Amended Semiannual Radioactive Effluent Release Rept, Oct-Dec 1984

ML20128A262
Person / Time
Site:	Callaway
Issue date:	12/31/1984
From:	UNION ELECTRIC CO.
To:
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ML20127P639	List: ML20127P634 ML20128A262
References
NUDOCS 8507020612
Download: ML20128A262 (40)
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.o SEMIANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT OCTOBER - DECEMBER, 1984 CALLAWAY NUCLEAR PLANT UNION ELECTRIC COMPANY LICENSE NPF - 30 8507020612 850613 PDR ADOCK 05000483 R PDR

TABLE OF CONTENTS 1.0 SCOPE 2.0- SUPPLEMENTAL INFORMATION 2.1 Regulatory Limits 2.2 Maximum Permissible Concentrations 2.3 Average Energy 2.4 Measurements and Approximations of Total Radioactivity 2.5 Batch Releases 2.6 Abnormal Releases 3.0

SUMMARY

OF LIQUID AND GASEOUS RADI0 ACTIVE EFFLUENTS 4.0 SOLID WASTES 5.0 METEOROLOGICAL DATA 6.0 ASSESSMENT OF DOSES 6.1 Dose at the Site Boundary 6.2 Dose at the Nearest Residence 6.3 Dose to Member of the Public from Activities Within the Site Boundary 6.4 Total Dose Due to the Uranium Fuel Cycle

, 6.5 Dose Due to Liquid Effluents 7.0 RELATED INFORMATION l

l 7.1 Description of Unplanned Releases 7.2 Changes to the Process Control Program i

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o 1.0' SCOPE This Semiannual Radioactive Effluent Release Report is for Union Electric Company's Callaway Nuclear Plant and is submitted in accordance with the requirements of Technical Specification 6.9.1.7.

The report covers the period from the initial criticality of the plant on October 2, 1984, through December 31, 1984.

Included in this report is a summary of the quantities of radioactive liquid and gaseous effluents and solid waste released from the plant. In addition, a summary of the Meteorological data

-for the reporting period is' presented. Results from the assessment of radiation doses due to the release of liquid and gaseous radioactive effluents is also reported.

Information in this report is presented in the format outlined in Appendix B of Regulatory Guide 1.21.

All liquid and gaseous effluents discharged during this reporting period were in compliance with the limits of the Radiological Effluent Technical Specifications.

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2.0 SUPPLEMENTAL INFORMATION 2.1 Regulatory Limits Specified as follows are the technical specification limits applicable to the release of radioactive material in liquid and gaseous effluents.

2.1.1 Fission and Activacion Cases (Noble Gases)

The dose rate due to radioactive noble gases released in gaseous effluents from the site to areas at and beyond the site boundary shall be limited to less than or equal to 500 mrem /yr to the total body and less than or equal to 3000 mrem /yr to the skin.

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

a. 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,

b. During any calendar year:- Less than or equal to 10 mrad for gamma radiation and less than or equal to 20 mrad for beta radiation.

2.1.2 Radioiodine, Tritium, and Particulates The dose rate due to iodine 131 and 133, tritium and all radionuclides in particulate form with half lives greater than eight (8) days released in gaseous effluents from the site to areas at and beyond the site boundary shall be limited to less than or equal to 1500 mrem /yr to any organ.

The dose to a member of the public from Iodine 131 and 133, tritium, and all radionuclides in particulate form with half-lives greater than eight (8) days in gaseous effluents released to areas at and beyond the site boundary shall be limited to the following:

a. During any calendar quarter: Less than or equal to 7.5 mrem to any organ and,

b. During any calendar year: Less than or equal to 15 mrem to any e organ.

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t 2.1.3 Liquid Effluents i The concentration of radioactive material released in liquid l effluents to unrestricted areas shall be limited to the i concentrations specified in 10 CFR 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 2.0E-04 microcuries/mi total activity.

I The dose or dose commitment to an Individual from radioactive materials in liquid effluents released to unrestricted areas shall

, be limited:

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a. During any calendar quarter to less than or equal to 1.5 mrem to the total body and less than or equal to 5 mrem to any organ, and

b. During any calendar year to less than or equal to 3 mrem to the 4 whole body and to less than or equal to 10 mrem to any organ.

I 2.1.4 Uranium Fuel Cycle Sources i The annual (calendar year) dose or dose commitment to any member of the public due to releases of radioactivity and to radiation from uranium fuel cycle sources shall be limited to less than or equal to 25 mrem to the total body or any organ, except the thyroid, which shall be limited to less than or equal to 75 mrem.

j - 2. 2 Maximum Permissible Concentrations I 2.2.1 The maximum permissible concentration values specified in 10CFR20, 5 Appendix B, Table II, Column 2 are used to calculate release raten i and permissible concentrations of liquid radioactive effluents at the unrestricted area boundary. A value of 2.0E-4 microcuries/ml is i used as the MPC for dissolved and entrained noble gases in liquid

< effluents. The concentration limit used to calculate the percent of limit for mixed fission and activation products in Table 2A is 3.0E-7 microcuries/cc. A limit of 3.0E-3 microcuries/ml (i.e. , H-3 i MPC value) is utilized in the calculation of the percent of limit-

i. for Tritium in Table 2A.

2.2.2 For gaseous effluents, maximum permissible concentrations are not directly used in release rate calculations since the applicabla

, limits are stated in terms of dose rate at the unrestricted area

! boundary.

2.3 Average Energy i This is not applicable to the Callaway Plant's radiological effluent technical specifications.

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R:v. 1 3/19/85 4

2.4 Measurements and Approximations of Total Radioactivity The quantification of radioactivity in liquid and gaseous effluents was accomplished by performing the sampling and radiological analysis of effluents in accordance with the requirements of Table 4.11-1 and Table 4.11-2 of the Callaway Plant Technical Specifications (See attachments 1 and 2).

Gamma spectroscopy was the primary analysis technique used to determine the radionuclide composition and concentration of liquid and gaseous effluents. For Sr-89, Sr-90, and Fe-55 composite samples are collected and analysis performed by a contract laboratory. For these radionuclides the measured concentrations of the previous composite analysis are used. Tritium and alpha are measured for both liquid and gaseous effluents using liquid scintillation counting and gas flow proportional counting techniques respectively.

The measured total radioactivity in effluent releases is determined from the measured concentrations of each radionuclide present and the total volume of effluents discharged. Gross beta or gamma radioactivity measurement techniques were not utilized to approxi-mate the total radioactivity in effluents.

2.5 Batch Releases 2.5.1 Liquid 2.5.1.1 Number of batch releases: 297

! 2.5.1.2 Total time period for batch releases: 33740.0 minutes 2.5.1.3 Maximum time period for a batch release: 335.0 minutes

! 2.5.1.4 Average time period for batch releases: 113.6 minutes 2.5.1.5 Minimum time period for a batch release: 38.0 minutes

! 2.5.1.6 Average stream flow during periods of release of effluent into a flowing stream: 7317.2 gpm 2.5.2 Gaseous 2.5.2.1 Number of batch releases: 19 2.5.2.2 Total time period for batch releases: 12470.0 minutes 2.5.2.3 Maximum time period for a batch release: 1994.0 minutes 5

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! 2.5.2.4 Average time period for batch releases: 656.3 minutes L

2.5.2.5 Minimum time period for a batch release: 60.0 minutes 2.6 Abnormal Releases i

j. 2.6.1 Liquid

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2.6.1.1 Number of releases: 2

! 2.6.1.2 Total Activity released: 1.09E-3 Ci l

l 2.6.2 Gaseous l .-

2.6.2.1 Number of releases: 1 2.6.2.2 Total Activity released: 2.07E-6 C1 (Na-24)

J 3.0

SUMMARY

OF LIQUID AND CASEOUS EFFLUENTS 3.1 Gaseous Effluents

! The quantities of radioactive material released in gaseous effluents j are summarized in Table 1A and IB. Note that for this reporting i period no gaseous effluents were considered as elevated releases.

! 3.2 Liquid Effluents I

j The quantities of radioactive material released in liquid effluents are summarized in Table 2A and 2B.

i l 4.0 SOLID WASTES 4.1 During this reporting period no radioactive solid wastes were released from the plant.

. 5.0 METEOROLOGICAL DATA

5.1 A summary of the hourly meteorological data from October 2, 1984, 1 through December 31, 1984, is present in the form of joint frequency j distributions of wind speed, wind direction, and atmospheric

! stability in Table 3.

4 6.0 ASSESSMENT OF DOSES i 6.1 Dose at the Site Boundary 6.1.1 An assessment of the doses from gaseous effluents was performed for

! the maximum exposed individual at the site boundary (i.e.,

restricted area boundary) location with the highest ground level i

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Rev. 1 3/19/85 concentrations of radioactive material. Based upon actual meteorological conditions existing during the reporting period, this location was determined to be the northwest sector at 2300 meters.

Doses and dose rates were assessed at this location considering the noble gas exposure, inhalation, ground plane exposure, and ingestion pathways. The results of these assessments are summarized as follows:

6.1.2 Noble gases Total body dose rate: 1.13E-2 mrem /yr Skin dose rate: 2.28E-2 mrem /yr Total body dose: 2.84E-3 mrem Skin dose: 5.75E-3 mrem Gamma air dose: 3.22E-3 mrad Beta air dose: 6.21E-3 mrad The average total body and skin dose rates are 2.3E-3% and 7.6E-4%

of the technical specification instantaneous release limit. The gamma and beta air dose totals are 6.5E-2% and 6.2E-2% of the technical specifications dose limits.

6.1.3 Particulates, Radiciodines, and H-3 The total dose to the seven (7) critical organs of the four (4) applicable age groups from the inhalation and ingestion pathways is presented in the following table. The ingestion pathways considered for these dose calculations include produce, vegetables, goat's milk, meat, and cow's milk.

