ (Man-Rem) Dose (Man-Rem)

Sport Fish 2.11E-01 GI-LLI 4. 90E +00 Cannercial Fish 2.16E-04 GI-LLI Sport Invertebrate 4.79E-03 8.0"E-02 Bone 2.81E-01 Conmercial Invertebrate 5.7dE-04 Bone 1.99E-03 Shoreline Use 8.06E-03 Skin Swimming 9.47E-03 4.85E-05 Thyroid 4.85E-05 Boati ng 4.85E-05 Thyroid 4.85E-05 Total 3.01E-01 Thyroid 5.17E+00 FOURTH QUARTER - BATCH RELEASES Uhole Body Dose Organ Dose Pathway. Organ (Man-Rem) Oose (Man-Rem)

Sport fish 2.25E-01 GI-LLI 4. 90E +00 Conmercial Fish 3.34E-04 GI-LLI Sport Invertebrate 4.81E-03 6.26E-02 GI-LLI 3.50E-01 Connerci al Invertebrate 4.47E-04 GI-LLI 2.50E-03 Shoreline Use 1.61E-02 Ski n 1.90E-02 Swimmi ng 7.55E-05 Thyroid Boating 7.55E-05 7.55E-05 Thyroid 7.55E-05 Total 4.05E-01 GI-LLI 5. 26E +00 25

IV. SOLID WASTE SHr

  • 04TS Solid waste shipments from 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 detennined by measurement or estimates for all radioac-tive solid waste shipped offsite.

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

The sumnation of solid waste and irradiated fuel shi pments is in Table IV-1.

26

TABLE IV-1 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT - 1979 SOLIO WASTE AND IRRADIATED FUEL SHIP!1ENTS A. SOLID WASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Non irradiated fuel)

Second

1. Type of waste Unit 6-month Est. Total period Error, %
a. Spent resins, filter sludges, evaporator m3 3.78E+02 bottoms, etc. Ci 5.24E+01 3.70E+01
b. Dry compressible waste, contaminated m3 2. 29E +02 equip, etc. Ci 6.80i+00 6.50E+01
c. Irradiated components, control m3 . E+

rods, etc. Ci . E+ . E+

d. Other (describe) m3 ,  ;+

Ci . E+ . E+

2. Estimate of major nuclide canposition (Dy type of waste)
a. Cs-137  % 4.20E+01 Cs-134  % 2.60E+01 Co-58  % 1.74E+01 Co-60  % 1.13E+01_

l-131  % 2.88E+00 Mn-54  % 5.00E-01

% . E+

% . E+

b. Cs-137  % 5.00E+01 Cs-134  % 2.70E+01 Co-58  % 1.70E+01 Co-60  % 5.00E+00 M n-54  % 1.00E+00
c.  % . E+

% . E+

% . E+

% . E+

% . E+

% . E+

% . E+

% . E+

% . E+

% . E+

3. Solid Waste Disposition Number of Shipments Mode of Transportation Destination 53 Chem-Nuclea r Transport Chem-huclea r System, Inc.

Truck-Exclusive Use Vehicle Barnvell, So. Carolina B. IRRADIATED FUEL SHIPMENTS (Disposition)

Number of Shipments Mode of Transportation Desti na tion None NR HR 27

V METEOROLOGICAL DATA The meteorological data at 33 feet (10 meters) is summarized in Tables V-1 (for the Third Quarter), V-2 (for the Fourth Quarter), V-3 (concurrent with batch gaseous ef fluent releases - Third Quarter), and V-4 (concurrent with batch gaseous effluent releases - Fourth 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 2,-1.9 to <-1.7 Slightly unstable C 2,-1.7 to <-1.5 Neutral D >-1.5 to <-0.5 Slightly stable E [-0.5to<1.5 Fbderately stable F 2,1.5 to < 4.0 Extremely stable G 2, 4. 0 The data recovery rate for the third quarter was 100.0% and for the fourth quarter it was 50.9%. For the second six months of 1979, the data recovery rate was 75.5% a nd for 1979 it was 85.8%.

The data recovery rate for the fourth quarter was affected by a malfunction of the autanatic data collection systen on November 17, 1979 at 0700 until December 28, 1979 at 1500. The data for this period of 992 hours0.0115 days <br />0.276 hours <br />0.00164 weeks <br />3.77456e-4 months <br /> will be recovered fran the meteorological charts. The data recovery rate for the fourth quarter will then be approximately 95.8% and for 1979 it will be approximately 96.7%. A supplement to this report will be issued that will include the additional meteorological data and the revised gaseous doses that will result.

L -_- - _ . _ _ _ _ .

TAdLE V-1 1'.1 21 FLORIDA POnER CCMPORATILN st 1 HOUAS AT EACH hlND SPEED ANO DIRECTION s.

7 PERIOD OF AELO_RD - J_ULY 1, 1979 T H. R UJ uH_._ S E P T E 9 d E x 30, 197) __ _ . _ _ _ _ _

STABILITY CLASS - A 1,1 i

~ ~ ' -

ic, ELEVATION -

33 Fl.

a n: W i t40 h lf40 SPEED (MPH) m n3 Din 1- 3 4-7 8-12 13-16 19-24 24+ ILT At

, y ____ __ _ ____ ____ ____ ____ ____ _____

E.

r _ _ _ _____ ___ _ _ . _ _ . _ _ . _

l1 N O O 1 0 0 0 1 t 2 18 NNE O 2 4 1 0 0 7 d

i '20 NE O 2 9 5 0 0 lo F

li, ENE O 10 30 2 o 0 42

. :3 m

,24 E O 2o 37 2 0 o 65

s'

$,:7 ESE O 19 32 5 0 0 $6 L_.__.._ .

r s SE _ _ . 1 u _ . _ . _ 11 . _ . . _1_ 0 0 . . _ _ ___21_

21 g SSE 0 3 10 2 0 0 26 S 1 6 15 2 0 0 24 n

M} SSa 2 15 31 2 0 o 50

(

q w 18 19 o Sw 1 2 0 40

'l i g_s; WSn 0 34 55 1 0 0 90 n

g; w I $1 49 1 0 0 102 43__pNn 1 19 63 ts u o 91 t

h(144 Nn 0 $ 6 0 0 0 11 4$

  • NNn O 1 0 0 0 V 1

( f4 48 TOTAL 224 378 34 0 0 7 643

(.

i so h PER100.5 0F CALM IHOURS) - 0

'h

, u a

ss

% p .

l' __ .. _ _ _ _ _ _ ____ '2 9 _ _ __ _ __ . _ _ _ _ _ _ _ . _ _ .

r h <

lABLE V-1 (ij FLORIDA POWER CCRPCRATICN h3' . . - _ .. . _ _ .

4 HOUR 5 AT EACH nlND SPEEC AND DIRECTION PEklOD OF RECCR0 - JULY 1, 1979 THROUJH SEPTEMBER 30, 19/9 m

2 STABILITY Ca. ASS - 8 3 ELEVATION -

33 t- 1 .

E S. WIND a l h o._S PIL D _( MMri t ___ _ . _ _ _ . . . _ _ _ _

y.. Dik 1-3 4-I 8-12 13-18 19-24 24+ ICIAL i ____ ____ ____ ____ ____ ____ ____ _____

h 0

% N O O J 0 0 0

( "L 4 NNE O O O 2 0 0 2 __

15 NE O O 2 2 0 0 4 J.S

.e I,

d ENE O 5 3 0 0 0 8

. A

$', _ . E _ . _ _ C.__ __ _ 3 .. _ __2___ ___.J _. _____0. O _ _ _ _ _ _ __ _ b _ _. . _ _ _ _ _ _

E5a

. P6' 1 4 2 0 0 0 7

%_ ESE _- .. .. .. . _ -. - _ _ _ .

