ML20153F333

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Semiannual Radioactive Effluent Release Rept, Jan-June 1988
ML20153F333
Person / Time
Site: Hope Creek PSEG icon.png
Issue date: 06/30/1988
From:
Public Service Enterprise Group
To:
Shared Package
ML20153F327 List:
References
RERR-5, NUDOCS 8809070225
Download: ML20153F333 (49)


Text

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'dj HOPE CREEK GENERATING STATION SEMIANNUAL RADIOACTIVE 1 EFFLUENT RELEASE REPORT PS1 .

HCGS RERR-S The Energy People -

DOCKET NO. 50-354 OPERATING LICENSE NO.,NPF-57 SEPTEMBER 1988 0809070225 09093g klW ADOCK 05000354 PDC d l

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HOPE CREEK GENERATING STATION SEMIANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT HCGS RERx-5 DOCKET No. 50-354 OPERATING LICENSE NO. NPF-57 i

1 SEPTEMBER 1988

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NPF-57 REPORT NO. HCGS-RERR-5 RADIOACTIVE EFFLUENT RELEASE REPORT

( JANUARY l - JUNE 30, 1988 HOPE CREEK GENERATING STATION Public Service Electric and Gas Company I

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HOPE CHEEK GENERATING STATIUN RADI0 ACTIVE EFFLUENT RELEASE REPORT JANUARY - JUNE 1988 INTRODUCTION This report, HCGS-RERR-5, summarizes the releases of radioactive materials in liquid, gaseous and solid form from the Hope Creek Generating Station (HCGS) for the period January 1, 1988 to

{ June 30, 1988.

  • The report is prepared in the format of Regulatory Guide 1.21, Appendix B, as required by Specification 6.9.1.7 of the Hope Creek Technical Specifications. preceding the tsbles summarizing the gaseous and liquid discharges and solid waste shipments are our responses to parts A-F of the "Supplemental Information" l section ot Regulatory Guide 1.2), Appendix B.

As required by Regulatory Guide 1.21, our Technical Specification limits are described in detail within this report along with a summary description of how measurements and approximations of the total activity discharged were developed.

HCGS cenerated 2,840,408 megawatt-hours of electrical energy (net) during the reporting period.

The gross alpha, Sr-89, Sr-90, and Fe-55 analyses tor the seconc half of 1987 (refer to RERR-4) have been completed, amended pages to RERR-4 are included in this report.

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Part A. PRELIMINARY SUPPLEMENTAL INFORMATION 1.0 REGULATORY LIMITS 1.1 Noble Gases Helease Limits The dose rate due to radioactive materials released in gaseous effluents from the site to areas at and beyond the site boundary shall be limited to the following:

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For noble gases: Less than or equal to 500

[ mrems/yr to the total body and less than or equal t to 3000 mrems/yr to the skin.

r In addition, the air dose due to noble gases released I in gaseous effluents from the site to areas at and beyond the site boundary shall be limited to the followings l During any calendar quarter: Less than or equal to 5 mrad for gamma radiation and less than or equal to 10 mead for beta radiation and,  ;

I During any calendar years Less than or equal to j 10 mrad tor gamma radiation and less than or equal I to 20 mrad for beta radiation.

1.2 Iodine, Particulates, and Tritium The dose rate due to radioactive materials released in gaseous ettluents from the site to areas at and beyond the site boundary shall be limited to the following:

For Iodine-131, Iodine-133, for tritium, and for all radionuclides in particulate form with halt l lives greater than 8 days Less than or equal to 1500 mrems/yr to any organ.

1 In addition, the dose to a member of the public trom [

[ iodine-131, from tritium, and from all radionuclides in particulate form with half-lives greater than 8 days in i

gaseous effluents released from the site to areas at I and beyond the site boundary shall be limited to the following:

During any calendar quarter: Less than,or equal to 7.5 mrems to any organ and, During any calendar years Less than or equal to 15 mrems to any organ.

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l 1.3 Liquid Effluents Release Limits The concentration of radioactive material released in liquid effluents to unrestricted areas shall be limited to the concentrations specified in 10CER, Part 20, Appendix B, Table II, Column 2 for radionuclides other than dissolved or entrained noble gases. For dissolved or entrained noble gases, the concentration shall be limitad to 2E-4 microcuries per milliliter.

In addition, the dose or dose commitment to a member of the public from radioactive materials in liquid effluents released to unrestricted areas shall be limited:

During any calendar quarter to less than or equal to 1.5 mrems to the total body and to less than or equal to S mrems to any organ, and During any calendar year to less than or equal to 3 mrems to the total body and to less than or equal to 10 mrems to any organ.

1.4 Total Dose Limit f The annual (calendar year) dose or dose commitment to any member of the public, due to releases of radioactivity and radiation, from uranium fuel cycle sources shall es limited to less than or equal to 25 mrems to the total body or any organ (except the thyroid, which shall be limited to less than or equal to 75 mrems).

2.0 KAXIMUM PERMISSIBLE CONCENTRATIONS (MPC)

( Regulatory Guido 1.21 requires that the licensee provide the MPC's used in determining allowable release rates for radioactive releases.

a. MPC values were not used to determine the maximum release rates tor fission gases, iodines, or particulates.
b. MPC values as stated in 10CFR20, Appendix B, Table II, Column 2 were used for liquids.
c. MPC value used for dissolved or entrained noble gases was 2E-4 microcurist per milliliter.

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I 3.0 AVEkAGE ENERGY l

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Regulatory Guide 1.21 requires that the licensee provide the average energy of the radionuclide mixture in releases of fission and activation gases, if applice.ble.

Release limits for the HCGS are nct based upon average energy, hence, this section does not apply.

f 4.0 MEASUREMENTS AND APPROXIMATION OF TOTAL RADIOACTIVITY 4.1 Liquid effluents are monitored in accordance with Table

{ 4.11.1.1.1-1 ot the Technical Specifications. During the period of record, all liquid wastes were routed to

[ the sampling tanks for monitoring prior to release.

I Technical Specitications require these tanks to be thoroughly mixed before sampling and analysis before any releases are made. Batch releases are defined as

( releases from equipment drain sample tanks, floor drain sample tanks, detergent drain tanks, and condensatu storage tanks. There are no continuous liquid releases

[ for this reporting period. The preponderant gamma 1

emitting isotopes detected in sampling were Cr-51, Na-24, and 2n-65. Specific activity from analyses were multiplied by the volume of effluent discharged to the a environment in order to estimate the total liquid activity discharged.

The detection requirements of Tablo 4.11.1.1.1.-1 of the Technicial Specifications are achieved or exceeded. Isotopes existing at concentrations below

[ the achieved detection limit are treated as not being i present.

4.2 Gaseous effluent streams are monitored and sampled in

( accordance with Table 4.11.2.1.2-1 of the Technical Specifications. The north plant vent (NPV) and south plant vent (SPV) are the final release points for most planned gaseous effluent releases. A small quantity of

( gaseous ef fluent will be released via the filtration, Recirculation, and Ventilation System (FMVS) vent l during testing periods. The NPV and SPV are I continuously monitored for particulates, iodines, and noble (p9ess the FRVS is continuously monitored for noble t uses. The NPV and SPV have moving particulate

( and fixed iodine filters; the FRVS has fixed particulate and iodine filters. The filters are changed and analyzed at least weekly when releases are in progress. The NPV and SPV are sampled monthly for noble gases and tritium.

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The detection requirements ot Tables 4.11.2.1.2-1 ot the Technical Specifications are achieved or exceeded.

Isotopes existing at concentrations below the achieved detection limit are treated as not being present.

Continuous Mode gaseous releases are quantified by routine (monthly) sampling and isotopic analyses ot the plant vents. Specific activities for each isotope detected during the routine sampling are adjusted using the radiation monitoring readings to obtain an average concentration for the period. This average concentration is then multiplied by the total vent flow volume for the entire sampling period in order to estimate the normal continuous release of radioactivity through the plant vent.

When monthly noble gas grab samples yielded no detectable activity, continuous mode releases were quantified by integrating Radiation Monitoring System readings above background. Noble Gas Isotopic abundances for these integrations were based on the ANSI mix for BWR's. Doses calculated f rom this data employed the methods of the Hope Creek ODCM Section 2.0.

j Batch Mode gaseous releases (primary containment purge) are quantified by pre-release sampling and isotopic analyses. Specific activities for each isotope are i

multiplied by the total purge flow volume in order to

) estimate ti.e batch release of radioactivity through the j plant vent.

4,3 The estimated total error of reported liquid releases is within 254.

The estimated total error of the reported continuous gaseous releases is within 25% when concentrations exceed detectable tevels. This error is due prir.arily to variability of waste stream flow rates and changes in isotopic distributions of waste streams between sampling periods. The estimated total error or the reported batch gaseous releases is within 25%.

Error estimates for releases where sample activity is below the detectable concentration levels are not included since error estimates at the LLD are not defined.

The estimated total error of reported solid releases is within 25%.

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5.0 BATCH RELEASES Summaries of batch releases or gaseous and liquid effluents are provided in Tables 4A and 4B.

6.0 UNPLANNED RELEASES During this reporting period there were no unplanned releases.

7.0 MODIFICATION TO PREVIOUS RADIOACTIVE EFFLUENT RELEASE REPORTS Our last report (RERR-4) did not include the quarterly gross alpha, Sr-89, Sr-90, and Fe-55 composite da*a for the tourth quarter of 1987. Amended pages to RERR-4 utt included at the end of this report. .

