Semiannual Radioactive Effluent Release Rept,Jul-Dec 1986

ML20212B676
Person / Time
Site:	Hope Creek
Issue date:	12/31/1986
From:	Public Service Enterprise Group
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ML20212B645	List: ML20212B640 ML20212B676 ML20212B717
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NUDOCS 8703030618
Download: ML20212B676 (40)
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HOPE CREEK GENERATING STATION SEMIANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT llCGS RERR-2 The Energy People DOCKET NO. 50-354 OPERATING LICENSE NO. NPF-57 I

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NPF-57 I

REPORT NO. HCGS-RERR-2 i RADIOACTIVE EFFLUENT RELEASE REPORT JULY l - DECEMBER 31, 1986 4

llOPE CREEK GENERATING STATION Public Service Electric and Gas Company I

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I HOPE CREEK GENERATING STATION I RADIOACTIVE EFFLUENT RELEASE REPORT JULY - DECEMBER 1986 I INTRODUCTION This report, HCGS-RERR-2, summarizes the releases of radioactive I materials in liquid, gaseous and solid form from the Hope Creek Generating Station (HCGS) for the period July 1, 1986 to December 31, 1986.

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 tables I summarizing the gaseous and liquid discharges and solid waste shipments are our responses to parts A-F of the " Supplemental Information" section of Regulatory Guide 1.21, Appendix B.

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

To facilitate determination of compliance with 40CFR190 requirements, the following information on electrical output is provided.

HCGS gene ated 999,395 megawatt-hours of electrical energy (net) during t' , reporting period. HCGS completed power ascension testing n December 19, 1986.

Results of liquid and gaseous composites analyzed for gross alpha, Sr-89, Sr-90, and Fe-55 for the fourth quarter of results The 1986 were not available for inclusion in this report.

of these composites will be provided in the next Radioactive Effluent Release Report.

The gross alpha, Sr-89, Sr-90, and Fe-55 analyses for the first half of 1986 (refer to RERR-1) have been completed; all results are less than detectable.

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

For noble gases: Less than or equal to 500 mrems/yr to the total body and less than or equal to 3000 mrems/yr to the skin.

In addition, the air dose due to noble gases released in gaseous effluents from the site to areas at and beyond the site boundary shall be limited to the following:

During any calendar quarter: Less than or equal to 5 mrad for gamma radiation and less than or equal to 10 mrad for beta radiation and, I During any calendar years Less than or equal to 10 mrad for gamma radiation and less than or equal to 20 mrad for beta radiation.

1.2 Iodine, Particulates, and Tritium The dose rato 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:

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

In addition, the dose to a member of the public from iodine-131, from tritium, and from all radionuclidos in particulate form with half-lives greater than 8 days in gaseous effluents released from the site to areas at and beyond the site boundary shall be limited to the following:

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

1.3 Liquid Effluents Release Limits The concentration of radioactive material released in I liquid effluents to unrestricted areas shall be limited to the concentrations specified in 10CFR, 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 limited to 2E-4 microcuries per mililiter.

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

During any calendar quarter to less than or equal I to 1.5 mroms to the total body and to less than or equal to 5 mrems to any organ, and During any calendar year to less than or equal to 3 mroms to the total body and to less than or equal to 10 mrems to any organ.

1.4 Total Dose Limit 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 be limited to less than or equal to 25 mrems to the total body or any organ (except the I thyroid, which shall be limited to less than or equal to 75 mroms).

2.0 MAXIMUM PERMISSIBLE CONCENTRATIONS (MPC)

Regulatory Guide 1.21 requires that the licenseo 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 for 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 microcuries per milliliter.

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I I 3.0 AVERAGE ENERGY Regulatory Guide 1.21 requires that the licensee provide I the average energy of the radionuclide mixture in releases of fission and activation gasos, if applicable.

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

4.0 MEASUREMENTS AND APPROXIMATION OF TOTAL RADIOACTIVITY 4.1 Liquid effluents are monitored in accordance with Table 4.11.1.1.1-1 of the Technical Specifications.

During the period of record, all liquid wastos were routed to the sampling tanks for monitoring prior to release. Technical Specifications require these tanks to be thoroughly mixed before sampling and I analysis before any releases are made. Batch releases are defined as releases from equipment drain sample tanks, floor drain sample tanks, dotorgent drain I tanks, and condensato storage tanks. There are no continuous liquid releases for this reporting period.

Specific activity from analyses were multiplied by the volume of offluent discharged to the environment in order to estimate the total liquid activity discharged.

The detection requirements of Table 4.11.1.1.1.-1 of the Technicial s'pocifications are achieved or exceeded. Isotopos existing at concentrations below the achieved detection limit are treated as not being present.

4.2 Gaseous offluent streams are monitored and sampled in accordance with Tablo 4.11.2.1.2-1 The north plant vontof(NPV) the Technical and south Specifications.

plant vont (SPV) are the final release points for most I planned gaseous offluent releases. A small quantity of gaseous offluent will be roloased via the Filtration, Recirculation, and Ventilation System I (FRVS) vont during testing periods. The NPV and SPV are continuously monitored for particulatos, iodinos, and noble gases; the FRVS is continuously monitored for noblo gases. The NPV and SPV have moving particulate and fixed iodine filters; the FRVS han fixed particulato and iodino filters. The filters aro E

changed and analyzed at least wookly when roloanos aro l

l5 in progross. Tho NPV and SPV are sampled monthly for noble gases and tritium.

j The detection requirements of Tables 4.11.2.1.2-1 of the Technical Specifications are achieved or exceeded Isotopos existing at concentrations below lE the achieved detection limit are treated as not being 3 present.

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Continuous Modo gaseous releases are quantified by routine (monthly) sampling and isotopic analyses of 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 vont 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 those integrations were based on the ANSI mix for BWR's. Doses calculated from this data I employed the simplified methods of tho ODCM Section 2.3.1 and 2.4.2.

Batch Modo gaseous releases (primary containment purgo) are quantified by pro-rolease sampling and isotopic analysos. Specific activities for each isotopo detected are multiplied by the total purgo flow volume in ordor to estimate the batch release of radioactivity through the 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 50% when concentrations exceed detectable levels. This error is due primarily to variability of wasto stream flow ratos and changes in isotopic distributions of waste streams betwoon sampling periods. The estimated total error of the reported batch gaseous releases is within 50%.