E L31__ S S E _ _ _ _ _. . 0 __ _. O__.. - ._ ) . ..__U_..___..0_________o 3 E

i E 5 1 4 2 0 0 0 7 33j E SSW 2 2 2 0 0 0 6

( 35 R,. SW. _ _ _ 1 _2 5_ 1 1 0 10 pj

, b WSh 0 2 1 0 0 0 3

{3?i __ - ._ . - _....___ - . - . __

[41 W d 0 5 0 0 0 3 4

[f[4... hNh 0 S 5 0 0 o_ 10 Ni e

'd4 NW 0 0 2 1 0 0 3 Gi 1

g NNn 0 0 0 d J V 0

.c I

TOTAL 5 31 41 7 1 0 85 r :so S

. ___.P E R I OD S ._O F _ C A LM_ ( t]LUR S ) ____.d_.___.__ ______ ____ . _ _ _ . _

, fu J --_ - ___-_ . . _ . . . . . . _ . . - _ _ _ _ _ .

F i

4 6._.. ._ ___

30

4 r ~ ~ ~ ~

1AbtL V-1 d.,

2i FLOk!DA PCWER CCHPORATION D

~

4 HOURS AT EACH WIND SPE['O A;40 61' RED T 5~

5 6

PERICD OF RECORD - JULY 1, 1979 THRCOCH S E P '.' E M B E n 30, 1979 d

_sj STABILITY CLASS -C E ELEVATICN -

33 FT.

u WIND WINC $ PEED (MPH) fu DIR 1-3 4-7 8-12 13-18 19-24 24+ TOTAL

, 77 ---- ---- ---- ---- ---- ---- ---- -----

I

$ N O O b o u O J

\ Cl.

& N N_E O O O 1 0 0 1 d! _ _ _ _ _ _ _ _ _ _ _ _ _

i 3

s NE O 1 1 1 0 0 3 E ENE C 1 1 0 0 0 2

' 23 -.

24 E 1 0 3 0 0 0 4 d5

. lej ESE O O 4 0 0 0 4

':7, a *~ ~ SE V

G 3 0 1 0 0 4 9_.

r SSE 1 3 3 0 0 0 7 d'

i g S 0 3 1 0 0 0 4 or X 5Sn 0 0 J 0 0 0 2 i :3 s 9-- -_5_W - - _ _ _1_. - . _ - . . 3. 1 2 0 a

. _ __ _7._ _ __ _ ._. _ - - ._ .

- de WSW G 1 0 2 0 0 3 E_.____.-____.

L _ ._.

f_:, h 0 2  ? 0 0 0 4 i f,_

,4_ WNn 0 3 5 1 1 O 1J t ;4ff Nw 0 2 2 0 0 0 4 b

$ NNn 0 0 J u O O O

( '17 4k T O ' A t. 3 22 25 6 ar- 1 0 59

( sc 5'

PER1005 0F CAL.4 I tiudk s ) - O i

b

. Se t' ___

31 - _ . _ - _ _ _ _ _ _ .

y - _ ___ _ _ _ -

U i 1ABLE V-1 W. - _ _ _ -___ _ _ _ . - - _ _ _ . _ . - _ . _ _ _ . - _ . - - _ _ _ _ - . - _ -

- U2' FLCR10A PGnER CCNPCRATION 7 _ _ _ _ -

,1 HOURS AT EACH hlND SPEED AND DikECTidN 1

d

', P_E R I OD_ O F ._R_E C U R D _ ..J U L_t _1,. _19_7 9___T H R CyGli_5 E P T_E M B E R.__30 , 1979 1

Jj STABILITY CLASS -

D 21 ____._ ____.____

$ ELEVATION -

33 FI.

.S

H I N D __._. W I N D. ..$ r'aiE D __( KPii) _ _ _ _ _ _ _ _ _ _ . _ _

DIR 1-3 4-7 8-12 13-18 19-24 24+ 101AL m

?

L'f, N O 0 0 0 3 o 3

( E

'8 NNL

, O _ _ .___6 _h 2_ 0 0_ _1 2 . . _ __ _ _ _ __ __ -

i Elpi, NE 1 18 30 3 0 0 52 c

pi ENE 1 4o 3J 0 0 0 79 s .1 p._. .E_ .._____.__.2.____ _33. . _ . . _17 _ . __ .. _. 0_ _ _ _. _ __0 _ _ _ _ .. _._0 _ _ _ _ _ 5 3 _ . . _ _ . _ . _ _ _

t2s i k :7 ESE 4 18 14 1 0 0 37

_t fj., SE 4 30 1/ 2 0 o 53

' 'll h___SSE ___2.__.____21____.._ M_. _ .__2 __ _ _0 _ _ _ __ _ _0___ _>J. _ _ . .

b i 4fh 5 5 8 8 5 0 o lo

% SSn a 6 6 4 0 0 21

( ;3s k S W _ __ 3 12. 4 2 0 0 21 12 '

( [24 WSW 5 4 / 1 0 0 17 (3L . _w S 4 6 7 0 1 0 20

'L 2 5 1 44

/.{ __ w N a _ __ _ _ ___ . _ _2_ __ __ . 2 3 _ .. _ _. ._.1 1 ____

( b N h' 2 13 I O 4 0 20 H

f NNW O O O 1 2 0 3

( f f

d TOTAL 38 250 109 25 15 1 518

~6t

\ Y$-

U PER IOUS Of C ALM (HOURS) - 0

~

3

]9 _

l' _

i 32 i

L _ . _ _ . . . _ . . _ _ . . .

TAdLE V-1 T3: FLOkl0A PLhER CCPPCRATION 4 H00kS AT EACH hlND SPEEC AND ClRECTION T.

E PEdlOD G.F--.E.C_O R R_O - JULY 1,_.1979 T_H__A 0__0_G_H 5 E P T E M_B_E R_ 19 30_ , ---_7_9 ._.-

W 1 STABILITY CLASS -

E ELEVAT10N -

33 F1.

WINO wlN0 S/t EO (MPHI

,il Old' 1- 3 4-7 8-12 13-18 19-24 24+ 10TAL 3 5

,, 07 is NNL 1 26 3 0 0 0 30

20 NE 4 40 3 1 0 0 48 b _ -. _ - .__ .-. . _ -

E ENE 13 - - . . . 116 __.10 _ - _ . . 0 .___.0 . - _ _ 0 _ _ . . - . - - .139 -

' :23 E E 10 72 10 1 0 0 93 8

in i ESE 15 42 8 0 0 0 65 27 be SE 9 46 4 0 0 0 SS 2

g SSE 6 20 1 0 C U 27 h

pq S 11 lb 3 0 0 0 30 34 2 SSn 5 5 7 2 0 0 19 t 15 3 u: SW 13 d l'a 1 0 0 37 y, wSa 7 23 13 0 0 0 40 P9_ . _.

[44 W 5 21 0 1 0 0 33 41 Nw 3 > 0 0 0 0 8 45 4j 4t NNn 1 + 0 0 0 0 S

( 47

    • TOTAL lud 455 8d 6 0 0 657
  • ]

, 15 0 P:

5 PER100S OF.._ CAL 1L(HOUR 51._ _.._.0 _ _ ___ _ . _ _ . _ _ . _ _ _ . . _ _ __

s:

5 4

(si 33

r f TABLE V-1 l

FLORIDA PCWER CCRPORATION 3

4- HOURS AT EACH WIND SPEEC ANv DIRECTICN T

E PERIOD OF RECURO - JULY 1,_1979 THROUGH S E PT eiMa d R 30,_1979.__ _ _ _ . .__

!71 2 STABILITY CLAS$ - F b __

$ ELEVATICN -

33 FT.

2 p?. W16D__ _ _ _kLN0_5P.1LD_(MPdi _ _ . . . _ _ . ._.

DlR 1-3 4-T 8-12 13-18 19-24 24+ TuiAL 4.,

1 ____ ____ ____ ____ ____ ____ ____ _____

ns h_A N C 0 0 0 0 0 J

.. e.

NNE G _ ._.  ? 0. -__ __ 0 0 V __7._ _ _....__ _ .._.

