ML19317G863
| ML19317G863 | |
| Person / Time | |
|---|---|
| Site: | Crystal River  |
| Issue date: | 02/28/1978 |
| From: | FLORIDA POWER CORP. |
| To: | |
| References | |
| NUDOCS 8004020496 | |
| Download: ML19317G863 (59) | |
Text
.
EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT 7/1/77 - 12/31/77 FLORIDA POWER CORPORATION CRYSTAL RIVER - UNIT 3 FACILITY OPERATING LICENSE N0. DPR-72 .
DOCKET NO. 50-302
~ February, 1978 ;
i Ma-342 z/u/71 .....
i 8004020
TABLE OF CONTENTS PAGE I Introduction 1 II Releases of and Doses from Gaseous Effluents 4 III Releases of and Doses from Liquid Effluents 17 IV Solid Waste Shipments 26 V Meteorological Data 28 FIGURES III-l Methods of Meeting 10CFR20, Appendix B, 21 Table II, Column 2 MPC Limits 1
1 i
.-. .\
i LIST OF TABLES l PAGE I-1A Sumation of Doses to Individuals from Gaseous and Liquid Effluent Relea'ses - Third and Fourth Quarters 2 1-1B Sumation of Doses to Population from Gaseous and Liquid Effluent Releases - Third and Fourth Quarters 3 II-l Sumation of Gaseous Effluent Releases 11 II-2 Sumation of Nuclides in Gaseous Effluent Ground Level Releases 12 II-3 Doses to Individuals from Continuous Gaseous Effluent Releases - Third and Fourth Quarters 13 II-4 Doses to Individuals from Batch Gaseous Effluent Releases - Third and Fourth Quarters 14 II-5 Doses to the Population from Continuous Gaseous Effluent Releases - Third and Fourth Quarters 15 II-6 Doses to the Population from Batch Gaseous Effluent Releases - Third and Fourth Quarters 16-III-l Sumation of Liquid Effluent Releases 22 III-2 Sumation of Nuclides in Liquid Effluent Releases 23 III-3 Doses to Individuals from Liquid. Effluent Releases -
Third and Fourth Quarters 24 III-4 Doses to the Population from Liquid Effluent Releases - Third and Fourth Quarters 25
. IV-1 Sumation of Solid Waste and Irradiated Fuel Shipments 27 .
V-1 Sumation of Meteorological Conditions at 33' (10 meters) - Third Quarter 29 V-2 Sumation of Meteorological Conditions at 33' (10 meters) - Fourth Quarter 36 V-3 Sumation of Meteorological Conditions at 33' (10 meters) Concurrent with Satch Gaseous Effluent Releases - Third Quarter 43 V-4 Sumation of Meteorological Conditions at 33' (10 meters) Concurrent with Eatch Gaseous Effluent Releases - Fourth Quarter 50 11 ,
I INTRODUCTION This Effluent and Waste Disposal Report is subnitted per Technical Specification 5.6.1.B of Appendix B to ,the Crystal River - Unit 3 Facility Operating License No. DPR-72. The data in this report covers the period from July 1 to December 31, 1977.
There have been no changes to the Technical Specification Requirements for effluents and waste disposal in Appendix B of the Facility Operating License during the period of this report.
Crystal River - Unit 3 has had no measurable radiological impact on the surrounding environment during the reporting period. This is based on the Radiological Environment during the reporting period. This is based on the Radiological Environmental Monitoring Program showing no increases over preoperational 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 meteorological 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 gaseous effluents) and the LADTAP (for liquid effluents) computer codes obtained from the Nuclear Regulatory Commission and revised to include site specific data wherever possible. These doses are summarized in Tables I-1A and B.
The values rep'orted for the activity of nuclides released are the actual measured activities. If no activity for a nuclide was detected for a quarter, the total of the lower limits of detection for all samples is reported as "<X.XXE-X". The totals of activity released is a total of only the nuclides that had measured activity.
l 1
TABLE I-1A SUMMATION OF DOSES TO INDIVIDUALS FROM GASE0US AND LIQUID EFFLUENT RELEASES Third Quarter Beta Air Dose = 1.70E+00 mrad /yr (Design Objective = 2.00 E+01 mrad /yr Gamma Air Dose = 8.02E-01 mrad /yr (Design Objective = 1.00 E+01 mrad /yr Whole Body Dose Distance (Mi.) and Design Effluent Release Direction Age Group Organ Dose Objectives (mrem /yr) (mrem /yr)
Continuous Gaseous 1.01 0 NW Infant N/A 5.52E-01 5.00E+00 Batch Gaseous 1.01 0 NW Each N/A 1.84E-01 Batch Liquid N/A Adult N/A 3.93E-04 5.00E+00 Organ Dose Continuous Gaseous 0.85 0 ENE Infant Thyroid 3.17E+00 1.50E+01 Batch Gaseous 1.01 0 NW Each Skin 4.85E-01 Batch Liquid N/A Adult Thyro 1d 6.90E-03 5.00E+00 Fourth Quarter Beta Air Dose = 7.14E-01 mrad /yr (Design Objective = 2.00E+01 mrad /yr)
Gaiana Air Dose = 3.42E-01 mrad /yr (Design Objective = 1.00 E+01 mrad /yr)
Whole body Dose Continuous Gaseous 1.41 0 WSW Infant N/A 2.94E-01 5.00E+00 Batch Gaseous 1.41 0 WSW Each N/A 5.16E-02 Batch Liquid N/A Adult N/A 8.85E-04 5.00E+00 Organ Dose Continuous Gaseous 1.41 0 WSW Infant Thyroid 6.88E-01 1.50E401 s Batch Gaseous 1.41 0 WSW Each Skin 1.41E-01 Batch Liquid N/A Adult GI-LLI 1.49E-03 5.00E+00
TABLE.I-1B SUMMATION OF DOSES TO THE POPULATION FROM GASE0US AND LIQUID EFFLUENT RELEASES
~
Third 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 Gaseous 4.50E-02 5.00E+02 Skin 1.19E-01 5.00E+02 Batch Gaseous 1.00E-02 Skin 3.62E-02 Batch Liuqid 4.41E-02 N/A Thyroid 9.50E-02 N/A Fourth Quarter Continuous Gaseous 7.48E-02 5.00E+02 Skin 1.85E-01 5.00E+02 Batch Gaseous 1.86E-02 Skin 6.40E-02 -
Batch Liquid 2.75E-02 N/A GI-LLI 4.04E-02 N/A
}
i
II RELEASES OF AND DOSES FROM GASEOUS EFFLUENTS There are three normal methods of releasing gaseous effluents to the atmosphere: 1) continuous release via the Auxiliary Building Exhaust; 2) batch release from 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 for gaseous effluent releases are as follows:
Specification 2.4.2 The terms used in these Specifications are as follows:
subscripts v, refers to vent releases 1, refers to individual noble gas nuclide (Refer to Table 2.4-5 for the noble gas nuclides j considered) ;
QT = the total noble gas release rate (Ci/sec) l
= r,Q4 sum of the individual noble gas radionuclides determined t6 be present by isotopic analysis
)
K = the average total body dose factor due to gama emission (rem /yr per Ci/sec)
E = the average skin dose factor due to beta emissions (rem /yr perCi/sec) ii = the average air dose factor due to beta emissions (rad /yr perCi/sec) _.
II = the average air dose factor due to gamma emissions (rad /yr perCi/sec)
The values of K, C, R and fi are to be determined each time isotopic analysis is required as delineated in Specification 2.4.2.J. Determine the following using the results of the noble gas radionuclide analysis:
i K = (1/QT ) r0 K
, iii E = (1/Q ) ta L T $$i iT = (1/QT) E0 l1 iii R = (1/Q T) EO N iii 4 4
i I
where the values of K ,j L,, M and N are provided in Table 2.4-5 and are site dependent gamma dnd deta dode factors.
Table 2.4-5 GAMMA AND BETA DOSE FACTORS FOR CRiSTAL RIVER UNIT 3 x/Q = 1.46 x 10-6 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 Radionuclide Ci/sec Ci/sec C1/sec Ci/sec 1
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 release 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 Q II~ 11
_ Tv y_
and 0.33 7 (E + 1.lII )~ 11
_ Tv v v_
(2) The release rate limit of all radioiodines and radioactive materials in particulate form with half-lives greater than eight days, released to the enviorons as part of the gaseous wastes from the site shall be such that 4
3.5 x 10 Qy 11
- 8. (1) The average release rate of noble gases from the site during any calendar quarter shall be such that
~
13 Q II~ 11
_ Tv v_
and ,
6.3 -Q ff- 11
_ Tv v_
(2) The average release rate of noble gases from the site during any 12 consecutive months shall be Q ii' 25 11
_ Tv v_ .
~
13 QM 11
_ Tv v_
(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 Q 11
_ V_
(4) The average release rate per site 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 such that
~
25 -3.5 x 104 Q 11 v.
6
(5) The amount of iodine-131 released during any calendar quarter shall not exceed 2 Ci/ reactor.
(6) The amount of iodine-131 released during any period of 12 consecutive 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 reduce the release rates to design objective levels listed in Section 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 l) N~ >l
_ Tv v_
l or '
25 QN_
Tv v *I
~
(2) If the average release rate per site of all radiciodines and radioactive materials in particulate form with half-lives greater than eight days during any calendar quarter is such that
~
50 4 3.5 x 10 Q ' >l
_ v.
(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 closure of the waste gas discharge valve prior to --
exceeding the limits specified in 2.4.2.A above. The operability -
of each automatic isolation 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).
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
- Specifications provide the equations and dose factors that relate the gaseous activity to be released to doses at the site boundary and restrictions are placed on instantaneous, quarterly and yearly release 4
rates. The gaseous releases do not exceed the concentration limits specified in 10CFR20 and are as low as reasonably achieveable in ac-cordance with the requirements of 10CFR50.
- 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 by !
filter changes and the radioactivity measured as follows: '
A. Fission and Activation Gases - The total activity released is l determined from the net count rate of the gaseous monitor [RMA-2G],
its calibration factor, and the total exhaust flow. The activity i of radiogas is determined by the fraction of that radiogas in the ,
isotopic analysis of the Auxiliary Building atmosphere for that l period.
B. Iodines - The activity released as fodine-131,133, and 135 is based on the charcoal cartridge activities (RMA-2I) the particulate ,
filters activities (RMA-2P) and the total vent flow. I C. Particulates - The activity released via particulates with half-lives greater than eight days is determined by isotopic analysis of particulate filters (RMA-2P) and the total vent flow.
i D. Tritium - The activity released as tritium is based on monthly grab sample analysis and total vent flow.
l4 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 from 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 release.
