Effluent & Waste Disposal Semiannual Environ Rept,Jan-June 1980

ML19331E055
Person / Time
Site:	Rancho Seco
Issue date:	08/15/1980
From:	SACRAMENTO MUNICIPAL UTILITY DISTRICT
To:
Shared Package
ML19331E053	List: ML19331E052 ML19331E055
References
10CFR-050.36AA3, 10CFR-50.36AA3, NUDOCS 8009050344
Download: ML19331E055 (35)
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Text

4 i

O EFFLUENT AND l?ASTE DISPOSAL SDfI-ANNUAL ENVIRO:01 ENTAL REPORT JANUARY TO JUNE 1980 RANCHO SECO UNIT 1 CLAY STATION, CALIFORNIA LICENSE taIMBER DPF-54 O

8 0 09950 3A}1

E.

• RADIOLOGICAL IMPACT ON MAN (Continuci)

The dose was computed for th'e individual who lives 1340 meters west northwest of the site near Clay Creek, fishes in the creek, and spends 100 hours0.00116 days <br />0.0278 hours <br />1.653439e-4 weeks <br />3.805e-5 months <br /> per year' swimming in an irrigation sump in the creek.

In addition, it was assumed that undiluted water from Clay Creek (plant effluent water) was used to irrigate his vegetable garden and pasture land from which he received his milk, vegetables and meat.

Studies conducted of the downstream water course show no indication of present or planned usage as a domestic water supply within five (5) miles downstream. There-fore, the drinking pathway was ignored in arriving at the total dose.

The maxinum cumulative total body and organ doses to an exposed individual due to the radioactive liquid releases was 0.112 and 0.153 (liver) millirem respectively. Greater than 98% of this hypothetical exposure comes from the consumption of fish. Table SC shows all the organ doses.

All liquid release related total body and organ manrem doses for the population within 50 miles of the plant for the first six months of 1980 are also provided on Table SC.

The total body and thyroid manrem were 7.78 E-01 and 5.01 E-02 respectively.

It can be seen that this controlled release of radioactive liquid resulted in dose values well below the guideline values of 10 CFR 50 Appendix I.

Gaseous Releases Potential doses to individuals and populations were calculated using meas-ured plant gaseous effluent and meteorological data. The following doses were calculated:

1.

Total body and skin doses to individuals exposed at the point of maxinum offsite. ground-level concentrations of radioactive caterials in gaseous effluents.

2.

Organ doses to individuals in unrestricted areas from radioactive iodine and radioactive material in particulate form from all pathways of exposure.

3.

Total body doses to the population and acerane dose to individuals in the populatio,n from gaseous effluents to a distance of 50 miles from the site.

Measured plant gaseous effluent data was used to calculate estimates of doses to individuals and populations.

Included in the source tera were eight (8) waste gas batch releases, fourteen (14) containment purges, and twenty-six (?6) weekly continuous plant releases. The total a

curies released are presented in Section B.

Doses were computed for air-borne noble gas, iodine, and particulate releases.

The dispersion of the airborne radioactive effluents was calculated on the basis of measured plant meteorological data consistent with the time period over which a given release was conducted. Measured meteorological data is presented and discussed in Section F.

The dispersion model was based on the " straight-line airflow model" of NRC Regulatory Guide 1.111, " Methods for Estimating Atmospheric Transport and Dispersion of Gasecus Ef fluents in Routine Releases from Light-Water-Cooled Reactors", inclading appropriate corrections for terrain factor, plume depiction and deposit. ion.

All releases were assumed to be conducted at ground level from a single release point.

(The meteorological model is discussed in detail in the " Appendix 1 Eval-uation Report - Rantio Seco Nuclear Generating Station".)

E..- RADIOLOGICAL IMPACT ON MAN (Continued)

" Maximum Individual" and " Population" doses were calculated for a variety of gaseous effluent exposure pathways representative of actual or potential usage conditions within a five (5) mile radius of the plant. These pathways included plume, ground and inhalation exposures as well as meat, ve' getable I

and milk consumption.

Whenever possibic, calculations were based on existing data for the plant and its regional environmental characteristics.

Where insufficient data existed to substantiate plant / site dependent assumptions, the parameters and models recommended in Regulatory Guide 1.109, " Calculation of Annual Doses to Man From Routine Releases of Reactor Effluents for the Purpose of Evaluating Compliance with 10 CFR 50, Appendix I", were used.

Specific data and models for these calculations are presented in the " Appendix I Evaluation Report", as are the locations of the maximum exposed individuals.

Table 5B presents the calculated total body and organ doses to maximum exposed individuals due to measured plant gaseous ef fluent releases. The maximum total body dose 0.33 millirem to an individual residing 1150 meters from the plant in the south southwest sector. The maximum skin dose was 0.56 millirem to an individual residing 990 meters from the plant in the south sector.

(All doses were calculated for the nearest existing residents in each sector within 5 miles of the plant.) Due to the relatively large magnitude of the nobic gas source term in conparison to the airborne iodine and particulate source terms, the total body and organ doses were dominated by the plume pathway. Approximately 60% of each calculated dose resultcd from continuous releases. Waste gas batch releases contributed a negligible component to the calculated total doses.

It is apparent that the calculated total body and organ doses continue to be below the guideline values of 10 CFR 50, Appendix 1.

The calculated total body dose for the (interpolated) 1980 porulation within 50 miles of the plant is 0.17 manrem. The total body dose to the average exposed individual within 50 miles of the plant is 7.08x10-5 millirem.

The calculated population doses are based on the ALARA procedure of the CASPAR dose factor code. This procedure assumes that the 50-mile population is eating the maximum amount of food produced within 50 miles of the plant and that no food is exported out of the 50-mile area.

These doses are based on straight line projections of the actual 1970 U. S. Census population data and the 1985 estimated population as given in the Rancho Seco Unit 1 FSAR.

F.

METEOROLOGY The meteorologicci data acquisition system for Rancho Seco consists of a permanent meteorological tower installed at the site, instrumentation and on-line computer.

The main purpose of the system is to measure and compile the meteorological data necessary to define the atmospheric diffusion at the site. The system is designed to continue in operation indefinitely so that a broad statistical base for meteorological conditions at the site can be assembled.

The 200-foot meteorological tower is located on a hill approximately 3000 feet east of the Reactor Building. The location is unobstructed by trees, buildings, or topographical features. A Rohn SSV tower, open lattice con-struction, is used to support the instrumentation. The tower has sufficient rigidity so

• hat measurement errors.,rc not introduced by tower vibrations.

Also the open lattice design of the tower does not significantly obstruct the air flow near the tower.

F.,

METEOROLOGY (Continued) 4 After the hourly and monthly tables for each month are compiled, the reduced data is added to a history tape which contains the hourly and monthly data from tae months previously reduced. This tape is then used to compile seasonal and yearly tables and plots similar to those described in this report.

The hourly data for a period of six months was compiled into a joint frequency distribution of stability index, wind speed, and wind direction which is used for atmospheric dispersion at the. Rancho Seco site.

The tower instrumentation consists of:

1.