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

The ostimated total error of reported solid releanos is within 154.

5.0 BATCH RELEASES Summarios of batch releases of gaseous and liquid effluunts are provided in Tables 4A and 4B.

6.0 UNPLANNED RELEASES During this reporting period there woro no unplanned roleason.

7.0 MODIFICATION TO PREVIOUS RADIOACTIVE EFFLUENT RELEASE REPORTS Our last report (RERR-1) did not include the quarterly I gross alpha, Sr-99, Sr-90, and Fe-55 composito data for the first half of 1986. The results are less than detectablo so no updating to the last report (RERR-1) are necessary.

Part B. GASEOUS EFFLUENTS Soo Summary Tables lA thru IC.

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

Part D. SOLID WASTE Solid wasto curie totals were determined by doso/ curie method and are thorofore conservativo overestimatos.

Soo Summary Table 3.

Part E. RADIOLOGICAL IMPACT ON MAN The calculated individual dosos in this section are based on actual locations of nearby residents and farms. The population dose impact is based on historical site specific data 1.o., food production, milk production, food for milk animals, and scafood production.

The donos woro calculated using methods described in Regulatory Guido 1.109. Individual dosos from batch and continuous releason were calculated using the annual average historic motoorological dispersion coefficients as I described in the Offsite Doso Calculation Manual.

Population dosos woro calculated using the motoorological disporsion coefficients for the six month interval from July through December, 1986.

Liquid Pathwayn Donos to individuals in the population from liquid releases are primarily from the scafood ingestion pathway. The total body dose to an individual was calculated to be I 1.67E-02 mrom. The calculated highest organ dose from liquid roloasos was 3.90E-01 mrom to the gastrointestinal tract. The calculated population total body dose was 1.06E-02 person-rom. The calculated average total body doso to the population within fifty milar of the site was 1.96E-06 mrom/ person.

Air Pathwayn The resulting total body and skin dosos to an individual woro calculated to bo 2.16E-01 mrom and 4.70E-02 mrom respectively. The highest organ dono due to radioiodinos and particulates with half-lives greater than 8 days was 8.57E-04 mrem to the thyroid. The calculated population total body dose was 8.85E-01 person-rem. The calculated average total body dose to the population within fifty miles of the site was 1.63E-04 mrem / person.

Direct Radiation Direct radiation may be estimated by thermoluminescent dosimetric (TLD) measurements. One method for comparing I 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 Artificial Island.

TLD's at onsite locations 2S-2 and SS-1, which are 0.3 I miles and 0.9 miles from the point of origin, averaged 4.9 and 4.6 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 I areprovided for the third and fourth quarters of 1986 as Tables 5 and 6.

Part G. ODCM CHANGES The Hope Creek Offsite Dose Calculation Manual (ODCM) was extensively revised. These revisions were reviewed by the Station Operating Review Committee (SORC) and accompany this report.

Part H. MONITOR INOPERABILITY On September 16, 1986, during the period of concern it was discovered that the Technical Specification Action Statement allowable time was exceeded for the inoperable North Plant Vent (NPV) flow rate monitor channel. The root cause of this event was personnel error. The Operations Department supervision failed to consider that a 31-day month was involved when calculating the allowable time that effluent releases could continue with inoperable instrumentation. Immediately upon discovery, all effluents to the NPV were isolated. Corrective action was to enter a caution in the Night Order Book which directs that a 31-day month be considered whenever a calculation is made relative to Techrical Specifications.

1 Tne Cooling Tower Blowdown aischarge monit.m was declared inoperable on August 14, 1986 at 2226 hours0.0258 days <br />0.618 hours <br />0.00368 weeks <br />8.46993e-4 months <br /> as a re<; alt of a design problein with the sampling pump. A design change was made and the pump was replaced. The monitor was returned to service at 1300 hours0.015 days <br />0.361 hours <br />0.00215 weeks <br />4.9465e-4 months <br /> on October 24, 1986.

This period exceeded 30 days and the design problen has now been eliminated by replacement with a new pump / design. ,

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M M M M M M M M m m m m m e HOPE CREEK GE:iERATING STATION TABLE lA EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT '

JULY l - DECEMBER 31, 1986 GASEOUS EFFLUENTS-SUMMATION OF ALL RELEASES 3rd 4th Est. Total Units Quarter Quarter Error %

A. Fission & Activation Gases

1. Total release Ci 2.03E+00 3.60E+01 25

2. Average release rate for period (1) uCi/sec. 6.42E+00 3.89E+00 __

3. Percent of technical specification limit  %

5.57E-01 9.87E-01 (T.S. 3.11.2.2(a))

B. Iodines

1. Total iodine-131 Ci 0.00E+00 5.64E-05 25

2. Average release rate for period uCi/sec. 0.00E+00 7.17E-06

3. Percent of technical specification limit (2)  %

1.22E-04 7.19E-01 (T.S. 3.11.2.3(a))

C. Particulates Particulates with half-lives > 8 days Ci 0.00E+00 5.26E-02 25 1.

2. Average release rate for period uCi/sec. 0.00E+00 6.69E-03

3. Percent of technical specification limit (2)  %

1.22E-04 7.19E-01 (T.S. 3.ll.2.3(a))

4. Gross alpha radioactivity (3) Ci D. Tritium Total release Ci 4.21E+00 3.93E-01 25 1.

2. Average release rate for period uCi/sec. 2.02E+01 2.74E-01

3. Percent of technical specification limit (1)  %

(T.S. 3.11.2.3(a))

1.22E-04 7.19E-01 (1) Third quarter release rate average taken over time of release period.

(2) Iodine, tritium, and particulates are treated as a group.