C. Particulates - The particulates from batch releases are included in the particulate determination from the continuous Auxiliary Building release.
D. 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 deter-mined from the net count rate of the gaseous monitor (RMA-lG),
the monitor calibration 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 determined from the charcoal cartridge activities (RMA-lI) and the particulate filter activities (RMA-lP).
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-lP).
D. Tritium - The total curies released as tritium is based on grab samples taken for each purge (or the average if more than one grab sample was taken).
- 4. Batch and Unplanned Releases The batch gaseous effluent releases may be summarized as follows:
Third Fourth Quarter Quarter Number of Batch Releases 7.00E+00 2.10E+01 Total time for all releases (minutes) 1.91 E+04 7.91E+04 !
Maximum time for any one release (minutes) 9.80E+03 1.19E+04 Average time for all releases (minutes) 2.72E+03 3.60E+03 l
i Minimum time for any one release (minutes) 1.55E+02 3.00E+00 !
l Number of Unplanned Releases 8.00E+00 1.00E+00 Total Unplanned Activity Released (Curies) 2.53E+02 1.78E-01 --
The swanation of gaseous effluent releases is in Table II-l and the summation of nuclides in gaseous effluent ground level releases is in' Table II-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.
1 l
l t
I 9
Estimated errors are based on errors in counting equipment calibration, counting statistics, vent flow rates, vent sample flow rates, non-steady release rates, chemical yield factors and : ample 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%
1T6%
B. I-131 Total Release as calculated from 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 from Charcoal Cartridge 10%
TTDY C. Particulates with half-lives greater than eight days Release as calculated 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%
- 0. 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%
i 10 l
l l
I
[ An extensive review of Surveillance Documentation retained in accordance with Environmental Technical Specification 2.4.2F revealed documentation for sixteen analyses that met or exceeded that required by ETS 2.4.2J were not available. Discrepancy reports were prepared detailing the methods for estimating releases for periods in which documentation was absent.- Corrective action initiated during the third quarter because of fifteen unavailable analyses has resulted in only one unavailable analysis for the fourth quarter.
The unplanned releases for the third and fourth quarters of 1977 are listed below giving the date, the Licensee Event Report Number and the cause of each release.
July 16,1977 LER 77-73E Unknown cause July 19, 1977 LER 77-74E Procedural inadequacy
. July 27,1977 LER 77-80E Blown loop seals of concentrated waste storage tanks July 29,1977 LER 77-93E Bl'own loop seals of waste evaporator i
September 1.1977 LER 77-105E Operator error September 3,1977 LER 77-103E Blown loop seal of low pressure !
waste gas header September 7, 1977 LER 77-107E Leaking isolation valves in hydrogen line to makeup tank September 18, 1977 LER 77-116E Failure of alarm indicator September 28, 1977 LER 77-120E Blown loop seal of low pressure l waste gas header '
September 30, 1977 LER 77-121E Failed valve packing on makeup pump -
1 I
l October 5, 1977 LER 77-126E Leaking isolation valves in hydrogen line to makeup tank A
10a mw -
TABL,E II_1 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT -1977 GASEOUS EFFLUENTS-SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total Error, %
3 4 A. Fission & activation gases
- 1. Total release Ci 1.62 E+3 1. 77 E+3 1.10 E+2
- 2. Average release rate for period pCi/sec 2 06 E+2 2 25 E+2
- 3. Percent of Technical specification limit % 2 25 E_1 3 28 E.1 B. lodines
- 1. Total iodine-131 Ci 6.80 E-4 1 58 E _4 1 10 E+2 ,
- 2. Average release rate for period gCi/see 8 65 E-5 2 01 E-5 l l 3. Percent of technical specification limit Tc 3 40 E-2 7 90 E_3 C. Particulates l
- 1. Particulates with half-lives >8 days Ci 1 .03 E-3 1 91 E-5 1 00 E+2
- 2. Average release rate for period gCi/sec 3 3, E_4 - p . 4, E_g
- 3. Percent of technical specification limit % 2 14 E _2 ' 1 02 E _3
- 4. Gross alpha radioactivity Ci 3 33 E_7 ,.3, E _7 i
D. Tritium ,
)
- 1. Total release Ci 3 .60 E+1 5 .11 E+1 9 . 00 E+1 l
- 2. Average release rate for period pCi/sec 4 58 E+0 6 51 E+o _ ;
- 3. Percent of technical specitication limit % l nfg nfa E E 11
TABLE II-2 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT -1977 GASEOUS EFFLUENTS-GROUND-LEVEL RELEASES CONTINUOUS MODE BATCH MODE Nuchdes Released Unit Quarter 3 Quarter 4 Quarter 3 Quarter 4
- 1. Fission gases krypton 85 Ci s. a2 E+o <5 08 E-2 2 77 E +1 2.os Eo krypton 85m Ci 3 04 E+o 3 08 E +0 6 14 E +o 1 08 Eo krypton-87 Ci 2 08 E-1 4 6a E-1 1 o4 E +o 1 79 E.2 krypton X8 Ci 1 22 E +o 2 59 Elo 3 65 Eo 3 39 E.1 xenon-133 -
Ci 1. os E+3 1 14 E +3 3 62 E2 5 17 E2 xenon-135 Ci 7. 75 E +1 1 5. 54 E +1 5.05 El 1 09 & l xenon-135m Ci 4 26 E-2 < 2 45 E +1 3 63 E-2 <1 77 E+o '
~: xenon-13S i Ci 2.17 E -1. < 1. 90 E +P. i 7 .83 E-3 ' <2. 37 &l!
argon 41 i Ci 1 23 E +1 6 63 E +0 1 97 60 1 59 EO onnnn_ m m l Ci . E- . E . E . E I Ci . E . E . E . E unidentified Ci . E . E . E . E Total fur period Ci 1 17 E+3 l 1 23 E +3 4 55 E2 5.39 E+2 !
- 2. lodines
- l iodine 131 Ci 6 eo E -4 1 58 E -4 . E . E i iodine-133 '
Ci 6 27 E-sl 6 56 E -5 . E . E l-iodine-135 Ci <7.65 E -1 <4 . 88 E -1 . E . E l Total f or period Ci 7.43 E -4 E-2 . 24 E -4 l . . E
- 3. Particulates I
st rontium-89 Ci 8 . 92 E -11 3 . 66 E-8 E E st rontium.90 ! Ci i 1. 36 E -id 1. 02 E.8 . E . E !
I cesium l34 l Ci 3 . 64 E -7 <3 . 62 E-3 . E . E i
! cesium-137 l Ci 1 22 E -7 2 56 E.7 ' E '
E l I barium. lanthanum-140 Ci , . , , E -6 1 18 E.5 . E E :
g RRR --
Ci k.6f E -) 4 . d4 E-/ . E . E I cerium-141 nivuium-wa Ci 1.13 E -7 643 E-6 , . E . E c; ..o.
, E' "*"'
. E . E . E unidentified Ci . E . E . E . E 12
TABLE II-3 Doses to Individuals from Continuous Gaseous Effluent Releases THIRD QUARTER Beta Air Dose = 1.14E+00 mrad /yr 1.01 miles, NW)
Gamma Air Dose = 5.lE-01 mrad /yr 1.01 miles, NW)
Whole Body Dose Organ Dose Distance Distance (Mt.) and (Mt.)and Pathway Direction Age Group Dose (mrem /yr) Direction Age Group Organ Dose (arem/yr)
Plume Immersion 1.01 9 NW Each 3.13E-01 1.01 9 NW Each Skin 1.89E-01 Ground Contamination 0.85 9 ENE Each 1.62E-03 0.85 9 ENE Each Skin 1.90E-03
+
Inhalation 1.01 9 NW Teen 3.89E-02 1.01 9 NW Teen Thyroid 4.69E-02 Vegetable Consumption 1.019 NW Child 7.57E-02 1.01 9 NW Child Thyroid 1.06E-01 Cow Milk Consumption 1.01 9 NW Infant 4.56E-02 0.85 9 ENE Infant Thyroid 1.37E+00 Goat Milk Consumption 1.019 NW Infant 9.22E-02 0.85 9 ENE Infant Thyroid _1.59E+00 Meat Consumption 1.01 9 NW Adult 6.16E-03 1.01 9 NW Child Thyroid 9.08E-03 Total 5.73E-01 3.89E+00 FOURTH QUARTER
, Beta Air Dose = 4.89E-01 mrad /yr (1.41 miles, WSW) 4 Gamma Air Dose = 2.56E-01 mrad /yr (1.41 miles, WSW)
Whole Body Dose Organ Dose Distance Distance (Mi.) and (Mt.)and Pathway Direction Age Group Dose (mrem /yr) Direction Age Groun Organ Dose (mrem /yr)
Plume Immersion 1.41 9 WSW Each 1.59E-01 1.41 9 WSW Each Skin 3.80E-01 Ground Contamination 0.85 9 ENE Each 9.31E-06 0.85 9 ENE Each Skin 1.10E-05 Inhalation 1.41 9 WSW- Teen 2.23E-02 1.41 9 WSW Teen Thyroid 2.30E-02 Vegetable Consumption 1.419 WSW ,
Child 4.30E-02 1.41 9 WSW Child Thyroid 4.93E-02 Cow Milk Consumption 1.41 9 WSW Infant 2.57E-02 0.85 9 ENE Infant Thyroid 1.79E-01 Goat Milk Consumption 1.419 WSW Infant 5.42E-01 0.85 9 ENE -
Infant Thyroid 2.35E-01 Meat Consumption 1.41 9 WSW Adult 3.49E-03 1.41 9 WSW Adult Thyroid 4.09E-03 i Total -
3.08E-01 8.70E-01 i
l
TABLE II-4 Doses to Individuals from Batch Gaseous Effluent Releases THIRD QUARTER Deta Air Dose = 5.63E-01 mrad /yr (1.01 miles, NW)
Gamma Air Dose = 2.92E-01 mrad /yr (1.01 miles, NW)
Whole Body Dose ~
Organ Dose Distance Distance
. (Mi.) and (Mi.) and Pathway Direction Age Group Dose (mrem /yr) Direction Age Group Organ Dose (mrem /yr)
Plume Immersion 1.01 0 NW Each 1.84E-01 1.01 0 NW Each Skin 4.85E-01 Ground Contamination 1.01 0 NW Each 0.00E+00 1.01 0 NW Each Each 0.00E+00 Inhalation 1.01 0 NW Teen 4.36E-08 1.01 0 NW Teen Each 4.36E-08 V: getable Consumption 1.01 0 NW Child 8.42E-08 1.01 0 NW Child Each 8.42E-08 Cow Milk Consumption 1.01 0 NW Infant 5.01E-08 1.01 0 NW Infant Each 5.01E-08 Goat Milk Consumption 1.01 0 NW Infant 1.02E-07 1.01 0 NW Infant Each 1.02E-07 Heat Consumption 1.01 0 NW Adult 6.83E-07 1.01 0 NW Adult Each 6.83E-09 I