Part B. GASEOUS EFFLUENTS See Summary TaDies lA thru it'.

Part C. LIQUID EisLUENTS See Summary Tables 2A and 28.

I Part D. SOLID WASTE See Summary Table 3.

Part E. RADIOLOGICAf IMPACT ON MAN The calculatted individual doses in this section are based on actual locations of nearby residents and farms. The .

population dose impact is based on historical site specific l data 1.e., food production, milk production, feed foc milch animals, and seatood production.

The coses were calculated using methods described in Regulatory Guide 1.109. Individual doses from batch and continuous releases were calculated using the annual average historic meteorological dispersion coef ficients as described

! in the Of f site Dose Calculation Manual. Population doses were calculated using the meteo . ological dispersion coetticients for the six month interval from January through June, 1988.

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Liquid Pathways Doses to individuals in the population from liquid releases are primarily feom the seafood ingestion pathway. The total body done to an individual was calculated to De 4.lE-01 f mrem. The calculated highest organ dose from liqus,c releases was 9.30E-01 mrem to the liver. The calculated population total body dose was 4.72E+00 person-rem. The

[ calculated average total body dose to the population within i fifty miles ot the site was 8.74E-04 mrem / person.

Air Pathways The resulting total body and skin doses to an individual were calculated to be 2.04E-04 mrom and 1.72E-02 mrom

{ respectively. The highest organ dose due to radioiodines and particulates with half-lives greater than 8 days was 3.55E-03 mrem to the thyroid. The calculated population total body dose was 9.02E-U2 person-rem. The calculated average total body dose to the population within tifty miles of the sits was 1.78E-05 mrem / person.

f Direct Radiation Direct radiation may be estimated by thermoluminescent dosimetric (TLD) measurements. One method for comparing TLD measurements is by comparison with preoperational data. It should be noted that the TLDs measure direct radiation trom both the Salem and Hope Creek Generating Stations at Artificial Island.

TLD's at onsite locations 28-2 and SS-1, which are 0.3 miles

( and 0.9 miles trom the point or origin, averaged 4.95 and 4.35 meads / month respectively. The values tor stations 28-2 and SS-1 are within the statistical variation associated with the preoperational program results.

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It should be noted that the nearest resident is 3.5 miles

away. It can thus be concluded that there was no measurable l dose to any offsite location from direct radaation.

Part F. METEOROLOGICAL DATA Cumulative joint wind frequency distributions by atmospheric stability class at the 300 foot elevation are provided for

( the first and second quarters of 1988 as Tables 5 and 6.

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Part G. ODCM CHANGES The Hope Creek Offsite Dose Calculation Manual was' revised on June 8, 1988. In accordance with the Hope Creek Technical Specification 6.9.1.7 the revised ODCM and an explanation of the revisions is attached.

Part H. MONITOR INOPERABILITY I The filtration, recirculation and ventilation system (FRVS) monitor, the North Plant Vent (NPV) monitor and the South Plant Vent (SPV) monitor have been inoperable during December 1987 to June 20, 1988. This inoperability exceeded the 30 day time period for returning the instruments to OPERABLE status.

The instruments were out of service due to a lack of procedures for performing Technical specification Surveillance requirements. Once the procedures were establish <ad problems were noted with the monitors sampling system designs. Design changes were required and installed which required waiting for parts and calibrating air flow meters. The monitors were declared operable on June 20, 1988. ,

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HOPE CREEK GENERATING STATION TABLE 1A EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JANUARY l - JUNE 30, 1988

) GASEOUS EFFLUENTS-SUMMATION OF ALL RELEASES l

lst 2na Est. Total Units Quarter Quarter Error 4 l

A. Fissior. & Activation Gases

1. Total release Ci O.00E+00 5.76E+02
2. Average release rate for period uCi/sec. 0.00E+00 2.31E+01
3. Percent or technical specification limit (T.S. 3.11.2.2(a)) 4 0.00E+00 2.30E-03 i

B. Iodines

1. Total lodine-131, todine-133 0.00E+0u 5.82E-04
2. Average release rate for period uCi/sec. 0.00E+00 4.77E-06
3. Percent of technical ,

specitication limit (1)

(T.S. 3.11.2.3(a)) 4 0.00E+00 2.37E-04 Co Particulates '

1. Particulates with half-lives >8 days Ci 0.00E+00 8.10E-03 e
2. Average release rate for period uCi/ cec. 0.00E+00 3.99E-04 J. Percent of technical specitication limit (1)

(T.S. 3.11.2.3(a)) 4 2.37E-04

4. Gross alpha radioactivity Ci 0.U0E+00 0.00E+0u Do Tritium
1. Total release Ci 0.00E+00 1.65E-01
2. Average release rate for period uCi/sec. 0.00E+00 6.63E-03
3. Percent or technical specification limit (1)

(T.S. 3.11.2.3(a)) t 0.00E+00 2.37E-04 (1) Iodine, tritium, and particulates are treated as a group.

i HOPE CREEK GENERATING STATION TABLE IB EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JANUARY l - JUNE 30, 1988 GASEOUS EFFLUENTS-GROUND LEVEL RELEASES CONTINUOUS MODE BATCH MUDE let 2nd 1st 2nd Nuclides Released Units Quarter Quarter Quarter Quarter

1. Fission cases Krypton-85 Ci 5.76E+02 Total for period Ci 5.76E+02
2. Iodines Iodine-131 Ci 1.19E-04 Iodine-133 C1 4.63E-04 Total for period Ci 5.82E-04 ,
3. Particulates (Half life >8 days)

Sodium-24 Ci Chromium-51 Ci 2.66E-03 Menganese-54 Ci 1.u6E-03 Cobalt-58 Ci 7.09E-04 Cobalt-60 C1 2.d?E-03

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Iron-59 Ci Yttrium-68 Ci Strontium-89 Ci ritrontium-90 Ci Zirconium-95 Ci Moly bde num-99 C1 l Costum-137 C1 Cnrium-139 Ci Total For Period Ci 8.10E-uJ f~4. ~

Tritium ~~

Tritium Ci 1.65E-01 f -- -- - - - - -

HOPE CREEK GENERATING STATION TABLE AC EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JANUARY l - JUNE 30, 1988 GASEOUS EFFLUENTS-ELEVATED RELEASES There were no elevated releases during this reporting period.

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HOPE CREEK GENERATING STATION

' TABLE 2A EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JANUARY 1 - JUNE 30, 1988 LIQUID EFFLUENTS-SUMMATION OF ALL RELEASES let 2nd Est. Total Units Quarter Quarter Erro.', t

_A. Fission and activation products

1. Total release (not including tritium, cases, alpha) Ci 2.2SE-01 3.56E-01 254
2. Average diluted concentration durino period uCi/ml 1.33E-07 1.90E-07
3. Percent ot applicable limit (T.S. 3.11.1.2.(a)) 4 1.76E+01 1.30L+01 Bo Tritium
1. Total release Ci J.92E+0u 3.16E+00 254
2. Average diluted concentration durina period uCi/ml 1.69E-06*.1.68L-06
3. Percent of applicaDie limit (T.S. 3.11.1.1) 4 5.63E-02 5.50E-02 Co Dissolved and entrained noble cases
1. Total release _~ C1 4.99E-03 1.69E-02 454
2. Average diluted concentration durino period uCi/ml 2.86E-09 8.97E-09
3. Percent of applicable limit (T.S. 3.11.1.1) ,

t 1.43E-03 4.48E-03 D. Gross alpha radioactfvity

1. Total release Ci 0.00L+00 0.00E+00 R

E. Volume of waste release (prior to dilution - Watch Release) liters 1.44E+07 1.38E+08 25%

F. Volume of dilution water used durino entire period liters 1.72E+09 1.87E+09 254 l

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HOPE CREEK GENERATIWG STATION TABLE 2B

( EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JANUARY l - JUNE 30, 1988 LIQUID EFFLUENTS CONTINUOUS MODE WATCH MODE let 2nd 1st 2nd Nuclides Released Unit Quarter Quarter Quarter Quarter Antimony-122 Ci 3.58E-06 4.96E-06 Antimony-124 C1 Antimony-125 C1 Strium-13v C1 8.22E-05 Cerium-141 C1 5.82t-06 6.29E-06

[ Ce r ium-14 3 C1 3.55E-06 Cerium-144 C1 Cobalt-58 C1 3.54E-03 2.63E-03

( Cobalt-60 C1 5.20L-03 5.81E-03 Chromium-51 Ci 2.69E-02 1.67E-u2 Costum-137 Ci 1.43E-06 Copper-64 Ci s.w3E-u4

( Iron-55 C1 3.31E-02 1.w3E-01 Iron-Sw Ci 4.55E-u3 4.87E-03

[ ~~'Iod ine-131 C1 5.39E-06 1.65E-05 l Iodine-133 Ci 9.21E-05 2.56E-04 Manaanese-54 C1 1.u9E-02 1.26E-02 Manaanese-56 ti f Morcury-203 C1 2.93E-06 2.04E-U6 Moly bd e num- 9 9 C: , 1.67E-04 Nickel-65 C :,

Niobium-95 Ci 1.09E-05 2.38E-05

( Niobium-97 C1 2.62E-05 3.72E-05 Ruthenium-lu3 Ci 7.13E-06 8.190-u6 Prn seod ymium-14 4 C1 1.37E-05 5.7eE-03