Wind speed acasurements - 3 Weather Measure W103 anemometers (1 sensor at the 200' level and 2 sensors at the 33' level)

Starting threshold

.9 mph Distance constant 14.3 ft Accuracy 11% or

.15 mph whichever is greater 2.

Wind direction measurements - 3 Weather Measure U104 light weight vanes (1 sensor at the 200' level and-2 sensors at the 33' level)

Threshold

.75 mph Damping ration

.4 Distance constant 3.5 ft Accuracy

.5% of full scale 3.

Temperature measurements - 3 Litton Model ESL-310 with Climet Model 016-2 motor aspirated shield (temperature at 200', 33' and 6' levels)

Range

-20 C to 45 C Accuracy 10.25 C Resolution 0.01 C Time Constant 10 seconds 4.

Temperature dif-ference measurements 200' to 33' (3 measurements) one Litton Thermistor system described in 3 above and two Rose-count RTD systens with Model 442A temperature transnitter and Model 414L linear bridge mounted in Weather Measure Model 1S-6 motor aspirated temperature shields.

Range

-5 F to +5 F Accuracy i.1 F 5.

Relative Humidity Measurement - Beckman Model 5412 (Sensor at the 6' level)

Range 10 to 100% r.h.

Accuracy 1 2% r.h.

Beginning in 1974 and continuing through the first half of 1980, data recovery has been in excess of 97%.

'.:he meteorological data is summarized in Table 4A, which shows the joint frcquency distributions of wind direction and wind speed by atmospheric stability class for the first two quarters of 1980.

Table 4A also provides this same information for those ho"rs during each quarter in which batch gaseous releases were occurring.

Table 4B presents the bases for Pasquill classification of atmospheric stability indexes.

r-TABLE 1 EFFLUENT AND WASTE DISPOSAL SD11 ANNUAL REPORT IST AND 2ND QUARTERS, 1980 SUPPLUtENTAL INFOIO!AT10N Facility: Rancho Seco Unit #1 Licensce:

Sacrament,o Municipal Utility District 1.

Regulatory Limits a.

Noble Cases Limit IQ (62E

+ 110 E g) <1 fy L~n Qrtly IQ (390 E

+ 350 E )

~<1 T

Avg. Limit i+n 12 Month IQ (780E

+ 700 E' )

~<1 Y

Avg. Limit i+n b.

Iodines and Particulates with Half Lives >8 days 5

Limit 1.7 x 10 q,

Qrtly 6

Avg. Limit 2.14 x 10 Qv <1 12 month 6

Avg. Limit 4.28 x 10 Qv <1 c.

Iodine - 131 Qrtly Limit 2 Ci 12 Month Limit 4 Ci d.

Liquid Effluents Linits: lice t 10 CFR 20 App. B Table II Column 2

<10 Ci/ reactor /Qtr

<20 Ci/ reactor /12 ruenths 2.

Maximum Permissible Concentrations n.

Fission and Activation Gases: Defined by l a. above, b.

Iodines: Defined by lb. above.

Particulates, half lives'8 days:

Defined by Ib. above.

c.

d.

Liquid Effluents: Defined by ld. above.

n

- TABLE 1 -~ (Continued)=

. EFFLUEN1 AND WASTE DISPOSAL SFJ11 ANNUAL REPORT 1ST AND,2ND OUARTERS.

1980 SUPPLEMENTAL INFORMATION

- 3.

Average Energy:

l The following' list of average gamma and beta energie. per' disintegration have been used to calculate isotopic release rate _ limitations for fission'and activation gases.

AVERAGE ENERGY. PER DISINTEGRATION Isotope E,

ev/ dis E, mov/ dis g

l

' Kr-83m 0.00?48 0.0371 LKr-85 0.0022 0.250 Kr-85m 0.159 0.253 Kn. 7 0.793 1.32 8

Ki-88 1.95 0.377 Kr-89 2.22 1.37 Kr-90 2.10 1.01 l-Xc-131m 0.0201 0.143 Xe-133 0.0454 0.135 Xc-133m 0.042 0.19 Xe-135 0.247

'0.317 t

Xe-135m 0.432 0.095 Xe-137

'0.194 1.64 Xe-138

'1.18 0.611

{

4.

Measurements and Approximations of Total. Radioactivity i

n.

Fission and Activation Gases: Gamma spectrometry (GeLi) and liquid scintillation (for 11-3).

b.

Iodines: Camma spectrometry (GeLi).

I c.

Particulates: Gamma spectronetry (GeLi) and beta proportional counting (for Sr-89 and. 90) and alpha proportional counting (for gross alpha).

d.

Liquid Effluents: Gamma spectror.etry (GeLi) and liquid scintillation i

(for 11-3) and beta proportional counting (for Sr-89 and 90 and gross beta) and alpha proportional counting (for gross alpha).

I J

e

+

d y

.,a----,..

e,---,

,,,,,.e

,ea

TABLE 1 - (Continued)

EFFI.UENT AMD WASTE DISPOSAL SEMIANNUAL REPORT IST AND 2ND QUARTERS.

1980 SUPPLEMENTAL INFOPJ1ATION 5.

Batch Releases a.

Liquid 1.

Number of batch releases: 5 2.

Total time period for batch release -

47.8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> 3.

Maximum time period for a batch release:

17.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> 4.

Average time period for a batch release:

9.6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> 5.

Minimum time period for a batch release:

6.8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> 6.

Average stream flow during period of release of effluent into a flowing stream:

3900 gpm.

b.

Gaseous 1.

Number of batch releases:

22 2.

Total time period for batch releases:

1981.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> 3.

Maximum time period for a batch release:

168.8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> 4.

Average time period for a batch release:

94.4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> 5.

Minimum time period for a batch release:

15.6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> 6.

Abnormal Releases a.

Liquid 1.

Number of releases:

None 2.

Total activity released: None b.

Caseous 1.

Number of releases:

None 2.

Total activity released: None

TABLE la EFFLUENT AMD MASTE DISPOSAL SEMIANNUAL REPORT.

1980 CASE 0US EFFLUESTS SUMMATION OF ALL RELEASES REPORTING PERIOD:

IST Aht 2ND QUARTER IST QTR 2ND QTR EST. TOTAL UNITS

SUMMARY

SUllMARY

% ERROR A.

FISSION & ACTIVATION CASES 1.

Total Release C1 2.22E+02 1.66E+01 1 4.82 E00 2.

Average Release Rate UCi/sec 2.81E+01 2.1E00 3.

% of Technical Spec-ification Limit 8.58E-01 5.5E-02 B.

10 DINES 1.

Total 1-131 Ci 6.35E-03 1.88E-05 i4. 84 E00 2.

Average Release Rate pC1/sec

8. 05E-04 2.38E-06 3.

% of Technical Speci-fication Limit 1.27E00 3.8E-03 C.

PARTIClTLATES 1.

Particulater (T> 8 days)

Ci 2.69E-03 2.15E-04 +6.33E00 2.

Average Release Rate pCi/sec 3.41E-04 2.79E-04 3.

% of Technical Speci-fication Limit 2.92E-01 2.38E-02 4.

Gross Alpha Radioactivity (3)

Ci 0.00E00 0.00E00 0.00E00 D.

TRITIUM 1.