, Total 1.84E-01 4.85E-01 FOURTH QUARTER Beta Air Dose = 2.25E-01 mrad /yr (1.41 miles, WSW)
Gamma Air Dose = 8.63E-02 mrad /yr (1.41 miles, WSW)
Whole Body Dose Organ Dose Distance Distance (Mt.) and (Mt.) and Pathway Direction Age Group Dose (mrem /yr) Direction Age Group Organ Dose (mrem /yr) l Plume Immersion 1.41 0 WSW Each 5.16E-02 1.41 0 WSW Each Skin 1.41E-01 Ground Contamination 1.41 0 WSW Each 0.00E+00 1.41 0 WSW Each Skin 0.00E+06 Inhalation 1.41 0 WSW Teen 1.18E-07 1.41 0 WSW Teen Each 1.18E-07 Vegetable Consumption 1.410 WSW Child 2.27E-07 1.41 0 WSW Child Each 2.27E-07 Ccw Milk Consumption 1.41 0 WSW Infant 1.35E-07 1.41 0 WSW Infant Each 1.35E-07 Goat Milk Consumption 1.410 WSW Infant 2.76E-07 1.41 0 WSW Infant Each 2.76E-07 Meat Consumption 1.41 0 WSW Adult 1.84E-08 1.41 0 WSW Adult Each 1.84E-08 Total 5.16E-02 1.41E-01 s
TABLE II-5 Doses to the Population from Continuous Gaseous Effluent Releases THIRD QUARTER Whole Body Dose Organ Dose Pathway (Man-Rem) Organ Dose (Man-Rem)
Plume Immersion 3.01E-02 Skin 1.04E-01 Ground Contamination 1.57E-04 Skin 1.84E-04 Inhalation 8.01E-03 Thyroid 9.20E-03 Vegetable Consumption 5.08E-03 Thyroid 1.37E-02 Milk Consumption 7.19E-04 Thyroid 4.92E-03 Meat Consumption 1.01E-03 Thyroid 1.45E-03 Total 4.50E-02 1.33E-01 FOURTH QUARTER Organ Dose Pathwat Whole Body) Dose (Man-Rem Organ Dose (Man-Rem)
Plume Immersion 4.93E-02 Skin 1.59E-01 Ground Contamination 1.79E-06 Skin 2.12E-06 Inhalation 1.44E-02 Thyroid 1.48E-02 Vegetable Consumption 8.21E-03 Thyroid 1.03E-02 Milk Consumption 1.41E-03 Thyroid 2.45E-03 Meat Consumption 1.44E-03 Thyroid 1.56E-03 Total 7.48E-02 1.88E-01 15
TABLE II-6 Doses to the Population from Batch Gaseous Effluent Releases THIRD QUARTER Whole Body Dose Organ Oose Pathway (Man-Rem) Organ Oose (Man-Rem)
Plume Immersion 1.00E-02 Skin 3.62E-02 Inhalation 5.29E-09 Each 5.29E-09 Vegetable Consumption 2.99E-09 Each 2.99E-09 Milk Consumption 4.30E-10 Each 4.30E-10 Meat Consumption 5.95E-10 Each 5.95E-10 Total 1.00E-02 3.62E-02 FOURTH GRADE Whole Body Dose Organ Dose Pathway (Man-Rem) Organ Dose (Man-Rem)
Plume Imersion 1.86E-02 Skin 6.40E-02 Inhalation 6.81E-08 Each 6.81E-08 Vegetable Consumption 3.97E-08 Each 3.07E-08 Milk Consumption 6.40E-09 Each 6.40E-09 ,
Meat Consumption 6.86E-09 Each 6.86E-09 l l
Total 1.86E-02 6.40E-02 1
er I i 16
III RELEASES OF AND DOSES FROM LIQUID EFFLUENTS There are two sources of liquid effluents released to the dischat se canal: 1) the Laundry and Hot Shower Sump and 2) the Evaporator Con-densate Storage Tanks. Both are batch type releases made through the plant liquid release monitor, Rf1L-2.
- 1. Regulatory Limits The Technical Specification limits for liquid effluent releases are as follows:
Specification 2.4.1 A. The instcntaneous concentration of radioactive materials 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 tritium and dissolved gases, shall not exceed 10 Ci/ reactor / calendar quarter.
C. The cumulativ,. release of radioactive materials in liquid waste effluent excluding tritium and dissolved gases, shall not exceed 20 Ci/ reactor in any 12 consecutive months.
D. During release of radioactive wastes, the effluent controi monitor shall be set to alarm 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 radio- -
~~
active liquid wastes pricr to their discharge when the pro-jected cumulative release could exceed 1.25 Ci/ reactor / calendar quarter, excluding tritium and dissolved gases.
G. The maximum radioactivity to be contained in any liquid rad-waste tank that can be discharged directly to the environs shall not exceed 10 Ci, excluding tritium and dissolved gases.
H. If the cumulative release of radioactive materials in liquid effluents, excluding tritium and dissolved gases, exceeds 2.5 Ci/ reactor / calendar quarter, the licensee shall make an in-vestigation to identify the causes for such releases, define and initiate a program.of action to reduce such releases to the design objective levels listed in Section 2.4, and a report of these actions shall be made to the USNRC in accord-ancewithSection5.6.2.C(l).
17
- 2. Maximum Permissible Concentrations The maximum permissible concentration values used in determining allow-able liquid radwaste release conceritrations are taken from 10 CFR Part 20, Appendix B, Table II, Column 2. Release rate and dilution ratio for each batch are detennined by a mixed nuclide MPC calculation performed before the release of the batch. To facilitate the measurements and calculations, the nuclides 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 gama emitting nuclides specifically
, noted in Figure III-l 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 computed from the measured data for that sample.
Only twg pure beta emitters, Sr-89 and Sr-90, have MPC values less than 9 x 10- uCi/ml. Individual measurements are made on proportional 4
composite liquid radwaste samples to determine the Sr-89 and Sr-90 concentration or MDA value to be applied to individual batch release 4
calculations.
Although the MPC limit for tritium is greater than 9 x 10-6 uCi/ml, a separate measurement is made for tritium. A distillation and liquid 4 scintillation counting technique is used to measure tritium concentration.
' These measured and calculated concentration values for each batch are used to calculate the dilution ratio, release 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 i
assure that quarterly and annual release limits are not exceeded. Bases used for the data of Table III-l are as follows:
A. Fission and activation products - The total release values (not including tritium, gases, alpha) are comprised of the sum of the '
individual 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 effluent. .
- Percent of applicable limit is determined from a mixed nuclide f1PC i
calculation. The average concentration for each nuclide sunined, over all batches is divided by the corresponding individual itPC i' value. The sum over all nuclides of the Ci/MPC1 ratios times 100 j
is the percent of applicable limit for effluent releases during the quarter.
l B. Tritium - The measured tritium concentration in a composite sample is used to calculate the total release and average diluted concen-tration during each perio by the MPC limit 3 x 10 g. uCi/ml, Averageisdiluted concentration converted to percent divided to give the percent of applicable limit.
1 18
C. Dissolved and entrained gases - Concentrations of dissolved and entrained gases in liquid effluents are measured monthly by Ge(Li) spectroscopy on a one liter sample from a representative liquid radwaste batch. Dissolved and entrained gases for which measured or MDA concentrations 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, 0-133m, 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 performed because it would not provide addi-tional information.
A consegvative release limit, the maximum sensitivity limit of 4 x 10~ pCi/ml of each dissolved and entrained radionuclide as specified in Table Note 5, Table 2.4-1, Environmental Technical Specifications, has been applied in determining the percent of applicable limit.
- 3. Measurements and Approximations of Total Radioactivity Datails of the analytical procedures for liquid radwaste analysis are as follows:
Measurement Frequency Method
- 1. Gama Isotopic Each Batch Ge(L1) spectrometry with on-line computer
- 2. Gross Beta Each Batch Liquid scintillation
- 3. Sr-89 Monthly Composite Chemical separation and gas flow proportional counting
- 4. Sr-90 Monthly Compot te i Chemical separation and gas flow proportional counting
- 5. Tri tium Monthly Composite Distillation and liquid Alpha scintillation counting
- 6. Monthly Composite Gas flow proportional countin
- 7. Dissolved Gases One Batch / Month Ge(L1) gspectrometry with on-line computer
~
Estimated errors are based on errors in counting equipment calibration, -
counting statistics, non-steady release flow rate, chemical yield factors, sampling and mixing losses, and volume determinations.
A. Fission and Activation products Total Release as calculated for each batch.
Statistical Error at MDA 60%
Waste Volume 10%
Counting Equipment Calibration 10%
Sampling and Mixing 20%
100%
19
B. Total Tritium Release as calculated from a monthly composite .
Waste Volume 10%
Counting Equipment Calibration 10%
Sampling and Mixing- 20%
"TDY C. Dissolved and Entrained Gases Total Release as calculated from one batch per month.
Statistical Error at MDA 60%
Waste Volume 10% '
Counting Equipment Calibration 10%
Sampling and Mixing 20%
TDM D. Total Gross Alpha Radioactivity Release as calculated from a monthly composite.