3,

% NE 1 7 0 0 0 0 6 l'h . - _ _ _ _ . . ._ __ . - . . . - . . . . _ _ . _ - - - - -.. _ _ . ____ _ _ _ _ _ _ _

!_2, ENE 10 45 2 0 0 0 $7

?.3 k', _ _ _ _ E _ _ _ _ __ _ _ _ _1 5. . _ _ _ _ ___. 3 6 . _. . _ _ _ J _ _ _ _ _ _ _ _ _ d . __ _ . _ _ ____0___.__ _G . 51. . ._

A

, 3j ESE 6 2u O O 0 0 26 i* l- . -- _ _ . . . _ . _ - _ . _ _ _ . . . . .

SE 10 lo 0 0 0 0 26

% 2.1 Di _ __ _5 S E . __ _ __ . _ 7 _ _ .. __ _.2 _ _____ _ D U O O 9 g

, b2 5 4 2 0 0 0 0 6

  • 1 P- 3 h SSn 4 1 G 1 0 0 6

( D 3 36' S h _ _ __ _ __ _.1 _. - _0 O_ _ . _0 0 0 1 __ _____ _ ___.

E 7;38 WSn 6 1 0 0 0 0 7 (3_j._ _ _ _. - _ _ _ _ _ _ ___ _ _ _ _ _ ._.

n 4 d C U 0 0 4

$(

4' t8 2, wNa b ] O u O O S

,j88 NW L 0 0 0 0 0 1 l'S _ __ ___ _ . _ . _ . . _ . _ . . _ ._

g, NNn 1 1 0 0 0 0 2 I flt TOTAL 75 138 2 1 0 0 216

!1

( Fsi PERIODS OF CALM (HOUPS) - O s:

(

V,1

( se t' _ _ _ _ . . _

34 9

7 TABLE V-1 w . . _ _ . . . - - . . _ - _ _ . - . __

W y FLORIDA PUwth CCRPORAilON HOORS AT EACH WINO SPEEC Ar.3 UIRECilON T

T PERIDO GF R E C OR') - JOLY 1, 1979 THRtiO5H S E P T Et4 B Ek 30, 1979 Irl 7 STABILITY CLASi - G h ELEVATIGN

. .33 _ . _ _FT.._

3 -

n2 WIND WINJ SPEED (MM) iu O!k 1-3 4-7 d-12 13-18 19-24 24+ Tb1 AL g ____ ____ ____ ____ ____ ____ ____ _____

ns-46, N O O O 6 0 0 0 t ar, N NNE O O O O O O 0 _

2C1 NE 1 2 0 u o 0 3 I2T,__ _ - - . _ _ - _... - _ - _ ___- .-- .-- - __-_._- _. . . _ - . . _

44 E 1 5 0 J 0 0 e as!

E6l ESE 4 2 0 0 0 0 6 SE, E _ SE _ 1 3 J 0 0 0 4

'21 R ___ S S Ei _ _ _ __ . _ _ _ .1 0 0 0 0 0 1 3

3 5 2 0 0 0 0 0 2

_, SSn 0 0 0 0 0 0 0 g bs!

IEl SW L 0 0 0 0 0 1

$7

. .m n 1 0 0 0 0 0 t f32_ n____.

._ _ .S _ ._. . . . . _ _ _

g W 2 0 0 0 .0 0 _.__._._2 L nNn 0 0 0 0 0 0 0 4J 4

g_3i 44l NW 0 0 0 0 0 0 0 r4.,

1

% NNw 0 0 0 0 0 0 0

' N 4t TOTAL IS 15 0 0 0 0 30 49 I  ?

0 g ___RER 1005 0F C AL*l (HOURS) - _

Ikl __ _ _ _ _ . _ _

t' ___ ._ _ _ ..

35

.P iA6LE V-2 I_2J FLORIDA P0 nth CORPCRAT!GN

'l 1 HOORS AT EACH w!ND SPEEC ANL, DIRECildN L

d[ P.ER 100._OF._R EC OR D - oc T Od E R _1,_ .19 l_9._T HMO JG1_CC C EM B E h _31 :_1 sj STABILITY CLASS - A l! _ _ _ . _ . _ _ _ . _ _ . ._

g ELEVAT!GN -

33 F1.

p W I N D._ W LN o._S PJJ D _ ( M PH I 2

1.)j Dih 1-3 4-7 b-12 13-It, 19-24 24+ 101 AL S4, i' '

$ N 0 0 0 v 0 v 0 t 'h

'8 NNL 1 1_ IL O_ O_ 0 ._19 ._ _ _____

19,

$ NE 0 2 33 15 0 0 50

$. ENE O 9 2n 3 0 0 3d

'23 y _ . _ E _ . . _ ___ ._ _0_. _ _. _ _ 5 26 7 o u 33 d

16] ESE O 6 9 2 0 0 17

!?7 L'

$, SE U 4 2 0 0 J 6 h

pa__SSL____. _0 4 5 u .a o 9 tsi J. S 0 4 9 1 0 0 14 jar

& SSn 2 7 T v 0 0 lo i !35 1

36' S W __ _ _ ____ _ 2 __J _11_ __ v. 0 _0_ _ 24 E

30 w S n' O 11 13 0 0 0 24 91

-f 16 W 2 14 15 1 0 0 32

'4d W Nh.._. _ _ ._.l._._ .. 13 2 t> 5 0 0 45 i

Hidd NW 0 4 9 3 0 0 16

+

W NNw 0 0 0 0 0 0 0 i .

TOTAt 8 87 216 37 0 0 34tl t -so _

si PERIODS OF CALM (H0JHS) - 2 52 A4 55 G

z: . :: 36

TABLE V-2 e _ _ - - ._ __ .- .-_

{l!_

!2' FLORIDA POWER CCRPOR AT 10'4 3

HOURS Al EALH hlND SPELC ANu OlhECiluN PERIOD OF RECORD - OCTOBER 1. 1979 ..n00GH CECEMBER 31, 1979 STABILITY CLASS -o d _ . _ _ . . . _ . _ _ _ _ _ _

3 ELEVATION -

33 FT.

11 Iii WINO WINJ $ PEED ( M Pri) 3 1 DIR 1-3 4-7 u-12 13-Id 19-24 24+ 10TAL 3 ____ ____ ____

%51 0 N O O O u ( 0 NNE C 1 2 0 ( o 3 lb in NE C L 3 4 0 0 8 9

[h ENE

!23 O 1 4 0 0 0 5 E O O 1 0 0 0 1______

ESE O 1 0 0 0 0 1 (74 __ . _

ce SE O O 3 0 0 0 0 b 2 J 0 v 3 g ___S S E O 1

' S 0 0 0 0 0 0 0

,L 3

g SSw 0 1 1 0 0 0 2

, ( 3s Al SW_ 0 _ _ _0 1 0 0 0 1

'I as, WSn 0 2 0 0 0 3 2 W 0 1 1 0 0 0 2

& 4 WNn C 1 2 2 u o '>

4 NW 0 0 2 0 0 0 2 4_4q

-* NNW U 0 1 0 0 0 1 4

TOTAL 0 11 19 6 0 0 30 ___________

e f $

52

._ lERlOJS_OF_ CALM _(HGORS) - O sz

( S3

$4 1

37 i . - .

-he

h t _ _ _

T A tiL E V-2

. il 2 FLORIDA PuwER CCRPORATION 4 HOURS AT dACH h!NO SPEEC AND DIRECilON P E R_I O.O__Of_ _R E C OR O ._0C T G d E R. _1_,_19 7 9 THRUddH CECEMBER 31r 1979 7.]

14 STABILITV CLASS -C m ELEVATION 33 FT.

3 p2 wit D h1 N D_SEEED._( MPf t) _ __ .. _ _ _

q DIR 1-3 4-7 8-12 13-16 19-24 24+ TOTAL g ____ ____ ____ ____ ____ ____ ____ _____

is.

16 N 0 0 1 0 0 0 1 t 'L 8'

NNE O 1 1 0 0 0 1 __ .

b 0 0 2 i $ NE O 1 1 0 21i

,21 ENE 0 0 0 0 0 0 0

'2 3.