( Selenium-75 Ci Sodium-24 Ci 5.18L-02 5.50E-02 Strontium-89 Ci f Strontium-92 C1 Technetium-wwm C1 3.25E-04 4.9mE-04 Tnchnettum-101 Ci 6.46E-05 2.wbt-05 Technetium-lO6 Ci 1.uuE-04 Tellurium-132 Ci 7.66E-07 2.42L-06 Yttrium-vl C1 6.w5E-u6

[ Yttrium-wlm C1 2.07E-04 . 03E-03 l tine-65 C1 W.020-02 b.4sE-u2 21nc-69 C1 3.59E-05 3.69E-05

-- zirconium-97 C1 1.45E-04 a.02E-04

( Unidentitled C1 4.54E-Os 1.81E-03 Total (Above) Ci 2.2SE-01 3.56E-01

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HOPE CREEK GENERATING STATION TABLE 2B (CONTINUED)

EFFLUENT AND WASTE DISP 0 SAL SEMIANNUAL RLPOMT JANUARY l - JUNE 30, 1908 L LIQUID EFFLUENTS BATCH MODE

[ CONTINUQUS MODE 1st 2nd 1st 2nc

'Nuclices Released Unit Quarter Quartor Quarter Quarter Tritium Ci 2.91E+00 3.15E+00

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Xenon-131m C1 2.14E-04 4.llE-US Xenon-133 Ci u.23E-u4 1.uoE-03 I Xenon-133m Ci 1.21E-05 2.68E-05 l Xenon-135 Ci 2.5wE-u3 4.5eE-0J Xenon-135m Ci 1.20E-05 Krypton-d5 Ci J.43E-04 9.73E-03 Krypton-85m Ci 1.14E-06 Krypton-87 C1 1.68E-05 1.86E-u5 Arcon-41 Ci 9.82E-04 1.49E-03 5

J HOPE CREEK GENEKATING STATION TABLE 3 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JAhuARY 1 - JUNE 30, 1988 SOLID WASTE AND IRRADIATED FUEL SHIPMENTS A. 00 LID HASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Not irradiated fuel) 6-month Est. Total lo Type of Waste Units Period Error, 4

a. Spent resins, filters sludges, m3 170.4 25 evaporator bottoms Ci 2.59E+03 m3 0.00E+00

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b. Dry compressible waste, contaminated equipment Ci
c. Irradiated components, m3 1 0.00E+00 control rocs Ci
d. Others (Describe) m3 0.00E+00 )

Solidified 011 Ci ,

2a Estimate of major nuclide composition (For Type A and B waste)

Resin DAW i Solidified Oil (Percent) (Ci) (Ci) ,

(C1)

Chromium-51 3.2 4 8.27E+01 panganese-54 4.0 t 1.04E+02 Iron-55 u.1 g 2.10E+0J Iron-59 2.0 4 5.04E+0: ,

Cobalt-Su 1.3 6 3.32E+0),

Cobalt-60 2.4 6 6.14E+01 -

Nickel-59 4 Nickel-63 4 l tine-65 78.W 4 2.04E+03 Tritium-3 0.05 9 1.J5E+00 CarDon-14 0.0 t 1.33E-03 Technetium-99 4 Cesium-137 0.2 4 b.36E+00 1 1-129, Pu-238, 239, j 240, Am-241, Cm-242, 243 and 244 0.0 4 1.40E-02 l

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W HOPE CREEK GENERATING STATION TABLE 3 (CONTINUF.D)

EFFLUENT AND WAhTE DICPOSAL SEMIANNUAL REPORT JANUARY 1 - JUNE 30, 198W SOLID WASTE AND IRAADIATED FUEL SHIPMENTS f3. Solid Waste Disposition

[ Number et Shipments Mode of Transportation Destination 16 Truck Barnwell,

( South Carolina 3 Truck Richland,

[ Washington IRRADIATED FUEL SHIPMENTS (Disposition)

(B.

Number of Shipments Mode of Transportation Destination 0

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l HOPE CREEK GENERATING STATION TABLE 4A f EFFLU::NT AND WASTE DISPOSAL SEMIANNUAL REPORT JANUARY l - JUNE 30, 1988 1

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED J IN A BATCH MUDE

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BATCH RELEASES ONLY

1. Dates: January 1, 1988 - March 31, 1988
2. Type of releasei Gas
3. Number of releases during the 1st Quarter: 1
4. Total time duration for all releases of type listed above: )

3959

5. Maximum duration for releases of type listed above: 3959 minutes

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6. Average duration for all releases of type listed,above 3959 minutes

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7. Minimum du.tation for release of type listed above: 3959 minutes 1
8. The averagn stream flow (dilution flow) during the period of l releases N/A

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HOPE CHEEK GENERATING STATION TABLE 4A

'(CONTINUED)

EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JANUARY l - JUNE 30, 1948

SUMMARY

SHEET FOR RADIUACTIVE EFFLUENTS RELEASED IN A BATCH MUDE F

L BATCH RELEASES ONLY

1. Dates: April 1, 1988 - June 40, 1988
2. Type of release Gas

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3. Number of releases during the 2nd Quarter: 1
4. Total time duration for all releases of type listed above:

15118 minutes Maximum duration for releases of type listed above:

( 5.

15118 minutes ,

6. Average duration for all releases of type listed above:

{ 15118 minutes 7 Minimum duration for release of type listed above:

15118 minutes

8. The average stream flow (dilution flow) during the period

( of release N/A

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1 HOPE CREEK GENERATING STATION TABLE 4B EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JANUARY l - JUNE 3U, 1968

SUMMARY

SHEET FOR RADI0 ACTIVE EFFLUENTS RELEASED IN A BATCH MODE

]

HATCH HELEASLS ONLY

1. Dates: January 1, 1948 - March 31, 19W8 ]
2. Type ot release: Liquid
3. humber of releases during the 1st Vuarter: 31U
4. Total time duration for all releases of type listed above:

56647 minutes

5. Maximum duration for releases of type listed above 695 minutes
6. Average duration for all releases of type listed'above:

183 minutes

7. Minimum duration for release of type listed above 26 minutes
8. The average stream flow (dilution flow) during the period of release 8.U2E+03 gpm

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C HOPE CREEK GENERATING STATION TABLE 4W (CONTINUED)

EFFLUENT AND WASTE DISPOSAL SENIANNUAL REPORT JANUARY 1 - JUNE 30, 1988

SUMMARY

SHECT POR RADI0 ACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY

1. Dates: April 1, 1988 - June 30, 1988

( 2. Typs of release: Liquid

3. Number et releases during the 2nd Quarter: 290
4. Total time duration for all releases of type listed above 55800 minutes

( 5. Maximum duration for releases of type listed above 1135 minutes .

6. Average duration for all releases of type 1.sted above:

[ 192 minutes

7. Minimum duration for release of type listed above 44 minutes
8. The average stream flow (di\ution flow) during the period of release: 4. W5E+03 gpm

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    • h E to .J se e d W 5 w w w W w ed w ee 3333333 maw
    • O 8aa to e ** ** e to a33 5 9 Sd a

5 w w en et a 3 3 ee O > d f

> '* w 3 a aw.a.

w

, . 3. E,

u. et p a wewn h O E o

O = 9 O E- _ . _ _ _ _ _ _ _

m 6 g

O O O O O O *= 0 C e *= e= N O >= m 4 e e o e e e o e e o e e e e e e e o ow C000000000003w00 N e u 4 m

.J w w A w e.

> e E COOOpONeQNNNde=4e N as e= D N *= to ae W w%

59 Ws A e e e=

.J 4 e= 0 C O O O O e= 0 C O O O O w *= 0 4 3 e e e e e e e e e e e e e e o e e ed O000000000000000 O Ea e a o >. e a Ow 4 w e= e N 4

%M m we A E COOOOONOOOOOONes= e)

O D 9O H we aw n= O O O "1 3 '1 O O *) S O O O e e C e ce a a e e e e o e e e e e e e e e e e e C00000000000000O O 4 u ,

N m o e ow I o e t '

w e w vi E C 0 0 0 0 0 0 0 0 0 0 0 0 4 4 9= m a e D *=

M W O

@ 2 w

  • O z >= OOOOOOOOOOOOw4ma. . .

O c 3 e e o e e e e e e e e e e e e e e N ** e w C000000000000000 m

> as u C w >= ca 4

& w is. I w og eO e1 4.

wo e

,A oe N E O O O O O O O *= 0 C e- O m ao N 4 4 e= 3 N O2 s= Me W 20 m

        • I i

l N 3k  %

d < m C ts. W E /

sC OO w >= e I p ,s .$ .e a 0eCe Oe O. O. Oe Oe Oe Oe s=

e 0 e ==

e ec N eO eO e e l r a e w C000000000000000 O i WN w I O.e e sw e T

> t I w 3 w@ L 1 e

= N E O O O O w O O O O N O N == e O O e

a 3 e

b. H H

e.e o

>=

.P.