Statistical Error at MDA 60%
Waste Volume 10%
Counting Equipment Calibration 10%
Sampling and Mixing 20%
100%
- 4. Batch and unplanned Releases The batch liquid effluent releases may be surmiarized as follows:
Third Fourth Quarter Quarter Number of Batch Releases 4.70E+01 6.60E+01 Total Time for all Releases (minutes) 1.08E+04 1.38E+04 Maximum Time for any one Release (minutes) 9.80E+02 5.05E+02 Average Time for all Releases (minutes) 2.28E+02 2.09E+02 Minimum time for any one Release (minutes) 7.00E+01 8.00E+01 Average dilution flow during all Releases 5.23E+06 3.76E+06 (liters / minute) ,
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 summation of nuclides in liquid effluent releases is in Table III-2.
l The doses to individuals from liquid effluent releases are in
' Table III-3 and the doses to the population from liquid effluent releases are in Table III-4.
t
[
l l
20 i
Figure III-l METHODS OF MEETING 10 CFR 20, APPENDIX B, TABLE II, COLUMN 2 MPC LIMITS MPC RANGE GAMMA-RAY BETA ALPHA (uC1/ml) EMITTERS EMITTERS EMITTERS I-131,I-132,I-133 Sr-89, Sr-90 I-135, Cs-134 (Separation and Gas
<9 x 10-6 Flow Counting)
(Ge(Li) Gamma-Ray Spectroscopy) ALL (Gas Flow Counting Sensjtivity pC/ml as Pu-239)
Ba-La-140,Na-24,Cu-64 Tritium Co-60,Fe-59,Zn-65 (Distillation and Liquid Scintil-
>9 x 10-6 Ag-110m, Mn-54, Co-58 lati n Counting uCi/ml)
Zr-Nb-95, Cs-Ba-137 As-76, F-18, Cr-51 All others Np-2i . Ce-141
. (Liquid Scintillation Counting b uCi/ml c3 Cs-137)
Mo-Tc-99, Ce-Pr-144 (Ge(Li) Gamma-Ray Spectroscopy)
I i
l 21
TABLE III-1 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT -1977 LIQUID EFFLUENTS-SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total 3 4 Error, %
A. Fission and activation products l
- 1. Total release (not including tritium, !
gases, alpha) Ci 9 . 75 E-3 4 . 80 E -3 1.00 E+2
- 2. Average diluted concentration during period pCi/ml 4 09 E-1c 4 96 E.10
- 3. Percent of applicable limit % 7 :84 E -2 5 49 E_3 B. Tritium
- 1. Total release Ci 4 75 E+1 8 54 F41 4 00 E*1 ;
- 2. Average diluted concentration during period pCi/mi 2 .00 E-6 2. 39 E6 i
- 3. Percent of applicable limit % y .gg E ,,, ., . q , E, C. Dissolved and entrained gases
- 1. Total release Ci 3 15 E-3 6 71 F-2 1 00 E +2
- 2. Average diluted concentration during period pCi/ml 1.32 E-1C 1. 88 E 9
- 3. Percent of applicable limit % 1 32 E-3 1 88 E.2 __
D. Gross alpha radioactivity
- 1. Total release Ci 4 12 E_5 1 39 E -5 1 00 E+2 E. Volume of waste released (prior to dilution) liters 9 73 E+0g 1 46 14 6 1 00 F+1 F. Volume of dilution water used during period liters g . gg E 3g 3 3g E 3g 3 .gg E3 22
TABLE HI-2 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT LIQUID EFFLUENTS CONTINUOUS MODE BATCH MODE Nuclides Released Unit Quarter 3 Quarter 4 Quarter 3 Quarter 4 st rontium,89 Ci E
. . E <2 32 E-5 4 . 48 E-s stiontium 90 Ci E E
. . <p.v E-5 4 07 E-E cesium 134 Ci E E 4 26 E-5 1. 76 E-4 cesium-137 Ci . E . E 2.44 E-4 8 . 80 E-4 iodine-131 Ci E E-5 58 E-3 4 85 E -a cobalt-58 Ci . E . E 3.53 E-3 2 . 40 E-3 cobalt.60 Ci . E . E 1 23 E-4 , 1 94 E -4 iron-59 Ci E E 6 21 E-s l<1 81 E -4 zi... 65 Ci E
. . E <1.15 E-4 5 . 35 E-E
' manganese.54 Ci E
. . E 7.92 E-5 1. 96 E-4 chromium 5 i Ci E E 2 30 E-5 <7 26 E -4 zirconium -95 Ci E molybdenum-90
. . E 7.18 E-6 <1. 31 E4 Ci E E technetium.99m 3 04 E-6 4 60 Es Ci . E . E g. so E-6 <5 23 E-e barium. 140 Ci E E 3. go E-s eerium-141 Ci 2 58 E5 l E
. . E <1 36 E-4 <1.17 E t niobium-95 Ci E
. . E 3 03 E-5 6 .18 E.6 lanthanum - 140 Ci E E silver - 110m
<7 01 E-5 <8 79 E.5 Ci . E E 1. 08 E-6 -
. E sodium - 24 Ci E
. . E . E 5 .' 62 E.6 86BBP 6P Ci . E E E 1$t M d . 82108 Ci E E
__ . . . E y . sg is8 l Total for period (above) Ci E
. . E 9 75 E-3 4 . 70 E-3 xenon 133 Ci E
. . E 2 94 E -3 1 71 E-2 xenon 135 Ci E
. . E g og E.+o g,.co E+o 23 l
l .
TABLE III-3 Doses to Individuals from Liquid Effluent Releases THIRO QUARTER Whole Body Dose Organ Dose Pathway Age Group Dose (mrem /yr) Age Group Organ Dose (mrem /yr)
Fish Adult 2.50E-04 Adult Thyroid 3.22E-03 Invertebrates Adult 1.35E-04 Adult Thyroid 3.67E-03 Shoreline Use Teen 4.41E-05' Teen Skin 5.16E-05 Total 4.29E-04 6.94E-03 FOURTH QUARTER Whole Body Dose Organ Dose Pathway Age Group Dose (mrem /yr) Age Group Organ Dose (mrem /yr)
Fish Adult 6.39E-04 Adult GI-LLI 8.65E-04 invertebrates Adult 2.18E-04 Adult GI-LLI 5.93E-04 Shoreline Use Teen 1.53E-04 Teen Skin 1.79E-04 Total 1.01E-03 1.64E-03 e
J l
24 l
. TABLE III-4 Doses to the Population from Liquid Effluent Releases TilIRD QUARTER Whole Body Dose Organ Dose Pathway (Man-Rem) Organ Dose (Man-Rem)
Scart Fish 6.70E-03 Thyroid 3.63E-02 tomercial Fish 6.82E-05 Thyroid 2.44E-04 Sport Invertebrate 5.31.E-03 Th'yroid 5.80E-02 Comercial Invertebrate 3.65E-05 Thyrot'd 2.55E-04 Shoreline Use 1.97E-04 Skin 2.31E-04 Swi ming 5.22E-06 Thyroid 5.22E-06 Boating 5.22E-06 Thyroid 5.22E-06 Total 4.41E-02 9.50E-02 FOURTH QUARTER .
Whole Body Dose Organ Dose Pathway (Man-Rem) Organ Dose (Man-Rem)
Sport Fish 1.74E-02 GI-LLI 2.18E-02 Comercial Fish 1.79E-04 GI-LLI 2.19E-04 Sport Invertebrate 9.16E-03: GI-LLI 2.18E-02 Commercial Invertebrate 6.52E-05 GI-LLI 1.52E-04 Shoreline Use 6.86E-04. Skin 8.02E-04 Swiming 4.68E-06 Thyroid Boating 4.68E-06 4.68E-06 Thyroid 4.68E-06 Total 2.75E-02 4.48E-02 e
25
IV SOLID WASTE SHIPMENTS Solid waste shipments from the plant may include irradiated fuel, solidified 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 compo-sition shall be determined by measurement or estimates for all radioactive solid waste shipped offsite.
B. Reports of the radioactive solid waste shipments, volumes, principle radionuclides, and total curie quantity, shall be submitted in accordance with Section 5.6.1.
The summation of solid waste and irradiated fuel shipments is in Table IV-1.
6 26
TABLE IV-1 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT - 1977 SOLID WASTE AND IRRADIATED FUEL SHIPMENTS A. SOLID WASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Not irradiated fuel)
Second
- 1. Type of waste 6-month Est. To tal
. unit Period Error. %
- a. Spent resins, filter sludges, evaport. tor m3 2.8 E +2 bottoms, etc. Ci 2 , 57 E +0 3. 76 E+1 3
- b. Dry compressible waste, contaminated m 1.5 E +1 equip, etc. Ci 5.2 E -1 6.5 E+1
- c. Irradiated components, control m' . E rods, etc. Ci . E . E l 3
- d. Other (describe) m . E Ci . E . E
- 2. Estimate of maior nuclide composition (by type of waste)
- 3. Co-58 % 97 E +1 Co-60 % 1.o E+o Mn-54 % 10 E +o Cs-137 % 1. 0 E+o 4 b. Co-58 % 97 E+1 Co-60 % 10 E+o Mn-54 % 10 E+o cc 117 % l.0 E+0
~
- c. % . E -
- d. % . E
% . E'
. % . E
- 3. Solid Waste Disposition Number of Shipments Mode of Transportation Destination 21 Chem-Nuclear Transport Chem-Nuclear System Inc Truck - Exclusive Use of Vehicle Barnwell, SC B. IRRADIATED FUEL SHIPMENTS (Disposition)
Number of Shipments Mode of Transportation Destination None NR NR
V METEOROLOGICAL DATA i
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 (con-current with batch gaseous effluent releases - Third Quarter), and V-4 (concurrent with batch gaseous effluent releases - Fourth Quarter).
The classification 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 -1.7 to -1.5 Neutral D -1.5 to -0.5 Slightly stable E -0.5 to 1.5 Moderat>;1y stable F 1.5 to 4.0 Extremeiy stable G >4.0 The data recovery rate for the third quarter was 98.2% and for the fourth quarter it was 97.6%. For the second six months of 1977, the data recovery rate was 97.9% and for the year,1977, it was 96.9%. .
i 4 ,
e e
l l
28 4
TABLE V-1
~
i FLORIDA POWER CORPORATION
, . . ,: HOURS AT EACH WIND SPEED AND DIRECTION
.i
_. PERIOD _OF RECORD - JULY 1, 1977 THROUGH. SEPTEMBER 30,.1977 _ . _ . . _ _ _ _
STABILITY CLASS -A ELEVATION -
33 FT.
- WINO
_ WIND SPEED (MPH)
DIR 1-3 4-7 8-12 13-18 19-24 . 2 4 *- TOTAL N O O O O O O O
. NNE 1 .. . 0 0 0 0 o _ _ , ,, , 1 ,
l NE 1 1 0 1 0 0 3 ENE O 6 13 1 0 0 20
.. E O. 19 18 .. 19_ 0 _. O ___ . 56
~
ESE O 8 19 1 0 0 28 SE O 8 8 0 0 0 16 SSE I 10 11 0 0 0 22 5 0 7 9 0 0 0 16
_ SSW 0 10 12 0 0 0 22
.SW . 1 _. .. . 10 33 . _ . 4 . _ ... O__ . 0___ . 48
~
WSW 2 43 57 2 0 0 104 , _
W 4 38 59 0 0 0 101
?u WNW. . .O_ 18 37 1 0 . 0 . _ . ._ 56 _..