U _ . _ E . _ _ __ _ __ _ 0 _ __ __. 0 _ ___ . _ ._0 __ . _ _ _ . . ._1_ __ G . __ _0 _ ___.____1._..-_._...._.___ _

$P H 0 0 0 0 0 0 t26 ESE O M

t,3 0 J SE O O O O G (2?

E S S E ____. . _0 . _ __ 0 J _. _ _ C __V_ __v _ _d . . ...._ _. - . _ .

bd M S 0 1 2 0 0 0 3 9

Ib SSw 0 2 0 0 0 0 2

(

@j 3 SW__ __0 0 O_ O O O O _ _ _

37

. H WSw C 0 0 0 0 0 0 3h _- __ -_ -- . _ . _ . - - _ _ - - _ - . - - _ _ _ - .-. _ _ .__. _ _ . _ _. .- --

6 W u 1 0 0 0 0 1

, 'A

~

2 _ . _ _ A N n . ._ __0 _ _ L__ ,0 1 0 0 2 i NW 0 0 0 0 0 0 0 s:

3; NNh 0 0 0 0 0 0 0

( $ 0 5 2 0 0 14 9 9___JOTAL 7 .______

f

( .so T1 P EK. ! CO S_ C F__ C AL M_ ( HOUR S )_______0___ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ . _ _.

s2 S 31

-4 4

ss h> ___._.____.. _ ___ _ - -

a

L _. _ . _ _ _ . . _ . _ _ _ _ .

1IA L E V-2 t _ . _ . _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _. ___

12q FLORIDA POWER CCRPCkAilGN

'3 1 Ws: HOURS AT EACH hlND SPEED AND UlkcGilGN Y PEkIOD OF RECCRD - OCTOdtR 1, 1979 THR0duH CECEMBhR 31, 1979 7

s STABILITY CLASS - 0 ELEVATIGN -

33 l-I.

e iv q tr WIND hlND SPFE0 (MPH)

DIR 1-3 4-7 o-12 13-18 19-24 24+ TOTAL g

i ____ ___ ____ ____ ____ ____ ____ _____

H is:

1 N O 2 1 0 0 0 3 t l'a is NNE O 8 25 0 0 0 33 19 !

(' $

N NE 1 7 $2 4 0 0 74 ENE 1 8 2 0 0 0 11

( !23' E i-.-_--

E 1 2 4 0 0 ____.-__0_

(3 ESE O 0 4 0 0 0 4 4__ _ _ .__ . . _ _ _ . _ __ ._ _ _ _ _ . _. __ _ _ . .

' E

'ac SSE O 1 I u O O 8 31

( b2 S 1 0 3 1 0 0 5 h _ - - - . _ - _ _ _ _ _ _ . _ - _ . - . . . _ . - - - _ _ _ _ _ _ - _ . . _ _ _ _ _ _ - _ _ _ _._. . .

W SSW 2 4 2 0 0 J d

-( 35i u SW 1 2 0 1 0 0 10 37 t 38, wSw 1 0 d 0 0 0 9 39 4 2 3 1 1 0 0 7 WN,. C 4 4 2 0 0 10 t ,

4 NW 0 3 14 1 0 0 19 NNW 0 0 6 1 0 0 7 d

(.

d T O T A t._____ _ 1 0 45 153 11 0 0 219 f

( y

.__ EE'l I 00 5 .0 F__C A LM._.( H GU R S ) - 0 _ _ _ . _ .

55

( 3 t' _ < ._ 3 9 _ _ __ _ _ _ _ _ _ _ . _ _ _ . _ . _ . . _

r TABLE V-2

'2!

7 FLORIDA PChER CCRPCRAllLN 2 HOUR; AT t: AC H wlNO SPEED AND DIRECTION

~ '

L6.___P E k_I OD_O F _8 E C O n 0__. 0C I D s E R ._1,_19.7 L3 tLR J U G H _C E C E t16 E h __J 1 _19 7 9_

'71 _ _ _

2 STABILITY CLASS -E uu 22, ELEVATION -

33 FT.

L12 WIND N1N ')_S PEE J _( M Pri l_ ____ _ __

DIR l- 3 4-7 8-12 13-16 19-24 24+

3; ____ ____ ____ ____ ____ ____ ____

TOTAL d N J 1 2 0 0 0 3

( 2L is ggE c ____ _ ___13____ g g_ __g __g _ _ 1 7 _ _,

3

. E

2

NE O 4 16 0 0 0 20 F

f. ENE 3 3d 19 0 0

'23 0 6J r'.

c E _.__...__1__._____14_.._. __4____._. -.0__._.___._U.__ J..__. .._22.__

E _

% ESE O 2 .s 0 0 0 5 f'w _ _ . _

78 SE 2 LI 0 0 9 1 0 20 Er- bbl - -

2 --- b- - ----- U- ~ - - - --- - - U -------U--- -~6_

h 2:j S 3 i

2 0 0 0 0 y 5 i

'3 s SSm 0 6 J G V O $

-1 26

__ ___ S w ._ __ _ _ __1 __5 4__ __ _ _ __. 2 0. O._

3' 12 __ _ _ . _ . . . _ - . _

$ WSw 2 9 I o 0 0 18 i_._-.__.._...__.._______._.

M .

d h 1 6 5 0 0

0 12 M

i'J, __ __ n N h _ _ . __ _ 2 ___ _ . _ _1 0 __ ___ _ . 9 o o 0 di M'dd i NW 0 1 6 0 0 0

[4s~i 13 t-pj NNW 1 9 2 0 0 0 12

(.y p

TOTAL.______21 141 82 2 0 0 252

( Ieso k, PER 1005 OF C ALM (HOURS) - O m

n

(

D 40

TABLE V-2 2j FLORLDA PO'a E R LCRPGRATlute i:

4 HOURS Al dACH nlND SPEEC AND DIRECTION s.

__P_ERIOD__OF MECURO - OCTUBER L,_1.(J 7 9__ Tit H O U G_ti_D EC Lf 8 E_R_3_.1,_ l_9 7 's_

l A STABILITY CLASS -F 19 E ELEVATION -

33 F1.

3

!i 2 WINO WINU SPEED (MPH)

E3] Old 1-3 4-7 d-12 13-Id 19-24 24+ TuiAL

, i,. ____ ____ ____ ____ ____ ____ ____ _____

-4 il $

I N O 2 J v 0 0 2 d6 t ! ".,

Its NNE 1 16 3 0 0 0 20 W

> N NE 3 4 0 0 0 v 7 Tii.i.. _ . - . _ - . _ - - .- ._ _ . . . - _ . . _ . _ _ _ _ _ . - . . - -.

n E 9 7 0 0 0 0 lo ESE 4 5 0 0 0 0 9

,IN.1 _ _ ..

W SE 1 1 a 0 0 0 6

.r SSL 4 0 0 0 0 0 4 5 1 1 0 0 0 0 2 IO y, SSW 3 1 0 0 0 0 4

\ 1),

vc ._S W 2 0 0 0 u O 2 34 WSn 0 0 0 0 0 0 0

[h! __. _ _

[4; w 3 1 J 0 0 0 4 4

Cp. .. . W N n --- . - - -

1 .-0 ._._ . 0 _. _____0_.- _ _.._0.__. 0 1 i

  • 4 0 0 0 0

. 1 S

'T _ . . _N W. _ . _ _ _ _.

4 4

?, NNn 1 2 0 0 0 V 3 4'

s

_ _ _ T O I A L __ __ _4 0_ . _ _ _ _ _ 19 ._ __. ._ _3 _ 0 0 0 12.2._

so

[si PER1005.0F. CALM ( l_lO UF S ) -

0 4

k t' _ __ _ ___ .

_4.1 _ _ _ _ _ _ . _ _ _ _ _ . __ . . _ .