Total Release Ci

• 1. 76 E+01 2.88E+01 13.91E00 2.

Average Release Rate pCi/sec 2.23E00 3.66E00 3.

% of Technical Speci-fication Limit (1)

(1)

TABLE IB EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT 1980 REPORTING PERIOD:

IST AND 2ND QUARTER CASEOUS EFFLUENTS - ELEVATED RELEASE NOT APPLICABLE 1

i 4

9 4

p,

TABLE 1C EFFLUENT AND WASTE DISP 0 SAL SEMIANNUAL REPORT 1980 REPORTING PERIOD:

IST AND 2ND QUARTER CASE 0US EFFLUENTS - GROUND-LEVEL RELEASES CONTINUOUS MODE IST QTR 2ND QTR UNITS

SUMMARY

SUMMARY

1.

FISSION GASES Krypton-85 Ci 0.00E00(2)*

0. 00E00 (2)

• Krypton-85n.

Ci 0.00E00(2)*

0.00 E00 (2 )

• Krypton-87 Ci 0.00E00(2)*

0.00E00(2)*

Krypton-88 Ci 0.00E00(2)*

0.00E00(2)*

Xenon-133 C1

1. 48E402 1.64E+01 Xenon-135 Ci 1.69E+01 0.00E00(2)*

Xenon-135m Ci

0. 00E00 (2)

• 0.00E00(2)*

Xenon-138 Ci 0.00E00(2)*

0.00E00(2)*

Unidentified Ci 0.00E00 0.00E00 Total for Period Ci 1.65E+02 1.64E+01 2.

IODINE Iodine-131 Ci 1.07E-03 6.07E-06 Iodine-133 Ci 1.4E-04 0.00E00(2)*

Iodine-135 Ci 0.00E00(2)*

0.00E00(2)*

Total for Period C1 1.21E-03 o.07E-06 3.

PARTICULATES Strontium-89 Ci 0.00E00 0.00E00 Strontium-90 Ci 0.00E00 0.00E00 Cesium-134 Ci 0.00E00 0.00E00 l

Cesium-137 C1 3.86E-06 0.00E00 Barium-Lanthium-140 Ci 0.00E00 0.00E00 Cobalt-58 Ci 2.14E-05 5.97E-06 Co-60 Ci 6.6E-06 6.87E-06 Unidentified Ci 0.00E00 0.00E00

TABLE 1C (Continued)

EFFLUEi4T AND WASTE DISPOSAL SD11 ANNUAL REPORT,1980 REPORTING PERIOD:

IST AND 2ND QUARTER GASEOUS EFFLUENTS - GROUND-LEVEL RELEASES BATCil MODE IST QUTR 2ND QTR UNITS SU) DIARY

SUMMARY

1.

FISSION GASES Krypton-85 Ci 1.37E00 1.58E-01 Krypton-85m Ci 0.00E00 0.00E00 Kgpton-87 Ci

0. 00E00 (2)

• 0.00E00(2)*

Kryp ton-88 Ci

0. 00 E00(2)

• 0.00E00(2)*

Xenon-133 Ci 5.47EM 1 7.9E-04 Xenon-135 Ci 8,0E-02 0.00E00(2)*

Xenon-135m Ci

.0.00E00(2)*

0.00E00(2)*

Xenon-138 Ci 0.00E00(2)*

0.00E00(2)*

Xenon-133m Ci 3.5E-01 0.00E00(2)*

Argon-41 Ci 0.00E00 0.00E00(2)*

Xenon-131m Ci 6.2E-01 5.7E-03 Unidentified Ci 0.00E00 0.00E00 Total for Period Ci

5. 71EM1 1.64E-01 2.

IODINE Iodine-131 Ci 5.14E-03 1.27E-05 Iodine-133 Ci

0. 00E00(2)

• 0.00E00(2)f Iodine-135 Ci 0.00E00(2)*

0.00E00(2)*

Total for period Ci 5.14E-03 1.27E-05 3.

PAF '2ULATES S t.ron tium-89 Ci 0.00E00 0.00E00 Strontium-90 Ci 0.00E00 0.00E00 Cesiunr134 Ci 1.01E-04 8.04E-05 Cesium-137 Ci 1.87E-04 1.79E-05 Co-58 C1 2.14E-03 8.52E-05 Co-60 Ci 1.79E-04 1.84E-05

TABLE 1C (Continued)

EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT, 1980 REPORTING PERIOD:

IST AND 2ND QUARTER GASEOUS EFFLUENTS - GROUND-LEVEL RELEASES BATCll MODE 1ST QTR 2ND QTR UNITS SIDDIARY SU' DIARY 3.

PARTICULATES (Continued)

Mn-54 Ci

5. 34 E-05 0.00E00 Nb -95 Ci 2.60E-05 0.00E00 Barium-Lanthc aum-140 Ci 0.00E00 0.00E00 Unidentified Ci 0.00E00 0.00E00

• Parentheses numbers indicate the respective footnotes in Table SA rather than exponentials.

TABLE 2A EFFLUENT AND WASTE DISPOSAL SEMIA*;NUAL REPORT, 1980 REPROTING PERIOD:

IST A'ID 2ND QUARTERS LIQUID EFFLUENTS - SUIDIATION OF ALL RELEASES IST QTR 2ND QTR EST. TOTAL UNITS SUIDIARY SUIDIARY 2 ERROR A.

FISSION & ACTIVATION PRODUCTS 1.

Total Release (not Ci 3.78E-03 0.00E00 11.31E+01 including tritium gases, alpha) 2.

Average diluted con-pCi/mt 1.28E-08 0.00E00 centration during period 3.

Percent of applicable 7.20E00 0.00E00 limit B.

TRITIUM 1.

Total Release Ci 1.47E-02 0.00E00

+J.27E+01 2.

Average diluted con-pCi/mi 1.28E-08 0.00E00 centration during period 3.

Percent of applicable 2.3E00 0.00E00 limit C.

DISSOLVED & ENTRAINED GASES 1.

Total Release Ci 0.00E00 0.00E00 2.

Averagc diluted con-pCi/mi 0.00E00 0.00E00 centration during period 3.

Percent of applicable 0.00E00 0.00E00 limit D.

GROSS ALPHA RADIOACTIVI'[

1.

Total Release Ci 0.00E00 0.00E00 E.

VOLUME OF WASTE RELEASED liters 1.76E+06 0.00E00

+J.00E+01 (prior to dilution)

F.

VOLUME OF DILUTION WATER USED DURING PERIOD OF RADI0 ACTIVE LIQUID RELEASES liters 2.52E+08 0.00E00 12.00E+00 i

TABLE 2B EFFLUENT AND k'ASTE DISPOSAL SEMIANNUAL REPORT,1980 QUARTERLY RESULTS REPORTING PERIOD - IST and 2ND QUARTER LIQUID EFFLUENTS BATCII MODE NUCLIDES RELEASED UNIT IST QUARTER 2ND QUARTER Strontium-89 Ci 0.00E00 0.00E00 Strontium-90 CI 0.00E00 0.00E00 Cesium-134 C1 1.34E-03 0.00E00 Cesium-137 C1 2.43E-03 0.00E00 Iodine-131 Ci 0.00E00 0.00E00 Cobalt-58 Ci 0.00E00 0.00E00 Cobalt-60 Ci 0.00E00 0.00E00 Iron -59 Ci 0.00E00

0. 00E00 Zinc-65 Ci 0.00E00 0.00E00 Manganese-54 Ci 0.00E00 0.00E00 Chromium-51 Ci 0.00E00 0.00E00 Zirconium-Niobium-95 Ci 0.00E00 0.00E00 Molybdenur-99 Ci 0.00E00 0.00E00 Technetium-99m Ci 0.00E00 0.00E00 Barium-Lanthanum-140 Ci 0.00E00 0.00E00 Cerium-141 Ci 0.00E00 0.00E00 Other (Specify) 1.