, .r' NW 0 2 4 0 0 0 6
_,,- NNW 0 0 0 1 0 0 1 t TOTAL 10. 180 280 30 0 0 500
. ,1 PERIODS OF CALM (HCURS) -
28
^ I, A-i 6 4 29
( Table V-1
~
s FLORIDA POWER CORPORATION I.
HOURS AT EACH WIND SPEED AND'0IRECTION
, _, PERIOD OF RECORD - JULY 1, 1977 THROUGH. SEPTEMBER 30, 1977 STABILITY CLASS -8 I ELEVATION -
33 FT.
WINO WIND SPEED (MPH)
, DIR 1-3 4-7 8-12 13-18 .. 19-24. . . _ 24+ . . . _ TOTAL N O O O O O O O NNE O O O O O O O NE O O O O O O O ENE 1 5 4 0 0 0 10 E 1 6 8 0 1 0 16 ESE 1 7 2 0 0 0 10 SE O 7 4 0 0 0 11 SSE 1 6 1 1 0 0 9 S 1 2 1 0 0 0 4
, SSW 1 7 2 0 0 0 10 SW L 16 4 0 0 0 21 1
i
^
WSW 5 9 2 0 0 0 16 -
's W 0 4 4 1 0 0~ 9-
.B
's WNW 1 6 2 1 0 0 10
., i ;
, 4; NW 0 1 4 0 0 0 5 e NNW 0 0 0 0 0 0 0 r
.. . TOTAL _.. 13 76 38 4 0 0 131
- c. PERIODS OF CALM (HCURS) -
1 ei ,
44 i9 2,
3 5 si
~
30
F TABLE V-1 I
FLORIDA POWER CORPORATION HOURS AT EACH WIND SPEED AND DIRECTION f}
'~I.__ PERIOD OF RECORD - JULY le 1977 THROUGH SEPTEMBER 3 0 ,_19 7 7.._ .. _ _ _ _ . . _ _
STABILITY CLASS -C ELEVATION -
33 FT.
.:_ WIND .... WIND SPEED .(MPH) __. __ .. . . . _.
l DIR l-3 4-7 8-12 13-18 19-24 24+ TOTAL
_ N O O O O O O O
" . _ . NNE. 0 _ __ . _ 0 1 0 . . _ _ 0 ._ . 0 .._ ..1 _
NE O 2 1 0 0 0 3 ENE 1 2 0 0 0 0 3
/ _ E 1 7 5 1__.._. __0__ _ 0 ___ . 14 ESE 1 2 2 0 0 0 5 l
SE o 0 1 0 0 0 1 SSE 1 2 0 _. 0 .. 0 0 3 S 0 3 0 0 0 0 3
_ SSW l 3 1 0 0 0 5
. SW . 0 6 1 ......O._..____0____ .._0 _.7 . .
~
WSW 2 10 1 0 0 0 13 -
~
i W 0 3 1 0 0 0 4 WNW 0 4 4 0 0 0 8 NW 0 1 2 0 0 0 3
- NNW 0
..: 0 0 0 0 0 0
- . TOTAL.. 7 45 20 1 0 0 73
'd i PERIGOS OF CALM (HOURS) -
3 n
.I t
A -
31 e
TABLE V-1 1
FLORIDA POWER CORPORATION I HOURS AT EACH WIND SPEED AND' DIRECTION
____ PERIOD OF RECORD - JULY le 1977 THROUGH SEPTEMBER.30, 1977_. . ..
STA8!LITY CLASS -D i
ELEVATION -
33 FT.
',, WINO WIND SPEED (MPH)
DIR , l-3 . , _ . 4-7 8-12 13-18 ,19-24_ , _ _
- i _ -
24+ TOTAL N O O O O O O.--. O NNE O 1 2 0 0 0 3 NE 1 7 12 0 0 0 20 ENE 3 34 20 0 0 0 57 E 13 31 27 1 0 0 72 ESE 7 27 6 0 0 0 40 SE 9 20 6 0 0 0 35 SSE ,, 9 16 8_,_ 2 _ _0 . , , 0 ,35
'S 5 8 6 1 0 0 20 SSW 4 6 2 2 0 0 14 SW 6 19 7 2 0 a
0 34 WSW 7 21 28 2 0
~
c 0 58
- '4 W 3 12 11 1 0 0 27 J'
WNW 3 25 6 0 0 0 34
.. .P.
>$ NW 2 11 6 0 0 0
- (
19
' _E NNW 0 1 1 0 0 0 2
- 4t TOTAL 72 239 148 11 0 0 470
- .9.^
.i f, . . PERIODS OF CALM (HCURS) -
22 ~~
1 M r. .
32 --
TABLE V-1
' ' ~ ~~ ~~
FLORIDA POWER CORPORATIGN HOURS AT EACH WIND SPEED AND DIRECTION L}
_ _. PERIOD.0F RECORD - JULY 1, 1977 THROUGH ..S EPTEMBER 30 e.197.7 . ._.. . _ _ _ _ .
. STABILITY CLASS -E r
ELEVATION -
33 FT.
s
. . . . . WIND . WIND SPEED (MPH) .. . .
DIR 1-3 d-7 8-12 13-18 19-24 24+ TOTAL
- i. N O 1 0 0 0 0 1
'_ NNE ... .. 3 8 0 _ 0 . 0 _._.. 0 __. . _11 ._ _. . 1 NE 6 17 2 0 0 0 25 5 l
, ENE 33 83 5 0 0 0 121
_..E 31 . 78 0 . 0 _.O. 0 . ._. . . . 109 ESE 28 36 1 0 0 0 65 SE 16 43 2 0 0 0 61 SSE 9 27 0 0 0 0 36 5 2 8 2 0 0 0 12 SSW 4 7 3 0 0 0 14 SW 5 5 7 1 0 0 18.
^
WSW 0 21 12 0 0 0 33 -
,;, W 0 10 8 0 0 0 18 n
.E .WNW _ _ _ . 6_ 13 5 . 0 ...._.0 0_ . 24 n .'u r.; NW L 12 3 0 0 0 16 3
~
. .r; NNW 2 2 0 0 0 0 4
..r
[;... TOTAL _146 .... 371 50 1 .._.0 0 _. . 568 1:
'.', PERIGOS OF CALM (HCURS) -
55 i e5 j L*.
1 m-3.3
TABLE V-1 f FLORIDA POWER CORPORATION HOURS AT EACH WIND SPEED AND ' DIRECTION PERIGO OF RECORO - JULY 1, 1977 THROUGH SEPTEMBER 30, 1977 STABILITY CLASS -F ELEVATION ~' -
33 FT.
l WIND . WIND SPEED (MPH)
DIR 1-3 19-24 . , , _
- . 4-7 8-12 13-18 24+ TOTAL
~~
N O O O O O O 0
- , . . . . _ .N N E _ _
3 ..
1 0 ..
0 0 0 4 NE O 1 1 0 0 0 2 ENE 11 32 2 0 0 0 45 E 35 41 0 0 0 0 76 ESE 36 23 2 'O O O. 61 SE 18 13 0 0 0 0 31 SSE 5 1 1 O, 7
. _ . O. 0. _ . .
S 1 1 0 0 0 0 2 SSW 1 1 0 0 0 0 2
. .SW. _ _ . 1 .. . _ 0 0 0 0 0 __ . . 1 WSW 0 0 0 0 0 0 0 -
C' ...
- 2 W 0 1 0 0 0 0 1 p.
p WNW 0 0 1 0 0 0 1
-M y NW 0 2 0 0 0 0 2
,8 '. NNW 1~ 1 0 0 0 0 2
/'w[
~ ..._ TOTAL. 1 13 .. _ 118 6 .
O __ . 0 0 237 w . ._
f . PERIGOS OF CALM (HCURS) -
34 mf k:
$; I
.g !
34
TABLE V-1 FLORIDA POWER CORPORATION HOURS AT EACH WIND SPEED AND DIRECTION L .V
- s. . PERIOD.0F RECORO - JULY 1, 1977 THROUGH_ SEPTEMBER 30,_1977____ . . . _ _ _ . . _
STABILITY CLASS -G ELEVATION -
33 FT.
WIND WIND SPEED (MPH)
DIR 1-3 4-7 8-12 13-18 19-24 24+ . TOTAL N O O O O O O O NNE. _. 0 .. . 0 0 0 ..._0.__. _0.._. O _ . . _ _ .
NE O 1 0 0 0 0 1 1
ENE 3 0 0 0 0 0 3
.. E 13 _ 5 0.._..0 . _ 0 _ _. . O _. ._. _ 18 ESE 7 3 0 0 0 0 10 SE 1 3 0 0 . 0 0 4 SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 1 0 0 0 0 0 1
..SW. 0 0 0 _. 0 . _. 0 _0
___ _ _ 0 _. _
WSW 0 0 0 0 0 0 0 v __
'd W 0 0 0 0 0 0 0 7
,l' _ _ _ WNW ..__.0 0 0 0
.. .0 O. .0 . .
n -
NW 0 0 0 0 0 0 0
_ . , NNW 0 0 0 0 0 0 0 v,
".. . __ _ T O T A L . __ _., 2 5 12 0 0 0 0 37 n;
41
.o. PERIODS OF CALM (HOURS) -
9 v
^
g.
I l 35 l
l
TABLE V-2 Elf'l f r/ ' lN R t HPJOR A T I J'l Hl'llR $ .? T ' .) 14 7.J41' * 'rt al Afl!! D,lP.rCTION Pi f 100 CF Frc:len ::rTCitC1 1, 1977 TrFnUGH OCC 6f'F FF 31, 1977
( I ABI LIT Y CL4'in -/
l ' V4 T [(?f 4 -
!? FT.
n ! .'io n.1 4n e. lir [ L) (t t ril )
l Tu 1-3 4_7 3_in 13-13 19 24 74+
T
__'J T A L N 1 0 3 2 0 0 2 NK 0 1
':- 1 0 0 11 5'
4 ) 7 33 5 0 0 45 et! *
- 3 3J 3 0 0 63
) 15 3J 0 0 0 . 52 CC" ? 2 2*. 4 0 0 28
. Sc ) 7 + G 0 m ,11 e5 ') I' 4 0 0 a 7 5 0 5 30 1 0 *) '6 TSd 2
~
14 2 0 0 27
.c 4 1 2 5 0 0 0 8 wc# 4- 21 15 0 ') o 47
__ -a ]- 23 34 1 0 0 Sd AW 4
- 31- 12 4 0 .55
. M. 2 ? 0 12 5 0 30 i' k.4 . ') 7. 2 3 0 g 7 T CTt.L !? 115 278 46 9 0 461 P' o 1095 GF. C o l 4 ( FCdi b - '?