! Dose (mrem)

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! Adult Teen Child Infant I

! Bone 1.06E-7 1.81E-7 4.31E-7 8.49E-7

! Liver 1.74E-4 2.01E-4 2.92E-4 2.04E-4 I Total Body 1.74E-4 2.01E-4 2.91E-4 2.03E-4 I Thyroid 2.24E-4 2.75E-4 4.34E-4 5.32E-4 I Kidney 1.74E-4 2.01E-4 2.92E-4 2.04E-4

! Lung 1.74E-4 2.01E-4 2.91E-4 2.03E-4

! GI-LLI 1.74E-4 2.01E-4 2.91E-4 2.03E-4 The ground plane exposure pathway contributions to total dose are:

! *)tal body dose: 3.51E-9 mrem I Skin dose: 4.26E-9 mrem

! The total body and maximum organ dose totals for the child age group

! represents 1.94E-3% and 2.89E-3% respectively of the technical

! . specification annual dose limits.

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Rev. 1 3/19/85 6.1.4 The total dose received by the maximum exposed individual using the conservative assumptions that he was a resident at the site boundary for the entire quarter and consumed only food products produced at that location is as follows:

Controlling location: NW at 2300 meters Max exposed age group: Child

! Total body dose: 3.13E-3 mrem

! Maximum organ dose: 3.27E-3 mrem Skin dose: 5.75E-3 mrem 6.2 Dose at Nearest Residence l 6.2.1 An assessment of the dose was performed for the residential location j nearest to the plant with the highest dispersion parameters. Using

! the 1984 land use census data and actual meteorological data for the quarter, the critical receptor location for the nearest residence was determined to be in the NW sector at a distance of 3428 meters.

The dose calculations were performed assuming that all ingestion exposure pathways existed at this residential location.

6.2.2 The doses and dose rates due to noble gas exposure at the selected residential location are:

Total body dose rate 6.42E-3 mrem /yr Skin dose rate: 1.30E-2 mrem /yr Total body dose: 1.62E-3 mrem Skin dose: 3.28E-3 mrem Gamma air dose: 1.83E-3 mrad Beta air dose: 3.54E-3 mrad 6.2.3 The doses to the seven (7) critical organs for each of the four (4) age groups are summarized in the following table. These values represent the dose from the inhalation, ground plane, and each of the five (5) applicable ingestion pathways.

Dose (mrem)

Adult Teen Child Infant

! Bone 5.60E-8 9.55E-8 2.27E-7 4.49E-7

! Liver 9.59E-5 1.11E-4 1.60E-4 1.12E-4

! Total Body 9.58E-5 1.llE-4 1.60E-4 1.12E-4

! Thyroid 1.22E-4 1.50E-4 2.36E-4 2.85E-4

! Kidney 9.59E-5 1.llE-4 1.60E-4 1.12E-4

! Lung 9.57E-5 1.11E-4 1.60E-4 1.11E-4

! GI-LLI 9.58E-5 1.llE-4 1.60E-4 1.llE-4 The total dose resulting from ground plane deposition of radioactive material is:

! Total body dose: 1.89E-9 mrem

! Skin dose: 2.25E-9 mrem 8

Rtv. 1 3/19/85 6.2.4 The total dose to the maximum exposed individual living at the residence with the highest exposure to gaseous effluents is:

Residence location: NW at 3428 meters Age group: Child

! Total body exposure: 1.78E-3 mrem

! Max. organ dose: 1.85E-3 mrem Skin dose: 3.28E-3 mrem 6.3 Dose to the Member of the Public from Activities within the Site Boundary 6.3.1 The assessment of dose to the member of the public from activities within the site boundary was performed in accordance with Chapter 4 of the Callaway Plant Offsite Dose Calculation Manual. It was assumed that the occupancy was one-fourth of the annual average occupancy, or 112 hours0.0013 days <br />0.0311 hours <br />1.851852e-4 weeks <br />4.2616e-5 months <br /> during the quarter. The activity contained in outside storage tanks was insignificant during this period, and although the unit was undergoing power ascension testing, it was assumed that it was operecing at 100% power for the entire quarter.

6.3.2 The direct radiation dose from operation of the unit has been previously determined to be a maximum of 9E-3 mrads per calendar year. The maximum direct radiation dose for the period would therefore be 1.3% of the calendar year dose, or 1.2E-4 mrads.

6.3.3 The dose due to gaseous effluents to the member of the public from activities within the site boundary was detennined as a result of whole body gamma and beta skin dose from noble gases, whole body and organ dose from ground plane deposition, and organ dose from inhalation. The ingestion pathways do no exist within the site boundary.

The dose due to gaseous effluents was assessed at~1154 meters in the sector with the highest X/Q value; the NW sector.

The calculated dose to the member of the public from activities within the site boundary is summarized as follows:

6.3.3.1 Plume Exposure Pathway Total body 4.73E-4 mrem Skin dose 9.67E-4 mrem Camma air dose 5.37E-4 mrad Beta air dose 1.06E-3 mrad 9

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. Rev. 1 3/19/85 6.3.3.2 Inhalation Pathway

I Bone 9.62E-11 mrem

! Liver 5.63E-6 mrem

! Total body 5.63E-6 mrem

! Thyroid 5.68E-6 mrem

! Kidney 5.63E-6 mrem

! Lung 5.63E-6 mrem

! GI-LLI 5.63E-6 mrem 6.3.3.3 Ground Plane Pathway

! Total body 5.27E-10 mrem

! Skin 6.39E-10 mrem i 6.3.4 The total dose to the member of the public from activities within i the site boundary is therefore:

l Organ Dose (mrem)

! Total body 6.0E-4 Skin 9.7E-4 l ! Bone 5.9E-4

! Liver 6.0E-4

! Thyroid 6.0E-4 I Kidney 6.0E-4

! Lung 6.0E-4

! GI-LLI 6.0E-4 l

6.4 Total Dose Due to Uranium Fuel Cycle Since there are no other uranium fuel cycle facilities within 8 km of the Callaway Plant, the total dose to the most likely exposed member of the public results from direct radiation and radioactive effluents from the Callaway Plant. The methodology for assessing this dose is described in Chapter 4 of the Callaway Plant Offsite Dose Calculation Manual. The location at which this dose is assessed and the doses resulting from the plume exposure pathway, inhalation pathway, and ingestion pathway are discussed in Section 6.1.

The maximum direct radiation from the plant due to reactor operation is 9.0E-3 mrem /yr at a distance of 1222 meters. Since the radioactive content of outside tanks was negligible, the direct radiation dose for the reporting period, conservatively assuming 100% power operation at all time, is 2.25E-3 mrem.

The total dose to the member of the public due to uranium fuel cycle sources is:

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Rav. 1 3/19/85 Dose (mrem) Limit (mrem)  % Limit

! Total Body 5.38E-3 25 0.022 Skin 5.75E-3 25 0.023 Bone 5.09E-3 25 0.020 i Liver 5.38E-3 25 0.022

! Thyroid 5.52E-3 ,

75 0.008

! Kidney 5.38E-3 25 0.022

! Lung 5.38E-3 25 0.022

! GI-LLI 5.38E-3 25 0.022 The total dose from uranium fuel cycle sources is thus a small fraction of the limits of Technical Specification 3.11.4.

6.5 Doses Due to Liquid Effluents The total dose to the maximum exposed individual from liquid I effluents released from the Callaway Plant is 5.69E-3 mrem total

! body and 5.71E-3 mrem to the maximum exposed organ (GI-LLI).

I These values are 1.90E-l% and 5.71E-2% respectively of the annual Technical Specifications dose limit.

7.0 RELATED INFORMATION 7.1 Description of Unplanned Releases 7.1.1 On December 13, 1984, at 23:13, during the performance of a steam generator moisture carryover test, the C steam generator power operated relief valve (PORV) momentarily lifted due to a defective card in a controlling circuit. Since radioactive Sodium-24 had been introduced into the secondary system as a part of the moisture carryover measurements, Na-24 was released into the air via steam from the PORV. The condition was quickly recognized by operators in the Control Room and the PORV was shut after approximately one (1) minute.

An assessment of this release was performed in accordance with the methods of the ODCM and is presented as follows:

Activity released: 2.07 microcuries Activity release rate: 2.30E-2 microcuries/sec Dose rate at site boundary: 3.25E-4 mrem /yr Total body dose at nearest residence: 4.03E-9 mrem Na-24 Concentration at site boundary: 2.023-14 microcuries/cc No technical specifications were violated as a result of this release. The dose rate at the site boundary was 2.0E-5% of the limit of technical specification 3.11.2.1. The dose rate at the nearest residence was 5.0E-8% of the limit of technicial specification 3.11.2.3.

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7.1.2 Oa December 14, 1984, at 19:57, temporary secondary liquid waste monitor tank A, which is located outside of the Radwaste Building,

, overflowed onto the ground while being filled. The tank was being filled at approximatley 140 gpm and it was estimated that the tank overflowed for four (4) minutes before it was isolated.

Samples of the tank's contents and the drainage ditch adjacent to the tank were collected. Gamma isotopic analysis and tritium

-analysis of the samples indicated Na-24 present at a concentration of 2.26E-4 microcuries/ml and H-3 present at a concentration of 1.39E-6 microcuries/ml. No other radionuclides were detected.

Using the conservative assumption that the overflowed volume from the tank was directly released into the Missouri River without any

, dispersion or dilution, the concentration of radioactive material discharged to the unrestricted area was 7.6% of the maximum permissible concentration. The total body dose to the maximum exposed individual due to this release was calculated to be 1.03E-6 mrem. This is 6.87E-5% of the quarterly total body dose limit of technical specification 3.11.1.2. No technical specification or 10CFR20 requirements were violated as a result of this release.

7.1.3 On December 28, 1984, steam generator blowdown to the Missouri River f was initiated under liquid effluent release permit CAL-84-L458.