Tritium (H-3)

- C1 1.47E-02 0.00E00 2.

Xenon-133 Ci 0.00E00 0.00E00 3.

Xenon-135 Ci 0.00E00 0.00E00 Unidentified Ci 0.00E00 0.00E00 Total for period (above)

Ci 1.85E-02 0.00E00 l

l l

TABLE 3 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT IST AND 2ND QUARTERS, 1980 A.

SOLID WASTE S!!IPPED OFFSITE FOR EURIAL OR DISPOSAL (Not irradiated fuel) 1.

Type of Waste Unit 6-Month Est. Total Period Errors a.

Spent rcsins, filter m

0.00E00 sludges, evaporator Ci 0.00E00 0.00E00 bottons, etc.

b.

Dry conpressible waste, m

0.00E00 contaminated equip., etc.

Ci 0.00E00 0.00E00 c.

Irradiated components, m

0.00E00 control rods, etc.

Ci 0.00E00 0.00E00 d.

Other (describe) m 0.00E00 Noncompressible piping Ci 0.00E00 0.00E00 components 2.

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

Not Applicable b.

Co-58 0.00E00 Co-60 0.00E00 Mn-54 0.00E00 Cr-51 + Ag-110m 0.00E00 c.

Not Applicable d.

Co-58 0.00E00 Co-60 0.00E00 Mn-54 0.00E00 Cr-51 + AG-110m 0.00E00 3.

Solid Waste Disposition Number of Shipments Mode of Transportation Destination None B.

IRRADIATED FUEL SIIIPMENTS (Ditpu ition)

None

TABLE 4A (Section 1)

FIRST QUARTER CONTINUOUS RELEASE METEOROLOGY

tifttA-l sin %T unit IIY l'n8 i A H'h80 % A t a tt es 01'181 M*l t ri A'O O l dl f,1 l f f *d i

i 16i %I int tr a Cli c t i t. sf.1 % c' t 8 0'et't.OG Y I CitrA$ts 1485 cUAttrR s

O rt l ast 's rt'll N l

Y' bl*U %PLift At 34 F1 d 4tLT S/sl.JV48

%Fr.lO*

l. t 4-7 P all l l. l st j 'e-2 4 248 (O[AL N

0 0

0 0

0 v

4 g

• P84 1

0 0

0 0

0 I

Nd 0

0 0

0 0

0 0

aNe 0

0 0

0 0

0 3

W 0

0 0

0 0

1 1

aid 0

1 0

0 n

0 J

0 1

0 0

0 0

1

g

%%d i

2 0

0 1

0 4

?

?

I O

O O

5 itF e

1 0

0 0

0 9

%r 5

0 7

0 0

0 7

558 2

0 0

0 0

0 2

F 0

0 0

0 0

0 0

( Pif 1

I O

O O

O 2

NF l

0 0

0 0

0 1

NN6 0

0 0

0 0

0 0

TOTAL 19 4

3 0

1 1

33

f. Ali 0

DELTA-T Sf0 STAMility I'OEt 4 H3URS At F ACH WIP.3 SPFE0 AN3 OIRECTION f'IRST Jd4AIEP CONilNUSUS M8 tECROLOGY I RELFASES THIS CUARTER R ELE A SE NJ'ClF R 1

WIN 1 SPE50 At 33 FT (MILES / HOURI 5FCTOR l- )

4-7 8-12 13-18 19-74 24+

TOTAL N

0 0

0 0

0 0

0 NNd 0

0 0

0 0

0 3

NW 0

4 0

0 0

0-hw 0

0 0

1 0

0 1

d 0

0 0

0 0

1 I

W%d 0

0 0

0 0

0-0 SW 2

1 0

0 0

0 3

%5d 4

1 0

1 0

0 8

g 3

3 1

I o

-.O__..

.g.

55F 2

4 2

0 0

0 3

SF 0

1 0

0 0

0 1

ggr g

3 o

o 0

0 4

f 3

0 0

0 0

0 3

FNF I

O O

0 0

0 1

NF 0

0 0

0 0

0 0 --

NNr o

o o

o o

o a

TOTAL 16 1%

3

. 3 0

1 - - - - -.

C At 4 0

DftTA-T Sin 514R IL I T Y IN3Ex C H3' IRS AT F ACH WIN 3 SPfED AN3 DIRECTION FIRST JtfA%if7 CnfJT INJ0J 5 MITE OROLOGY I RELE ASES i:il s CUA'tTE9 RELFASE VJ'4ER I

WIN 3 SPEFD AT 13 F T 141LES/H1JRt SF(T1R l-1 4-7 8-12 13.lm la-24 24+

TOTAL N

0 4

0 0

0 0

0 N'4 4 0

0 0

0 0

0 0

Na 0

0 0

0 0

0 0

kW 0

0 0

?

I 5

d 1

w 0

1 2

1 0

1 5

i h54 n

1 2

0 0

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Sk 4

1 0

0 0

0 4

%$4

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I O

2 0

0 5

3 n

?

I O

O 4

%%F 4

?

I 0

0 0

7

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4

?

0 0

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r%F 1

1 1

0 0

0 3

F

?

?

O O

O O

4 (NF 0

1 O*

0 0

0 I

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0 0

0 0

0 0

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0 0

0 0

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10l tt 17 14 10 6

1 6

$4

( At 4 0

uitTA*I %f0 ' 51 %811 ll Y lOf R ft,l'luit$ 4 f 8 A( H WI NJ '.PffQ AN) pl wi t,$ I ON

' 18H57 4HAu f f s Cf tellin'at'. 9f f f l!POLOGY

! RELf A$ES I.415 CUARITA 9 t t l A %*

f)*4fu I

4 WIN) SPfl4 Al 31 F f ("l L L S / H.lJ4 )

%FC108 1-)

6-f 4-17 14-19 19 74*

TOIAL N

4 1

2 0

0 0

16 NNW 4

4 0

9 0

0 4

Nd

'9 4-

'O O

0 1

15 WN1 e

77 12 9

to e

TJ "W

7 74 Il 5

l 1

SS W%d 2

4 1

0 0

0 12

%W 4

7 a

2 0

.0 73

%%W.

4 to 4

6 0

0 24 A

4 2

2 1

0 15

. 55F t

34 6

2 1

3%

%E 5

il 17

?