' lABLE V-2 l

F 1 FLORIDA POWER CGRPCRATION 3

1 HOURS Al f, AC H hlND SPEEC AldC CIRECTluN 1 6' P_E R I.00_ OF_.h EC LRJ_ _ OC LVd E R _1.,__19 79_T tjaLUGtLp_EC EM B ER 31, 1979 7

. 8 STABILITY CLASS -G l' _. - _ _ _ . - _ _

E ELEVATION -

33 FT.

S 42 WIND J I ND__5 PLi) _ [ u Pit L . _ . _ . _ _ . . _ _ _ _ _ __

i3 DlR 1-3 4-7 G-12 13-16 19-24 24+ TUTAL 9

mi e

[6 N O 6 o 0 0 o 6 is

'8 NNE __ _4 .__ _ _ _ 2 L.__ b D__ 0._ ;L_ 36 . . _ _ _

2

$ NE 4 S 1 0 0 0 10 (2 '} _ __ _ _ . . _ .-_ _ __.

E D

ENE C 19 d 0 0 0 27

. _ E . . _ _ _ _ _ _ _ _5_ . . _ _ _ 2 2 _ . _ __ _ _ _ J _. . _ _ _ ._ _ V _ . ._ ._ _ _ _J .____Q___ 2l_ - _ - _ . _ . _ _ _ _ .

, 26! ESE 1 3 -) 0 0 0 4 fi_

A SE 4

5 v

0 0 0 9

i b F _._ 5 S E _ _ _ . . ._ 2 _ _ _ _ _ _0 _ _ _ __ 0 . _ _ _ . . _. 0. 0 0 2 ._ ._.

1 0 0 0 0 0 i

4 33>

s 5 5 y; SSh G 0 0 0 0 0 J

( 353 3t___SH ___ _..___._._1 _._0 _0___ O_ 0 0 __ __ _1_ _. _ _ _

,32

?f, wsw 0 1 0 0 0 0 1 i31_.

1 _ __ _ _ _ . _ _ . _ - . _ .

E. w o o o o 0 0 0 g',_nNW___._._.0_______1______.O _ _ _ _ _ _ . 0_ __ _ . _ o _ _ _ _ _ . _ _ . 0 .__l. _ _ . . . .

i :H' NW 0 1 0 0 0 0 1 t

4__ . _ _ . . _ _ _ - . -- _ . - - .

'; NNW 0 0 J 0 0 0 J

(

.p _ TOTAL 26 87 17 0 0 0 130

'l i s:

r

$ __PER1005.0F CALH__(tj00RS) ___0_ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ . _ . _ _ _ _ _ . . _ _ _ . _ _ __

s:,

i e.-

(

F_..____________..__.__..__  :

42 __ _ _ . - - _ _ _ - - _ _ . _ . - . - . - - - - - -

s.

~

TABLE V-3 FLORIDA PCWEH CCRPCRATILN

~ ~ ~ ~ ~ ~

HOUR 5 AT EACH ntND SPE'EC AND U l R E C T'I~0 N~-

s 7 PERIOD OF RECORD - JULY 1, 1979 THkOUGd SEPTEMBER 3de 1979 641CH RELEASE 3 71 2 STABILITY CLASS -

A L!i_ __ _ _ _ _ _ _ . - - _ _ _ _ _

,i c, ELEVATILN -

33 FT.

.E n2 WIND hlNo SPEED (MPH)

DlR 1-3 4-7 6-12 13-18 19-24 24+ TUTAL g3.;

3 n5 l'e, N 0 0 1 0 0 0 1 n

k NNt 0 2 4 1 0 0 7 5

'2:- NE O 2 9 5 0 0 16 I2T

,2 2, ENE O 10 27 2 0 0 39 E

jf E C 20 21 2 0 0 55 f2h h ESE G 17 3J 5 0 o $4 d'L .

__ 8 E SE 1 10 1 0 0 _ 20 L21

3;, _ SSE J 8 15 2 0 0 25 i'D or S 1 6 15 2 0 0 24

$5' O SSn 2 19 31 2 0 0 50 Inl 2 SW l 16 19 2 0 0 40 E

,3fg hSn 0 34 26 1 0 0 e1

[3h g . . h.-

1 43 39 1 0 0 06 L

[4:g_

W N v, 1 16 00 6 d o 8 ')

l.3 t

I*~4 0 3 4 0 0 0 7 i

$a 3

__ _ _N W_ . . _ _ _ . _ . . . _ _ . . _ _ _ . . . _ _ _ _ . _ . . _ _ . _ _ . .

$ NNW 0 1 0 0 0 0 1

-__ _.I O T A L __ - . . 7 213 3II 34 0 0 571

(

U PERIGOS OF CALM (H0JRS) - 0

(

4 I( ., 43 1

lABLE V-3 LL FLORIDA PCWER CCRPCRATION HOURS AT LACH WIND SPEED AND DIRECTiuh m

$___ _P_E R.! 03_ G r_ _R E C O R D_ _.J U L Y_13 _19J.9 _T H A G ov H_ S E P T E M B d R _3 J , _19 7 9_B A T C H R!. LEA 56S LL 1

9 STABILITY CLASS -B

!E. ELEVATICN -

33fT.

b.

"2 k lN D_ AINv_5 plt:D .!!1Prd . . .__. .. ..___

M DIR 1-3 4-7 d-12 13-16 19-24 24+ TOIAL

,g

u. _ _ . _ _ _ - - _ __ _ _ _ _ - . . . .. .
3. N 0 0 0 0 0 J J l S 18 NNE O O __ __0 2 0 0 __ Z _ _ _ _ _ _ _

B iE NE 0 0 2 2 0 0 4

h_________._.____

E ENt 0 5 3 0 0 0 8

> .2 3

. E' E _ _ _ _ _ _ _ . . _. _ 0. _ _ _ __ 9 . . . _ _2 . _ . _. . _ 0 _.___._._C_ _ 0 _ ._ 6_. . _ . _ _ . . . _ _ .

tr5

  • -1 i

g ESE 1 4 2 0 0 0 7 sl W SE J 3 7 1 o 0 11 i 5 0 4 2 0 0 0 6 3

L3', SSn 1 0 2 O O O 3

(

i3_5] 0 10 36 SR__ _ ___1 ._2 5 1 1 _

t'I -

e  !'8 - h$n 0 2 0 0 0 0 2 f

i n d 0 3 0 0 0 3

' f,

$'!, _ . H N n _ _ . _._.J..__.__4.___. _4 0 0 0 8

'43 f-i NW U 0 3 1 0 0 4 p_._ _ ._ _ __ _ __ _ . . __

NNh o 0 O O C U 0

(

, 3.___J O T A L 3 26 3d 7 1 0 77 49

(&

SJ PERIODS.UF_ CALM _(HUURS). . - - ____0___ _ _ _ _ . _ _. _ _ . _ _ _ _ _ _ .

s'

"-5

( l'.3j 0

44 o

~~

r _____..--

1AdLt V-3 FLORIDA PCWEk CCRPCRATIGN

'l

. .4_. HOURS Al EACH Wif4D SPEEC ANC DIRECT 10N i

L _P_Ekl0D CF RECOKD - JULY _1, 1979 THRCuGH SEPTEM8th 30, 1979 6 A I C ri M CEASE 5 1 _

i ,aj STABILITY LLA55 -C el 1 ELEVATICA -

33 F1.

12 W lh J w!ND SPEED ( MPtil g Dik 1-3 4-7 8-Ic 13-16 19-24 24+ 10TAL 3 ____ ____ ____ ____ ____ ____ ____ _____

l15 F+-----

[16 N 0 0 0 0 0 v 0

t. E is NNE O O O 1 0 0 1 3

NE O 1 0 0 g'21, 1 1 3

$ ENE O 1 0 0 0 0 1 l'

.24 E 1 0 3 u J u 4 3s.

e E ESE O O 4 0 0 0

  • L27L _.