>=

a O O d') O O O O O O O O O O O O O O e e e e e e e e e e e e e e e e e l O to ena u

OOQOOOOOOOOOOOOO O

! -s e l N W l 1 w

! e a e

e E OQC0000000 e=OOOOO es 3

e as e

m

> C000000000000000 O c 3 e e e e e e e e o e e o e a e e e e o w 0700000000000000 O em m u 4OOO m3 e as e e

% e end k O

  • = e & P o E 0000000000000000 O A D 4 H e me ame M W H & E W .J

.J -

M4 2 2 w w wtad'W w we4 3 1 1 3 3 33 Aww

.at O 883 H 6% H A v1 e9 &83 &3 W"e M 3 tad had H w9 3 2 4 ** O sa %9

    • 8" b W 3EEd tas me
    • the 8" E 2 E W 69 E *e 4 .d W H N had 4 w >e O EW%E f O O n n n n LD n n (T_ n n n O _ O- - _ *_ _ _ _ _*____
  • _ _ _ _ _ _ -

w e j >

E -OONCO*Oe.NeN--O e e e e e e . e e e e e e w

e M w C000000000000-ec e u as a

.J w u L

}'

We e

> e E M e* O 4 e= O N va e=~4 4 M e=

e =# 4O W ** D N N e= 0 s1 M **

w%

de 6 e e s=

eJ l

> O O O O O O O O O O O O N v= ** O W E e e e e e e e o e e e e e e e e a w C000000000000000 O En 4 u Ok e a Oh w w e= M N &

%M u ue A r OOOOOOOOOOOOdmNO. t>

O D 49 0 H wM Ow e- OOOO3OSOOOOOe=NNO e e E e e e e e e o e e e e e e e e e e a w C000000000000000 O w u N e 1 W e e 4 w e w ee E COOOOOOOOOOONeev= M

,= k w 3 e=

@ p

  • e is.4 8

o i O E k e* O O O O O O O O O O O m @ to d O *

  • O e E e e e e e e e e e e e e e e e e a W M e w OC00000000000000 **

O o= so u C u> e a Oe Wh 1 w eO @ A eo o e m on N E N O C O O c c e= O O O Q 4 m e= 0 N e= 3 e= e= 4 g OF m e WI ED E me e=e 3 A 3h  %

4 W M b h & &

OO w k O O O N O Oe= O O O O*=**e= M d to

J He E e e e e e e e e e e e e e e e e e E O e w OOOOOOCC 00000000 *

O wN u M w v= a

> CL 6 w 3 m@ &

W e M P= E e= += 0 4 e= 0 N O O ** w N m m @ 40 M N 3 M h= H m

M e

em 9 > OOOOOOROOe=e=OOOOO 4 M E e e e e e e e e e e o e e e e e e O tA w C000000000000000 f*

  • e e w

>= w

$ W e &

9

- m F O O O O O O O O e= N M e= 0 O O e= 80 3

e s se so M

k 0000000000000000 O In a e e o e e e e e e a e e e e e e e 6 e w C000000000000000 O en M u P= 0 0 O e g e e e

% e w 4 O e= e & t=

n F 0000000000000000 O n n 1 a e o ad w M W M b E M .J

=J M4

  • I E w W W w w tsew e 3333333 ONu M O EEE eMM MWH EEE ED W M M w w M H 3 3 3 M O > LB M M 3&FM u u wM M tad EEuW M 4JEH E M w at W M S EWhE

I O

TABLE 5 (Page 4 of 9)

C)

J014T DISTRIPuTION OF w!ND DIRECTION AND $PcED f ARTIFICIAL ISL Ah3 1/SS- 3/BS LOCATION 300FT DEG C#100M LAPSE DATE l C) (300-33ff) -1.41 -0.5 Class o ,

1 C) sPEtossnI/nsa 7.e-12.5 12.6-1a.5 14.6-24.5 >=24.6 sun PEaCEhT

.6-3.5 3.6-7.5 sum PE RCEhT Sud PERCENT SU1 PEACENT SUM #ERCtNT C) o!aECTIon sun PtaCEhf su9 PEACEhT 10 0.5 - 11 0.5 3 0.1 14 1.6 1 0.0 3 0.1 6 0.3 N

18 0.5 ' .1J 0.5 0 0.0 36 1.7 ID hhE 1 0.0 5 0.2 11 0.5 5 0.2 3 J.1 0 0.0 22 1.0 0 0.0 9 9.4 5 0.2 hi 3 0.1 2 0.1 2 0.1 18 0.9 1 0.0 6 0.3 4 0.2 Eat 4 0.2 0 0.0 0 0.0 19 0.9 C) g 0.0 5 a.2 9 0.4 i

0.3 6 0.4 2 0.1 0 0.0 14 0.6 1 0.0 2 0.1 1 ESE 10 0.S d 0.4 8 0.4 16 1.7 O 0.0 2 0.1 7 0.3 SE 14 0.6 12 0.0 0 0.0 43 2.0 00 11 0.5 5 0.2 db ssE 1 9 0.4 6 J.3 1 0.0 25 1.1 2 0.1 4 0.2 l'~ 0.1 5 7 0.3 11 0.2 2 0.1 31 1.4 0.0 5 0.2 5 0.2 sso 1 4 0.2 3 0.1 3 0.1 1 0.0 14 0.6 db sw 0 00 3 J.1 0.0 18 0.8 7 0.3 3 0.1 1 0.0 1 wsd 1 0.0 5 0.2 19 0.9 115 5.3 13 0.4 47 2.2 2F 1.2 0 0.3 9 J.4 1.1 1 78 4.2 w

23 1.1 60 2.5 oo 3.0 24 db whw 0 0.0 5 0.2 144 6.s 26 1.2 40 1.8 SJ 2. 3 26 1.2 kw 0 0.0 2 0.1 8 0.4 59

_.T I 15 0.7 21 1.0 4 0.4 has 1 0.0 6 0.3 J GD 255 11.7 221 10.1 95 4.4 805 37.1 GD 11 0.5 82 3.8 144 6.6 UD nEAN b!hD SPEED 16.6 CALM Mouts O Pf aCEhT CALM 0.0 C} n!ssthG 0 e

ID O

O O

l l

()

O

t w >= P e= m m N pm M N *= N N e ** N m W A E

  • e e e o e e e e e e e e e e e so w *= e= += 0 O O N N m d M e= N m in m '

P.e p w M e s ao W u 6 We

> e E O d e P. e 4 O P 63 N O e O O e d em ae "3 d N N e= e= e= m d e & P= m W4 P* N N N (J M 9= m W%

Md E e go ed 0 e= 0 O *= O O O toe =im N e C O N f N m E e e e e e e e e e e e - e e o e a w C 0 0 0 0 0 0 0 0 0 0 t= 3 0 0 0 m ft a e W On e w ea d W H,= m, N a

%m a we A E e= C Ne= c O O N O e e O Oen mto e=

O 3 e **9= e= **

49 0 e ima m Uw

>= d O "> ** N += e ow N += m O e N O >= m e E e e e e e e e e e e e e e e e e e e w O O O O O 'D C C O va O O O O ** O e d u N w f O W }

e d &

W e one e r e *= *** m 4 N N tA e d O *= e d e= tm N

  • as y= 3 **e= ** N e= N w= d

@ w e e=

N O h

A D k e t& tA N e.8 N 4 *= O N ** P=

  • d N e O 4 to 3 e e *
  • 4 e e e e e e e e e e e U == e w OOf C O O w *= e= 0 C e= N e d P p ed u e=

b

  • 1 w> ** a w

wh te O w 9 W t.

(

H tt e l

IA Oe N F W O e= to 4 4 4 e % N N m e O O O N e i

  • = 3 *= e= s= e= s= N N N ** N M to M O W O f? m e e a no a g H *'e E l 4 D>  % 1 Q *e su E OO w t= to to m N e N **
  • en er O te io >= N e >

=d p to E e e e e e e e o e o e e e o e e e D o e m O O O O O O O O O O 9= 0 C O ** O to

@ wN u M las e* fE

> a6 I w D ed &

f4 w P.e er w w P. d e e e N #= P. N O w c >= N d

f. 2 e= em v=e=9=Ne=**9=Nem D

>= H 9=

H ee .

G (J 6= e=e=e**ONmemNmWMeeNd m M E e e e o e e o e e e e e e o e e e W e er ' 0000000000000000 d g u Pe a6 t end e &

e e E e N >= m e= 4 h N d N D pm N M em e d D ve p D M

s e e

  • M 6= e= 0 O O O O O e= c O O O O w O e e em E e e e o e e e e e e o e e e e e e 9

e e w C000000000000000 O M u OOOO em I a e e

% e tas et O e* e & *=

  • F M O f"> ** ** v= ** M O e= O e= e= N ** N A E 3 9=

4 e9 e ed ens e9 tad 84 & E p ed j E E tad W W W W W tad e9 3 3 3 3 3 3 3 maw HE y W

e EEE H 69 H et e9 W {Eg A3 ese 3 had W e9 69 3 m a se CD >= 49 h

> 3EEE W end me N led E E W e9 S ( JeM E se tad 4 tas se e EW%E

/

l l

m e- 4 4 == 4 N 4 e= e= m em >= 4 a* M e 4 4 2 e e a e e e e e e e e e e e e e M w O O O O O O e= ** N N o= c O O O O M d u *=

4 m

=J W M A WO J

> e E 4 e m Nen e e c*=4P.N 4 4 e= m e= 4 N dW 3 e= om N N e en m e= &

E H N w

e4 A e w *=

J b= 0 O O O O O *= *= N O ** O O O O O ,

2 e e o e e e e e o e e e e o e e a w C000000000000000 e=

En 4 u o e= e a om 4 w e= m N A

%M m W 8 A E COOOOONNeNNOOOOO m O 3 y= N A

w'990 Ow e= 07OOO7Om es e= A O O O *= 0 N e a e e e e e e e e e e e e e e a e M

e a w O O O 0 0 0 0 C o- e= O O O O O O 4 u N w 0 4 0 4 A w e .

w a E O O e= 0 O O O 4 e e w O O O e ** O E ,o= 3 N N we e=

W H m o

@ 2 4.d g 2 b. M e= O e= O e= 4 4 4 em P= *= O N 4 ** 4 O e 2 e e e e e o e o e e e a e e e e e