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

IlOPE CREEK GENERATING STATION TABLE IB EFFLUENT AND WASTE DISPOSAL SEMIAUNUAL REPORT JULY l - DECEMBER 31, 1986 GASEOUS EFFLUENTS-GROUND LEVEL RELEASES CONTINUOUS MODE .. _

BATCH MODE 3rd 4th 3rd 4th-Nuclides Released Units Quarter Quarter Quarter Quarter

1. Fission gases Krypton-83m_ Ci 4.40E-01 2.83E-01 Krypton-85 Ci Krypton-85m C 1_ 4.40E-01 2.83E-01 Kryptoit-87 Ci 1.76E-01 1.13E+00 Krypton-88 Ci 1.76E-01 1.13E+00 Krypton-89 Ci 1.19E+00 7.64E+00 8.80E-02 5.66E-01 Xenon-133 Ci Xenon-133m Ci

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Xenon-135 Ci 2.64E-01 1.70E+00 Xenon-135m Ci 2.20E-OL 1.42E+00 Xenon-13] Ci 1.36E+00 8.77E+00

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Xenon-138 Ci 8.36E-01 5.38E+00 Unidentified Ci Total for period Ci 4.40E+00 2.83E+01

2. Iodincs Iodine-131 Ci 5.64E- 5 Iodine-133 Ci Iodine-135 Ci Total for period Ci 0.00E+00 5.64E-05 0.00E+00 0.00EF00

• No releases for this period.

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HOPE CREEK GENERATING STATION TABLE 1C EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1986 GASEOUS EFFLUENTS-ELEVATED RELEASES lI l

I There were no elevated releases during this reporting period, i

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HOPE CREEK GENERATING STATION TABLE 2A I EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1986 LIQUID EFFLUENTS-SUMMATION OF ALL RELEASES 3rd 4th Units Quarter Quarter Est. Total Error, %

A. Fission and activation products

1. Total release (not including tritium, gases, alpha) Ci 6.10E-02 6.95E-01 25

2. Average diluted concentration E during period uCi/ml 1.04E-08 1.64E-07

3. Percent of applicable limit E (T.S. 3.11.1.2.(a))  % 1.76E-01 2.37E-02 5

B. Tritium en 1. Total release Ci 0.00E+00 6.91E-03 25

2. Average diluted concentration ll during period uCi/ml 0.00E+00 1.63E-09

3. Percent of applicable limit  %

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(T.S.,3.11.1.1)

W C. Dissolved and entrained noble gases 0.00E+00 5.43E-05

1. Total release Ci 4.55E-03 1.30E-02 25

2. Average diluted concentration during period uCi/ml 7.77E-10 3.08E-09

3. Percent of applicable limit  %

(T.S. 3.11.1.1) 3.89E-04 1.54E-05 E D . Gross alpha radioactivity

1. Total release (1) Ci 0.00E+00 0.00E+00 25 E. Volume of waste release (prior to dilution - Batch Release) liters 2.25E+07 1.92E+07 25 F. Volume of dilution water used during entire period liters 5.82E+09 4.20E 09 25 I(1) Gross Alpha analyses for the fourth quarter are not available for inclusion in this report.

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1 HOPE CREEK GENERATING STATION TABLE 2B I EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1986 LIQUID EFFLUENTS CONTINUOUS MODE BATCH MODE 3rd 4th 3rd 4th Nuclides Released Unit Quarter Quarter Quarter Quarter Barium-139 Ci 4.30E-05 I Cerium-141 Cerium-143 Ci C1 Ci 3.60E-06 2.45E-06 2.30E-05 3.09E-06 1.16E-04 Cerium-144 I Cobalt-58 Cobalt-60 Chromium-51 Ci Ci Ci 1.25E-02 1.40E-05 3.16E-02 1.05E-01 1.05E-02 1.60E-01 g

1.90E-05 I Cesium-137 Ci Copper-64 Ci 3.72E-04 Iron-59 Ci 3.79E-04 2.49E-02 Iodine-131 Ci 1.79E-04 2.59E-04 -

Iodine-133 Ci 2.21E-04 1.74E-03 Manganese-54 Ci 9.01E-04 5.02E-02 Manganese-56 Ci 3.97E-03 2.42E-02 Molybdenum-99 Ci 7.54E-04 2.78E-03 '

Sodium-24 Ci 5.56E-03 2.84E-01 Niobium-95 Ci 3.07E-06 6.68E-04 Ci 4.37E-03 I Niobium-97 Neptunium-239 Praseodymium-144 Ci Ci-1.88E-04 3.30E-06 4.60E-03 1.31E-03 Ruthenium-103 Ci Antimony-122 Ci 4.14E-03 Technetium-99m Ci 1.03E-03 6.04E-03 Tellurium-129m Ci 4.46E-03 Tellurium-132 Ci 8.89E-04 7.77E-04 Tungsten-187 Ci 1.50E-05 Yttrium-91 Ci 2.49E-03 Ci 1.44E-03 2.38E-03 I

Yttrium-91m Zinc-65 Ci 1.llE-03 Zinc-69 Ci 1.06E-06 Zirconium-95 Ci 4.30E-04 Tritium Ci 6.90E-03 2.78E-05 2.30E-04 I Xenon-131m Xenon-133 Xenon-133m Ci Ci Ci 1.94E-03 4.89E-04 2.72E-03 1.64E-04 5.72E-03 Xenon-135 Ci 1.89E-03 I Xenon-135m Krypton-85 Krypton-85m Ci Ci Ci 1.80E-04 2.65E-06 3.89E-03 I Krypton-87 Argon-41 Ci Ci 1.42E-05 3.00E-04 2.45E-05 I I -- -

l ll HOPE CREEK GENERATING STATION TABLE 3 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1986 SOLID WASTE AND IRRADIATED FUEL SHIPMENTS A. SOLID WASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Not irradiated fuel) 6-month Est. Total

1. Type of Waste Units Period Error, %

a. Spent resins, filters sludges, m3 8.45E+01 evaporator bottoms Ci 5.14E+00 2.5E+01 I b. Dry compressible waste, contaminated equipment m3 Ci 0.00E+00 0.00E+00 g

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c. Irradiated components, m3 0.00E+00 control rods Ci 0.00E+00

d. Others (Describe) m3 0.00E+00 Solidified Oil Ci 0.00E+00

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

Resin DAW Solidified Oil (Ci) (Ci) (Ci)