W SE o 3 0 0 1 0 *

  • 9 gg SSE 1 3 2 0 0 J 6 BL i

& S 0 2 1 0 0 0 .3 L33

$ SSh C 0 2 e u 0 2

( '35 9____Sw __ _ _ l _ __ .. _. I a '

__2 2 0 0 o W5h 0 1 0 2 0 0 3 1___ . . . _ . . _ _ _ . _

f4 W 0 2 2 0 0 0  %

i ;4r WNw 0 3 5 l 0 d} 10 1

g --

t NW 0 2 2 v 0 0 I si 4 F

1 4 NNn 0 0 0 0 0 0 0

_. ._LO I A L __._ _.. __ 3 . ._.._..__2 0 23 s I u 55 L

l' _.. P E R I GO S OF._C A L.A.(tiGUR S) -___.0_ _ _ _ . _ _ _ _ _

(

56

(

E - '"

h TABLE V-3

$3: FLORIDA PCwER CCRPCKATION "1 HOURS AT E Acri nlND SPEEC ANO DIRtCTION 1

!6 P_E R. I .0 D_O F _R EC U R D__ _ J U L. Y_l s 19 73._. .i_R LJ 5ti. .b E P_T E.4 BE A_.3 0 s _1.9 7 9__0 A T C ri . A t L E A l t 5

$' r t STABILITY CLASS

,i 0

,5 1

ELEVATICN -

33 FT.

x.

"7 h ! 4 O___ _hJ fv 0_5 PIE D_( 3 P_ri ).

$ DIR 1-3 4-7 8-12 13-16 19-24 24+ TOTAL 3i s' ____ ____ ____ ____ ____ ____ ____ _____

16 N O O O O 3 0 3 i 'l La, NNE _ _ . _ .0 __6__ 4 ___2__._. 0.. O . _ _ _ _12 _ __

19, NE 1 10 33 3 0 0 52 (2[ enc 1 42 26 0 0 0 71 n

{, _ E - _ . - . - . 2 _ .. - . _ b 2 .__l9 . O _ _ _ _ . 0 __._ _ . _ 0 - _53_

di p26' ESE 4 1 >$ 19 1 0 3 37 t 'i _ . -. - .- -. . _ . - - . .

?8 SE 3 30 11 2 0 v 52 9, -

Po _ _. S S E ___ ._ _ _ . . _ _ 2 . .. _ _ _ __ .1 1 _ . _ . __ 2 5 . . _ 2.. ___..J o 4. 6 E

?2q S 5 8 3 5 0 0 26 pn L% SSn 3 I 5 4 u J 19 t 31, 26' S h _ __ __ . _ __ __3 9 't _ 2 .U . _ 0. . __ _ , _ __1 6 __ . _ .__ _ .

31 i A WSh 5 4 5 1 0 0 IS Ph . _ . _ _ . ._ . _ _.__.. _ . _

['S h 4 6 5 0 1 J 16 M

  • !9_ __ h N n _ _ . . _ . _ 2 _ . _10 _ . 9 . . _ _ _ . _ . L _ _ _ . . _ 5 . _ _ _ _ .1 35

( NW 3 13 / 0 4 0 2/

+ __ _ _ _ . . . _ . - . . . _ . _ _ . - _ . . . - . _ .

% NNn u o 0 1 2 u 3 i

5

_ _IOTAL 3d 22d 16J 25 15 1 4d/

?.

(c A PERIOOS OF CALit (HOURS) - 0 sii l

} 4-55 f k t . .. 4 6 I

s

T T Alt L E V-3 e

k --

FLORIDA P0nER CGRPCRATION 7 HOURS AT ti AC H hi@ $ PEED AND O!REETIOt.

s T

y PERIOD GF RECORD - JULY 1, l71 1979 THR0 UGH 2EPTEMBER 30, 1979 B A I C ri RELEASES 7 STABILITY CLASS -E h

M" ELEVATION -

33 FT. - -.

D2 WIND hlND 5PEEO ( MPrii g D i et 1- 3 4-7 8-12 13-16 19-24 24+ 10TAL g., ____ ____ ____ ____ ____ ____ ____ _____

5. ._
J7, 18, Nt4L 1 i.

_24 3 0 0 0 28 H

S NT 3 39 2 1 0 0 45 l

l24 E 10 13 10 1 0 0 94 T6 ESE 13 41 8 0 0 u c2 haL ta SE 8 42 e 4 0 0 0 55

?-

no SSL 5 20 1 0 0 0 2 t,

. g; 5 12 14 3 0 0 0 29 S$n b 5 1 2

, ,, C O 19 hg SW 12 8 IS 1 0 0 36 e

i 18; WSn 7 23 9 0 0 0 39

'?i- . _ . .-.

~

4 g _:, v. 4 14

~

4 1 0 O

( '41! 23

__ _wNa 0

_____________4_____._____10 _ _ _ _ d .._ _._ 0 _ 0_ _ . __ _ 2 2 ___

( Nw 3 5 0 0 0 0 8

% NNn 1 4 0 0 i

0 0 5 f

  • q TOTAL 100 432 82 6 0 0 620

?

( ,o

_.PtiR1005.()F. CALM JHOURS) - 0 S

( , ,

l' _. _ ..- '-

f

U TABLE V-3 1si FLOAIDA power CCRPCRATION 1 HOURS AT EACH ntND SPEEC ANU DIAECTION 1

L*;-__P_ER_{ U Q__O F_ .R d C G R O _J UL Y_1, _193_9 _T HR O UGtLS E P T_E M B E L3 0,_1.9 7 9._ B A T Cr1 fi c t t A 5 E S ._

17 1 STABILITY CLASS -F e

l'E, ELEVATICN -

33 F1.

2.';

07 KIND WlNO SPEE_0 (MPri) 0.34 DIR 1-3 4-7 8-12 13-18 19-24 2*+ TOTAL

, y ---- ---- ---- ---- ---- ---- ---- -----

as T

  1. N O O O O O O O

(

(7.

p.___N N E __ 0 7 _ _____0_______0 O_ 0 __.7 _ _ _ _ _ _ _ _ _ _ _

e

!20 NE 1 7 0 0 0 0 8 F

B! ENE 9 41 1 0 v v bl

. l'.

._.._E ___._._._15._ __ _ M ._ ..__0_..______0_ _ ___0. _ _ __ 0 _ 33. _ _ _ . . _ . _ . _ _ _

b ESE 5 19 0 0 0 0 24 (p:_.SE -_ __.

10 1, J v 0 0 24 21 33 . . S S E . _ _ __ . _ L _ _ _ _ _ _1 _ _ _ _ _ _ _ _ 0 . _ _ .. 0 0 0 o 31

( E24 5 3 2 0 0 0 0 5

')l f _ _ _ _ _ . . . _ _ _ . . _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ . . _ _ . . _ _ _

SSh 3 0 0 1 0 0 4

/44 l35 S W _. _ __. . _ __ _ _1 0 0__ 0 0 0 1 v- {

p3fj WSW 5 1 3 0 0 0 6 3- _ - __ . __

(di

, w 4 0 0 0 0 0 4 p';, _ __ h N b _ . _ 4 0 0 0 0 0 4 NW L 0 0 0 0 0 1 h __ _NNW _. _ ._

L 1 0 0 0 0 2

t s 'h 1 1 0 0 202 i'{ _.__ _ I D I A L __ ___. _ A 9. _. _ L 3 .1_ _ _

( 3 f5i._ _ PERIODS _OF_ CALM (HOUFSL _.___0 _ _ . _ _ _ . _ . _ _ _ _ _ . _ _ _ _ . _ _ _ _ _. __

fl) si:

< a F ,

48 t

TABLE V-3 k

m T FLOFIDA PCWER CGkPUhATION 31_ . _ __ __

a HOURS . _ _ _ AT _ - . . EACH

_ _ _ . . _ _nih0 _ _ _ _ _ . _ . - - _ _ . - - .SPELO AND DIRECTtua_ _ _ _ _ _ _

s 7 PEk!OD OF RECCR9 - JULY 1, 1979 THKGOGH 5EPTEMBEA 30. 1979 OATCH KELEAaES

.1;

[ STABILITY CLASS - G

u _ _ _ _ - - - - _ _ _. - _ _ _ _ _ .. .

3:, ELEVAT!GN -

33_ _FT. .-_

li

,i: WIND nihJ SPEt0 (MPH) m DIR 1-3 4-7 6-12 13-16 19-29 24+ IOTAL T; ____ ____ ____ ____ ____ ____ ____ _____

ii?