A 36 J
LC w
'O -
( s til.~ 4 ) k 'l V 3 - 30 5 301 % i o
j 601 0 5 Il 24 09 C' 17AJL 1
5 0 0 0 6 i C HNN ZI O E E t ? O MN -
G 0 1 0 E t i "NM.
v 2 0 0 C 't I O M o 0 0 0 0 L ( %9 _
E O C 0 C i t vs 6 0 I i 4 f r P 5 ',,
7 C 's T C 2 c S 5 0 0 0 0 E C _55 9 0 0 2 1 ; C si 9 0 0 0 2 : L ?33 OT C 0 0
- s 1 .:
CI O C 1 1 v t atre ZI O O 2 5 G 0 liti B O O I T 9 C IVJ 0 0 0 0 0 0 ( t.
1V101 472 9;-61 61-ti 27-9 L-9 E-i 31(1 (Hdh) 03345 GN!:d D N 1 **
- J :! c :. -
f40livA 111 H- S S ( "l 3 A 1 1"l 1 H v i ',
IL61 81 C 330r.3350 HODOdH .4461
- T 'edW:1.10 - U dO 3 d b 20 001 H0 d tJU I13:1',311J ONY si J:Jdt. .lHAM D 3 6. 1/ St00H tJf'11/Wed es0 ; WQ J .:11 Jt!"Id 2-l 319V1
- i
'I h
- {.
A
.v 0 - ( t. -is Oii ) N 1 V' d J Sull!_ti:l'd' st 0 1 E 91 t. ? S lv 3L I C C 0 I- 0 i ANN 2 C 1 O I C C MN .,
9 C C 1 I 4 0 VNM C 0 0 C C F 't '4 L
~'
~
C 0 0 0 i t t M5" -
5 0 0 0 E i *$
- O 0 ; ;
C 0 M P3 i G C C 0 I L S i 0 0 C C I C .53 2 0 0 0 t t t :S 0 0 C 0 0 L ( uS 1 i C 0 0 O .: 0 .
L 0 0 0 v i t. :.4
- 9 0 0 0 0
, I +i 'i'J C 0 0 0 ? i 0 :sM 0 0 0 C 0 C L' N 19101 +t? 92-61 R '. - C I 77-0 L-* i-i Elu
( tidW) 0 3 7.d 5 'I'J I V. .% I M 4
- J :l ET -
N J11 (A : 1.
J- USV'la ALIllhVis LL61 *(C :r.;uwd330 HOf O'4141 LL6i 'I hbhD1)0 -
0 JD'J'fo d.1 00 l 'el d d NCIIDd f!'d J N i u E d C '.le. M 117. 17 Sh10ll N( ! .tV ti.1.1 ?!0.8 h ." J 6: v J1 titel:d 2-A 3'19V1 -
a
b L
L-l t TABLE V-2
- LUT; Ir
- r C ,.e 4 COgFORSTI W UOLo.% T " ACit 1. ! Al' 50f Cl if40 0.g u r.c 3 g.jtj F rr g ryg ep - p e:CUF J - l'C T Cdf i le 1977 f *tF "tJllH 06CCPiD r. 31, 1977 STARILITY CLASS -
0
- ' L t v s T 10 t4 - ;J F i.
l i
.v ! T '! ! '.O e,PPTO (MPH) l rIa 1-3 '
a-7 6-12 13-10 13-24 34+ 1 r)T.s t t1 ) 0 13 1 0 0 11 i
tit.: 2 id 2J l 0 0 44 l
ld l. *9 SJ 11 J 0 77
'V , .- . 1, 3 0 %
l 2 12 13 0 1 0 35 l
' SF i J 7 0 . 0 0 18 gr ; u 13, , e c 21 S'. 'i c 9 1 0 0 21 -
T
- 7 7 it 1 0 2:
S!h 1 .) 4 2 1 0 20 FW + 17 11 1 0 0 33 n r.s 7 11 7 0 0 rr 25 ,
l.. -
h 3 0 a 3 0 0 20 -
I WNb 3 J I. ! 3 6 0 3d Nh ' 12 3 5 6 0 35 i
i .., . f4 h WL 1
( F Cip't ) -
O i
^
F 39 l
l
- i. .;
t L
TABLE V-2 l
FLtF10* r e.' H '* 4 e. t.t R P O't t T I ON li.)L C $ ~ t.i '* A C il ' IFt 5:l' F t. ti t.fil) O l e' C T [ UN rrP !.I'1 ' CF C cCORD '11C's 0Vi t 1, 197 7' T.4!10GH CFCSMB" 31, 1977
'aTeeILITV CLASS- -
' L '~ Vt. T !C tl -
70 FT.
n INI' w i Nlt S P'. r. D UIPH I
- r. I R 13 4-7 8- 1,2 13 1.8 19-24 24 + TOTAL fl 1 3' 4 0 J 0 7 n t:e: 2 19 )7 3 o o 3 :3 f.T 2 le t- 3 4 iJ 0 70
.F: 2 !? '
4 J 0 0 77 e- o 10 0 1 0 0 32 Ffe 13 ;3 0 0 0 0 73 EC 3 13 4 e n G c o'
- S" .3. I C- 7 0 0 0 33 5 2 V 17 10 0 9 38
( F .. I l' -* 11 0 0 28 5 k. 6 10 5 1 0 0 22 w D. 13 2; 1 0 0 0 33 ,
., w 7 22 s 3 0 0 30 .
hAd -
4 le if 0 0 0 35 Ph 9 18 4 1 0 0 32 r.
NAW 3 14 IL J 0 0 c' T ri a t ~ 73 ;i): 19.) 30 0 1 Sao
. C C R I O D S ' C F C A LM ' ( F Ct'>'!- ) -
0 40
m
+ . - - __
il
- 1 > ._
1YE73 A-2 a,
210te li; > i. J*. . r a 1 01.didvA1.nr
' PunMS V.f ; t3H M I N1 31.J 1:0 7N0 ITI5,.) L. litN d211)tO od o.100s> 0 - 1t110113 r I* ILLL 1HJDOOH J53,rJr A f o E l' (6LL .
SLd4111LA ;1115 -d aluA9110,1 -
ti 31*
" ! .?it 160 5d330 ) tidH (
O!t 7-0 9-L 9-70 li-s9 ' 16 29+ A01vI
____ __ ____ ____ ____ ___ _9 ____ ____-
4 0 0 i 0 0 0 L N92 I II e 0 0 v 20 l
i N i. C iY 9 0 0 0 20 i e J:a 4 :9 !i 0 0 0 5v i t EG (* 0 0 0 9C Jin 4 TG 0 0 0 0 1L
- s. i .s
'0 0 0 13
- 53. - 9 C 0 0 0 0 5
s
- 0 0 0 0 0 .
i iS" i i i C 0 C L 3M 1 ' 1 C O O E MSM -
I I 0 0 0 G ~~
~
- t i 0 0 0 0 iO
- NM L 2 0 0 0 0 6 NM 1 i 0 0 0 0 t0
NVM C 7 0 0 0 0 ,f l
101vl 40 14J iv o 0 0 220 l
l 3 3 m 10GS D d ' J' v l~W L I 4 301:S( -
0 w
~
l
-tL I
?)
w 0 ( wn3il 61V) dB S00!bJJ 561 0 0 0 51 UI( ;) 'Iv1J1 0 0 0 0 0 ( 2 rd.N J I O O O O C i M r4 I O O C 0 0 ( MNM
~
O O O O O O O M l 2 0 0 >J L w 2 PSM '
t 0 0 0 C i. E M3 l i 0 0 L 0 i *3i 5 0 0 0 0 (
- a 9 0 0 0 0 9 7
- 3 :.
[
ul v O v L
- i' 9 ja Bi 0 0 0 0' EI C J 5 .1 ,
i E4 0 0 0 . C. ; r1 .: ,
is 0 0 0 i t: : ill i
21 0 0 0 I 9 5 1:4 Si 0 0 0 E EI ( JN4 E O O O 2 7 ( N 7V101 +t2 42-61 9T-ti ?T-9 .L-7 i-1 al0 (HdW) 09id3 ON!M ON!M
'13 i. - -
N011 Valli
'J - SS V13 Alli!elVAS 126! *If os dW3 390 H0fii.1%1.L161
- I' 60!J l'10 - O do)a t dD 001814 tJb!1.37+S10 .it;V 01 9d5 11.1 % HE 11 abnt H ni l ivbo-J co) ErJJ V11rth19 2-A 3'19V1
i TABLE V-3 FLORIDA PUwSR CORPORAL 10N
_ _ , . HCURS AT E ACil h !NI) SPEFU AND DIREC TION
. PERIOD OF RECORD - JULY 1, 1977 THROUGH S t- P Th MB E R 30,.1977__BATLH JsELEASES SIABILITY CLASS -A ELEVAilON -
33 FT.
_ W[ND W INi> SPEED (MPH)
DlR l-3 4-7 8-12 13-18 19-24 24+ 10TAL
. N O 3 0 0 0 0 0
. . . . _ N N E._ . . .__.0.____. ). 0 3 0. 0-. 0 Nb ,
1 1 ') ) 0 0 1 ENE O 1 0 3 0 0 1 h 0 3 0 ._ 0 0 0 .. 3 ESE O 2 4 ) ') 3 6
{' .
SE O 1 1 3 0 0 2
._. SSE . r. 2 9 '
3 0 11
. S 0 2 0 0 0 0 2
.- SSW 0 1 3 0 0 0 4 p___ . . S W 0 2 6 3 0 .
6 .___8
~ 3_ i W5W 0 d 9 0 0 0 17 r..
.u. w 0 3 8 0 0 0 11
^ 2r -
P ..W N W . . 0 4 0 ) 0 0 _ 4
,'i.i
^ 2*j NW 0 J 0 0 0 0 0
.s' _.