Chromium-51 3.8% 1.95E-01 Manganese-54 29.0% 1.49E+00 I Iron-55 Iron-59 25.3%

0.2%

1.30E+00 1.20E-02 Cobalt-58 12.7% 6.53E-01 I Cobalt-60 Nickel-59 Nickel-63 19.7%

0.8%

1.01E+00 7.10E-04 3.88E-02 I Zinc-65 Tritium-3 Carbon-14 3.0%

1.56E-01 3.53E-04 9.93E-04

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Zirconium-95 0.4% 1.80E-02 Strontium-90  % 2.32E-04 Technetium-99  %

Silver-110m 5.0% 2.58E-01 I Cesium-134 Casium-137 Corium-144 0.1%

3.44E-03 I Lanthanum-140 Barium-140 Pu-239, 240 Am-241, Cm-243, 244  %

Pu-238  %

Plutonium-241  %

I-129, Pu-238, 239, 240 Am-241, Cm-242, 243 and 244  %

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'I HOPE CREEK GENERATING STATION TABLE 3 (Continued)

EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1986 SOLID WASTE AND IRRADIATED FUEL SHIPMENTS

3. Solid Waste Disposition h Number of Shipments Mode of Transportation Destination 7 Truck Barnwell B. IRRADIATED FUEL SHIPMENTS (Disposition)

I Number of Shipments Mode of Transportation Destination N/A N/A N/A I

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I HOPE CREEK GENERATING STATION TABLE 4A EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1986

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED I IN A BATCH MODE BATCH RELEASES ONLY

1. Dates: July 1, 1986 - September 30, 1986

2. Type of release: Gas

3. Number of releases during the 3rd Quarter: 28

4. Total time duration for all releases of type listed above:

10,790 minutes

5. Maximum duration for releases of type listed above: 1,540 minutes Average duration for all releases of type listed above:

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385 minutes Minimum duration for release of type listed above: 1 minutes 7.

8. Average stream flow (dilution flow) during the period of release: N/A I

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I I HOPE CREEK GENERATING STATION TABLE 4A (con't)

EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT I JULY l - DECEMBER 31, 1986

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY

1. Dates: October 1, 1986 - December 31, 1986

2. Type of release: Gas

3. Number of releases during the 4th Quarter: 5 I 4. Total time duration for all releases of type listed above:

23,178 minutes Maximum duration for releases of type listed above:

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11,574 minutes

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

I 4,636 minutes Minimum duration for release of type listed above:

7.

224 minutes

8. The average stream flow (dilution flow) during the period of release: N/A

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HOPE CREEK GENERATING STATION I TABLE 4B EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1986

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE I BATCH RELEASES ONLY

1. Dates: July 1, 1986 - September 30, 1986

2. Type of release: Liquid

3. Number of releases during the 3rd Quarter: 480

4. Total time duration for all releases of type listed above:

79,310 minutes

5. Maximum duration for releases of type listed above:

1,069 minutes

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

165 minutes

7. Minimum duration for release of type listed above: 3 minutes Average stream flow (dilution flow) during the period of I 8.

release: 74.84 gpm I

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HOPE CREEK GENERATING STATION I TABLE 4B (con't)

EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT JULY l - DECEMBER 31, 1986

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY

1. Dates: October 1, 1986 - December 31, 1986

2. Type of release: Liquid

3. Number of releases during the 4th Quarter: 405

4. Total time duration for all releases of type listed above:

72,019 minutes

5. Maximum duration for releases of type listed above:

1,643 minutes

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

177.82 minutes

7. Minimum duration for release of type listed above: 3 minutes

8. Average stream flow (dilution flow) during the period of release: 70.34 gpm I

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TABLE 5 (4 of 9)

ARTIFICI AL ISL AhD F/86-9/06 JOINT DISTR!buTICN OF W!h3 DIRECTION AND SPEED LOCATION 3C0FT DEu C/100M LAPSE RATE (300-30FT) -1.4/ -0.5 CLA$$ 0 SPEEDS (MI/Hal 1-3 4-T e-12 13-16 19-24 25 PLU$ SUM PERCENT SbM PEACEhi SUN PERCENT sum PERCENT 30M PERCENT SUM PERCEhi SUN PERCEhT DIRECTION 0.0 12 0.6 26 1.5 5 0.4 7 0.3 2 0.1 56 2.d N 1 9 7 0.3 4 0.2 0.0 29 1.4 hNE 2 0.1 0 0.3 0.4 1 22 1.1 0.0 10 0.5 10 0.5 1 0.0 0 0.J 0 0.0 AE 1

" 7 0.4 10 0.5 12 0.6 0 0.3 0 0.0 31 1.5 ENE O 0.0 1 0.0 9 0.4 11 0.5 6 0. 3 0 0.J 0 0.0 27 1.3 E

0.0 2 J.1 1 0.0 1 0.0 0 0.J 0 0.0 4 0.2 E$E O 3

0.0 7 0.4 8 0.4 21 1.0 16 J.d 12 0.6 e6 3.3 SE O 0.0 15 J.T 29 1.4 53 2.6 31 1.5 1 0.0 110 6.5 SSE 1 0.1 23 1.0 34 1.F 53 2. 6 9 0.* 0 0.0 118 5.9 s 2

) 17 0.$ 14 0.7 14 0 .' T 5 0.2 0 0.0 51 2.5 55W 1 0.0 0.1 14 0.7 5 0.2 1F 0.8 T 0.3 4 0.2 50 2.5 Sd 3 4 0.4 13 0.6 12 0.0 4 0.2 0 0.0 38 1.7 usw 1 0.0 3 6 0.3 11 0.5 23 1.1 11 0.5 0 0.0 52 2.6 e 1 0.0 6 0.4 2d 1.4 7 0.3 5 0.2 2 0.1 53 2.6 whd 3 0.1 9 0.4 19 0.9 21 1.0 10 J.5 2 0.1 63 3.1 hw 2 0.1 3 14 0.7 41 2.0 10 0.5 4 0.2 3 0.1 75 3.7 hhd 3 0.1 D

22 1.1 166 d.4 269 13.4 266 13.2 113 5. 6 27 1.3 865 45.0 0

CEAN WIhD $ PEE D 12.6 CALM MOURS 0 0 0.0 PEACEhT CALM nIssthG S3 D

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TABLE 5 (5 of 9)