Shortly after the release started, the steam generator blowdown

radioactivity monitor BM-RE-52 alarmed and isolated the release. A second attempt to initiate blowdown also resulted in a BM-RE-52 high alarm and termination of the discharge. Samples of the steam generator blowdown surge tank were collected and analyzed. Results of the gamma isotopic analysis indicated fission and activation l

radionuclides which were not present in the sample collected prior to initiation of the release.

Subsequent investigation revealed a valve on a cross connecting line between the radwaste systems and the blowdown surge tank had been left open after clearing a workman's protection tag. This open valve allowed distillate from the secondary liquid waste evaporator to drain into the blowdown surge tank. It was determined that a total of 250 gallons had been discharged from the surge tank prior to termination for both of the attempted initiations. The release rate was 70 gpm with 8300 gpm dilution flow occurring at the time.

An assessment of the incident was performed to determine the resulting radiological consequences. The results of that assessment are summarized as follows:

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Total Concentration at unrestricted area: 9.45E-6 microcuries/ml Activity released: 1.08E-3 curies Percent of MPC: 18.8%

Total body dose: 2.75E-7 mrem Percent of quarterly total body dose limit: 1.83E-5%

Maximum organ dose: 2.55E-6 mrem (Thyroid)

Percent of quarterly organ dose limit: 5.10E-5%

No technical specification or 10CFR20 limits were exceeded as a I result of this release. Corrective actions have been taken to prevent recurrence.

7.2 Changes to the Process Control Program On December 21, 1984, revision 2 of the Callaway Plant Process Control Program was reviewed and approved for issue by the Onsite Review Committee. This revision was the first revision / change from the previously NRC-approved revision dated February 28, 1984. The major portion and context of this revision was to provide a generic document approach by which Callaway Plant would meet the requirements and regulations governing waste solidification and packaging with any specific actions / operations as to how to perform / accomplish these requirements to be covered in plant operating procedures.

This generic document approach is consistent with the concept of providing the basis by which solidification is to be assured as covered in a controlling document and associated program with specific detailed instructions as to how to accomplish same in program implementing procedures. These implementing procedures provide the specific methodology to be performed in order to accomplish the requirements covered in the PCP.

A summarization of the major changes to the Callaway Plant Process Control Program is as listed below. It should be noted that none of the previously approved methodology as to what is to be performed was removed from this document. Generic wording / format was included to state what must be performed in lieu of specific instructions as to how to perform particular programmatic evolutions covered in the program. In no case did this change reduce the overall conformance of the program to the requirements governing its intended use.

1. Specific proceduralized steps and/or procedure references were removed from the PCP with generic statements as to what is to ,

be performed inserted in their place, or, as in the case of I procedure references, wording relative to methodology as to how to perform a particular evolution are covered / described in plant operating procedures.

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2. Added wording allowing the use of NRC-approved topical reports for meeting specific requirements of 10CFR61. This addition enables Callaway to make use of vendor provided programs governing waste classification verification (10CFR61.55) and waste form verification (10CFR61.56) in order to provide assurance in meeting the requirements of 10CFR61 and related Branch Technical Positions.

3. Incorporated wording relative to establishment of effective administrative controls governing the use and disposal of oils, greases, and chelating agents as a means to control and/or limit the production of wastes containing these substances.

4. Specific references as to where information is to be documented has been removed from the program. Those items requiring documentation are now covered procedurally in implementing and/or operating procedures governing waste solidification and packaging methodology.

5. The requirements governing pH of waste to be solidified has been modified to 7 to 9 pH. This is consistent with current requirements as determined by the supplier of our installed liquid waste solidification system in order to achieve acceptable waste solidification results.

6. Wording relative to test solidification evolutions has been revised to a generic format (consistent with item 1, above).

7. Formulation recipes and nomograms have been updated to show current vendor-approved formulation determinations to be followed in order to achieve acceptable waste solidification.

Concurrent with this is the change to Portland Cement Type 11 l

as the primary solidification agent to be utilized to achieve acceptable solidification results.

8. Removal from the PCP document the " Waste Solidification Data Sheet". This data sheet and instructions for use is not covered in Process Control Program Implementing Procedures.

9. For those specific proceduralized steps removed from the PCP, a set of Process Control Program Implementing Procedures has been developed, approved, and issued. Additionally, previously referenced operating procedures utilized in the

" implementation" of the PCP remain in effect. (Copies of these procedures are available for inspection at the plant site by the NRC inspectors).

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Rsv. 1 3/19/85 TABLE 1A SEMIANNUAL SUMMATION OF GASEOUS RELEASES BY QUARTER ALL AIRBORNE EFFLUENTS QUARTERS 3 AND 4, 1984 UNIT QUARTER 3 QUARTER 4 EST TOTAL TYPE OF EFFLUENT ERROR %

A. FISSION AND ACTIVATION PRODUCTS

l. TOTAL RELEASE CURIES 0.00E-01 2.00E 02 3.50E 01  !

l 2. AVERAGE RELEASE RATE FOR PERIOD UCI/SEC 0.00E-01 2.54E 01 I i ____________.________________________________________ ._______________________________.____  !

3. PERCENT OF TECil SPEC LIMIT  % 0.00E-01 1.45E-03 1 B. RADIGIODINES

1. TOTAL 10 DINE-131 CURIES 0.00E-01 9.41E-07 3.50E 01 1 i 2. AVERAGE RELEASE RATE FOR PERIOD UCI/SEC 0.00E-01 1.19E-07 1

_____.._______________________.____________.___________________ ......__________ ..________ l

3. PERCENT OF TECH SPEC LIMIT  % 0.00E-01 1.14E-07  !

C. PARTICULATES

l. PARTICULATES (IIALF-LIVES 8 DAYS) CURIES 0.00E-01 0.00E-01 0.00E-01

> 2. AVERAGE RELEASE RATE FOR PERIOD UCI/SEC 0.00E-01 0.00E-01

3. PERCENT OF TECl! SPEC LIMIT  % 0.00E-01 0.00E-01 4 CROSS ALPHA RADI0 ACTIVITY CURIES 0.00E-01 0.00E-01 D. TRITIUM

1. TOTAL RELEASE CURIES 0.00E-01 1.10E 00 2.50E 01

2. AVERAGE RELEASE RATE FOR PERIOD UCI/SEC 0.00E-01 1.40E-01 1

3. PERCENT OF TECil SPEC LIMIT  % 0.00E-01 9.18E-06 I PAGE 1 of 1 ,

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Rsv. 1 3/19/85 TABLE IB SEMIANNUAL AIRBORNE CONTINUOUS AND BATCH RELEASES GROUND LEVEL RELEASES FISSION GASES, 10 DINES, AND PARTICULATES QUARTERS 3 AND 4, 1984 CONTINUOUS RELEASES BATCH RELEASES NUCLIDE UNIT QUARTER 3 QUARTER 4 QUARTER 3 QUARTER 4

l. FISSION GASES KR-85M CURIES 0.00E-01 0.00E-01 0.00E-01 1.65E-01 KR-85 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E 00 KR-87 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 KR-88 CURIES 0.00E-01 0.00E-01 0.00E-01 7.76E-02 XE-133M CURIES 0.00E-01 1.64E 00 0.00E-01 6.28E-01 XE-133 CURIES 0.00E-01 1.31E 02 0.00E-01 5.70E 01  !

XE-135M CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 XE-135 CURIES 0.00E-01 3.35E 00 0.00E-01 1.67E-00 XE-138 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 AR-41 CURIES 0.00E-01 0.00E-01 0.00E-01 4.27E-00 TOTAL FOR PERIOD CURIES 0.00E-01 1.36E 02 0.00E-01 6.38E 01 I

2. 10 DINES 1-131 CURIES 0.00E-01 9.41E-07 0.00E-01 0.00E-01 1 I-133 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 1-135 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 TOTAL FOR JERIOD CURIES 0.00E-01 9.41E-07 0.00E-01 0.00E-01 1

3. PARTICULATES 11 - 3 CURIES 0.00E-01 8.56E-02 0.00E-01 1.01E 00 NA-24 CURIES 0.00E-01 0.00E-01 0.00E-01 2.07E-06 MN-54 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 FE-59 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 CO-58 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 CO-60 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 2N-65 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 SR-89 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 1 MO-99 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 CS-134 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 PAGE 1 of 2

Rsv. 1 3/19/85 TABLE IB SEMIANNUAL AIRBORNE CONTINUOUS AND BATCH RELEASES GROUND LEVEL RELEASES FISSION GASES, 10 DINES, AND PARTICULATES QUARTERS 3 AND 4, 1984 CONTINUOUS RELEASES. BATCH RELEASES NUCLIDE UNIT QUARTER 3 QUARTER 4 QUARTER 3 QUARTER 4 PARTICULATES CONTINUED CS-137 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 BA-140 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 LA-140 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 CE-141 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 CE-144 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 SR-90 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 i G ALPHA CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 UNIDENTIFIED CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 TOTAL FOR PERIOD CURIES 0.00E-01 8.56E-02 0.00E 00 1.01E 00 PAGE 2 of 2

R2v. 1 3/19/85 TABLE 2A SEMIANNUAL SUMMATION OF LIQUID RELEASES BY QUARTER ALL LIQUID EFFLUENTS QUARTERS 3 AND 4, 1984 UNIT QUARTER 3 QUARTER 4 EST TOTAL TYPE OF EFFLUENT ERROR %

A. FISSION AND ACTIVATION PRODUCTS

l. TOTAL RELEASE (NOT INCLUDING TRITIUM, CASES, ALPHA) CURIES 0.00E-01 1.07E-03 2.50E 01 1

______________________________________________________.-- ________________________ . __. I

2. AVERAGE DILUTED CONCENTRATION  !

DURING PERIOD UCI/ML 0.00E-01 6.03E-10 l

__________________________________________..._____________________________________________ i

3. PERCENT OF APPLICABLE LIMIT  % 0.00E-01 2.01E-01 I

......____________________________________________________________________________________ l B. TRITIUM  !