  • g w e w C000000000000000 4 0= mo u 3 WW w 5 l dm I w 3

i D aO 4 A l L} ** O e 4 oe N r p.Nwee=mesomecNOeNm e w o= 3 e= *= e= v= 9 I

O3 m we ,

I IA 2O e I u se z (4 3>  %

a < w g4 mu E

< 0O w >= O e= O e O ** m e

  • N N em e= O ** 4 O
  • p d ac z e e e e e e e e e e e . e . e 2 a o w OCOCC00000000000 m O wN u
    • ww cu

> & I w n eo A a e M N E ** N O 4 e= m 4 4 4 e e O m e= M e o E 3 *= 4

> e W

me Q

7' > N N O e= e= *= N w O *= *= O e= O O r= 4 w a e e e e e e e e e e e e e e e e o e w C000000000000000 ee

=e e u

>= au I w o A '

e m r ePONmN4mommOmOON 4 M

3 ~

H e

eu

% L M

N O O O O O O e= O e= 0 O O O O O O 4 J

e a e e e e e e e e e e e e e e e e e l e w C000000000000000 O

  1. M w e=0OO M I a e e

% 4 w em O

  • A v=

85 E *= *= e e= O O N O N O ** O O O O O m R 3

=E H O d w W W M A E H .J J M4 4 E EwwwWNwwe 1331233 64 m W W

O 2A2 e e we HHH AEA E3 M M w w we H A J B M O b= LD

    • e* 3XNA
  • W w ee
    • w .1 Ewe

>* m 4 .J m W E M wgWM O EWAE

e= e= 0 O O O e= O 4 O e= O O O P O e= N W

3 eeaeeeeoeeeeeeee m e

M w O O O O O O O c e-e- D O O O O O a u 4 er

.4 w u A wO O

>= e E NwOOOmON wNN N M e= 0 ** N e= N N Gd D C.b H e

w >=

MU C%

ar ee

> OOOOOOONwCOOOOOO e e e e e e o e e e e e e o e e d

e E

s C000000000000000 O E no 4 u o n= e es te m W w e= M N &

%m e e

ue A E O C O O O O c e sm O O O O O e= O O 3

@c M wm Uw k C0000000^4300030 w e e e e e e e e e e e e e e e o e e a e=

a w C000000000000000 4 u N E I s e e &

d E r=

F 3

COOOOOOwwNOOOOOD e o=

d N

h

@ H H w a .

O ti (2

  • D > OOOOOwommNOOOOOO O e e g g e 3 e e e e e e e o e e o e e e o e e p eie e we oOOOOOOOOOOOOOOO e=

> en u 4 u e- w &

b wm a w

  • uO e & .

oo O e no om N r OOOOOMOeee*=0COOO e=

N e= D M OD m W e1 72 O en g no es z nG D>  %

    • .f p mu 4

E I

OU w > pOOOOOOos=NOOOOOO e

.J m+ E e e e e e e e e e e e e e e e e e F o a w OOOOOOC 040000000 O

, O wN W j ee we er l

> A0 w D ec &

C) e l M k r NwCOOOOONmOOOwCD w e=

O 3 l e= e .

M M

a

>= I

> 0 0 0 0 0 0 0 0 0 0 0 0 0 0 D e= N

( tt M 2 e e e o e e e e o e e o e o e e e l M e w 0000000000000000 O g a u k E l W

+ &

e

' M E D O O O O O O O O O O O w e= O N 4 3

e J e e

s M 6- 0000000000000000 O ee a e e e e e e e e e e e o e e e e O

e I es e 0000000000000000 es

=

m se e.OOO

{  %

0 N .e o= e t **

a E

K 3

OOOOOOOOOwCOOOOO e.

4 M e ed w 1 e4 W i M h E M =J eJ M4 4 W WWwwW8wwwe3333333 esW M O 3SE em H +9 eeM E3S S3 W M 3 . w W M 3 3 S M e De W

    • to 3SEE h w wM M w EEWW
    • E 4 .J W W W M W4pM E, W m E 4 e

I TABLE 5 (Pege O cf 9)

D AR TIFICI AL 15L 4N3 1# $8- 315S J0'mf DISTRIhbTION OF WIND DIRECTION AND SPEED D LOCATIOh 300FT DEG C/100M LAPSE SATE (300-33FT) ALL STABILITIES l D SPtEDS(MI/na)

.6-3.5 3. 6- 7. 5 T.6-12.5 12.6-16.5 18.e-24.5 >=24.6 Sun PEsCENT D

CIeECTIon 504 PEACEmi sug PEaCENT $UM PERCENT SUM PidCENT SU4 PERCENT $UM PERCENT a 5 0.2 11 0.5 21 1.0 33 1.5 19 0.9 4 0.2 93 4.5 8 hmE 2 0.1 11 0.5 20 1.2 23 1.1 11 0.5 0 0.0 73 3.3 gi 1 0.0 to 0.7 12 0.0 17 0.5 5 0.2 2 0.1 53 2.4 thE 3 0.1 11 0.5 15 0.s 11 0.5 5 0.2 3 0.1 51 2.3

<8 E 2 0.1 9 0.4 19 0.h 9 0.4 4 0.2 0 0.0 42 1.9 Esi 2 0.1 s 0.4 9 0.4 18 0.d 4 0.2 0 0.0 41 1.9 SE 3 0.1 13 0.o 21 1.0 33 1.5 22 1.0 23 1.1 115 5.3 Sbf 4 0.2 16 0.7 23 1.1 45 2.1 34 1.6 9 0.4 1 51 6.0 s 4 0.2 9 0.4 23 1.5 50 2.3 57 2.0 17 0.9 167 7.7 sse 3 0.1 17 0.4 35 1.o 50 2.3 70 3.2 30 1.4 205 9.4 SW 1 0.0 17 0.7 32 1.5 43 2.0 24 1.1 9 0.4 12e 5.9 Wsw 2 0.1 13 0.6 31 1.4 21 1.0 2 0.1 1 0.0 70 3.2 W 1 0.0 25 1.1 31 1.4 76 3.5 35 1.s 23 1.1 191 s.3

  • 2 6.1 19 0.0 49 2.2 117 5.4 83 3.4 34 1.6 304 13.9 bud me 1 0.0 7 0.3 62 2.8 130 0.0 9J 4.1 46 2.1 336 15.4 nNw 3 0.1 19 0.9 43 2.0 71 3.3 30 1.4 14 0.6 180 8.5 e

39 1.3 223 10.2 459 21.1 747 34.3 495 22.7 217 10.0 2130 100.0 MISSING MOUns 4 MEco WIND SPEES 15.8 TOTAL hWN8f a CF CALR Nouns O PEACENT 0.0 N

l

--M - --

TABLI: 5 (Page 9 of 9)

ARTIFICIAL ISLAND 1/88- 3/88 JOINT DISTRI"UTION OF WIND CIREETION AND SPEED LOCATION 300FT OtG C/100M -

(300-33fT) DIRECTION VS SPEED SPEEDS (MI/MR)

.6-3.5 3.6-7.5 7.6-12.5 12.6-12.5 15.4-24.5 >=24.6 $UM PERCrNT DIRECTION SUM PERCENT Suq PERCENT SUM PEPCENT SUM PERCENT SU1 PERCENT Sui PERCENT 4 5 0.2 11 0.5 21 1.0 33 1.5 to 0.9 4 0.2 93 4.3 NME 2 0.1 11 0.5 26 1.2 21 1.1 11 0.5 0 0.0 7.t 3. 3 NE 1 0.0 16 0.7 12 0.5 17 0.A 5 0.2 2 0.1 53 7.4 ENE 3 0.1 11 0.5 13 0.3 11 0.5 5 0.2 3 0.1 51 2.3 E 2 0.1 9 0.4 15 0.5 0 0.4 4 0.2 0 0.0 42 1.0 tsE 2 0.1 S 0.4 9 0.4 13 0.9 4 0.2 0 0.0 41 1.9 SE 3 0.1 il 0.4 21 1.0 31 1.5 22 1.0 23 1.1 115 5.3 SSE 4 0.2 16 0.7 23 1.1 45 2.1 34 1.6 9 0.4 1 31 6.0 5 4 0.2 9 0.4 25 1.3 50 2. 3 57 2.6 17 0.0 167 7.6 5 .w 3 c.1 17 0.3 35 1.6 50 2.3 FJ 3.2 31 1.4 206 9.4 SW 1 0.0 19 0.9 32 1.5 43 2.0 24 1.1 10 0.5 120 5.9 W5w 2 0.1 13 0.6 31 1.4 21 1.0 2 0.1 1 0.3 70 3.2 W 1 0.0 25 1.1 31 1.4 76 3. 5 35 1.6 23 1.1 191  ?.7 WNW 2 0.1 19 0.7 50 2.3 115 5.4 R3 3.4 34 1.6 306 14.0 NW 1 0.0 7 0.3 62 2.8 130 6.0 'O 4.1 46 2.1 336 15.4 NNW 3 0.1 19 0.9 43 2.0 71 3. 3 30 1.4 14 0.6 180 8.2 39 1.8 223 10.2 460 21.1 748 34.2 495 22.7 219 10.0 2154 100.0 mis 5ING MOURS 0 MEAR WIND SPEED 15.8 TOTAL NURSER OF CALM NOUR5 0 PERCENT 0.0 1

l 1

l

" w 4

4 > C000000000000000 O 2 e e e e e e e e e e o e e e e e o a w C000000000000000 O e u at er ea w u &

w t>

n= e E C000CeQ000000000 es aw 3 5 l @

w I w ed M

E 4

ed n= C00OC00000000000 O E e e e e e e e e e e e e e e e e e se s O000000000000000 O En e u O> e E Ow 4 w e= " N b

%M e y e A r O000000000000000 O O 3 (9 O H as eri ow b= 0 O O O O 3 O O O O 3 O *4 O "3 O O en 2 e e e e e e e e e e e e e e e e e a w OOOOCOOMOOOOOOCO O 4 u N er 1 W e &

.Oid e w 9 r SCOC0pO000000000 ,=

6 em 3

+4 M

==,

@ O z

lee Q r > C00S*O0090C00000 O .