I 1

61 F5F 7-35-19 19 10 9

96 e

7 11 4

)

1 I

2s fr#

3 4

0 1

0 0

9 NF 7

6 0

0 0

7 NNE 4

t 0

0 0

0 IOftL SI 169 94 57 26 25 471 C A L '4 4

DELTA-I STO 511 Bill 1V IN151 E H0tlR$ AT EACH WING $PFE0 AN1 DIRECTION F IRST QU4Eith f,0NT IPO3J S MLICOPOLOGY l RELEASES TNIS CUARTER R Elf A SE NT*BER I

i--

h! N1 $PFr0 AT 33 FT f ulLLS/ HOURI -

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

TOTAL N

11 a

1 0

0 0

20 WNd 5

4 3

0 0

0 16 Nd 11 12 9

I

-0 0

33---.----------

hNW 10 2%

17 7

6 5

70 W

D 12 10 2

1 0

33 W5W 3.

12 4

0

-4 2

25

%h 11 7

0 1

1 0

23 ggy a

4 4

9 0

0 26 11 10 9

2 1

4 37--.--------

SSE 9

11 11 3

2 3

41

%E 7

31 19 13 4

8 84 FSF 15

'41 47-37 40 69 248 - -

10 34 29 25 to 16 124 ENE 6

.19 9

4 0

6 35 NF 8

6-1 0

0 0

15-e'l

• 11 2

0 0

0 0

13 e

intal I45 239 172 104 69 113 841 C AL '4 6

---..~n.

DELTA-f STO Si tBilliv Im)E t F H304 $ AT E ACH WINO SPEED AN) DI AEqi!ON FikST JutRTE8 CONilNH3U5 MEffnROLOGY l RELE ASES THIS CUARTER

1. ELFASE NJMifR I

WIND $ PEE 9 AT 33 FT (HILE5/H404)

$rCTOR l-1 4-7 8-12 13-19 19-24 24+

TOTAL N

P 12 0

0 0

0 23 NNd 13 6

0 1

0 0-2J NW ll la 6

3 7

0 3!

WNW P-12 14 5

0 0

33-W A

le 6

4 0

0 3)

WSW 1

7 7.

0 0

0 12 SW l

4 0

0 0

1 10 5%W 3

0 0

0 0

a 4

3 A

1 0

0 a

19

%5F l

7 2

0 3

5 li SI 4

6 F.

0 0

2 19

)

t %F.

3 12 12 1

1 3

31 r'

2 16 31 I

0 0

5*

FNE n

24-25 1

0 0

65 Nt in 17 1

0 0

0

1. 8 yy 11 4

7 0

0 0

/t infar 94 16%

11%

16 3

7%

- L Al 4 6*

f OfLIA-T %Il STAR!LifY IN7CX G H3URS AT CACH WI A3 SPEE0 AN3 C( ALCT10N FIR 51 JUARTfR Cf NilNJ0J % HE f r GkOLCGY I RELE ASES THIS CuAkitt R EL F 4 5E NJ'4M R 1

W N W CCD AT 33 Fi (MIL E S/K)U.t j -

SFCf9R l-3 4-7 8-12 13-IR 19-24 24+

TOTAL N

11 37 0

0 0

0 45 NNW 9

9 0

0 0

0 1F NW 4

14 7

3 0

0 2 F --

kNd 3

1*

2 5

0 0

24 W

0

?

3 1

0 0

6 WSW 0

3 1

0 0

3 7.

%W I

O 1

0 0

2 4

5%W 3

1 0

0 0

7 0

0 0

0 0

5-5.

%5f I

4 1

0 0

6 12 SF 2

4 2

0 0

0 8

FSF 0

2 2

0 0

0 4

F 3

4 9

1 0

0 17 t'd 3

6 31 6

0 0

44 NF 12 14 2

0 0

0 28 NNE 17 31 0

0 0

0 43

~_.. _

INTAL 69 13%

61 16 0

23 305. -_

CAL 1 3

-e*

t 9

+

5' i

n a

1

i s

l I

i i

TABLE 4A (Section 2)

SEC0llD QUARTER CONTINUOUS RELEASE METEOROLOGY l

9 4

4 I

t r

i

Ol i I)- I $1 )

• !4ntl Iiy 17,14 %#srHed Af s M.se kl %,) Vis a 48: 3 u t g l (,f l o'd

]t I

%I( 9' ')

U J.'.

• f s' k. f t ** l l'a i t l'.

Mt T F CPr i tk.f 1 EllfASIS l'Ils CUARllit e t il Mt 'a f 1 tl 8 I

Wiral SPflu AI 34 6 f I Mill 5/rI JU4 )

• if f,1*lk 1-9 4-F 8-12 13-19 19-24 24*

10lAL 1

n 0

0 0

0 0

J

• sf. W I

)

0 0

0 0

1 P., -

o O

J 0

0 0

J m%4 1

1 0

0 0

0 I

w 1

1 4

0 0

0 11 W '. m 1

2 I2 9

0 0

IS

%m 1

44 1R 2

0 0

di Ud 3

51 4F 1l 3

3 Ill 5

5 29 3F 17 2

0 9J 5%F 2

tw 15 5

0 0

41

%f 1

4 11 2

l I

22 rst 2

0 1

0 13 f

G 0

2 0

0 0

2 t :sf I

O o

0 0

0 1

NL 0

0 0

0 0

0 J

allE O

1 0

0 0

0 0

Illi tt 22 1%6 175 39 4

1 397

( AI M 0

lirtTA-T 51 ')

51A41181Y I N')E X 4 *t0Vu$ AT EACH WIN 1 SPEE 9 AN.) DIRECild1 Sf CON 3 QJt4 f f R CCNTINJ)US Mif CRCLCGY I REL EASES THIS CUARTEP E FL f. A SE PsJ'*3F M l

WIN) $PE[D At 33 FT l'4 f LI 5/ti]U4 )

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

TOI \\L N

0 O

O O

O O

O PA W u

o 0

0 0

0 0

N's O

l 0

0 0

0 1

m' A 0

1 0

0 0

0 t

W 0

1 3

1 0

0 5

h5W D

1 4

0 0

0 i

sw 2

17 14 3

0 0

31

%%d 5

14 12 4

0 0

35 5

2 2

5 5

0 0

14 55F 2

6 1

0 0

0 11 st C

7 4

1 0

0 12 rir 3

2 2

0 0

0 1

F l

t 0

0 0

0 2

f r.E I

1 0

0 0

0 t

gr 0

0 0

0 0

0 J

e

=

Y.0 0

1 0

0 0

0 0

Infat 10 50 47 14 0

0 127 C at i I

i)f l T A-1 %)a t1\\PitifY l'a>ER C H"9PS Ai f ACH WIND SPCFD AO tietCCi ttJa STCf fm O'IMi rk CONT ieg195 Ht. Tt 0RCL CGY l RLLE A505 THIS O'JARTFR witf tSt NJ 44F N I

httu $70LD Al 33 ii IMIL L 5/isaugl gr C f. in 5-3 4-7 8-l/

11-19 IC-24 24+

TGTAL N

O 1

J 0

0 o

1

(

NNd 0

1 o

I 4

4 NW 0

1 0

0 0

0 G

mM4 0

9 0

1 0

g I

I O

e-4 o

9 W

mu I

I 3

1 0

0 1

0 0

21

%m 2

'a I

q g

28 D

a is g g-

%W 0

5 4

9

)

14 5

0 4

2 0

0 g

5 5%f O

o 9

iI O

4 2,

g

$5' 0

6 2

u d

a

f. g r I

C 4

0 1

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4

.)