N O U 0 0 0 0 0

%,1 11 8

, NNE. 0 0 0 0_ 0 0 0 B

E NE 1 2 0 0 0 0 3

21

,2:, ENE 1 2 V O O J 3 13, 24 E O 4 0 0 0 0 4 b

y; ESt 4 1 0 0 0 0 5

2q -- .-. . _ . . . _

E, E, _ _ S S t . . _._.1._ __.._ 0_ _. .__d__. 0 . _ 0_ _0 _ . . _ _ .1 _ .

E'J p:' 5 2 0 J 0 0 0 2 PS _ _ _ _ _ __ _ . _ . . . _ _ _ _ _ _ . . . _ _ _ _ _ _ . . . _ _ _ . . _ _ _ . _ _ _ _ _.

), SSn 0 0 0 a o o u

( ?

L 5W 0 0 0 0 0 0 0

?) 0 0 0 0 0

'3e wSn 0 3 Y_..

y W l 0 0 0 J V 1

, y 0 0 0 0 J V (2) . WNn C fi

8 NW 0 0 0 0 0 0 0 F1 f5 . _ _ _ _ _ _ _ _ _ . _ _ _ . _

!"H , NNW 0 0 J u 0 0 0

, 1s:i TOTAL 11 11 0 0 0 0 22 9

p.' _ O _._. _ _ _ _ _ _ _ _ . _

f*'J W _ PER 100S OF C A LM._( HOUR S )_

5))

I t'._.__._..__..__. . _ .

49___________..___.._________.. _

i

( ,

TABLE V-4 U;

y FLCRlDA 90 ER CCRPCRATION HOUF.5 Ai ti AL h wlNU $PELO A W Otr(ECTION T

!6 .

PERIOD OF AECORD - OCT03ER 1, 1979 THROUGH OECEMBER 31, 197v dAT;H .< E t t A s e s 2 STABIL11Y CLASS - A D-

,il ELEVATION -

33 l-I.

ii 3 WIND nlN) SP6ED (MPH) h,j4 OIR 1-3 4-7 b-12 13-1b 19-24 2*+ ILIAL E is N_N E_ 1 1 16 0 0 __0 l _o . .._ _ _ _ . _

i t2i; NE O 2 33 15 0 0 50

,2 2, ENE O 9 25 3 0 0 35 21 E O 5 26 7 0 0 30 44 2s, 3 ESE O o 9 2 0 0 17

t __.

k-. SE O 4 2 0 0 0 o o

f p SSE O 4 3 0 o o 9 b

0 4 9 b21 1 0 0 14 k_5SSn u- 2 / I O O O 16 i @

u SW 2 3 19 0 0 0 24 37

' n WSw 0 11 13 0 0 0 2*

'b .- . . . . -- . .

32 . ._._ .- .

4 w 2 l'+ 1) 1 0 c WNw 1 13 26 5 0 0 45 j

t jt i +4 4 NW G 4 9 3 0 0 16 5.5 .__ _ _ . - _ ..

NNW 0 0 0 0 0 J 0

( 4j

    • bl 215 3/ 0 0 34I

_ _ _ T O T A L __ _.. _ 8_ __

f

( l

$.' . _ _PER1005.OF._ CALM _(HOURS) _ 3 __ _. _

  • ?

1 .

4 7,4 ________ __ . - . _ _ _ . _ - _ . . . . -

fa 50 t

h e TABLE V-4

. W

!2 FLORLDA PGnER CCHPCRfillGN i

4 HOURS AT EACH hlND SPEEC Ada DikLCilurd

's I P E R 100_ O F_ _Rt L O R 0_._ __ _O C T o a t A _1,_ _19 7 9. T Hauu dH _D E C e3 d E h . 31,_.L9 7 9_ B A 1 L F ntttA2E5 1

1 STAh!LITf CLASS -o i'

$ ELEVATIOtt -

33FT.

A h2 w itv D __w ! N J_h P.LE D _ ( Mi t __ ___._ . _ _ _ _ . _ _ . _ _ . . _ _ . _ . . _ __.

h DIR 1-3 4-7 d-12 13-18 19-24 24+ _ _ _ _ _ TOTAL a'5 _ _ - . _ _ . _ _ . . _ _ . . _ . _ _ _ _ _ . _ _ - ~ _ .

4 _ _ _ _ _ . _ _ - _

lt N v 0 0 0 0 '

0 i S NNE _0 __ _1 2._ 9 0 0 .$

g@,_ NE O 1 3

4 0

0 8 3,

. l2 ', _ _. E _ _ _ _ _ _ _ 0 - _ __ - . . _ . . . u . ___.__1.._. ..U__._. 0_ _ 0 __ . _ __1 . _ _ . . _ _ . _

l2s i

b ESE O 1 0 0 0 J 1 2?g _ _ _

2L SE O O O O J u O

,'l PL__SSL_ ._- U ___ _ . _ _ 4 . __ _ -. _ 1 . _V . . _ _ . O _. . __ _ . . o - _ . . . 3. _

Il 0 0

. F S C 0 0 0 0 p3

$ SSn 0 1 1 0 0 0 2

( 3Z

$ SH _ 0 __ 0 L 0 0 0 1 v

i 38 0 2 J 0 0 0 2 f __.._ ..

W_S hC 0 0 g h 1 1 0 2

_h N W _ _ . . _ __0 _ _ _ __1_ _ _ _ _ _ _ 2 . _ _ .2.._..____._..J_..__ __.0.. 5 _

i NW U 0 2 0 0 0 2

  • q 0 0 0

~

g NNW 0 0 1 1

_ I O T A L _ _____ 0 11 19 __._.._6_ _._0 0 3 6_. . _ . _ _ . . . . . _ _ _

(

5' P E R 100 5 _0 F.. L A L M__ ( l!O U) . S 1_-. _ . _0_ _ . _ _.____ . .__ _ __. . _ _ _

'h-( 53) .

(4:

1

(

  • 8} N _ _ _ . _ _ _ _ . _ . _ _ . _ - . _ . . . ._ . . _ _ - . . _ .

(

r

1ABLE V-4

. ( _ _

b 2 FLORLDA Puht!R CCRPCRATIOtt 3

[4- HOURS AT EACH WIND SPEEC ANO UlAECTION T

T PERIOD OF RECORO - OC T Lts E D 1, 1979 THR00GH CECEMtsER 31, 1979 dAILH mELEA$ES II T

STABIL ITY CL ASS -C ELEVATION -

J3 F1.

i WIND WIND SPEE0 (MPH)

I3, , , DIR 1-3 4-7 6-12 13-18 19-24 24+ ICTAL M

U5

6 N O O 1 0 0 0 1 l

E NNE O 1 1 0 0 0 2 n ,-

E NE O 1 1 0 0 0 2 J u J

$n ENE O O O O I*~ E O O O 1 0 0 1

i. Es; k ESE 0 v 0 0 0 0 0 47 ._ _ ._. . _ - _ . . _ - . . _ . .___ -. -. ... _.

9 T~ SSt 0 0 0 0 0 0 0

( pq k S 0 1 2 0 0 0 3 SSn 0 2 0 0 0 0 2

( 1s 2 SW 0 0 0 0 0 0 0 i WSW 0 0 0 0 0 0 0 2_,____ ___ _ __ _ _ . _ _ _ . . - _ . . - . _ - . - _ _ . . - _

, 'e 0 J 0 0 2 k__hNh 1 1

(

4 NW 0 0 0 0 0 0 0 4 _ _ _ .-_ ___.. __ _ _ _ _ __ . _ _ _ . . . . _

% NNW 0 0 0 0 0 0 0 (y 0 0 0 14_

9 _._LOIAL 7 5 2 _ _ . . _ _ _

t r;s

_ PERICOS CF.. CALM _(tiUURSL - O a

55 (y

(

K'52 i

y fl TAdLE V-4 t _ _ _ _ _ _ _ _ __ _ _ . _ _ _ _ _ _ _ _ _ _ .. _

Cu FLORIDA PG'nER CCRPCHATION f HOURS AT EACH wi rdD SPEEC AND 01RECTIo.4 16:

PJR.!_00_Di _Rj C OR D - UC T O B t; M _1;_h7.9__T H_kO U Gli__0 E L EM B E.k_33,_19 7 9_d A.I C H b E.L E_.A 2 E S d'

Ls. STABILITY CLASS -

D 19 __ __

IS ELEVATION -

33 F1.

E p W IN D h!hDJ EEED_.lMPHI- _ _. _ . _ _ _ . _ _ . _ . _

S DIR 1-3 4-7 6-12 13-18 19-24 24+ lOTAL 3- ____ ____ ____ ____ ____ ____ ____ _____

hs B6 N O 2 1 0 0 J 3 t'

'8' NNE O 8 2S V_ 0 0 ._3_3

'l

,2( NE 1 7 62 4 0 0 74 l2 I;I

, ENE 1 8 2 0 0 0 11 12 3 2 '.,___ . _ E . ____.__1__.___L_.._._.__4_.__.._.._.0__. O O 7 25:

I k (27j _.