NNW 9 '.' 1 0 0 I$ TOTAL l' 29 40 3 o
0 3 70
$[___PERLODS.0FCALM-(HUURS) 18 O7 R--
y N.; 43
. b'k .
ag
'oe'
e:
i-
{ TABLE i- 3 I ~' ~ '~
- ' FLOR 10A PurvER C D P. P C R A T 10.*4 r
! HOURS AT EACil w IND SPEED AND OIRECTIUN I
, ._ PERI.OD.0F. RECORD - JULY 1, 19 7 7 THROUGH S E P T E.M8 ER 33,..1977- BATCli_ RELEASES SI ABILITY CLASS -
0
,a ELEVAT10N -
33 FT.
$*. WINO a lN D SPEED (MPil) e, DIR 1-3 4-T 8-12 13-18 19-24 24+ TOTAL L' _
_- N 3 ') 0 3 0 0 i.
0
- _._ _ N N E _ :'
P __ ._ 0 85 0 0 NE- 0 3 0 0 0 0 0
'L.
ENE 0 L 0 0 0 0 1
..__E O 2 1 0 0 O 3 ESE J 2 2 0 0 0 4 SE f 2 L i
3 SSE O i 1 0 0 0 1 S 3 1 0 0 0 0 1 SSw o T j 9 o j n
. SW 0 2 1 ) 0 . . . 0__ _ _. _ 3 . . .
wSW 0 -
0 0 0 0 0 -
, W 0 v 0 0 0 0 0
. WNW 0 1 2 0 0 0 3 NW O ') 1 O V O
. NNW G 2 0 3 0 J 0
. TOTAL 0 l
_ 11 8 ) 0 0 19 PERIOOS.OF CALM ( HotJR S ) -
1 e
?
4 44
TABLE V 3
- FLORIDA POWER COR PORA T ION
, HUUKS AT E ACH W IND $P EE0 AND 0IREC110H
_PERIOU OF RECORD - JULY 1, 1977 THROUGH SEP TEMBER 30,_1977.0ATCH_ RELEASES ST ABILITY CLASS -C tLEVAIION -
33 FT.
.__ nIND WINO $ PEED (MPH)
DIR L- 3 4-7 8-12 13-18 19-24 24+ TOTAL N O ) ') J -) 0 O
.. NNE 0.. . 0 3 0 0 0 0 NE O C O O O c ENE O s J 0 0 0 0
.E O 1 0 .0 0 0 ... . 1.
^
ESE ') L ') 0 9 1
.. Sb J G 0 0 3 0 0
'. ' . _ _ . S S E._ .
';. 1 o 3 'J 0 1
.c S O J 0 0 0 0 0 l
,[_. SSh 0 2 0 0 0 0 2
- 2.
" _ _ . SW _ _ Q 2 '
. 3 - _ 0 . _ _. 1
.2 .
wSW l 0 0 0 0 0 1 -
11:
?. W 0 0 0 0 0 0 0 -
^ 19.- -
3*: WNW_... J q 0 .) 0 0 _ .0 "t
r V NW 0
,,I. 1 0 0 0 1 1
_ f.$ NNW 0 .' 3 0 0 e 0 49 4: IUTAI 'l o 2 0 . 0.. L. ._ .9
?
!d -
l P.__,P.ER1005 UF CALM (HOURa) -
0 l
^id ct r- 4
~
j
,V .45 q.y u
.'Ut
TABLE V .
FLOR 10 A POWER CORPORAT10N HOURS AT ' E ACH .140 SP eel) AND DIREC TIUN l P Eft !.00 ,U F, ,R ECOR D . - J U L Y 1, 1977 THROUGH SE P TEMB E R_ 3 J ,_l,917_B_A TCH _RE L E AS E S
[' .
! STABILITY. CLASS. -D 1
1 ELEVATION -
33 FT.
..=..
.? _ WIND W140 SPEED (MPH) ~
.' DIK 1-3 4-7 8-12 13-18 19-24 24+ TOTAL
,1- ,
N 0 0 0 0 0 0 0
. NNE _. 0 .. i o 7 .. ._ _0_ 1. ___ _
.._ t .
'h NE O 0 0 0 0 0 0 s
~
g ENE O 4 1 0 1 0 5 E _
9 2 _.
1 o '.1 .
6 ESE 2 7 1 0 0 0 10
~
- 5 ti 3 3 1 ) 't 1 7 SSE 0 3 0 0 9 0 3 S O 2 1 ? O O 3 SSw 0 q 1 O' i 1 SW 0 3 1 0 .___0 . . . ._0__ 4 wSW 0 6 7 0 0 0 13 -
,., W G - 1 .) ) t, 1
.___ WNW 0 1 0 0 0 0 1
.' NW C 2 1 0 ') 0 3 1, NNW 0 0 0 0 0 1 0
. TOTAL . . _ . . 9 _ 32 16 0 0 0 57 4' .
.T.~
. ____.PER1005 0F CALM (HOUhSI - 3
.n:
4-m- 46
.. O 4 %
l' o .
t
_ _ _ g,. .
LV $v I
-Q -,
PW
!YT S -
(SHOOH) W'1V3 30 S00133d is, i>l
- t 48 0 0 C ET c. 4 ~ 97 "' IVrni e, W
0 0 0 0 0 0 L MNN !E '
---n 1 0 0 0 0 1 0 MN {g
. at o
E D P C 2 I * "' M N M - h,
'O st's O O C D 0 0 M 'ri
.i E1 0 0 0 8 9 0 MSM ,
E o o o z 3 1
- -~ u s ~it "U
E O O O 1 1 1 MSS ,'
t 1 6 0 0 C 1 0 S 7 . 0 0 0 0 1 1 BSS ~~i
=-
91 0' O C 1 C1 4 as .
II O O b t. 6 1 359 El C 0 C C 6 4
~
3 11 0 0 C- 1 11 4 3N3 I 9 U C i- 0 1 3N .
T- 0 0 0 C C --1
~3NN
~
0 i 0 t 0 i- 0 N .
lV101 +47 42-61 81-01 21-R l-4 E-1 EIO (HdW) 033dS UN!" ONIM -T .
- 1d ff -
N011VA313 ...
".~
3- SSV13 A11110Vl?
SBSVH13B H31VB 116T'OE H39W31d3S Hen 0MH1 1161 'I A10r .08n33'd 30 001 Mad
'-~
Unll33U10 ONV 034aS UNIM H3v3 IV RNnnH ND11VM0dbn3 M9M0d V 013013 I-A 378V1
.l
TABLE V-;3
~' t~ FLORIDA PUwER t,URPORATION HOURS AT EACH nl:40 SPFFU AND ,91RECTION
..PE.RIUD..OE. RECORD.- JULY le 1977 THROUGH SEPTEMBER 30,.1977_ BATCH _ RELEASES
- SI Ad!LITY CLASS -
F
.L._
, ELEVATION -
33 FT.
.._ WIND WIND SPEED (MPH)
J Dia 1-3 4-7 6-12 13-18 19-24 24+ TOTAL
- N O ) 0 0 0 0 0
. _ _ Ni4 E 1_ . i
, ') 0 0 1 a
.i NE O 1 0 0 0 0 1 n
'ENE 3 4 2 0 0 0 9
' _ . _ E. 3 9 t) O t) fl 12
. ESE 6 3 0 0 0 0 11 SE 1 3 1 0 0 0 4 SSE O n ') o 0 0 S 0 1 0 0 0 0 0 55W '; e 1 0 : .)
. SW 0 3 0 0 0 0 .
0 WSW 0 0 0 0 0 0 0 _
,. W 0 . n 1 0 ') 0
. WNW 3 3 0 0 0 0 0 n-
^
NW G 3 ( in t'
, NNW 0 3 0 0 0 0 0
., TUTAL 14 22 2 0 0 0 3a
. _PERIUDS OF CALM ( HildK S ) -
2 )
m N' 48 1
I 1
l l
TABLE V-3
[
FLORID 4 POWER COR PURA T 10N l
HOURS AT EALH-WIND SPEE0 ANO.0! REC 1IUN PERIOD OF RECURO - JULY 1, 1977 IHROUGH SEP TEMBER 3 0 e. . L 9 7 T.. G A TCH._ R E L E AS E S ,
51 ABILITY CLASS -G !
I ELEVATION -
33 FT. i'
_. wlND n IND SPEED (MPH)
DIR L- 3 4- 7 8-12 13-18 19-24 24+ 10TAL N 0 : ';
') O
. C 0
__ NNE_. .. 0 . . _. .? .0 0 0 0.. . O NE o " O
~
t- 0 ENE O ) 0 3- 0 0 0 E O L 0 0 0 0 1 ESE 3
- 0 0 0 0 3 we SF ) ] 0 0 0 0 0
].. 55E .
.' ' . 0 0 S 0 2 0 0 o ) 7
- f. SSW 0 v 0 0 0 0 0 S n.. o
- i "
0
't
~
wSW 0 J 0 0 0 0 0
.R w 0 0 0 0 0 0 e 3 0
?r . WNW 0 / 2 0 9 's O r
,P NW 0 '1 0 0 0 0 0 i2';
NNW " "
, c'i 9 1 ^ "
U Ali
.p.
D lOJ AL . _ 3 1 0 0 0 0 4 4
3:'_.PER10DS.UFCALM
+
IHOURSI - 0 n.
.s
^% 49
. r. -
5
TABLE V-4 FL11R ID A POwHR CORPORATION HOURS AT EADI .i ! N U SPEED AND DIRFCTION ~
O[ t PERIOD OF RECORD - OCTOBER 1, 1977 THkOUGH OECEMBER 31, 1977 BATCH RELFL
. [. .
- STABILITY CLASS -
A 3
~~
FLt:V AT IUN -
33 FT.
{si Iii- h!NU nlNO SPEED (NPH) 7!- O!R - 1-3 'e- 7 H-12 13-18 19-24 24+ TOTAL
- ~ ---- ---. ---- ---- ---- ---- ---- -----
i If~-
i N O O O 2 0 0 2 w! l
-:i {E Nr. E O O 3 0 0 0 3
'u!
~ [il NI: 0 1 4 0 0 0 5 ti sl
- h61
~
ENE O 6 26 1 0 C 33
'ie! E _ ,_ ,0 7 21 0 0 0 28 ESE O 1 15 3 0 0 19 rdi
, k.j{~" ~ SE O 3 3 0 0 C 6
.no Til .. SSE.- .-. O 2 1 0 C 0 3 I.~l 5 0 2 6 0 0 0 0 E
I V SSV O 3 9 2 0
.. 0 14 t
i . *.
bs Sh 1 2 3 0 0 0 6
.n
^ 'st: WSW 2 11 11 0 0 0 24 Inl ~~ ~
Il~ P 0 11 20 0 0 0 31
- p352 i,
- u. WNW 2 2 '
20 5 4 0 33
~ ~u m NW 0 2 6 9 4 0 21
~
_s. NNW 0 2 1 3 0 0 0 e
W TOTAL 5 55 149 25 8 0 242 43 54 E _
PERIODS OF CALM (HUURS) -
O n
f d.8 .