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2 N46 2

18 l '8 0

o ggg

't Infit o

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Pfl I A-l %Ifg

'.f 4 Hit Ilf. lN'H'u 4 Hisilk % Al. f A(H ht hf3 $Pif H APm Dlat tildh

• .l f.tl.19 U JA4 f f W [t 'ailIPi r-h "f i f t bf,l tTJ l R E L E A 51. 5 18415 CUgRILR h F i l 4 5t

• f f '8 48 M t

n

'83 SPILlJ At 33 F I IMILf h/nJJat 5f L f'ik l-)

4-F Mal / 13-lM 19-74 74*

IOfAL N-t.

9 0

0 0

0 L

NNd 2

0 3

.0 0

0 2

N.

I 2

1 0

0 0

5 i

• Nw 4

4 4

5 1

0 IF 4

0 9

18

.1 0

0 2J

+5h 5

13.

19 4

'O O

32

%d 10 1%

'76 6

0 0

57

%W 5

14 34 13 2

0 64 I

S 4

9 16.

9 0

0 34

%%F 4

14 0

t 0

26 i

%f P

14 22 2

0 0

51 LSE

-3 14 26 6

0 1

SJ T

6 Il 6

-6 2

0 3L LNE 4

1 0

0 0

0 5

g NF 0

1 0

0 0

-0 1

NNE O

O O

O O

O O

]

TGr%L Sa 123 164

$2 6

8 404

( AtM 3

j OftTA-I SID SIARILITY I N JE X F HOUWS At FACH WIP.3 SPCED AN3 CidECil0N 1

t I

SFCOND O JARTFR CLtlilNtFJ JS PfitC9CLOGY t RELEASES IHIS QUAP.![R EFLt tSE f(JMCh 1

i, ulna SPEED At 33 FT I MI L E S/ HJURI

..~

SFC1De I-3 4-7 6-!?

13-14 19-24 24*

TOTAL N

11 4

0 0

0 0

15 NNW e

7 0

0 0

0 las FN 3

2 1

0 0

16 mt4 W 11 1

5 0

0 22

-W 12 11 3

0 0

0 26 l

h%

10 16 3

0 0

0 2J 5,

?O 6?

27 6

0 0

115 1

SSW 20 49 41-6 0

0 114 5

21 45 13 3

0 0

82 SSE 15 45 8

0 0

0 68

%F 16 49 8

1 0

0 73 FiE 16 54 24 ~

5 0

1 10J F

9 49 22 3

3 2

83 TV 6

14 0

0 0

0 23 NC 10 3

0 0

0 0

13 F4N E 9

i 0

0 0

0 16 II.i AL 237 420 157 33 3

3 3,10 C ALM -

23

-OfLTA-T Sio %T4UltifY If43FX F +0tNS Al [ACH WINJ SPFED ANO Olaf CilGN i

$rtuND QJA4TF9 CONilidal l5 Pf iFCRCLCGY

! RELE A5LS 1HIS CUARTER h FLF tSt AJ'9 tE b I

wlM) $ PLED AT 33 FT IMILLS/HQQR)

$FCT1W 1-1 4-F 8-12 13-in 19-74 24+-

TOTAL N

8 0'

O O

O 13 NN'd 4

0 0

0 0

10 N.e.

4 2

4 0

0 0

10 c.

w1d S

4 7

0 0

0 It w.

3 4

7 0

0 0

9 WSN I

'O O

O O

O 1

7 3

0 0

0 10

%%d to l9 5

0 0

0 31 k

5-4 0

0 0

14 e

ist

'I 4

0 0

0 F

Sr 4

4 1

0 S

o 9

f5f 7

13 1

0 0

0 22 F

'O 47 3

0 0

L 21 Ine

,/

1.

0 0

0 1

NF l

'1

.G 0

0 0

2 Nf;F 4

1

.C 0

0 IJ list it -

• ?

'8 F 10

.0 0

I tvJ t Al '9 4

-m

a e

o e

e e

O O

O a

e a

e a

n[stA-T STO SitHILITV IN)FX G H@JS $ AT F ACH WIP 1 $PFFD AN1 DIKfCIlO?4 e

St CO';D OJH T Ea Of Nilvtris MET EESCLLGY

! RELE ASES Tit!S CUARTER RFLTASE P414lfR t

WINJ SPECO Ai 33 Fi (MILLS /H3UA)

SFCilp 1-1 4-1 8-12 13-18 19-24 24e TOTAL P1 3

a 0

0 0

0 12 YN 1

5 0

0 0

0 o

Ne 2

?

O O

O O

4 WNd

?

I O

O O

O 3

w 0

2 1

0 0

0 3

W5W I

3 C

0 0

0 4

Sw 0

0 0

0 0

0 0

554 0

0 0

0 0

0 0

O O

O O

3 4

SSF J

0 0

0 0

1 SF l

1 0

0 0

0 4

ESE 1

1 1

0 0

0 3

F 1

2 1

0 0

0 4

FNE 1

2 7

0 0

0 10 NE 2

3 0

0 0

0 5

NNF 5

7 0

0 0

0 12 TOTAL 23 41 10 0

0 3

77 C4LM

?

e 4

0 i

o l

l 1

l helle 19_ec _e_eD_e e *

• e e e e e e e e e e e e e e e e * * *

• e n e e * * * * * * * * * * *

• e e m e... e e n s e.... e e _e e e e e e e e e e e e e e e * * *

• e e e e e e e e e e e e e * * *

• 4

.. =. -

I I

l 1

i i

!n i

TABLE 4A (Section 3)

FIRST QUARTER BATCH RELEASE METEOROLOGY i

9 4

4 I

l f

1 l--

f'J i l A - I 510 if %It if Y IN F s 4 H'1081 Al I QCH t$lND %P(LD W3 OldLCllON

&lk%f JtM f f k 88 4 f C H 07 4 V Mf if (;fo)LGGY I RELFASC% IHl$ GUAR 1LR Rf LF A SL 4 8'Mi d I

hi v) SPf(0 4t il si l aq l L F s/ H )dd l

%fCfDk 1-1 4-F A-l?

14-14 19-24 24*

TUT 4L N

0 O

O O

O O

O N'i d 1

0 0

0 0

0 1

Nw 0

0 0

0 0

0 J

W 'l W 0

0 0

0 0

0 0

W D

0 0

0 0

0 0

.5w 0

0 0

0 0

0 0

%d 0

1 0

0 0

0 1

5th 0

0 0

0 0

0 0

0 1

0 0

0 0

1

%iE C

I O

O O

O 1

%f 7

0 2

0 0

0 4

E5r

?

4 O

O O

O 2

f 0

0 0

0 0

0 0

frt 1

0 0

0 0

0 1

a NE 1

0 0

0 0

0 1

NNE O

O O

O O

0 J

TOTAL 7

3

?