      • O e 2 * *
  • e e o e e e e e e e e e e e ee a w OOOOOOOOOOOOOOOO O

> es w 4 up e a O # w e w 4 mO f a b MO e

.w or ew E C000000000000000 O e= 3 c a7 av a

u 9

Q me no E Q 3>  %

g d w

=w E 4 oo w > O O o 3 "* C O S M C 0 0 0 0 0 O O

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3 V@ &

E e an k 7 0000000000000000 O a 3

> d

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O 2 > OSOCOMOON00S0006 O me 2 e e e e e e e e e e a e e e e e e e we OOO000C000033000 0 o,

= a w A e 9

6 &'e*

9 e r SO000000033'35000 O 3

e 9

u

> C00000090C000000 O e a e o e e e e * * *

  • e e o e e e e i e w 0000000000000000 O to M w QQOO O I e e e

% e W 4 0 4 0  % 94 a V 0000000000000000 O 2 3 e en a

.4 ees W ed be A E M .J ad A4 Q W R W W w *W W 4J w A 1 1131 11 aaw me O N d el HAA HHH 2AA 33 u ee 2 W W H H 3 3 d me O n= J

  • e > 23dd w u = W me me w 2EuW en e at .J q W 5 ee w at es se 4 O EW%E e a e * * * * *
  • a a e a e a m______m_____m e a

e k, Oe O. O. O. C. ". Ne w. O. O. O. O. *. C. e. oe e

e H w C000000000000000 w w u 4 m

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> e E DOOOON4MOOOONONO m ae D e N e6 e w%

er eL e W em

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  • w C000000000000000 O Ln e u C3 > e W Om 4 w

.= M N s  %)

%m a u8 A E C000000000000000 O O D

.90 W ene m aw e= 0 O 1 O O 0 0 0 0 0 O "5 C O N O M e E e e e e e e e e e e e e e e e e e e w OMODO00000000000 O 4 u N e 6 w a e a w e w to F O O O O O p e= C O O O O O c e O N k e= 3

  • W e Ch a

W E l 0 <

N E > OOOOOOeOOcoce=Omo e o e

  • X e e e e e e e e e e o e e e e e e g w e w 000000000000C000 O p > es u w w a b WW 4 W au < &

MC e OM N F O O O O O e= N O O O O O N O N O N i

4 ** 3 e=

l OE e w I M ED E I a ee M z 23 3>  %

(

p aw 4 M E

OO w e= OCOOCOOp 00000000 N

.J ee E e o e e e e e e e e e e e e e o e T o e w C000000000000000 O O wN w w w a= m

> bi w D ee &

e3 e

    • N r COOOOOeMOOOOOOOO 4 4 3

> w M

me O

E e= O O O O O c c re O O O O O O O O O M E e o e e e e e e e e e e o e e e e O n w C000000000000000 O

  • e e u l N E 8 W e &

e e r C000000000000000 O 3

H en so e

e= 0000000000000000 O

+ E e e e e e e e e e e e e e e e e e 8 e w 0000000000000000 O se e u P.OOO e 8 m e e

% e W 4 O 4 e b p 85 E 0000000000000000 O

& 3 4 H &

=J w M W M b E J

e9 .J M4 4 E EWWWWWWW 69 3 3 3 3 3 3 3 AaW M O EAE WHW W e9 H AEE ED w M X w w H H 3 3 E M O em 69 M se 33EE b u wM M w a E w e9

    • EE 4 .J er e9 E M w4wM N 4 E W Gn E

l u > c ** e O N *= M M ** O O N 4 N 4 e= m a e e e e e e e e e e e e e e e e e e is. C000000000000000 m a w eE es

=J san W L we E O m o e= 4 N P= N N O *= 4 m e m M en

>=

er ,=e 3 *= ** >=

m8 W w% I me a, e W **

=J t p= 0 O O O O O O O O O O O ** O ,= O M a e e e e o e e e e e e e o e e e e w C000000000000000 O

%m 4 u o to e a om 4 w

==" N &

%M e we A E O O O O O O *= O O O O O N e= m o P.

  • O 3

'S 3 W w ai OW

> OO*CSPNaC73*=NNNO e e E e e e e e e e e e o e e e e e e e e ud 90Q5O00030000000 e=

4 u N a e ind a 4 4 w e w m E S O 4 C O N e

  • C O O N 4 w e e= N

& e= 3 m V e

=

@ D a

W *E O , , o,ne%go, con,moy, , e N o e 3 e e e a e e e e e e e e e e a e e w

  • w C000000000000000 e

== es w C uw e m , .

P w is. e w 80 er O @ &

Os == U e w Oe N E o N O ,= 4 O O N s= c O N >= O e e= e e= 3 N

@ SF m 64 l

, aO z y me w 3 em 2

g w o <

4 is. w E oo w ** O O O O O O O s= % c'O O O O O O m

  • b .J W to X e o e e e e o e e o e e o e e e e 2 o e w C000003000000003 O O wN w w a e= a

>* & e end 3 e4 4

== P.8 E O a O C C O e N e O O O O O O ,= 4 m 3

> e me a

t=

F ha 0930nm6000000000 O w d e e e e e e e e e e e o e e e o e O e us COC0000300000OOO O 3 e u

>= w e a l

4 A s

e t O O O O O O S O O S c= O O S O O *=

3 W

9 m

w f

6= 60000000000D000n O e a e o e e a e e e o e e o e o e o e i e

  • 0 0 0 0 0 01"= D 0 0 0 0 0 0 0 0 O CD e w OOOO st 8 y e e

% 4 tid em O 4 e & ,=

a F 3O00000000000000 O at 3 4 e O

=J ins M tad

  • e A E

@ .J

=J W4 at w

M EtaLeudmeweWhaA 1 D 31311 a su w O A23 t9 W 4 AWH ht d d 33 W *e 4 ind ind W W 3 3 a me O pa 8 9 w P* 3EAX w W ins M M ise 3KWW k W G oe at, on g-Jas N me W

4 O EW%E e e e a e e a e a e a e a e a a e a e ab A

4 TTCLE 6 (Pag 2 4 of 9) g seTIFICIAL 15 Lam: 4188- 4/s8 JOInf DISTRIPUTIon OF WIhD DI#tC1104 AhD SPEED g LOCATICN 3CJFT DEG L/100P LAPSE mate (3J0-33FT) -1.4# -0.5 CLASS 9 SPEE0$(MI/HR) .

.e-3.5 3.6-7.5 7.6-12.5  ??.6-1t.5 18.6-24.5 >=24.6 $Um PEnCENT CIaECTIos sum PfaCsmT su1 PteCEmi Sum PERCENT SUR *ERCENT Su9 PERCENT Su9 PERCENT m 0 0.0 5 0.2 9 0.4 33 1.5 3 0.1 4 0.2 54 2.5 g amt 0 0.G 10 0.! 22 1.0 16 0.7 7 0.3 3 0.1 58 2.7 mE O 0.0 5 0.2 15 0.7 10 0.5 4 0.2 17 0.3 51 2.3 EhE 1 0.0 16 0.7 20 0.9 15 0.7 3 0.1 3 0.1 58 2.7 g E 1 0.0 13 0.5 1s 0.7 23 1.1 s 0.3 0 0.0 59 2.7 i Est 1 0.0 14 0.6 13 0.6 10 0.5 5 0.2 1 0.0 44 2.0 SE 1 0.0 3 0.4 1$ 0.7 23 1.1 34 1.o 22 1.0 104 4.3 g 55E 4 0.2 15 0.7 14 0.8 37 1.7 28 1.3 5 0.2 107 4.9 s 2 0.1 15 0.7- 24 1.1 20 0.9 0 0.1 0 0.0 61 2.s s5u 3 0.1 14 0.6 6 0.3 10 0.5 0 0.0 0 0.0 33 1.5 g:

SW 3 0.1 9 0.4 8 0.4 4 0.2 1 0.0 0 0.J 25 1.1 C1W 2 0.1 11 0.5 12 0.6 19 0.9 9 9.4 1 0.0 54 2.5 W 1 0.0 7 0.3 14 0.8 2S 1.3 19 3.

  • s 0.4 21 3.7 4 who 1 0.0 13 0.6 12 0.6 20 0.? 20 0.7 4 0.2 70 3.2 mu
  • D.0 3 0.4 13 0.5 25 1.1 24 1.1 13 0.6 ?9 4.1 I med 2 0.1 14 0.6 28 1.3 25 1.1 16 1.2 1s 0.7 111 5.1 4:

l 4

23 tot 177 S.1 255 11.7 318 14.4 189 8.7 97 4.5 1039 43.6 t-REAM CIm3 SPEED 14.6 CALR N0ues 0 .

PtaCECT CALM 0.0 4' mis 5InG 0 .