4e 1.2 50 ist 9
I TABLE V-4
- p..- '
FLOR 10A N;WER CORPORA TION HOURS AT EACH nIND SPEED Al4,0 DIRECTIO;4 PERIOD OF RECORO - OCTOBER 1, 1977 THROUGH OECEMBER 31, 1977 BATCH RELE4 d
g 51ABILilY CLASS -8
- 2; g'~ ~~ EL EVAT IC N -
33 FT.
W!NU =IND SPEED (MPH)
Q D I R ~~ ~ 1-3 4-7 8-12 13-18 19-24 24+ TOTAL 2
{is~ ~ ~ ' N 0 3 0 0 C 0 0 9:1 NNE 0 O
O 1 0 0 1 TJ NE O O 4 0 0 0 4 731 EN E ~~-~
{" 0 0 5 1 0 0 6 S E psi O 3 4 0 0 0 7 w
[s ESE O 1 2 0 0 0 3 Yi
SE ~~-~ 0 0 0 2 C 0 2 E
r- -
SSE O 3 2 0 0 0 5 i25 g 0 a 2 0 1 1 0 4 T SSW~ 0 2 1 1 1 0 5 211
% SW 0 ,
2 0 0 C C 2
- 31 g WSW 0 5 1 0 0 0 S 33 *
..g_-_.... .g .
0 1 0 0 0 1 is s WNW 1 3 0 0 1 0 5
. 37 s NW 0 3 1 3 2 0 9 F
,,, 'NNW 0 ^ 4 0 0 0 4 Ti U TOTAL 1 24 26 3 5 0 64 44 t
_4 :.._
PER100S OF CALM i ilOURS ) - C s7 l TN so 51 l ii s'
.r
TABLE V-4 t' F LijR ID A POWER CUR PUR A T ION HOURS AT EACH W IND SP EED AN.O DIRECT ION
,Q L PERIOD GF RECORD - OCT0dEP 1, 1977 THROUGH DECEMBER 31, 1977 HATCH RELE.1
'li
^}j S T ABIL IT Y CL ASS -
C 1;
n -46 ELEVATION -
33 FT.
l6-WINO WIND SPEED (MPH) bE- ~ DIR 1-3 4-7 8-12 13-18 19-24 24+ TUTAL T
~~N ~0 0 0 3 0 0 0
~ El
.i:5 _. NNE O O O O G 0 0 kn
'd NE 0 3 1 0 0 0 1
- is l3 ENE O O 3 0 0 0 3
? 1*
~ J' i _E _ _ _ . _0 1 0 0 0 0 1 ESE O O O O O O O u,
.::: SE O 1 0 0 0 0 1
, i:,
[:( SaE , 0 'l 0 0 0 0 1
'I :- S 0 0 1 0 0 0 1 ni IM_.
SSW 0 1 0 0 0 0 1 d
- r.
- Sw L 2 0 0 0 0 3 JI
^~
a
~
wSh 1 0 0 0 0 0 1
[1] "
n lu-W 0 0 0 0 0 3 0 15 a hN.W. 0 2 1 1 0 0 4
)n NW 0 0 0 0 1 0 1 n _u- NNW - 1 3 1 0 0 3 2 4i U TOTAL 3 9 6 1 1 0 20 43 44 .
U PhK!CDS OF CALM (HUURS) -
O a
^
U
^g 52 ii 0 ',
TABLE V- 4 4_.
I' FLORIDA PGWER CORPURA TION l
HOURS AT EACH WIND SPEED AND DIRECT ION
< PER100 GF RECORD - OCTOBER 1, 1977 THROUGH OECEMBEF, 31, 1977 3ATCH RELE!
O Q SIABILITY. CLASS -
0 I.'-
!4 ~ ELEVATION -
33 FT.
Ti
'Ti h1NO WIND SPEED (MPH)
DIR ~ ~ ~ 1- 3 -,- l 8-12 13-18 19-24 24+ TOTAL 1,- ___ ____ ____ ____ ____ ____ ____ _ _ _ _
I9 ne: 'N O O 7 0 0 0 7 Eil IT/ ,
NNE 1 11 4 0 0 0 16 n
{ NE 1 7 24 0 0 0 32 hs igj ENE~ ~2 12 18 1 0 0 33 b
pr E 1 14 10 0 0 0 75 ESE 2 8 6 3 0 0 16 9 SE'"-
- n. 2 0 7 0 0 0 17 Tai -
[5] SSE 3 4 5 n 0 0 12
':t!
7.1 S 1 2 5 9 L 0 18 b.sp
. ' 3Sh - ~ 2 8 3 ? 1 0 16 5
g Sh 4 11 9 1 0 0 25 E, wSW 5 8 7 0 0 0 20 _
Is
,y"j W - ~ ~ 2 3 6 3 0 0 19 35 s WNW 6 5 8 5 6 0 30
^ 37 L NW 5 4 9 3 6 0 27 5~
1, NNW 0
, 5 14 22 0 0 41
.T Ti TOTAL 37_
115 142 46 14 0 354 ss .
44 Ti PERIGOS OF CALM (HUURS) -
0
~ **
l' d* , _ _ . . _ _ _ . _ .
^ f 53 2
} .. . - - . .
,aa
TABLE V-4
' ~~
~ ~
L FLORIDA POWER CORPLRAl(UN HOURS AT EACH WlNO SPEED ANO DIRECTION
< PERIOD UF RECORD - OCTOBER 1, 1977 THR OUG H OECFMBER 31, 1977 BATCH RELEA 6
7 SI ABILIT Y CL ASS -E 31-41 . _ . ELEVATION -
33 FT.
r--
WINO WINO SPEED (MPH)
-1 O!R l-3 4-7 8-12 13-18 19-24 24+ TOTAL 3 ---- --- ---- ---- ---- ---- ---- -----
9 to, N O O O O O 1 N
E ,
NNE 1_ 7 0 0 0 0 8
.L3l 3 NE 1 12 16 2 0 0 31 16i ENE ~~~ 3 38 31 0 0 0 72 iii 3 E U. 17 1 0 0 0 26
!'19:[ ESE 7 23 0 0 0 0 30 irti
}:['~
it.h SE 2 10 2 0 0 0 14 E. SSE 5 . 5 5 0 0 0 15
5 d 5 1 0 0 19 n 1 3
q- WSW 10 10 1 0 0 0 21 -
n -
W""-
~~6 9 5 3 0 0 23 3.1 m WNW --
3 5 10 -.
0 0 0 18
^
Ti NW 6 10 3 0 0 0 19 l 3T xt NNW 1 o 2 0 C 0 9 4i ii TOTAL , 61, 176 92 24 0 0 353 3
4A II PERIGOS OF' CALM (HOURS) -
O m 2
'! l 49
^ h.
54 3
w a
TABLE V-4 Ip .
f FLOR ID A PUWER COR PURATION HOUR 5 Al EACH WIND SPEED AND DIREC110N PtHIOD OF RECORD - OCTOBER 1, 1977 THROUGH CECEMBER 31, 1977 JATCH RELE, (s
f7^
ST Abit.!TY CL ASS -F 3
~ ~ ' ~ ~
I4 ELEVATION -
33 FT.
bb g: w!ND WIND SPEED (MPH) u DIR 1-3 *, - 7 8-12 13-18 19-24 24+ TOTAL y ,
7ei ' ~ N O O 7 0 C 0 0 Rs 7.j - NNE O 3 0 0 0 0 3 M
ltt NE 2 8 3 0 0 0 13 is1 -
g ~ENE-~ 3 19 7 0 0 0 29
- r Ti' E 8 19 1 0 0 0 28 ji,,
5 ESE 4 4 0 0 0 0 8
- 7. ~~
---_ _ .-- . S E l 4 0 0 C 0 5 n' '
77, SSE 2 3 0 0 0 0 5
$l 5 1 0 0 0 0 0 1
- ni
[J SSW L 2 1 0 0 0 4 Gl 2 SW 1 0 0 0 0 0 L
_. as g wSh 2 0 0 0 0 0 2
%3j y . . . . ..
A .~ ~ 6 ~ 0 0 0 0 0 6 hl as '
s WNW 5 1 0 0 0 ") 6 n
g NW 4 0 0 0 0 0 4 39
, 3, NNW 2 '? n a r t' 4
Iil 77 IOTAL 42 65 12 0 0 0 119 a
I'.
43 PER1005 0F CALM (HOURS) -
O
^ e..
m _4' . ,
, ,,g .
i, e
TABLE V-4 FLilR IDA PtiwEp CURPbRAT104 HOURS AT CACH alND SPEED AN.0 OIRFCTitJN O . PLRIOD OF RECORD - OLTOBER 1, 1977 T HR OUGH DECEMBER 31, 1977 HATCH RELEA fij Gi H
ST ABILIT Y CLASS -
G fit 4 ~ ELtVATION -
33 FT.
I I WINO SPEED (MPH) .
WIND ~ ~ ~ ~ ~ 1-3
"~
i DIR 4-7 8-12 13-18 19-24 246 TOTAL g ___ ____ ____ ____ _ _ _ ____ ____ _____
y; N 0 0 0 0 0 0 0
_NNE O 2 0 0 0 0 2 yD NE 4 1 0 0 0 0 5
'~ E N E' ~ ~ ' 15 15 6 0 0 0 36
% E 9 20 0 0, 0 0 29
' ii .,
ESE 4 9 0 0 0 0 13 E" 'SE
~
3 1 0 0 0 0 10
. !,i
'i SSE 2 3 0 0 0 0 5 y S 4 C 0 0 0 0 4 SSw C 1 0 0 0 0 L Ii- Sw 1 1 0 0 0 0 2 isi WSh 0 I
^{i <,,
1 0 0- 0 0 L W 0 0
[- 0 0 0 0 0 L'
u WNW 0 0 0 0 0 0 0
.22
^
.NW 0 0 0 0 0 0 0
~
^
'4: NNW 0 0 0 0 0 3 0 Ii If TU TAL 43 59 6 0 0 0 108 44 i.ii . _ _
PERIODS OF- C ALM (HOURS) -
0 57
[R
^~
56 b
Et L-
. . . -. -