O O

O I2 f4L4 0

OfL7A-T 510 STAPILITY INDEx a HOURS AT EACH WINO $ PEED AND DIRECTION FIRST GUARTER B ATCH CNL Y Mf1FCROLOGY 1 RELE ASES THl$ CUARi[R FELLAS [ NJHER I

Wl v) SPFfD At 33 FT I M I L E S/ HOU.li 5FC70R l-3 4-7 8-12 13-18 19-24 24+

TOTAL N

0 0

0 0

0 0

0 pen W 0

0 0

0 0

0 0

Nd 0

0 0

0 0

0 0

WNW 0

0 0

1 0

0 1

W 0

0 0

0 0

0 0

usN O

O O

O O

O O-SW I

I O

O O

O 2

5%W 3

1 0

0 0

0 4

g 1

3 0

1 0

0

.~. 5 --

5$f

?

3 1

0 0

0 6

SL 0

0 0

0 0

0 0

. FSF 1

2 0

0 0

0 ---

3 F

3 0

0 0

0 0

3 ENE O

O O

O O

O O

NF 0

0 0

0 0

0 0

NNF 0

0 0

0 0

0 0

TOTAL 11 10 t

?

0 0

- 26 CAtM 0

DELTA-T STD %1 HILITY INDEX C H9UuS Al C ACH WIND SPEED AN3 0]RE(,18 0.N F1957 394Rif7 B ATC H C* L Y PE f r 0ROLOGY l PELEASCS THIS OUARTER RfLFASE NJWifR 1

WINO $PffD AT 33 0! IMIL15/HJUA)

$fCTGR l-1

%-7 A-I2 11-18 19-24 24+

10TAL N

O n

0 0

0 0

0 NNw' O

O O

O O

O O

Nw 0

0 0

0 0

0 0

kNw 0

0 0

0 0

0 J

w c

1 0

0 0

0 1

wSw 0

0 0

0 0

0 0

4 1

0 0

0 0

2 uw

?

I O

I e

0 4

?

0 1

1 0

0 4

%%t 0

1 0

0 0

0 g

sr 0

2 1

0 0

0 5

rst I

1 0'

0 0

3 r

p 7

0 0

0 0

t *,c 0

1 0

0 0

0 1

N:

0 0

0 0

0 0

0 ANr 1

9 0

0 0

0 1

Ittf %t~

1d I

0 0

/g 9

2 (H9 0

Di t T A-i %' I ') ' % f 4f II. lif IN'JF K fl H' 81P% Al F AEff WIN 3 SPff 0 ANJ DIRLCIII)Ps o.

f l e s t ' 19 44 3 r > 4 4 f t p (At. y yrtirsntoGy 3 R(tCAtts 1H15 CuAartR S T,8 [ 4 %l 4.l*11 4 I

4

'bl *F) %Pfr9 at 11 F f g Hi t ( t/ enJ4 )

$(f.iOR l-3 4-7 4-12 83-t4 19-24 244 TUTAL N

2 0

?

O-0 0

4 W4 3

1 0

0 0

0 4

N4

-e t

0 0

0 I

a k r.4 m

o 4

4 3

5 31 W

4'

.31 4

0 0

0 25

• %W I

4 0

0 0

0 9

SW -

6 0

7 0

0 13

%%d 2

4 6

2 0

0 14 4

4 I

I i

1 0,

4

$5F S

11 4

5.

2 1

29

%F 2

21 9

5 8

1 39 E%E 3

23 12 13 6

9 66 F

1

?

5 2

1 1

li FNF 0

4 0

1 0

0 5

• s t 3

1 0

0 0

0 4

NNC 2

0 0

0 0

0 2

l-l 10iAL

%2 116 47 35 14 18 282 CAL 1 3

r

.F OFLTA-i 511 %T 4BIL ITY I41T X F HOUR S Af FACH WIN 3 SPEED AN3 DIRECTION e

FIRST GUARTEa patch CNLY METEORDLOGY 1 RELEASES THl$ QUARTER RE L E A SE '*J13E R I

i 4.----

WIN) SPFE0 AT 33 Fi IMILES/HJG48 -

SECTOR l-3 4-T 8-17 13-18 19-24 24+

TOTAL

+

j N

e 7

0 0

0 0

15 NNw 5

5 0

0 0

0 to j_--

, Aiw 6

7 7 -

1 0

0.. -.

-21 kNW 7

17 13 4

4 1

46 4

6 7

5 0

0 0

18 b5W 2

9 0

0 4

2--

ti l

W 7

4 0

0 1

0 12 j

$54

?

3 1

3 0

0 12 1..

5 3

6

.6 1

1.

4 ~.

19 -- - - -_.,--... _. - -. -. _ - -. _ _ _.. - -

55F 4

7 5

1 0

3 20 SF 6

16' 10 6-3 5

46 ESE to-27 29 20 74.

53 -

163 1

7 17 20 13 10 16 83 FNE 4

8 3

'4 0

6 25 L.~.--

NE

~ 6 I

0 - 0 0

0 9

NNE 6

1 0

0

- 0 0

7

~ 1Gi at 92 142 99 53 47 90 - - 523 ---..._.

j (Ali 5

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

OELTA-T Sin 57481tITY INSE E F H10P 5 AT E ACH WINS SPEED AND DIRECTION f lMST 30!st1Et P 4f E H O'.t f ME TEC4JLOGY 1 RELEASES THis CUARTER RELE A SC Nu'4RE R I

'lNa SPIED AT 33 FT IMILES/H0043 u

5Frint 1-3 4-7 R-12 13-18 19-24 24+

TOTAL o

N 3

5 0

0 0

0 NNd 7

l 0

0 0

0 10

'Nw a

3 3

3 0

0 17

.wNd 4

6 2

0 0

17 h

-4 6

1 2

0 0

13 Wsw

?

4 0

3 0

0 6

4

%W 0

1 0

0 0

1 4

%%w.

I 4

0 0

0 6

T 5'.

O

?.

1 0

0 8

11 tif' I

1 0

'0 0

5

. 1

%f 7-4 7

0 0

2 10 (SG 2'

6<

4 1

0 0

13 4

f.

.I e

?!

l 0

0 J2

( N F-6~

to-I f.

t 0

0 4/

NF

'9 0

0 0

'O O

I,e NNr 10 6

0

.9/

0 0

16

'luf 4L.

60 96

%)

10 0

72 2 51

' r te s '

4-L

e 0FLTA-1 Sin 5ft4ttlif IN.7E x r. tntlR 5 AT 'ACH hlN1 SPE!3 AND uldECTION FikST GUARTER 4 ATC H t'NL Y MC TC04GLOGY l RELE ASES l'il 5 CUARTER F E t e A SE '014 t R 1

WINO Sprro At 33 FT (MILES / HOURI SE(inR t-1 4-7 8-12 13-19 19-24 24+

TOTAL N

7 to 0

0 0

0 26 NNJ 6

3 0

0 0

0 9

Nw 3

6 0

1 0

0

-10 WNW 0

I C

0 0

6 W

G 1

0 0

0 0

1 d5W 0

0 0

0 0

3 3

%W 0

0 0

0 0

2 2

SSW 3

1 0

0 0

7 10 0

0 0

0 0

5

-5 SSE 1

3 0

0 0

6 10 SF 7

3 0

0 0

0 5

HE O

1 0

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TABLC 4B CLASSIFICATION OF ATMOSPilCRIC STABILITY Stability Pasquill c0a Temperature Change Classification Categories (degrees) with height (*C/100m)

Extremely unstable A

25.0

<-1.9 Moderately unstabic B

20.0

-1.9 to - 1.7 Slightly unstable C

15.0

-1.7 to - 1.5 Neutral D

10.0

-1.5 to -0.5 Slightly stable E

5.0

-0.5 to 1.5 Moderately stable F

2.5 1.5 to 4.0 Extremely stable C

1.7

>4.0 Standard deviation of horizontal wind direction fluctuation over a period of 15 minutes to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. The values shown are average for each stability classification.