=l 1

4 e

e 4

6 4

- - . _. O

w >= N y= 4 e N e e e N 4 O 4 4 O m N es a e e e e e e e e e e o e o e s e M w N N e= e= N c= N N N m e ee NNMN e w u m er er

.4 w w &

We

> e E D 4 O N c e N O e e e v= N 4 N Om ,=

ar e= 3 4 4 m M 4 e e w 4 P= @ m e 4 P= m O es e so I

w%

M4

e. e
  • 7 t= e= O e= 0 O O 4 v= c N N *= 4 O e ** M 3 e a e o e e e o e e e e e e e e a w 0000000000000000 N S: a e u O t= e er Ow 4 w e= am N ft

%e a we A E N e= m e= 0 0 0 N O e 4 N

  • O O M e=

0 3 e e 07 H

.w m

"~

( .

>= 0 Ne=m MO 4 m 4NN N 4eA S e e F e e o e e e e

  • 4 e e o e e e e e w O O O O O O O O O c= 8J o t.) O O O l'.e 4 w N er e w a e 4 w a w
  • r 0 4 N e o we s N o N oc90et im A e= 3 N N es e= e= em e m n ~

om u

m o /-

a 46d 4 2 > e Cl m e >= e em >= m 4 O N d' 4 4 O N O* O iA 2 e e e e e e e o e e e e e e e e e w e w DeQQOOOOOceQOOpe O

> es w e=

0 w> e= or D W et. t W 4 eO e &

Os >e O e w oe N 3- w ' N e= @ v= N P= Ne=ovO.e=Oe=e oe= e eN e m e= 4v=

N Nc=N N

@ eF a W N er y .d

.e Mo Z g 3 *  %

4 m g mW E

< OO w t= 4 4 e 4 *= c 2 e= 4 N A CN4ee M +

t* .e ec z e e e e e e e e e e e e e e e e e y o e w QC0000D*00000000 O o w s=

w w wvN. a t= & I w 3 M4 L J1 e w >= r L 4 N @ e= em ff b e C O N e d O O 4 N

CE 3 e= e= e= e= N e= e= N ** e= e= y= v=

l > H N w

M o

em P ei= n af S @ N #J WNeM e=

w 3 Nees e ea 9eime 4eo'e e e e e e e e e e e O te w OOG700000000000O o

=9 e w em er i ed

? L e r 3e m o we.v se c ese -e 4 4 ceee 69 e

e=

e

- ea e

  • O e O O O O N e= N e= O ** O O e= O M e d e e e e o e e e e e o e e o e e e e e w 000000000?O00000 e=

se m u MOOO en e a e e

% 89 tad 4 0 4 e b **

A F O e O ,= e= e= e N em N O m e* e e O es

& 3 N 4 e O

=e w W tad M G. E W9 =J

=J 69 at 4 W 3 w a ad and eJ W 4H31 333 3 1 A er W M U m J Jt w9 AA +9 w9 w9 Rdd E3 M M A w tad e9 64 A .1 3 w O to L9 M em 32Wd om u and M M tad S C W 69

>= a at =J 84 .9 et M W 4 tad M 4 4 EWhE

) e a e a a e e a e e e a a e e a e e m # 0

(

g e er es up = * * * * * = * = = = * = * * *

/

)

w > e d M *=e=e= 4 9 4 4 O O O N m @ e 3 e e e e o e a e e e e = e e e e e u w C 0 C 0 0 0 0 0 0 0 e= *= O O 0 0 e

$ N '

.e w u L WO

>= e E N o e m m N M O 4 N N e= c e d W N

  • 4 3 e= e= va e= N N N e= e= 32 a e e-w He A e er a=

ad t= C00000000000000O O E e e e e e e e e s e e e e e e e a w C000090000000000 O Em e u o n=

  • a cm -a e e= m N &

% eri u V 8 A 9 000000wo00000000 *=

3 D OO w me = e ow

> ewOOp 39CpONNNaCO N e a e e a e e e e e e o e e e e e e e s W C a> OO*COOOOOOOOMO e=

4 u N or 0 W e e &

ene e ue e r N m C C N O e= w N O d 4 e N O e= N

& 3 N g e . e= e e

% 2 O e

@ F e= meNoceNewevwNew4 N o e a e e e e e e e e e e e e e e e e .e

  • g == s -d Q000000000000000 m y e= su w q ww e= a g ww i W
  • *e O 4  %

MO e ae N r e 44 e s e= N 4 O N m e ao e O M e *=

@ *= 3 y= e= g eF = e M dO a a a= M z

$1 .5 >=  %

4 e =e to e= w R.

CO w n= -OeOOc-mNNewm-ON m

.J Me 2 e e e e e e e e e e e e e e e e e F o a w C000000000000000 N u eo N u

=e W ** W b 4 l w D e4 &

L e

=e P= r m O e= O O O N 4 e W >= 40 4 M c= 4 O h 3 e e= o n

=e o

em

/

F t- e O O O O O O P N N *= n p C em O en

    • a e e e o e e e e e e e o e e e e e o e w C000000000000000 e=

at a w N e 6 end e A e

m E O O e= e= 0 O O N 4 e e ** M e N **

  • 3 N H

e as e

>= OCOOmOOOOOOOOOOO N e d e o e e e e e * * * *

  • e e e o e i

8 e w 0000000000000000 O es m y aggg 9 e e e e

%

  • w n O W e G. e=

A F c O O e= O O O O e= O O O P O O O w

& 3 e e e ed taf M

  • w a
  • ee5.

4 3 M O 3 w W w and 353 w tad etwe4ee4333313 89 et e4 sS 4eW W 53

  • e

>e a tas tad 89 et 2 3 =e O e= q a= 3335 h=

  • e w w oe e=

w 3 S w e4 e e 4 4 e ee em W 4 gf to 4 e EW&S

W t= O e O O O O O N e e O P O o= m e= >=

3 e e e e e e e o e e e e e e e e e M

M w W

C000000000000000 m 4 E I =J taf u L WO

>e E e= N O O O O O 4 0 4 0 m O N e M >=

e4 O e= M a e a

wp 4 e@

4

=&

> 0000000000000000 O 2 e e e e e e e e e e e e e e o e e w OOOOOQOOOOOOOOOO O sm e e

u a

O t=

Om 4 w e- m N &

%e a ue A E C 0 0 0 0 0 0 *= O 0 0 0 0 0 0 0 *=

wM ew n= 0 O O O O O O *= N ". ' C O O O *= O e e a e e e e e e *

  • e o e * * *
  • e e e w O O O "J O O O O O O w' O O O O O O 4 u N m 0 W e 4 L w e w e F C O C O C O O N m O O *= O O N O O

& e= 3 e=

e H

.==

%4 Y W W t= C O O O O O O O O p c e= O O O O 4 e o e 3 e e * *

  • e o e o e e e * *
  • e e b e= e w C000000000000000 C e= es u '

g w> o= a e aw aO s

4 w

as g, MO e w oa N E O O O O O O O e= o= N O N O ** e e= @

e= 3 e2 m M O 45 u a

. = = z M Du  %

A < M 03 wu E sC OO w > O e O O O O O O N N O O O O *= e= >= .

gg ,,# es e a e e e e o e e e e e a e e e e e e T2 o a w C000000000000000 O O wN u me W o= E 68  %$ @

C WC &

es e me P= F ONOOOOOO44OOOe=MN e U 3 *=

> e M

M a

es e > 09MOOMPOOOOnnqCO O e= a e e e e e o e e e e o e e e o e e

( n M a

+

e

>= n

  • e u

0000000000000000 O i ed e  %

.e9 F e= n n O O O O O O O O O O P8 O O **

3 e

ma

>= C00000000000e000 O e a e e e e e e e o e e e e e e a e e

$ e w 0000000000000000 O e m w 9000 m $ e e e

% 4 tod e G

' W e & **

4 a T 3

0000000000000000 O x

4 e9 8 ee het H led M 4 E W ed ad W4 e, y 3 us W ma w w w w w 1 9 3 333y eew or a ERR *nA @ H *9 &Rm &3 at M A ud W H W 3 3 4 ** O > 8 et > 3344 e w *W oe M w IEWN en e e =d e M e se g 4 tad M 4 e aW4E O a e a 4. e a a e a a a e a a e a a a a e

TABLE 6 (Page 8 of 9)

ARTIFITIAL 15t+As 4/55- 4/85 JOI41 E!11eZeuttcm of W1hD 011EC1 ION Ah! SPEED LOCATICm 3CJFT DEG C/100P L4PSE a P.T E (300-33FT3 ALL STABILITIES SP E E DS (M I/ Mp 3 -

.6-3.5 3.6-1.5 7.6-12.5 12.6-12.5 15.6-24.5 >=24.6 $UM PERCENT SIRECTICm Sus FEaCEhi EUM PERCE4T SUM PERCENT SUM PERCthT Sui PEACENT SUM PERCthi 2 1 0.0 11 0.5 20 0.9 53 2.4 25 1.1 e c.1 116 5.3 hhE 1 0.1 13 0.6 39 1.s 45 2.1 14 J.0 4 0.2 118 5.4 hE O 0.0 12 0.6 28 1.5 21 1.0 12 0.o 20 0.9 93 4.3 Ems 3 0.1 25 1.! 29 1.5