C

() ARTIFICIAL ISLAhD 7/d6-9/d5 JOI4T DISTR!auf!Ch 0F w!h3 OIRECTION AND SPEED LOCATION 300FT des C/100M LAPSE RATE (300-30FT) -0.4/ 1.5 CLA5s E O

SPEEDS (MI/HR) 1-3 4-7 6-12 13-18 19-26 25 PLUS SUM PERCENT SUM PERCENT 3U9 PEACEhI SUM PERCENT SUN PERCENT SU9 PERCENT sum PERCENT DIRECTION

() N 5 0.2 6 0.1 31 1.5 20 17 1.0 0.8 10 5

J.5 0.2 0 0.0 0.0 72 42 3.6 2.1 hhE O 0.0 4 0.2 15 0.7 1 7 0.3 19 0.9 21 1.0 3 0.1 0 0.0 50 2.5 NE O 0.0

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O O ..rrrrCral rstano Fiso-9/ 6 Jor=T orsfarauTica De wrmo oraECiros 4== seefo LOCATrQN 300 F T des C/100M LAPSE RATE O " ' ' " ' '" 5'''*5 SPEEDS (Mr/HR) 1-3 4-7 8-12 13-18 19-24 25 PLUS SUM PEACENT praECir0N SOM PERCEhf SUM PE4 CENT 509 PEACENT SUM PERCENT $UM PERCENT SUM PERCENT O = . 0.3 i, 0., .0 3.0 is i., i, 0., 2 0.1 i44 7.2 NNE 2 0.1 11 0.5 30 1.5 25 1.2 9 0.4 2 0.1 79 3. 9 NE 1 0.0 13 3., 32 1.6 24 1.2 4 0.2 O Ene 3 0.i i, 0., 44 2.2 2i 1.0 i a.a 0 0 0.0 0.3 79 sa 3.9 4.4 E 3 0.1 20 1.0 48 2.4 12 0.6 0 0.0 0 0.0 53 4.1 Est 2 0.1 7 0.4 21 1.0 5 0.2 0.0 O sf 3 0.i 2, i.4 29 i.4 4s 2.5 1 0 0.0 38 1.9 zi i.0 is 0.. 143 7.i SSE 2 0.1 33 1.6 54 2.7 76 3.s 41 2.0 2 0.1 20S 10.3

$ 12 0.6 45 2.2 55 2.7 77 3. 6 31 0 O sse 4 0.2 2, i.4 27 i.3 46 2.3 36 1.5 i.8 0.0 220 10.9 2 0.i i44 7.2 sw S 0.4 37 1.5 34 1.9 51 2.5 20 1.J 7 0.3 161 S.O wSd 4 0.2 1$ 0.7 33 1.6 32 1.0 9 0 O w 2 0.1 19 0., 2. i.3 47 2. 3 is 0.4 0.7 0.0 96 4.1 0 0.0 ice 5.4 whw 4 0.2 23 1.1 46 2.3 23 1.1 5 0.2 3 0.1 104 5.2 hw 5 0.2 24 1.2 50 2.5 28 O hhd 6 0.3 23 1.1 57 2.5 SS 39 2.9 1.. d 0.4 173 $.6 1.9 14 0.7 3 0.1 142 7.1 O

67 3. 3 376 18.7 650 32.3 622 30.9 255 42 2.1 2010 12.6 100.0 0

Mrssras nouns 197

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TOTAL huMsta CF CALM MCuR$ 1 PERCENT 0.0 0

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ARTIFICIAL ISLAND 7/ d 6-9 / 8 6 JOINT DISTRIBUTION OF w!ND DIRECTION AND SPEED DE. C#100P LOCATION 3C0FT (3J0-30FT) DIRECT 10h VS SPEED SPEEDS (MI/HR) SUM PEACENT 8-12 13-18 19-24 25 PLUS 1-3 6-7 SUM PERCfNT SUM PERCEhT SUM PERCENT sum PERCENT DIRECTION SUM PERCENT SLM PERCENT 33 1.9 19 0.4 2 0.1 144 7.0

) N 6 0.3 17 0.9 60 2.9 79 3.9 25 1.2 9 0., 2 0.1 hhE 2 0.1 11 0.5 30 1.5 79 3.9 1.6 24 1.2 4 0.2 0 0.0 hE 1 0.0 13 0.7 32 38 4.3 44 2.1 21 1.0 1 0.0 0 0.0

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t em e=

w u

m W

eeoeeeeeeeeeeeeo C000000000C00000 O

O e

I O &

w O w E C0000000000C0000 E D we M e a I lM O

E O

me eG M

6

> C000000000000000 Z

w u

C 0 0 0 0 0 0 0' 0' 0' 0' 0' 0' 0' 0' 0' O

O' N u >= *= m I w@

g wh ao me O OM OE a E

w E

E 3

w C000000000000000 0 2O e.e me x Id Q 4

b 3 t=

hu OO 2

4 J

w E

wN we c=

oI 2

w C000000000000000 eoeeeeeeeeoeeeee CC00000000000000 N

O e

w ee u I

O me w as

> b w

3 we e.

m 4

• • E *= O O O O O O *= O O w O O O e= Q 5 3 to we w9 ee O

2 >= >= OOOOOOOOOOOOOOOO e e e e e e e e e e o e e e o e e=

e we t I O C000000000000000 I

O @ w

• e u er w

6 E O O O O O O O O O e- ,=e= O O O O M I

3 M

4 e

N,= M C00000000000000Q O I

t=

e e e o e e e e e e e e o e e e e 9 6 3 O 4 *= w C0000000000C0000 C000 e u e e 1  % u so O l O w e= e.