________________________________..________...______________________________.........._____ l

1. TOTAL RELEASE CURIES 0.00E-01 2.90E 01 2.50E 01  !

______________________________ .... _______________..____.....___________________________. I

2. AVERAGE DILUTED CONCENTRATION  !

DURING PERIOD UCI/ML 0.00E-01 1.63E-05 1

3. PERCENT OF APPLICABLE LIMIT  % 0.00E-01 5.45E-01 I

___._____________ ..._____________________....__________... ... ________________________ . g C. DISSOLVED AND ENTRAINED CASES I

__.______________.__....________________.._____......_____________.....__ ..______________ l

1. TOTAL RELEASE CURIES 0.00E-01 4.26E-03 2.50E 01 I

__.... ________._________________ ___.__......._...........____ ____.__.____..______.____. t

2. AVERAGE DILUTED CONCENTRATION I DURING PERIOD UCI/ML 0.00E-01 2.40E-09 i

____ ..____________...________.._____ _____ ____________ . _______________________________ g

3. PERCENT OF APPLICABLE LIMIT  % 0.00E-01 1.20E-03  !

l D. GROSS ALPilA RADI0 ACTIVITY  !

._____..... __. ________.__..__.___.._______________....___._____________________.____.___ l

1. TOTAL RELEASE CURIES 0.00E-01 3.69E-04 2.50E 01 1

__ ___.....____ ___.....__...______________________________________.__..__.-______.______. 1 I

E. WASTE VOL RELEASED (PRE-DILUTION) GAL 0.00E-01 9.71E 06 1.00E 01 I

..... ...__ ....__._________..__........___.. ....___.......__...__.___.____...__...__.... t F. VOLUME OF DILUTION WATER USED CAL 0.00E-01 4.59E 08 1.00E 01  !

PAGE 1 of I

. Rav. 1 3/19/85 TABLE 2B SEMIANNUAL LIQUID CONTINUOUS AND BATCH RELEASES TOTALS FOR EACH NUCLIDE RELEASED QUARTER 3 AND 4, 1984 CONTINUOUS RELEASES BATCH RELEASES NUCLIDE UNIT QUARTER 3 QUARTER 4 QUARTER 3 QUARTER 4 ALL NUCLIDES H-3 CURIES 0.00E-01 5.80E-03 0.00E-01 2.90E 01  !

NA-24 CURIES 0.00E-01 1.23E-06 0.00E-01 5.89E-04 CR-51 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 MN-54 CURIES 0.00E-01 2.13E-05 0.00E-01 0.00E-01 FE-55 CURIES 0.00E-01 0.00E-01 0.00E-01 2.87E-04 I FL-59 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 CO-58 CURIES 0.00E-01 1.55E-04 0.00E-01 9.75E-06 CO-60 CURIES 0.00E-01 2.19E-07 0.00E-01 0.00E-01 ZN-65 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 SR-89 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 I ZN-95 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 NB-95 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 MO-99 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 TC-99M CURIES 0.00E-01 3.77E-07 0.00E-01 0.00E-01 1-131 CURIES 0.00E-01 6.04E-06 0.00E-01 0.00E-01 I-133 CURIES 0.00E-01 8.24E-07 0.00E-01 0.00E-01 CS-134 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 CS-137 CURIES 0.00E-01 1.26E-07 0.00E-01 0.00E-01 LA-140 CURIES 0.00E-01 5.98E-07 0.00E-01 0.00E-01 CE-141 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 CE-144 CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 W-187 CURIES 0.00E-01 2.73E-07 0.00E-01 0.00E-01 XE-133 CURIES 0.00E-01 4.88E-07 0.00E-01 4.03E-03 1 XE-133M CURIES 4.00E-01 0.00E-01 0.00E-01 1.51E-05 l XE-135 CURIES 0.00E-01 0.00E-01 0.00E-01 2.19E-04 i BA-140 CURIES 0.00E-01 9.32E-07 0.00E-01 0.00E-01 SR-90 CURIES 0.00E-01 0.00E-01 0.00E_01 0.00E-01 1 G ALPi[A CURIES 0.00E-01 0.00E-01 0.00E-01 3.69E-04 I UNIDENTIFIED CURIES 0.00E-01 0.00E-01 0.00E-01 0.00E-01 TOTAL FOR PERIOD , CURIES 0.00E-01 5.99E-03 0.00E-01 2.90E 01 I PAGE 1 of I

TABLE 3 MIC PAGE 1 OF 7 FEPORT CATEGORY METEROLOGICAL DATA. OUARTERLY TOTALS OF HOURS AT EACH WIND SFEED AND DIRECTION PIRIOD OF RECORD QUARTER # 4 REPORT START TIME 6577;00 HRS = 01.OOAM OCTOBER 1, 1984 REPORT END TIME .

8783: 00 HRS = 11.OOPM DECEMBER 31, 1984 STABILITY CLASS A ELEVATION

• 10 METERS WIND SPEED (MFH) Al 10 METER LEVEL 1-9 4-7 S-12 13-18 19-24 .>24 TOTAL N O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 O OOE-01 0.OOE-01:

NUE: O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 0.OOE-01 O.OOE-01:

NE O.60E-01 0.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01:

ENE: O.OOE-01 0.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 . O.OOE-01:

E O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O OOE-01 0.OOE-01 0.OOE-01:

ESE: O.OOE-01 1.GOE 00 O.OOE-01 O.OOE-01 O.GOE-01 0.OOE-01 1.OOE 00:

SE O.OOE-01 . O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01:

SSE: O.OOE-01 0 0.OOE-01 . O.OOE-01 0.OOE-01 0.OOE-01 O.OOE-01:

- ---_-_-___--_-__OOE-01 ___________--------------___--__ -_-___---______-_--_-- ___---

B O.OOE-01 O.OOE-01 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 1.005 00:

S9W- O.OOE-01 1.OOE 00 1.OOE 00 O.OOE-01 O.OOE-01 0.OOE-01 2. OOE 00:

SW O.OOE-01 3.OOE 00 O.OOE-01 O.OOE-01 . O.OOE-01 O OOE-01 . 3.OOE 00:

WFW: 1 OOE 00 3 OOE 00 O.OOE-01 O OOE-01 O.OOE-01 . O.OOE-01 4.OOE 00:

W O.00E-01 c.oOF-01 2.OOE 00 O.OOE-01 O OOE-01 0.OOE-01 2.GOE 00.

WNW 1.00E 00 O OvE-01 O OOE-01 O.OOE-01 O.GOE-01 O.OOE-01 1. OOE 00:

NW O.OOE-01 O OOE-01 0,OOE-01 O.OOE-01 0.OOE-Oi O.OOE-01 0.OOE-01:

NNW: O.00h-01 O OOE-01 0.OvE-01 O.OOE-01 O.OGE-01 O.OOE-01 0.OOE-01:

TOT. 2.OOE 00 8 OOE 00 4.OOE 00 0.OOE-01 O.00E-01 O OOE-01 . 1.40E 01.

PERIOD; OF GLM(HOUK:.>. O.OOOE-01 HOURF. OF INW,L IU DAT A 4.OOOE 00 AFFROWD L.Y. TITLE DATE:

PAGE 1 of 14

_ . , . -. -v. _

. TABLE 3 MIC PAGE 2 OF 7 i REPORi CATEGORY METEROLO61 CAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION FERIOD OF RECORD OUARTER H 4 REPORT START TIME 6577 00 HR$ r- 01:OOAM OCTOBER 1, 1984 REPORT END TIME 8783:00 HRS = 11 OOPM DECEMEER 31, 1984 l STABILITY CLASS B ELEVATION 10 METER 5 WIND SPEEM V H) AT 10 HETER LEVEL 1-9 4-7 6-12 IS-18 19-24 >24 TOTAL N O.OGE-01 O.OOE-01 O.OOE-01 0.OOE-01 O.GOE-01 O.OOE-01 0.OOE-01-.

NNE: O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01:

I NE O.00E-01 O.OOE-01 O.OOE-01 O.OOE-Oi O.OOE-01 0.OOE-01 O.OOE-01:

EHE

O.OOE-01 O OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01; i _ _ - - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - - _ _ _ _ _ _ - _ _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - - - - - _ _ _ _ _ _ _ - - - - - - - _

i E O.OOE-01 0.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01:

ESE: O.OOE-01 0.00E-01 0.OOE-01 O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01.

l EE O.OOE-01 1.OOE 00 O.OOE-01 0.OOE-01 O.OOE-01 O. ODE-01 1. OOE 00:

SSE: O.OOE-01 O.OOE-Oi O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O OOE-01:

S-__--_-__ 0.OOE-01 O.OOE-01 0 OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01

SSW: O.OOE-01 O OOE-01 1.GOE 00 O.OOE-01 O.OOE-01 O.OOE-01 1.00E 00:

' SW . O.GOE-01 O.OOE-01 0 00E-01 v.OOE-01 O.OOE-01 0.00E-01 O.OGE-01.

i USU: O 00E-t1 0 60E-01 O GOE-01 O OOE-01 O.OOE-v1 O OOE-01 . O.COE-01:

i__ ____-_-_'-__--___ - __________ __ _ ______ ______ --_ _-___-________ ___ __--

!W O.00E-01 0.OOE-01 O ODE-01 R 06E-01 . O.00E-01. O OOE-01 0.OOE-01:

u

! WNW: O.OOE-01 O 00E-01 O OvE-01 1 OOE 00 O.OOE-01 0.OOE-01 1.OOE 00:

NW O.OOE-01 0.OOE-01 1.00E 00 O OOE-01 0.OOE-01 O.OOE-01 1.OOE 00 j

NNW

O,00E-01 O OOE-0. 1.OOE Ou 6.OOE-01 0.OOE-01 O.OVE-01 1.OOE 00.