  • 24 1.1 9 0.4 4 0.2 94 4.3 E 2 0.1 23 1.1 31 1.4 44 2.0 14 0.0 0 J.0 114 5.2 15E 2 0.1 22 1.0 26 1.2 22 1.0 10 0.5 2 0.1 34 3.9 51 6 0.3 16 0.5 3F 1.7 33 1.7 52 2.6 33 1.5 I SO m.1 Sik 3 0.3 e5 T.1 52 2.4 e4 3.1 41 1.1 5 C.4 200 9.2 5 8 0.4 's 0.3 47 2.2 30 1.4 16 0.7 0 J.0 135 6.2 sid 5 0.2 33 1.4 30 1.4 R9 1.3 27 1.2 5 0.2 126 5.9 sw 3 0.1 17 0.s 35 1.6 33 1.5 21 1.0 4 0.2 113 5.2 WSW 5 0.2 to 0.7 32 1.5 36 1.7 21 1.G 3 0.1 113 3.2 w 3 0.1 16 0.F 39 1.8 54 2.5 3F 1.F 17 0.7 1am 7.7 who 2 0.1 19 J.9 30 1.6 46 2.1 36 1.7 6 0.5 139 a.4 ha 4 0.2 16 0.7 32 1.5 63 2.7 51 2.1 30 1.4 too 9.0 mad 2 0.1 21 1.0 45 2.1 56 2.6 47 2.2 19 0.9 190 8.7 l

l 55 2.5 314 14.4 552 25.3 662 30.4 433 17.9 101 T.5 2179 100.0 MISSING M0uts 5 CE&2 uth3 SPEED 14.6 TCTAL hunsta CF C ALM mouts O PEaCENT 0.0 m

l

\

w e

e

TASLE 6 (Psge 9 of 9)

Aa TIFICI AL 15L ana C#48- C#80 JEIci DISTP193TIO3 0F ut:0 CIaECTIT3 AND 59fEO g LOCATICM 300fT DEG C/100R (300-33FT) SIaECTION V5 SPEED SPEEDS (MI/Me) .

.4-3.5 3. e- F. 5 7.6-12.5 12.4-18.5 18.6-4-.5 >=24.6 Sun PEaCENT CIaECTIou sug Ptattaf 599 #taCEmi SUM PEaCthi $UM PtaCENT Sum PCaCENT SUN PEaCENT e

m 1 0.0 11 0.5 20 0.9 53 2.4 25 1.1 6 0.3 116 met 5.3 .

3 0.1 13 0.6 19 los 45 2.1 14 D.o 4 0.2 118 5.4 hs 0 0.3 12 0.5 28 1.5 21 1.0 12 0.5 20 0.9 93 4.3 14t 3 0.1 25 1.1 20 1.3 *24 1.1 9 0.4 4 0.2 94 4.3 .

I 2 0.1 23 1.1 31 1.4 44 2.0 14 0.6 0 0.0 114 5.2 thi 3 0.1 /2 1.3 27 1.2 22 1.0 10 0.5 2 0.1 16 3.0 51 a 0.3 to 0.6 37 1.7 38 1.7 53 2.4 33 1.5 1 91 P.3 55E 4 0.5 25 1.1 52 2.4 70 3.2 41 1.# 8 0.4 202 9.2 5 8 0.4 34 1.6 47 2.2 30 1.. 16 0.7 0 0.0 1 35 6.2 sse 5 0.2 3J 1.4 30 1.4 29 1.3 27 1.2 5 0.2 126 5.S .i 5J 3 0.1 17 0.S 35 1.s 33 1.5 21 1.6 4 0.2 113 5.2 l w$d 5 0.2 16 J.T  !? 1.5 36 1.6 21 1.0 3 0.1 113 5.2  !

. 3 0.1 10 0.7 39 1.4 54 2.5 37 1.7 19 0.9 158 7.7 e.

htw 2 3.1 1s 3.9 30 1.4 46 2.1 36 1.0 6 0.3 139 6.4 l nd 4 0.2 la 0.7 32 1.5 63 2.9 51 2. 3 30 1.4 196 l 9.0 hh4 2 0.1 21 1.J 45 2.1 56' 2.6 47 2.2 17 0.9 190 8.7 e 4

So 2.6 314 14.4 553 25.3 664 30.4 434 19.9 143 T.5 2184 100.0 l

MISSING nouns O e AtC3 CIh3 Spite 14.6 T3 fat hum *1a C F CALM noues O PfaCENT 0.0 e FCEtaan SioP l

~

[

(

{

AMENDED PAGES TO HOPE CREEK RERR-4 i

(

l

. l

Liquid Pathways

( Doses to individuals in the population from liquid release' are primarily from the seafood ingestion pathway. The total body dose to an individual was calculated to be

( 2.88E-01 mrem. The calculated highest organ dose from liquid releases was 6.56E-01 mrem to the liver. The calculated population total body dose was 3,38E+00 person-rem. Tho calculated average total body dose to the population within fifty miles of the site was 6.26E-04 mrem / person.

Air Pathways The resulting total body and skin doses to an individual

{ were calculated to be 1.52E-2 mrem and 3.31E-2 mrem respectively. The highest organ dose due to radioiodines and particulates with half-lives greater than 8 days was 9.87E-02 mrem to the thyroid. The calculated population total body dose was 3.79E+00 person-rem. The calculated average total body dose to the population within fifty miles of the site was 7.04E-04 mrem / person.

Direct Radiation Direct radiation may be estimated by thermoluminescent dosimetric (TLD) measurements. One method for comparing TLD measurements is by comparison with preoperational

{ data. It should be noted that the TLDs measure direct radiation from both the Salem and Hope Creek Generating Stations at Artiticial Island.

TLD's at onsite locations 2S-2 and 58-1, which are 0.3 miles and 0.9 miles f rom the point of origin, averaged 4.5 and 4.0 mrads/ month respectively. The values for stations 2S-2 and SS-1 are within the statistical variation associated with the preoperational program results.

( It should be noted that the nearest resident is 3.5 miles away. It can thus be concluded that there was no measurable dose to any offsite location from direct radiation.

(

Part F. METEOROLOGICAL DATA Cumulative joint wind frequency distributions by atmospheric stability class at the 300 foot elevation are provided for the third and tourth quarters of 1987 as Tables 5 and 6.

HOPE CREEK GENERATING bTATION

( TABLE 2A EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1987

(

LlyDID EFFLUENTS-SUMMATION OF ALL RELEASES

) 3rd 4th Units guarter guarter Est. Total Error, %

A. Fissior. 6n! at tivation products

l. Total rel..sa (not incIUding

( triciu - . .)s, alpha) C1 2.75E-01 2.58E-01 25%

2". Average'~ ilot'id concintration during period uCi/ml 8.96E-08 7.08E-08 __

3. Percent or applicable l?mit (T.S. 3.ll.1.2.(a))  % 1.00E+01 9.00E+00 _

B. Tritium l 1. Total release C1 4.70E+00 3.080+00 25% ~

2. Average diluted concentration during period uCi/ml 1.54E-06 1.00E-06
3. Percent of applicable limit (T.S. 3.11.1.1)  % 5.38E-07 5 . 01 F.- 0 7 C. Dissolved and entrained noble cases
1. Total release Ci 5.01E-03 1.96E-02 25%
2. Average diluted concentration during period uCi/mi 1.63E-09 1.14E-08
3. Percent of applicable 11mit (T.S. 3.11.1.1)  % 8.15E-4 5.70E-03 D. Gross alpha radioactivity
1. Total release (1) CL 0.00E+00 25%

f E. Volume of waste release (prior to d ilution - Batch Release ) liters 1.48E+07 1.18E+07 25%

F. Volume of dilution water used during entire period liters 3.05E+09 1.70E+09 25%

(1) Gross Alpha analyses for the fourth quarter are not available for inclusion in this report.

I L

f r

HOPE CREEK GENERATING STATION TABLE 2B EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1987 LIQUID EFFLUENTS CONTINUOUS MODE BATCH MODE 3rd 4th 3rd 4th Nuclides Released Unit Quarter Quarter Quarter Quarter Antimony-122 Ci 1.02E-05 3.99E-06 Antimony-124 Ci 5.81E-05 Cobalt-58 C1 7.68E-03 9.14E-03 Cobalt-60 Ci 3.35E-03 6.04E-03 Chromium-51 Ci 5.41E-02 3.75E-02 Cnsium-137 Ci 7.25E-06 4.73E-06 I

f Iron-55 Ci 4.13E-02 Iron-59 C1 1.09E-03 3.20E-03 Iodine-131 C1 2.68E-05 2.57E-05 Iodine-133 C1 5.34E-04 5.65E-04 Menaanese-54 Ci 4.30E-03 1.15E-02 Menaanese-56 Ci 1.79E-05 Mnrcury-203 C1 4.18E-06 2.47E-06 Moly bde num-9 9 Ci 5.16E-04 4.85E-04 Nickel-65 C1 3.30E-05 8.52E-08 Niobium-95 Ci 9.21E-06 Niobium-97 C1 1.39E-04 3.32E-05 Ruthenium-106 C1 1.09E-05 Sod ium-2 4 C i_ l.25E-01 9.86E-u2 Strontium-92 Ci 2.63E-US Technetium-99m C i_ 2.24E-03 1.24E-UJ Tm11urium-132 C1 1.36E-US 2.80E-Ve Technetium-100 C1 1.62E-05 2.04E-05 f Yttrium-91 C1 2.78E-03 2.85E-05 Yttrium-91m C1 8.06E-03 1.61E-03 Zinc-65 Cs 6.31E-02 4.69E-02 Zinc-69 C1 1.08E-03 6.93E-05 f _, Xirconium-97 Ci 4.J5E-05 Unidentified Ci 5.77E-04 2.45E 04

(

l Total (Above) Ci 2.75E-01 2.58E-01 I