C000000000000000 O I

a E 2 3 A 4 up J w w w

• • e. E wt J J M4 l as a 2wwwwwwwwe 3 3 we 3 w3we3 1B 3 0mu

• • o 2aa we we we 22z 23 u w z w w w we 3 3 2 ** o e= ss

• • t= 3x22 es. u wm M w = E w .e WJ w.EM

! > w .e

= M.

i 4 a E u e. E 1

l 1

O O O O O- O O- O- O --- O -O_ O -Q O O a a e a e.__e_ $

I -

I W W

we 4

e=

3 w

W m

N N C O O O O O O O O O N e= M N e e o e e e o e e o e e e e e e C000000000000000 h

e=

e I

.J w W &

w em E W W e= va O ** O e= e= v= w= e= en N N in en

>=

4 ,=e 3 m M 0 W W%

we e

& e 4e J4

> OOOOOOOOOOOOOONO m I

W 3 2 e o e e o e e e e e e o e e e e e J w C000000000000000 O Ea & W O >= es em W O.

v Ow N &

%m u9 E G O O O O O O O O O O O O p en O 4 O 3

@O e4 wm aw I N W

D e

v=

e=

2 w

W es W

C000000000000000 e e e o e e o e e e e e e e e e C000000000000000 O

O o

I a &

w w E C 0 0 0 0 0 0 0 0 0 0 0 0 0 0 e= **

& 3 we 44 e a O I W 2 ,e= >= w= N O O O O O O O O O O O O e= e= 4 Q O 2 e e o e e e e e e e o e e e e e e M 9 w 0000000000000000 O

>= m u M u to e= EE ww w Iw W g

EO MD om e2 m E

W 3

M4COOOOOOOOOOONm N e*

20 E M ww Z Q 3 >=

e w

4 wu E b OO wN N 000000000000P000 e J 44 ,= E e e e e e e e e o e o e o e e e e 2 oI w C000000000000000 O O wW W me w E e- & w 3 W &

D

= E e- O v=e= O O O *=*= O C e= m e- O e= e

m 3 v=

e-I 44 wo e4 m

D=

2 >= 6- O O O O O O O O O O O O e= 0 O O N me 1 2 e e e e o e e e e e o e e e e e e O 4 w C000000000000000 O l

-e u 5

w i

E O O O O O == O O O e e O N O O O in 3

e4 4

eg N

e= m >= C000000000000000 O 9 2 e e o e o e e e e e e e e o e e e 0

I e - w C000000000000000 O t e u eOOO e e j  % e O

' O w 4 e= E e=

I e E C000000000000000 O 2 3 4 we e

.J w e4 W e9 & E we J W4 I

J ONW 4 E E W w w W W w W we 3333333 23 M O E22 44 we 44 W W we 222 u me 3 w w we we 3 3 3 ** O >= W M e= 3122 i

m W Ww

• • W E E W we 9" S EE J M we E We w as W **

4 O EW&E

^^^^^--^m n n n n n n n n o o o e e

=

I I .

M 2

w

...C M_MNN.G.

eeeeeeeeeeeeeeee

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• D e

N I

W u 4 5

=J w u &

WW N

> e E e O O e= 4 m ao e 4 e e O O D e e= N 4O 3 e M e N v= N N N N e= e e e eo &

E 1 M 9

'I W%

Me

& e 4 e*

me 1 M t= O Oe=O O Oe=c O O O O O e Me= N D 2 e e e e o e e o e e e e e e e e e J w C 0 0 0 0 0 0 0 0 0 0 0 0 0 e= O N Em & w Ok es om y* O M

N w

%M N u8 E O O N e= 0 O N O O O O O *= e=**>=N M

• O 3 49 0 W wM e

N t.o N. N. 4. Q. N. O. M. c. Q. O. O. N. M. em. e. M. MM.

O w 00000Q0C00Q0QQ00

@ u e= W w

O &

W

• w E 4

• st O e O 4 O v= *= 0 4 e o=yaN**>= 4

& 3 W t#t a

IO 44 0

2 4

2 O

ao >

o= 2 N so e

• O v. M e M 4 e= e o e ao e e o e e e e e e e e e e e e e o e

to e

• • 8 W 0 0 0 0 0 0 0 0 0 0 0 0 0 C 0 e=

gf > M u Iw @

u to Ww so MO OM w= es w

E 4 4 O eo O N 4 80 @ o N N eo O N 4 va e= e= c= M N

so 3 v= a= N e=

a2 m we

& 2O M **

at z

ga 3 t-  %

< 4 M b wu OO E

wN > d W M N M O d N e d e c e* c ee 4 m t#9 e= E eeeeeeeeeeeeeeee e I

J D 2 O 8 w s= c Q Q Q O O O O O O *= c= O O e=

O w ao u me w as

> & w 3 we &

S O M E O es e en e ,=eo ee= e ep N M C 4 m I

e5 3 N em N N e= ye M O l to W N we me e

to M y= N M *= O M 4 N N M @ tM e6 4 4 4 I

E N to M i 2 eeeeeeeeeeeeeeee en e

O 4 W QC00000000000000

=9 u er w

E e N 4 4 m O 4 80 e to e *= *= 4 N M d y= e= e= em 9= e=

3 **

we 4

en I N e"

8 es O

M 8

• = w k

2 u

et w

• = 0 O O O O O e *= O O O O O O O eeeeoeoeeeeeeeee C00000000000000O

>=

C e

,=QcN e

m o eN e=

• = &

em 0 E N O O e= 0 O O M M e= O *= ** *= ** um e=

2 3 A et w w J W M b E I

wt J J M4 l

4 2 2 w w w w is w w w in i 3 3 3 3 3 e es u l M O aza we e n www azz a3

• • O >= LS i

W ** E W w WD t#5 3 3 2 l

** >= 3K&E b u w me 2 E u wt I

M W I" N et J W t#D E pe W4WM

• E e Eu&E l

TABLE 6 (5 of 9)

ARTIFICIAL 35 LAND 10/86-12186 JOINT DISTRIsuTION OF WIND DIRECTION AND SPEED LOCATION 300FT DEG C/100M LAP 5E RATE (300-30FT) -0.4/ 1.5 CLASS E SPEEDS (MI/MR) 1-3 4-7 8-12 13-18 19-24 25 PLus sum PERCENT SUN PERCENT SUN PERCENT SUM PERCENT SUM PERCENT sum PERCENT SUN PERCENT DIRECTION 3 0.1 17 0.8 33 1.6 29 1.4 12 0.6 1 0.0 95 4.5 N