9

TABLE SA EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT REPORTING PERIOD:

IST M1D 2ND QUARTER,1980 NOTES (1)

No Technical Specification limit for release of Tritium in gaseous ef fluents.

(2)

No measurable activity in samples collected during this period. Measurement sensitivity and volumes of air released during the reporting period are as follows:

MINIMUM DETECTABLE BATCII RELEASE CONTINUOUS RELEASE ISOTOPE ACTIVITY uCi/nf VOLUME (cc)

VOLUME (ce)

Kr-85 6.42E-06 Kr-85m 2.23E-08 Gaseous 8.34 E+13 3.38E+14 Kr-87 4.80E-08 Particulate 2.34E+14 Kr-88 5.93E-08 Xc-135 3.27E-08 Xe-135m 4.85E-08 Xe-138 1.76E-07 Xe-133 9.59E-08 Xe-133m 1.26E-07 Xe-131m 8.53E-07 Ar-41 2.96E-08 1-131 2.31E-13 1-133 2.31E-12 1-135(4) 1.71E-11 11-3 3.89E-10 (3)

Particulate gross alpha due to naturally occurring Radon daughters.

(4)

Based on a 24-hour sample.

TABLE SB EFFLUENT AND WASTE DISPOSAL SEMIE;UAL REPORT 4

REPORTING PERIOD:

IST AND 2ND OUARTERS, 1980 TOTAL BODY AND ORGAN DOSES TO MAXIMUM EXPOSED INDIVIDUALS (1) (2) (3) (4)

(BY SECTOR) DUE TO GASEOUS EFFLUENT RELEASES (5), (6) l Scctor Total GI (Distance, Meters)

Body Tract Bone Liver Kidney Thyroid Lung Skin g

(-)

?;NE

(-)

NE (1770) 3.06E-02 2.97E-02 1.28E-02 3.11E-02 3.01E-02 1.09E-01

3. 00 E-02 4.87E-02 ENE (1220) 3.76E-02 3.65E-02 1.22E-02 3.83E-02

3. 72 E-02 1.62E-01 3.66E-02 5.34E-02 E

(-)

ESE (4820) 3.65E-03

3. 4 7 E-0 3 1.43E-03

3. 74 E-0 3 3.60E-03 1.94E-02 3.51E-03 5.42E-03 SE (6550) 1.97E-03

1. 91 E-0 3 7.91E-04

2. 01 E-03 1.95E-03 8.34E-03 1.94E-03 3.08E-03 SSE (5490)

2. 5 3E-0 3

2. 50 E-0 3

9. 99 E-04 2.54E-03 2.51E-03 5.73E-03 2.54E-03 4.09E-03 S

(990)

2. 89 E-01 2.84E-01

1. 7 3 E-01

2. 9 3 E-01 2.87E-01 8.71E-01 2.89E-01 5.63E-01 SSM (1150) 3.33E-01 3.19 E-01 1.60E-01 3.40E-01 3.28E-01 1.44E-00 3.26E-01 5.54E-01 SW (2130) 3.02E-02 2.85E-02 1.16E-02 3.12 E-02 2.95E-02 1.67E-01 2.90E-02 4.25E-02 MSN (1980) 4.22E-02 4.00E-02 2.15 E-02

4. 35 E-02 4.10E-02 2.48E-01 4. 05 E-02 6.81E-02 U

(3050) 2.14 E-02

2. 01 E-02 8.02E-03 2.2]E-02 2.07E-02 1.25E-01 2.00E-02 2.85E-02 Uri (1340) 1.89E-01

1. 75 E-01

6. 2 5 E-02 1.97E-01 1.83E-01 1.33E-00 1.74E-01 2.31E-01 NW (6070)

3. 68 E-0 3

3. 50 E-0 3 1.05E-03 3.78E-03

3. 59 E-0 3 1.71E-02 3.49E-03 4.63E-03 N';W (6710) 1.59E-03

1. 4 8 E-0 3 4.37E-04

1. 6 5 E-0 3 1.54E-03 9.56E-03 1.47E-03 1.85E-03 VC (310)

2. 78 E-01 2.77E-01 1.75E-01

2. 79 E-01 2.78E-01 5.21E-01 2.84E-01 5.75E-01 REC (2330) 7.74E-03 7.52E-03

2. 94 E-0 3 7.86E-03 7.66E-03 2.63E-02 7.69#-03 1.20E-02 Average Percent of Total for Continuous Release = 59.599960 Average Percent for Total for Purges = 39.946289 Average Percent of Total for Uaste Gas Release = 0.453577 NOTES:

(1)

All doses calculated in millirem.

(2)

Includes waste gas, containment purge and continuous releases.

(3)

Total body and organ doses are similar due to dominance of noble gas source term.

(4)

Source terms include noble gases, iodines and airborne particulates.

(5)

Distance to neareut residence within 5 miles; (-) indicates no residence within 5 miles.

(6)

Doses are calculated for areas accessable to the public and time weighted:

Visitors Center - Open daily; maximum exposed individual is attendant at 1470 hours0.017 days <br />0.408 hours <br />0.00243 weeks <br />5.59335e-4 months <br /> / year.

Recreation Area - Open daily; naximum exposed individual is Park Ranger at 2628 hours0.0304 days <br />0.73 hours <br />0.00435 weeks <br />9.99954e-4 months <br /> / year.

TABLE SC EFFLUEST AND UASTE DISPOSAL SDtIANNUAL REPORT REPORTING PERIOD:

1ST AND 2ND QUARTERS,1980 TOTAL ~ BODY AND ORGAN DOSES TO MAXIMUM EXPOSED INDIVIDUALS DUE TO LIQUID EFFLUENT RELEASES (MILLIRDI)

TOTAL BODY G.I. TRACT BONE LIVER KIDNEY THYROID LUNG SKIN 1.12E-01 3.13E-0 3 9.25E-02 1.53E-01 5.17E-02 2.78E-04 1.73E-02 9.54E-05 ALARA TOTAL BODY AND ORGAN DOSES TO POPULATION DUE TO LIQUID EFFLUEhT RELEASES (MAhTsD1)

TOTAL BODY G.I. TRACT BONE LIVER KIDNEY TIIYROID LUNG SKIN 7.78E-02 6.91E-02 9.60E-01

1. 46 E-00 4.13E-01 5.01E-02

2. llE-01 6.49E-04 s

e O

_