ESE O 0 4 0 0 0 4 E SE O 1 4 0 0 0 5 1  ?

'i

___.SSE___________0 _ ___1.._____7_ O O O 8

( 3: S 1 0 3 1 0 0 5 l33 M

I SSW 2 4 2 0 0 0 6 3s

( :E _S W _ _ _ _ _ _ __ __1_ ._2 b__ _.1 0_ O_ 10______ _ .

3b

( 3f WSn 1 0 8 0 0 0 9 f5__ .__ _ .. . _ _ _ _ _ _ _ _ _ _ . . _ _ ._. _

0 7

6 W 2 3 1 1 0 t $

i4;

_ _ _ _ _ WNn_______0 4 4 2 0 0 1J

( NW 0 3 14 1 0 0 16 d' NNw 0 0 6 1 0 0 7 (i}$ _ _] y (_A L _ ___10 4-> 153 11 o 0 219 f

( 2 5'

__. . P_ E R 10 0 5 .0 F . C A L M ( HOUR _S ) - 0 _ _ . _ _ _ . _ _ _ _ _ . _

( w t- .- .53 t

o

TABLE V-4

'2; FLORIDA POaEk COHPCRATION 2

HOURS AT EACH hlND SPEEC AND DIRELituN h PERIOD OF REC _0RD - OCT_UBER 1, 1979 THAudGH UECEMBER 31, 1979 JAIGH FELEASES f7 STABILITY LLASS - E

~ - ~ ~ ~

ij ELEVAT10N -

33 F- T .

i E 11 2 WIND WIN 0 SPEdD (MPN)

DIR l-3 4-1 6-12 13-18 19-24 24+ TOTAL g

i ____ ____ ____ ____ ___ ____ ____ _ _ _ . _ _

E 3

i N O 1 2 0 0 0 3

\ L'.

lts NNE G 12 4 0 0 0 to lui e NE O 4 16 0 0 0 20 m ENE 3 ad 19 0 0 0 60 p1 13,

'4 3 E 4 14 4 0 0 0 22 i g h ESE O 2 3 0 0 0 5 P7; hY-~ SE 2 17 1 0 0 v 20 19 -

x SSE 2 4 0 0 0 o e ai

( pyk 5 3 2 J 0 0 0 5 Lla, SSn 0 6 0 0 0 0 o

( :n Il SW L 9 4 2 0 0 12 i

34 WSw 2 9 7 0 0 0 lb l% - __.- - -- . _ . - . ._ . _ _ . . . _ _ . _ _ . _ - _ _ .
4 ; ,i 1 6 5 0 0 J _-_ __ _.12 i
4'

_ __ N W r. 2 10 9 0 0 0 21

( ;44 Nn 0 7 6 0 0 0 13 Y$

h NNW L 9 2 J O O LL TOTAL 21 140 c2 2 0 0 251 f

( ,E

) PER[OOS OF CALM (HUURS) - 0 p!

<o i 1 ((

F / 54 e--

hl l . _ . _ _ . - _ _ . . . _ . _ _ _

TABLE V-4

  • LL 1 FLORIDA POWER CCRPCRATION 11 ~ ~ ~ ~ ~ ~ ~'~ ~

,4 HOURS AT EACH htt40 SPEEC AND DIRELTIJN L

6 PERIOD CF RECURO - OCTUdCh 1, 1979 THROJdH O t- C E M B E R 31r 1979 6AICF nELEASE2

-7 i

[ STABILITY CLASS - F

'91 h ELEVATION -

33 F1.

4 AIND h lN 0__5 PIE i)._t iiPt11_ __ _ _ _ _ . _ _ _ _ _._ _ . _ _ . _ _

3, DIR 1-3 4-7 8-12 13-16 19-24 24+ lOTAL y, ---- ---- ---- ---- ---- ---- ---- -----

.is U.6 N O 2 0 0 0 0 2

' S y NNE l __.__ _ __1.4 2 0 0 0 ___ L 7 W NE 3 4 0 0 0 0 7 w

22 ENE t 27 0 0 0 0 33 23

,2'.___ E _ _ _ _.___ _ _9 _ 7 J 0 0 0 16 3

,2f ESE 4 5 0 0 0 0 9

~
  • . /

SE 1 0 0 0 0 6 9

6,___S S E ___ 4 __ _ _ _Q._ ___.

O V. O v 4 32, S 1 1 0 0 0 0 2

'33

4 . . _ _ _ _ _ _ _ _ . _ _ . . _ _ _ ___ _ _ ____ _ ._ . _ _ _ _ _ _ _ _ _ _ _ _ _ . .___

2, SSw 3 1 0 a c 0 4 is, r4

____S W ___ _ _ Z .._0 0_ 0 0 __0_ _ _._ 2 L3f; W5n 0 u o 0 0 J 0 h3h

$ h a 1 0 0 0 0 4 2,_ __.W N n._ _ _ ___ _ _ 1 .. .__ _ _0 0 0 0 0 1 i'b g NW L . 4 0 0 0 0 $

(

g. NNn 1 2 0 0 0 0 3

!47

____ TOTAL __ _ 40______ J a_ _____2__ ____. _0_. . __0 0 1 1_7_ _ _ __ _ _ _ _. _

LE pj PER IOOS. 0F C ALM (HudF$) - 0 is:

Ibl

_ij h

55 t- -

TABLd V-4

_y FLORIDA POWER CCRPCRATION

'11 4 H00h5 AT EACH hlND SPEEC AND DIxELI!UN a 5 7 P_ERIOD OF RECO_RD - O_CTOBEn 1, 1979 lHRUOGH DECEMBEF 31, 1979 _B A I C H ht.LE_ASE1_ _. ._ .

(% STABILITY CLASS - G d _ . _ .

g ELEVATION -

33 Fi.

i n,

'3 WIND hlNO SPEED ( M Pri)

D1R 1-3 4-7 8-12 13-16 19-24 24+ TOTAL

(% 3 p s' i N O e 0 0 0 o o (k

07 NNE 3 21 8 0 0 0 32 M

( l2; NE 4 5 1 0 0 0 10

' hil

[22 ENE O 19 3 0 C v 27 E 5 22 J 0 0 0 27

'2s; t $ ESE 1 3 3 0 0 0 4 i'L__ _ _ _ _ _ - - . . . . - - _ _ _ _ _ _ - _ - . _ _ _

% SE 4 .__.-5 J 0 0_ _ _ - _ . v 9 21 SSE 2 O J v 0 0 2

( 3 3 5 5 0 0 0 0 v 5 SSw 0 0 0 0 0 0 J

, ( as-x SW 1 0 0 0 0 0 1 37

( :3a: W5n 0 1 0 0 0 0 1 9

[43 W O O J 0 0 0 0 t E WNn 0 1 0 0 0 0 1

. U H NW G 1 0 0 0 0 1

['? NNw 0 0 0 0 0 J 0

( $*g__

H45- TOTAL 25 84 17 u o 0 126

'l

( ?]

5' PERIOUS OF CALM (HUURL) - 0 52, 4

l $ -

56 l 1

(

_ _ _