0.0 7 05 20 0.9 32 1.5 14 0.7 0 0.0 74 3.5 CNE 1 2 0.1 4 0.2 19 0.9 28 1.3 11 0.5 2 0.1 66 3.1 NE 0.0 5 0.2 18 0.9 10 0.5 5 0.2 6 G.3 45 2.1 ENE 1 8 0.4 8 0.4 18 0.9 3 0.1 4 0.2 42 2.0 E 1 0.0 0 0.0 0 0.0 14 0.7 7 0.3 0 0.0 21 1.0 ESE O 0.0 9 0.4 13 0.6 9 0.4 1 0.0 7 0.3 40 1.9 SE 1 0.0 11 0.5 6 0.3 12 0.6 2 0.1 1 0.0 32 1.5 SSE O 0.0 0.1 11 0.5 10 0.5 15 0.7 12 0.6 0 0.0 50 2.4 5 2 4 0.4 12 0.6 21 1.0' 12 0.6 2 0.1 55 2.6 55W D 0.0 4 0.2 31 1.5 37 1.8 16 0.8 9 0.4 98 4.7 54 1 0.0 50 U5W 1 0.0 4 0.2 15 0.6 22 1.0 to 0.5 0 0.0 2.4 0 13 06 27 1.3 58 2.8 22 1.0 1 0.0 121 5.7 w 0.0 3 0.1 7 0.3 22 1.0 42 2.0 19 0.9 10 0.5 103 4.9 UNW NW 3 0.1 13 0.6 41 1.9 64 3.0 38 1.8 10 0.5 169 d.0 NNW 2 0.1 16 0.8 34 1.6 39 1.9 21 1.0 5 0.2 117 5.6 21 1.0 137 6.5 307 14.6 450 21.4 205 9.7 58 2.8 1178 55.9 f.EA2 u!ND SPEED 14.3 CALM MouR5 1

' PERCENT CALM 0.0 l MI551%G 44 a

I i

I W W

N 2

W

..M.. .__MM e e e e e e e e e e e e e e e e

• = Q *= 0 O O O O O O O O O O o= e=

.__N N ve we w e=

4 E

.A W W &

WO

> e E MNeMNOMCON404O44 m W4 3 N e= N e= em v= c em e= o= e= v= N N M

- es wt N W

M4

& a e s=

.A M > C 0 0 0 0 0 e= O 0 0 0 0 e* C 0 0 M 3 2 e e e e e e e e e e e e e e e e e

.A W C000000000000000 O En 6 u O> W Oh M W em O N &

.I.

%M ue 40 WM O

E 3

we C O O c c e= N C O O v= O N O O O 4 ow j 4 > MOewCOQwwCPepONw D i

N 2 e e e e o e e e e e e e e e e e e 9 W C000000000000000 *=

D u i

e= m W

e &

W W E 4 C O M O ** C N N e* N M N e m N O k 3 *= 4 we to e

@ a 2

(M 2 * *= NNpNOOwwe4NMN M O O v= 2 Ne "e *e e e o e e e e e e e o e e e M e W 0000000000000000 4

@ > M w w W> w a Wh W mo &

@ MO OM E m N D e 4 M 4 e= v= N N N es e N M O v= D W O2 m D

wt e=

N 20 W CQ we me 2

(

p 3>

4 M

hW E OO wN 0- O e= m e= 4 N N N v= ** O N N e M *= D

.A we *= 2 e o e e e e e e o e e e e e e e e 2 OI W C000000000000000 N

,I O

em W es u W

m W

( 3 M E

! e N M E v= N N M W 4 e 4 M M O e 4 M N M 5 3 4 D= e4 W

M D

t=

2 >= >= O va O *=e= O e=*= N O O O O O N M M M e 2 e o e e e e o e e o e e o e e e e O 4 W C000000000000000 e=

9 u E

W E em M e= N N v= N M 4 e= e= Q O em 4 4 N 3 M

> we l

l 4 e

I  %

N

• = M t= QOOCe=OOOOOOOOOOO N 4 0 2 e o e e e e e o e e o e e e e e e 4 e= W C000000000000000 O e u NOOO

% e e e v=

0 W M C e= & v=

0 E O c e= O M O O O O O O O O O e= O m 2 3 4 we e J W wt W M & E I

M =#

=A we 4 4 2 XWWWWWWWM 3333333 OMW M O 222 wt wt M M em M 222 23 M M 2 W W W9 we 3 3 2 MO>+

M > 3222 eb u WM M W 2 E W we t= m 4 .J m wt M M W6WM 4 O EW&E

- - _ _ _ _ _ _ _ _ _ _ _ _ m m m n n

w -

o i

I W k O O s= 0 == N O v= m O O O O O O O eeeeoeeeeeeeeeee em e

3 va we W C00000000000000C

• u e a W

J '

u E C WO M

> e E e= 0 N e= m 4 e= m P= e= 0 O O O O O N n4 3 eB W e

iI WW WW e.

/

4 J

44 t= OOOOOOOOeOOOOOOO eeeeeeoeeeoeeeee e=

e 3 2 C

' d W C000000000000000 Em e. U On m Ow M W e= O N &

.I %M Ut OO O

E 3

Go OOOOOOOONOOOOOOO N eas M Ow m 4 > OOOOOOOOv=COOOOOO =

N 2 eaeeeeeeoeeeeeee ,e o

t W C00000000000000C e u em a W

I O

W W

A.

E 3

C O O O O v= O O N o c c 0 o 0 0 M, M em Ie m 44 0

a z

2 C

M e

- a t

6=

W C0000000eO000000 eeeeeeeeeeeeeeee C0000000C0000000 M

C e

D > M u w u> c ac W ea. W es o e.

@ me O P=

OM E O O e- Q Q e= w e= m o O O O O O O 3

l M or a n i

M 20 m C3 me e4 Z

( 3 t=

4 %e b es. u E 4 OO wN > O O O O v= O c e= O O O O O O O O J e4 e= 2 eeeeeeeeeeeeeeee O e

2 O8 W C000000000000000

'I O me t=

3 We W

e.

we u

m W

e.

eD M E O O e= o= m e= O N O v= 0 O O O C O e I eC 3

>= W We me a

OOOOOOOOOOOOOOOO v=

I 2 P= B-ese 1 2 eeeeeeeeeeeeeeee O e

O 4 W C000000000000000

-e u er W

L I

N E e= O O 0 C v= O 0 0 0 0 0 0 0 0 0 3 1 vt 4

l 4 N O e= m t= 0000000000000000 eeeeeeeeeeeeeeee e g e a O 4 e= W C000000000000000 >= C C W es u e e

% er 4 O L O taa e=

e= e.

a E 0000000000000000 O 2 3 O M

F 1

at

.J 6ae W

W M

& E we .J WO 4 J oay at 2 2WWWWWWWM 3333333 M

C.e zzzins amm W

www we w zam3 3 m 3

.m o e= e u m 2

• • > 3X22

% u Ww i tos 2 K W we De E 4 .J m we 0" gag e ,j g a e=0 D i.A re aL

'E O I

^ ^ ^ ^ ^ AA A A A n n m m n n n n O e e i

>w r~l El 'F UT Fl T FM ~m^ m m Emii m 'm m p '

TABLE 6 (8 of 9)

,) .

ARTIFICIAL ISLAND 10/86-12/86 JOINT DISTRIBUTION OF WIND DIRECTION AND SPEED LOCATION 300FT DEG C#100M LAPIE RATE (300-30FT) ALL STASILITIES

) SPEEDS (MI/HR) 1-3 4-7 8-12 13-18 19-24 25 PLUS SUM PERCENT CIRECTION SUM PERCENT SUM PERCENT SUM PERCENT SUM PERCENT $UM PERCENT SUM PtRCENT N 5 0.2 25 1.2 65 3.1 61 2.9 22 1.0 1 0.0 179 8.5 NNE 1 0.0 12 0.6 30 1.4 59 2.8 18 0.9 0 0.0 120 5.7 NE 3 0.1 9 0.4 34 1.6 58 2.8 29 1.4 4 0.2 137 6.5 ENE 2 0.1 13 0.6 28 1.3 23 1.1 8 0.4 7 0.3 81 3.8 E 4 0.2 13 0.6 25 1.2 22 1.0 8 0.4 4 0.2 76 3.6 ESE O 0.0 3 0.1 6 0.3 20 0.9 9 0.4 1 0.0 39 1.9

) SE 1 0.0 17 0.8 26 1.2 20 0.9 7 0.3 11 0.5 82 3.9 SSE 3 0.1 22 1.0 19 0.9 22 1.0 4 0.2 1 0.0 71 3.4 s 5 0.2 20 0.9 25 1.2 25 1.2 17 0.8 2 0.1 94 4.5

) 55W 1 0.0 10 0.8 25 1.2 32 1.5 14 0.7 2 0.1 90 4.3 SW 1 0.0 13 0.6 40 1.9- 41 1.9 18 0.9 10 0.5 123 5.8 W5W 2 0.1 16 0.8 41 1.9 36 1.7 17 0.8 0 0.0 112 5.3 W 1 0.0 26 1.2 57 2.7 84 4.0 30 1.4 4 0.2 202 9.6 Whw 4 0.2 24 1.1 36 1.7 57 2.7 31 1.5 22 1.0 174 8.3 NW 5 0.2 29 1.4 65 3.1 90 4.5 55 2.6 42 2.0 286 13.6 NNW 3 0.1 35 1.7 71 3.4 91 4.3 31 1.5 8 0.4 239 11.3

)

41 1.9 293 13.9 593 28.2 741 35.2 318 15.1 119 5.7 2105 100.0 MISSING MOURS 102 MEA 3 WIND $ PEED 13.9 TOTAL NUMSER OF CALM NOURS 1 PERCENT 0.0 J

J J

J J

D D

Q

3 TABLE 6 (9 of 9) -

I ARTIFICI AL ISL AND 10/86-12/86 JOINT DISTRIBUTION OF WIhD DIRECTION AND SPEED LOCATION 300FT DEG Cf100M (300-10FY) DIRECTION VS SPEED g

SPEEDS (MI/HR) 1-3 4-7 8-12 13-18 19-24 25 PLUS SUM PERCENT g

DIRECTION SUM PERCENT SUM PERCENT SUM PERCENT SUM PERCENT SUM PERCENT SUM PERCENT N 5 0.2 25 1.2 65 3.1 61 2.9 22 1.0 1 0.0 179 s.5 NNE 1 0.0 12 0.6 30 1.4 59 2.8 18 0.9 0 0.0 120 5.7 NE 3 0.1 9 0.4 34 1.6 63 3.0 29 1. 4 4 0.2 142 6.7 g

EhE 2 0.1 13 0.G 28 1.3 23 1.1 S 0.4 7 0.3 81 3.s l E 4 0.2 13 0.6 25 1.2 22 1.0 8 0.4 4 0.2 76 5.6 ESE C , 0. 0 3 0.1 6 0.3 21 1.0 9 0.4 1 0.0 40 1.9 g 83 SE 1 0.0 17 0.8 26 1.2 21 1.0 7 0.3 11 0.5 3.9

$5E 3 0.1 24 1.1 20 0.9 22 1.0 4 0.2 1 0.0 74 3.5 5 5 0.2 20 0.' 25 1.2 25 1.2 17 0.8 2 0.1 94 4.4 i

g 91 55W 1 0.0 16 0.5 25 1.2 33 1.6 14 0.7 2 0.1 4.3 SW 1 0.0 13 0.6 40 1.9 41 1.9 18 0.9 10 0.5 123 5.8 WSW 2 0.1 16 0.8 41 1.9 36 1.7 17 0.4 0 0.0 112 5.3 I W 1 0.0 26 1.2 57 2.7 84 4.0 30 1.4 4 0.2 202 9.5 WNW 4 0.2 24 1.1 36 1.7 57 2.7 31 1.5 22 1.0 174 S.2 NW 5 0.2 29 1.4 65 3.1 90 4.3 55 2.6 42 2.0 286 13.5 I NNW 3 0.1 35 1.7 71 3.4 91 4.3 31 1.5 8 0.4 239 11.3 9

41 1.9 295 13.9 594 28.1 749 35.4 318 15.0 119 5.6 2116 100.G I MISSING MOURS 91 g

MEAN WIND SPEED 13.9 TOTAL NUMSER OF CALM HOURS 1 T1ACENT 0.0 FORTRAN STOP I IDELETE-W-SEARCHFAIL, ERROR SEARCHING FOR SYSS$Y5R00T:[sysMGR.NES.PRODWR]WRLAPSE.LI5;*

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