TOT. O OOE-01 1 OOE 00 i OOE 00 1 00E 60 O.OOE-01 . O.OOE-01 5.OOE 00 1 PERIhrF OF C AL M ( HOl 6R '. ) O.OOGE-01

HOLE OF INVAL ID DAT A 1 OOOE 01  !

r i

P AM ROVED 1:Y. IllLE. DATE.

4 I

i PAGE 2 of 14 i

. TABLE 3 MIC PAGE 3 OF 7 REPOR1* CATEGORY METEROLOGICAL DATA. QUARTERLY TOTALS OF HOLIRS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD . QUARTER 4 4 REPORT START TIME 6577:00 HRS :- 01: OOAM OCTOBER 1, 1984 REF' ORT END T IME 8783:00 HRS :- 11:OOPM DECEMBER 31, 1984 STABILITY CLASS C ELEVATION 10 METERS WIND SPEED (MPH) AT 10 METER LEVEL 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N O.OOE-0) O.OOE-01 O.OvE-01 O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01:

NNE: O.OOE-01 0.OOE-01 3.OOE 00 O.OOE-01 0.00E-01 O.OOE-01 3.OOE 00:

NE 2.OOE 00 1.OOE 00 O.OOE-01 . O.OOE-01 O.OOE-01 0.OOE-01 3.OOE 00:

ENE: 1 ODE 00 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 1.OOE 00:

E O.OOE-01 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 1.OOE 00:

ESE: O.OOE-01 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 1. OOE 00:

SE O OOE-01 1.OOE 00 0.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 1.OOE 00:

SSE: O 60E-01 1 OOE 00 3.OOE 00 1.OOE 00 O.OOE-01 O.OOE-01 5. OOE 00:

5 O.OOE-01 1.OOE 00 0.OOE-01 O.OOE-01 O.OOE-01 . O.GOE-01 1.OOE 00:

SSU: O.00E-01 3.OOE 00 3.OOE 00 O.00E-01 O.OOE-01 O.OOE-01 6. OOE 00:

SW O OOE-01 v.OOE-01 O.OuE-01 0.OOE-01 O OOE-01 O OOE-01 O.OOE-01:

WSW: O.OOE-01 0 00E-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0. ODE-01:

W D OOE-01 2.OOE 00 1.OUE 00 1.OOE 00 0.OOE-01 0.OOE-01 4.OOE 00:

WW: 0 OvE- 01 1 ODE 00 0 OOE-01 0.OOE-01 O. ODE-01 . O.OOE-01 . 1.OOE 00:

NW O OOE-01 O.00E-01 1. ODE 00 O.OOE-01 O.OOE-01 O.OOE-01 1.OOE 00.

NNW; O 00E-01 O.00E-01 O.OUE-01 O.OOE-01 0.OOE-01 O ODE-01 O.OOE-01:

TOT: 3.OOE 00 1.20E 01 1.10E 01 2.00E 00 O.OOE-01 0.OOE-01 2.80E 01.

PERIODE OF CALM (HOURE), O.OOOE-01 eOURS OL INWilID DATA a 2OvE 01 AF F ROVL D !..Y ' T 11 LL . DATE:

TAGE 3 of 14

TABLE 3 MIC PAGE 4 OF 7 REPORT

• CATEGORY . METEROLOGICAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION FERIOD OF RECORD OUARTER H 4 REPORT START TIME 6577: 00 HRS = 01: OOAM OCTOBER 1, 1984 REPORT END TIME 8783: 00 HRS = 11: GOPM DECEMBER 31, 1984 STABILITY CLASS D ELEVATION 10 METERS I

} WIND SPEED (MPH) AT 10 METER LEVEL

----------------------------------------------------------------------------- \

1-3 4-7 8-12 13-18 19-24 .  :>24 TOTAL N 1.OOE 00  ? OOE 00 S.OOE 00 1.OOE 00 O.OOE-01 0.OOE-01 1.SOE 01:

lNNE: O.GOE-01 2.OOE 00 1.10E 01 O.OOE-01 0.OOE-01 0.OOE-01 . 1.30E 01:

t t ---- ---------------------------------------------------------------------------

lNE O OOE-01 9.OOE 00 4.OOE 00 O.OOE-01 O.OOE-01 O.OGE-01 1.SOE 01:

l--- -__----------------------------------_----------_---------------------------

ENE: O.OOE-01 5.OOE 00 4.OOE 00 O.OOE-01 O.OOE-01 0.OOE-01 -

9. GOE 00:

1 ------------------

!E 3.OOE 00 7.OOE 00 3.OOE 00 . O.OOE-01 0.OOE-01 OOE-01

. O. 1.SOE 01:

ESE: 2.OOE 00 1 SOE 01 6 OOE 00 O.OOE-01 O.OOE-01 0.OOE-01 2.SOE 01:

l--------------------------------------------------------------------------------

lSE 7.OOE 00 2.10E 01 2.10E 01 2.OOE 00 . O.OOE-01 0.OOE-01 5.10E 01: l SSE: 5.OOE 00 8.OOE 00 8.OOE 00 8.OOE 00 O.OOE-01 O.OOE-01 2.90E 01:

lS -

7.OOE 00 1.90E 01 7.OOE 00 1.20E 01 O.OOE-01 0.OOE-01 -

4.SOE 01.:

,----~~--------------------------------------------------------------------------

SbW: O.OOE-01 9.OOE 00  ? OOE 00 U.OOE 00 2.OOE 00 O.OOE-01 2.40E 01:

1

,SW 5 OOE 00 6 OOE 00 6 OvE 00 5.OOE 00 3.OOE 00 1.OOE 00 2.60E 01:

lWSM: 4.OOE 00 0 OOE 00 2.OOE 01 D.OOE 00 O.OOE-01 O.OOE-01 3.40E 01:

W 2 OOE 00 1. 4 0E. 01 1.90E 01 1.OOE 01 1.OOE 00 0.OOE-01 4. OOE 01:

.WNW: 6.OOE 00 5 OOE 00 1.60E 01 1,20E 01 0.00E-01 O.OOE-01 3.80E 01:

NW . O.OOE-01 7.OOE 00 9.OOE 00 1.40E 01 3.OOE 00 O.OOE-01 3.SOE 01

, NNW: O 00E-01 4 OOE 00 1.SOE 01 5 OOE 00 -

0 OOE-01 O.OOE-01 2.40E 01-

---

~~~------------------------------------------

TOT: 4.10E 01 1,3*E O2 1.SCE O2 7 90E 01 c.OOE 00 1.GOE 00 4. 2SE O2-F l

FERIOD? Or C ALH(HOURE.) . 1.OOOE 00 HOUR % OF INVALID DA1A 2.2 DOE O2 i

, APPROVFh 14 1 I1 LE - DATE:

l l

i I PAGE 4 of 14 1

L

TABLE 3

. MIC PAGE 5 OF 7 REPORT CATEGORY METEROLOGICAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD OUARTER 4 4 REPORT START TIME 6577: 00 HR5 :- 01: OOAM OCTOBER 1, 1984 REPORT END TIME 878;.-00 HR5 = 11 OOPM DECEMBER 31, 1984 STABILITY CLASS E ELEVATION 10 NETERS WIND SPEED (MFH) AT 10 METER LEVEL

1. 4-7 8-12 13-18 19-24 >24 TOTAL N 3.OOE 00 6 OOE 00 1,OOE 01 5.00E 00 O OOE-01 O.OGE-01 2.40E 01:

NNE. 6 OOE 00 2.10E 01 1.90E 01 4.OOE 00 O.OOE-01 0.OOE-01 4.30E 01:

NE 5 OOE 00 1.OOE 01 7.OOE 00 1.OOE 00 O.OOE-01 O.OOE-01 2.30E 01:

ENE: 3.OOE 00 7.OOE 00 4.OOE 00 7.OOE 00 O.OOE-01 O.OOE-01 2.10E 01:

E 2.OOE 00 1.OOE 01 1.OOE 01 2.OOE 00 O.OOE-01 O.OOE-01 2. 40E 01:

ESE: 4.OOE 00 3 COE 01 2.SOE 01 1.OOE 00 O OOE-01 O.OOE-01 6.70E 01:

SE 1.20E 01 3.70E 01 4. DOE 01 4.OOE 00 O.OOE-01 O.OOE-01 9. SOE 01:

SSE: 6.OoE 00 1 60E 01 4.60E 01 6 OOE 00 0.OOE-01 0.OOE-01 7.60E 01:

S 6.OOE 00 2.OOE 01 5. .c:OE 01 6.OOE 00 1.OOE 00 O.OOE-01 8.60E 01:

S E.W : 4 00E 00 1.40E 01 1.SOE 01 2.80E 01 4.OOE 00 O.OOE-01 6.SOE 01:

SW 4 OOE 00 4 OOE 00 7 GOE 00 h 00E 00 1.OOE 00 1.OOE 00 2.20E 01-W E.W - / GOE 00 5 00E 00 1.10E 01 1.00E 00 O.OOE-01 1.OOE 00 2.40E 01.

N 5 OOE 00 OOE 00 7.OOE 00 2 GOE 00 O OOE-01 1.GOE 00 2.SOE 01.

UNW: O.OOE-Oi J.OOE 01 1.70E 01 4 OOE 00 O.GOE-01 0.OOE-01 3.10E 01 NW O UOE-01 o 00E 00 2.OOE 00 O.00E-01 0.GOE-01 O OOE-01 8.OOE 00.

NNW: 4 OOE Ou 2 OOE Ot> 1 OOE 00 1.OOE 00 1.OOE UO O.OOE-01 9.GOE 00.

TOT: e. LOE 01 2 15E O2 2 6'E O2 7.00E 01 7 OGE 00 a OOE 00 6.42E O2' FERIODE. Oi CHLM(HOURE.> . 5 OOOE nu HOURS OF INV6iIh DATA 2 750E O2 A' PROVED isY TIlLE DATE:

PACE 5 of 14

TABLE 3 MIC PAGE 6 OF 7 REPORT CATEGORY METEROLOGICAL DATA. OUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD OUARTER # 4 REPORT START TIME 6577.00 HRS = 01:OOAM OCTOBER 1, 1984 REPORT END TIME 8783: 00 HRS = 11:OOPM DECEMBER 31, 1984 STABILITY CLASS F ELEVATION 10 METERS WIND SFEED(MPH) AT 10 METER LEVEL 1-3 4-7 8-12 13-18 19-24 -

>24 TOTAL N 2.OOE 00 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 3. OOE 00:

NNE: 1.OOE 00 4.OOE 00 O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 5. OOE 00:

NE 3.OOE 00 O.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01 0.OOE-01 -

3. OOE 00:

ENE: 0.OOE-01 3.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 3.OOE 00:

E O.OOE-01 4.OOE 00 1.OOE 00 . O.OOE-01 O.OOE-01 O.OOE-01 5.OOE 00:

ESE: 0.OOE-01 1.OOE 01 2.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 . 1. 20E 01:

l SE 1.OOE 01 -

2.20E 01 8.OOE 00 O.OOE-01 0.OOE-01 . O.OOE-01 4.OOE 01:,

SSE. 3.OOE 00 1.70E 01 1.10E 01 0.OOE-01 0.OOE-01 0.OOE-01 3.10E 01:

S 3.OOE 00 1.70E 01 9.OOE 00 O.OOE-01 O.OOE-01 . O.OOE-01 . 2.90E 01:

SSW: 4.OOE 00 1.OOE 01 5.OOE 00

• O.OOE-01 0.OOE-01 0.OOE-01 1.90E 01:

SW 3.OOE 00 5.OOE 00 1.10E 01 0.OOE-01 O.OOE-01 0.OOE-01 1. 90E 01:

W5W: 7.OOE 00 3 OOE 00 O.OOE-01 . O.OOE-01 O.OOE-01 O.OOE-01 1. OOE 01 :

1W 2.GOE 00 5.00E 00 0.OGE-01 0.OOE-01 0.OOE-01 0.OOE-01 7.OOE 00:

WNW: 4.OOE 00 1.OOE 00 1.OOE 00 O.OOE-01 0.OOE-01 . O.OOE-01 -

6. OOE 00:

' NW 1.OOE 00 . O.OOE-01 O.OOE-01 0.OOE-01 O.GOE-01 O.OOE-01 1. OOE 00:

lNNW: 3.OOE 00 3.OOE 00 O. OOE-0.1 O.OOE-01 . O.OOE-01 O.OOE-01 . 6.OOE 00-l TOT: 4 60E 01

• 1.05E O2 4 80E 01 O.GOE-01 O.OOE-01 O.GOE-01 *

1. 99E O2:

PER10DS OF CALM (HOURS). 3 OOOE 00 1 HOURL OF INVALID DAT4 7.700E 01 AFFROVED BY: TITLE' DATE:

PAGE 6 of 14 4

, , _ . _ . . _ . . _ _ ~ - . . _ , . , . , . , , , - - - - __ .._..,._,_.__n. ,, _ , _ _ . . - _

- m._ . - - - -

. TABLE 3 MIC PAGE 7 OF 7 REPORT CATEGORY METEROLOGICAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD QUARTER # 4 REPORT START TIME 6577: 00 HRS = 01: OOAM OCTOBER 1, 1984 REPORT END TIME 8783: 00 HRS = 11:OOPM DECEMBER 31, 1984 STABILITY CLASS G ELEVATIC." 10 METERS WIND SPEED (MPH) AT 10 METER LEVEL 1-3 4-7 8-12 13-18 19-24 >24 TOTAL -

N O.OOE-01 1.002 CO O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 1.OOE 00:

NNE: 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 O.OOE-01 0.OOE-01:

NE -

O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01:

ENE: 1.OOE 00 1 OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 . 2. OOE 00:

E 2.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 2.OOE 00:

ESE: 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 1. OOE 00:

---

__ u-------------------- --------------

SE 4.OOE 00 1.30E 01 4.OOE 00 C OOE-01D O.QbE-01 0.00E-01 2.10E 01:

0.OOE-01 1.20E 01;

' SSE: 0.OOE-01 1.10E 01 1.OOE 00 < 0.OOE-01" 40.OOE.01 . .

^

S  : 7.OOE 00 3.OOE 00 2.OOE'00 O.OOE-01 .,'C OOE-01' O.OOE-01 1.20E 01:

---

. _ _= ------

---

u- L ------ ---- L------ =-- -

SSW: 5.OOE 00 5.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 1. OOE 01:

SW - 1.OOE 00 2.OOE 00 0 OOE-01 0.00E-01 . 3.OOE-01 0.OOE-01 3. OOE 00:

---

_------------_____----_-___---_---_y_----_----.w '

WSW: 1.OOE 00 O OOE-01 O.OOE-01 0'OhE-02 ,w L O.OOE-01 <

O.GOE-01 1.OOE 007

\ 1 k .

W 1.OOE 00 O.GOE-01 O. OOE-01,L  :."s. O O E - 0 1 -0.OOEmO1 O.OOE-01 1. O O E O W WNW: 1.OOE 00 O.GOE-01 O. ode-ul Q.'OOE-01 O. OOE 4 1 ' O.OOE-01 . 1. OOE 00:

---

;L.--- L----------- - -------------------------

NW O.OOE-01 0.OOE-01. O.COE-01 0.OOE-01 0.002-01 0.OOE-01' O.OOE-01:

NNW: O.OOE-01 O.OOE-Oi O.OOE-03 0.OOE-01 0.}OOE-01 O.OOE-01 0.OOE-01:

---

g-- z-----------------------------

TOT: 2.40E 01 3.60E 01 7.OOE 00 O.OOE-01 e 0.OOE-01 0.OOE-01 6.70E 01.

---

a--- --------------------------

,  ; 6- ,'

PERIODS OF CALM (HOURS): 2.OOGE 00 4 'N ,

• I w'

HOURS OF INVALID DATA a 600E 01 c HOURS OF GOOD DATA '1.394E 03 5 63.2% OF) TOTA HOURS l' Ni s u .

% a

-e, -

.y APPROVED BY: . TPLE: a 4,1 % i DATE: \.

g i s.

g <' d 1 q ,

e

, f PAGE 7 of Q, +  ;

' s - s k

i "g #[i

/ , j a

.\

. TABI.E 3 MID PAGE 1 OF 7 REPORT CATEGORY METEROLOGICAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD . QUARTER # 4

' REPORT START TIME 6577: 00 HRS = 01: OOAM OCTOBER 1, 1984 REPORT END TIME 8783:00 HRS = 11;OOPM DECEMBER 31, 1984 STABILITY CLASS A ELEVATION 60 METERS WIND SPEED (MFH) AT 60 METER LEVEL 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N O.OOE-01 1.OOE 00 O.OOE-01 O.OOE-01 O.GOE-01 O.OOE-01 1.OOE 00:

NNE: O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 O.OOE-Oi O.OOE-01 O.OOE-01:

NE O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01; ENE: O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01:

=---------------

E O.OOE-01 O.OOE-01 0.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01:

ESE: 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01:

SE O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 0.OOE-01 O.OOE-01 0.OOE-01:

SSE: O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01:

S 0.OOE-01 1.OOE 00 0.OOE-01 2.OOE 00 0.OOE-01 0.OOE-01 3. OOE 00:

SSW: O.OOE-OJ 3.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 3 OOE 00:

SW O.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01:

WSW: O.OOE-01 2.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 2.OOE 00:

N O.OOE-01 2.OOE 00 O.OOE-01 2..OOE 00 O.OOE-01 O.OOE-01 4.OOE 00.

WNW: 2.OOE 00 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 3.OOE 00 NW . O.OOE-01 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 1.OOE 00:

NNW: O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01:

TOT: 2.OOE 00 1.10E 01 O.OOE-01 4.OOE 00 O.OOE-01 O.OOE-01 1.70E 01.

PERIODS OF CALM (HOURS): O.OOOE-01 HOURS OF INVALID DATA 1.OOOE 00 APPROVED BY: TITLE: DATE:

PAGE 8 of 14

TABLE 3 MID PAGE 2 OF 7 REPORT CATEGORY METEROLOGICAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD QUARTER # 4 REPORT START TIME 6577: 00 HRS =- 01: OOAM OCTOBER 1, 1984 REPORT END TIME E:783: 00 HRS = 11: OOPM DECEMBER 31, 1984 STABILITY CLASS B ELEVATION 60 METERS WIND SPEED (MPH) AT 60 METER LEVEL 1-3 4-7 8-12 13-18 19-24 >24 TOTAL .

N O.OOE-01 O.OOE-01 1.OOE 00 O.OOE-01 0.OOE-01 0.OCE-01 1.OOE 00.

NNE: O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01:

NE O.OOE-01 O.OOE-01 0.OOE-01 0.OOE-01 O.GOE-01 O.OOE-01 0.OOE-01:

ENE: O.OOE-01 1.OOE 00 O.OOE-01 , O.OOE-01 O.OOE-01 0.OOE 1. OOE 00:

E 3.OOE 00 O.OOE-01 0.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01 3. OOE 00:

ESE: O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 0.OOE-01:

SE O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01:

SSE: O.OOE-01 1.OOE 00 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE 2. OOE 00:

S 0.OOE-01 O.OOE-01 O.OOE-01 0.OOE-01 0.OOE-01 O.00E-01 0.OOE-01.

SSW: O.OOE-01 O.OOE-01 0.OOE-01 1.OOE 00 O.OOE-01 0.OOE-01 1.OOE 00:

SW O.OOE-01 O.OOE-01 0.OOE-01 0.GOE-01 O.OOE-01 0.OOE-01 O.OOE-01:

0.OOE-01 O.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01; WSW: O.OOE-01 O.OOE-01 W O.OOE-01 0.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01:

WNW: O.OOE-01 O.OOE-01 O.OOE-01 1.OOE 00 O.OOE-01 O.OOE-01 1. OOE 00:

NW O.OOE-01 O.OOE-01 1.OOE 00 2.OOE 00 O.OOE-01 0.OOE-01 3. OOE 00:

NNW: O.OOE-01 0.OOE-01 2.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 2. OOE 00:

TOT: 3.OOE 00 2

~.OOE 00 5.OOE 00 4.OOE 00 O.OOE-03 0.OOE-01 1.40E 01:

PERIODS OF CALM (HOURS): 1 OOOE 00 HOURS OF INVALID DATA O.GOOE-01 APPROVED DY: TITLE: DATE:

PAGE 9 of 14

TABLE 3 MID PAGE 3 OF 7

' REPORT CATEGORY - METEROLOGICAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD QUARTER 4 4 REPORT START TIME 6577: 00 HRS = 01: OOAM OCTOBER 1, 1984 REPORT END TIME 8783: 00 HRS = 11: OOPM DECEMBER 31, 1984 STABILITY CLASS C ELEVATION 60 METERS WIND SPEED (MPH) AT 60 METER LEVEL 1-3 4-7 8-12 13-18 19-24 >24 TOTAL-N O.OOE-01 O.OOE-01 0.OOE-01 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01:

NNE: O.OOE-01 O.OOE-01 4.OOE 00 O.OOE-01 0.OOE-01 O.OOE-01 4.OOE 00.

NE O.OOE-01 O.OOE-01 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 1.OOE 00:

ENE: O.OOE-01 O.00E-01 1.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 1. OOE 00:

---

__----------------_------------------=__ - - - - - - - - - - - - - - - - - - - - - _ - - - - - - - - - - - - - -

E O.OOE-01 2.OOE 00 1.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 3.OOE 00:

ESE: 0.OOE-01 2.OOE 00 1.OOE 00 O.OOE-01 0.OOE-01 O.OOE-01 3.OOE 00:

. SE 1.OOE 00 O.OOE-01 1.OOE 00 O.OOE-01 0.OOE-01 O.OOE-01 2.OOE 00:

SSE: 0.OOE-01 2 OOE 00 5.OOE 00 1.OOE 00 O.OOE-01 0.OOE-01 8. OOE 00:

S 0.OOE-01 O.OOE-01 6.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 6.OOE 00:

SSW: O.OOE-01 0.GOE-01 1.OOE 00 2.OOE 00 O.OOE-01 0.OOE-01 3.OOE 00.

SW O.OOE-01 0.OOE-01 1.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 1. OOE 00:

W5W: 1.OOE 00 O.OOE-01 O.GOE-01 0.OOE-01 O.OOE-01 0.OOE-01 1.OOE 00.

W O.OOE-01 1.OOE 00 3.OOE 00 2.OOE 00 O.OOE-01 O.OOE-01 6. OOE 00:

WNW: O.OOE-01 1.OOE 00 1.OOE 00 O.GOE-01 O.OOE-01 O.OOE-01 2. OOE 00:

NW O.OOE-01 0.OOE-01 3.OOE 00 2.OOE 00 2.OOE 00 O.OOE-01 7.OOE 00

---

_----__------------------------------------------------ _ _--_ = - - - - - - -

- NNW: 0.OOE-01 0.OOE-01 1.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 1.OOE 00.

TOT: 2.OOE 00 8.OOE 00 3.OOE 01 7.OOE 00 2.OOE 00 O.OOE-01 4.90E 01.

PERIODS OF CALM (HOURS). O.OOOE-01 HOURS OF INVALID DATA 1.100E 01 APPROVED BY: TITLE: DATE:

PAGE 10 of 14

TABLE 3 MID PAGE 4 OF 7 REPORT CATEGORY METEROLOGICAL DATA OUARTERLY TOTALS OF HOURS AT EACH WIND SPZED AND DIRECTION

. PERIOD OF RECORD QUARTER # 4

- REPORT START TIME 6577; 00 HRS =- 01: OOAM OCTOBER 1, 1984

- REPORT END TIME 8783: 00 HRS = 11: OOPM DECEMBER 31, 1984

' STABILITY CLASS D ELEVATION 60 METERS WIND SPEED (MPH) AT 60 METER LEVEL 1-3 4-7 8-12 13-1S 19-24 >24 TOTAL N O.OOE-01 8.OOE 00 1.20E 01 4.OOE 00 1.OOE 00 1.OOE 00 2. 60E 01:

- NNE: O OOE-01 6.OOE 00 2.60E 01 2.OOE 00 O.OOE-01 O.OOE-01 3. 60E 01:

NE 1.OOE 00 1.20E 01 1.30E 01 1.OOE 00 O.OOE-01 0.OOE-01 2.70E 01:

' ENE: O.OOE-01 1.30E 01 9.OOE 00 1.OOE 00 0.OOE-01 0.OOE-01 2.30E 01:

. ----------_-----------___-------------_-----_------______----__._ = - - . __ _--

E O.OOE-01 7.OOE 00 7.OOE 00 1.OOE 00 O.OOE-01 0.OOE-01 1.SOE 01:

ESE: 1.OOE 00 5.OOE 00 1.40E 01 O.OOE-01 O.OOE-01 O.OOE-01 2. OOE 01:

SE O.OOE-01 1.60E 01 1.40E 01 9.OOE 00 O.OOE-01 0.OOE-01 3. 90E 01:

SSE: 1.OOE 00 9.OOE 00 1.90E 01 1.SOE 01 1.OOE 00 O. ODE-01 4. SOE 01:

S 0.OOE-O' 9.OOE 00 1.20E 01 1.90E 01 1.10E 01 1.OOE 00 5.20E 01:

SSW: 1.OOE 00 1.OOE 01 1.OOE 01 4.OOE 00 1.OOE 00 1.OOE 00 2.70E 01:

- SW 1.OOE 00 5.OOE 00 1.10E 01 8.OOE 00 3.OOE 00 8.OOE 00 3.60E 01.

WSW: 1 OOE 00 6.OOE 00 9.OOE 00 3.OOE 00 O.OOE-01 1.OOE 00 2.OOE 01:

W 2.GOE 00 1.10E 01 1.10E 01 1.SOE 01 - 4.OOE 00 1.OOE 00 4.40E 01:

- WNW: 2.OOE 00 6.OOE 00 1.40E 01 2.OOE 01 4.COE 00 0.OOE-01 4.60E 01:

NW O.00E-01 1.OOE 00 9.OOE 00 2.OOE 01 1.20E 01 6.OOE 00 4.80E 01:

NNW: O.OOE-01 4.OOE 00 1.SOE 01 1.20E 01 O.OOE-01 0.OOE-01 3.40E 01:

TOT: 1.OOE 01 1.28E O2 2.10E O2 1.34E O2 3.70E 01 1.90E 01 5.38E O2:

PERIODS OF CALM (HOURS?- 1.OOOE 00

- HOURS OF INVALID DATA 1.150E O2 AFPROVED BY: TITLE: DATE:

PAGE 11 of 14

- TABLE 3 MID PAGE 5 OF 7 REPORT CATEGORY METEROLOGICAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD OUARTER # 4 REPORT START TIME 6577: 00 HRS =- 01 : OOAM OCTOBER 1, 1984 REPORT END TIME 8783: 00 HRS :- 11: OOPM DECEMBER 31, 1984 STABILITY CLASS E ELEVATION 60 METERS WIND SPEED (MPH) AT 60 METER LEVEL 1-3 4-7 8-12 13-18 19-24 >24 TOTAL

---

------------------------- - _=------

-N O.OOE-01 2.OOE 00 o OOE 00 5.OOE 00 4 OOE 00 O.OOE-01 2.OOE 01:

NNE: O.OOE-01 6.OOE 00 1.80E 01 6.OOE 00 2.OOE 00 O.OOE-01 3.20E 01:

NE 2.OOE 00 1.SOE 01 1.SOE 01 O.OOE-01 O.OOE-01 O.OOE-01 3. OOE 01:

ENE: O OOE-01 4.OOE 00 6.OOE 00 6.OOE 00 2.OOE 00 O.OOE-01 1.SOE 01:

E O.OOE-01 6.OOE 00 1.30E 01 2.OOE 00 O.OOE-01 O.OOE-01 2.10E 01:

ESE: O.OOE-01 1.10E 01 3.SOE 01 3.OOE 00 O.OOE-01 0.OOE-01 4.70E 01:

SE - O.OOE-01 9.OOE 00 3.10E 01 4.20E 01 O.OOE-01 0.OOE-01 8.20E 01:

SSE: 3.OOE 00 9.OOE 00 3.SOE 01 6.80E 01 1.OOE 01 O.OOE-01 1.23E O2:

---

. - _ . ---------------- -----------------------_ = _ - --

S 2.OOE 00 3.GOE 00 3.20E 01 8.40E 01 6.OOE 00 2.OOE 00 1.29E O2:

SSW: 2.OOE 00 7.OOE 00 1.70E 01 3.50E 01 2.20E 01 7.OOE 00 9.OOE 01:

SW 2.OOE 00 7.OOE 00 O OOE 00 2.10E 01 1 OOE 00 2.OOE 00 4.30E 01:

WSW: O.OOE-01 2.OOE 00 9.OOE 00 7.OOE 00 2.OOE 00 3.OOE 00 2.SOE 01:

W 1.OOE 00 3.00E 00 6.GOE 00 1.OOE 01 1.GOE 00 3.OOE 00 2.40E 01:

WNW: O.OOE-01 2.OOE 00 1.10E 01 2.OOE 01 5.OOE 00 O.OOE-01 3.SOE 01:

NW 2.OOE 00 3.OOE 00 8.OOE 00 1.50E 01 1.OOE 00 1.OOE 00 3.OOE 01.

NNW: 1 ODE 00 2.GOE 00 1.00E 00 1.GOE 00 O.OOE-01 O.OOE-01 5.OOE 00.

TOT: 1.SOE 01 8.90E 01 2.01E 02 3.2SE O2 5.70E 01 1.80E 01 7.55E O2:

PERIODS OF CPM 1(HOURS): O.OOOE-01 HOURS OF INVA..ID r DATA 1.670E O2 APPROVED BY: TITLE: DATE.

[

t PAGE 12 of 14

-- _. . _ _ _ . _ . _ a

- TABLE 3 MID PAGE 6 OF 7 REPORT CATECiORY METEROLOGICAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD OUARTER # 4 REPORT START TIME 6577: 00 HRS = 01: OOAM OCTOBER 1, 1984

- REPORT END TIME 8783: 00 HRS = 11: OOPM DECEMBER 31, 1984

STABILITY CLASS F ELEVATION 60 METERS WIND SFEED(MPH) AT 60 METER LEVEL 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N O.00E-01 1.OOE 00 O.OOE-01 1.OOE 00 O.OOE-01 O.OOE-01 2. OOE 00:

NNE: O OOE-01 2.OOE 00 3.OOE 00 5.OOE 00 O.OOE-01 O.OOE-01 1.OOE 01:

NE O.OOE-01 3.OOE 00 7.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 1.OOE 01:

---

__-------------------_--- =-------------------__----_-----------

INE: O.OOE-01 O.OOE-01 3.OOE 00 1.OOE 00 O.OOE-01 O.OOE-01 4.OOE 00:

E O.OOE-01 0.OOE-01 3.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 3.OOE 00:

- ESE: 0.OOE-01 2.OOE 00 6.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 . 8.OOE 00:

SE O.OOE-01 0.OOE-01 1.20E 01 4.OOE 00 0.OGE-01 0.OOE-01 1.60E 01:

SSE: 0.OOE-01 3.OOE 00 2.SOE 01 2.SOE 01 2.OOE 00 O.OOE-01 5.10E 01:

S 0.OOE-01 3.OCE 00 1.OOE 01 2.20E 01 0.OOE-01 0.OOE-01 3.50E 01:

SSW: 0.OOE-01 2.OOE 00 6.OOE 00 1.60E 01 1.OOE 00 O.OOE-01 2.50E 01:

SW 2.OOE 00 5.OOE 00 9 OOE 00 2.70E 01 1.OOE 00 O.OOE-01 4.40E 01:

WSW: 3.OOE 00 2.OOE 00 3.OOE 00 3.OOE 00 O.OOE-01 0.OOE-01 1.10E 01:

W 2.OOE 00 1.OOE 00 4.OOE 00 4.OOE 00 O.OOE-01 O.OOE-01 1.10E 01:

WNW: 1.OOE 00 2.OOE 00 8.OOE 00 5.OOE 00 O.OOE-01 O.OOE-01 1.60E 01:

NW O.OOE-01 1.OOE 00 3.OOE 00 O.OOE-01 O.OOE-01 O.OOE-01 4.OOE 00.

c ------------------------------------------------__------------------------------

NNW: 0.OOE-01 1.OOE 00 3.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 4.OOE 00:

, TOT: 8.OOE 00 2.80E 01 1.03E O2 1.11E O2 4.OOE 00 O.OOE-01 2. 54E O2:

PERIODS OF CALH(HOURS): O.OOOE-01 HOURS OF INVALID DATA 2.SOOE 01 APPROVED BY: T]TLE: DATE:

1 PAGE 13 of 14

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

. TABLE 3

. MID PAGE 7 OF 7 REPORT CATEGORY METEROLOGICAL DATA. QUARTERLY TOTALS OF HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD QUARTER N 4 REPORT START TIME 6577: 00 HRS = 01: OOAM OCTOBER 1, 1984 REPORT END TIME S783: 00 HRS -- 11: OOPM DECEMBER 31, 1984 STABILITY CLASS G ELEVATION 60 METERS WIND SPEED (MPH) AT 60 METER LEVEL 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N O.OOE-01 O OOE-01 O.OOE-01 1.OOE 00 O.OOE-01 0.OOE-01 1. OOE 00:

NNE: O.OOE-01 O.OOE-01 4.OOE 00 O.OOE-01 O.OOE-01 O.00E-01 4.OOE 00:

NE O.OOE-01 1.OOE 00 4.OOE 00 O.OOE-01 . O.OOE-01 0.OOE-01 5.OOE 00:

ENE: 0.OOE-01 0.OOE-01 2.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 2. OOE 00:

1 E O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01:

ESE: 0.OOE-01 0.00E-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01:

SE . O.OOE-01 1.OOE 00 2.OOE 00 O.OOE-01 0.OOE-01 0.OOE-01 . 3.OOE 00:

- ----------------------------- =

SSE: 0.OOE-01 3.OGE 00 5.OOE 00 1.10E 01 1.OOE 00 O.OOE-01 2.OOE 01:

S 0.OOE-01 1.OOE 00 6.OOE 00 9.OOE 00 O.OOE-01 0.OOE-01 1.60E 01:

i SSW: 0.OOE-01 0.OOE-01 9.OOE 00 6.OOE 00 O.OOE-01 0.OOE-01 1.50E 01:

, SW

• 2.OOE 00 1.OOE 00 1.10E 01 0.OOE-01 0.OOE-01 0.OOE-01 1.40E 01:

---

- -----------------------------_-------- -_ ==-. - ----

WSW: 0.OOE-01 1.OOE 00 1.OOE 00 1.OOE 00 O.OOE-01 0.OOE-01 3.OOE 00:

W O OOE-01 5.OOE 00 2.OOE 00 O.OOE-01 O.OOE-01 0.OOE-01 5. OOE 00:

WNW: 1.OOE 00 1.OOE 00 4.OOE 00 0.OOE-01 0.OOE-01 0.OOE-01 6. OOE 00:

NW O.OOE-01 1.OOE 00 0.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 1. OOE 00:

NNW: 0.OOE-01 0.OOE-01 O.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01 0.OOE-01:

.-------------------= - -----------------

TOT: 3.OOE 00 1.SOE 01 5.OOE 01 2.80E 01 1.OOE 00 O.OOE-01 9.50E 01:

PERIODS OF CALM (HOURS): O.GOOE-01 HOURS OF INVALID DATA 1.OOOE 01 HOURS OF GOOD DATA 1.724E 03 = 78.1% OF TOTAL HOURS AFPROVED BY: TITLE: DATE.

PAGE 14 of 14

~ *

. ATTACHMENT 1 Amendment No. 2 TABLE 4.11-1 RADIOACTIVE LIOUID WASTE SAMPLING AND ANALYSIS PROGRAM LOWER LIMIT MINIMUM OFDETECTg r LIQUID RELEASE SAMPLING ANALYSIS TYPE OF ACTIVITY (LLD)

TYPE FREQUENCY FREQUENCY ANALYSIS (pCf/ml)

1. Batch Waste P P 7

Release Each Batch Each Satch Principal Gamma 5x10 Tanks (2) ,

Emitters (3)

I-131 1x10

-6

a. Waste Monitor Tank P M Dissolved and , 1x10

-5 One Batch /M Entrained Gases-

) (Gamma Emitters)

b. Secondary Liquid Waste P M H-3 1x10

-5 Monitor Each Batch Composite C4) g Tank Gross Alpha Ix10

c. Discharge S r 89, Sr-90 4 P Q 5x10 Monitor Each Batch Composite f4)

. Tank '

Fe-55 1x10

-6

2. Continuous N Principal Gamma -7 5x10 4

Releases (5) Daily (6) Composite (4) Emitters (3)

Grab Sample

-6 I-131 1x10 4 Steam Generator Blowdown Dissolved and -5 M M 1x10 Grab Sample Entrained Gases (Gamma Emitters)

~5 M H-3 1x10 Daily (6) Composite (4s /

g Grab Sample Gross Alpha 1x10 Sr-89, Sr-90 d Q 5x10 Daily (6) Composite (4) .-

Grab Sample . Fe-55 1x10

• l J

CALLAWAY - UNIT 1 . < 3/4 11-2 PAGE 1 of 3 I

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

ATTACHMENT 1

' . ; T REVISioy y .

F ,l Alltf 4.11_1 (Continued)

TABLE NOTATIONS --

(1)The LLD is defined, for purposes of these specifications, as the smallest concentration of radioactive material in a sample that will yield a not count, above system background, that will be detected with 95% probability with only 5% probability of falsely concluding that a blank observation represents a "real" signal.

For a particular measurement system, which may include radiochemical separation:

LLD =

E V 2.22 x 108 Y exp (-Aat)

Where:

LLD' = the "a priori" lower limit of detection (microCurfes per unit mass or volume), .

s the standard deviation of the background counting rate or of b

the counting rate of a blank sample as appropriate (counts per -

minute), .

E = the counting efficiency (counts per disintegration),

V = the sample size (units of mass or volume),

2.22 x 108.= the number of disintegrations per minute per microcurie, Y = the fractional radiochemical yield, when applicable, A = the radioactive decay constant for the particular radionuclide (s '), and at = the elapsed time between the midpoint of sample collection and the time of counting (s).

Typical values of E, V, Y, and at should be used in the calculation, it should be recognized that the LLD is defined as an a_ priori (before

, the fact) limit representing the capability of a measurement system and not as an a posteriori (af ter the fact) limit for a particular measurement.

(?)A batch release is the discharge of liquid wastes of a discrete volume.

Prior to sampling for analyses, each batch shall be isolated, and then thoroughly mixed by a method described in the 00CM to assure representative sampling.

1

^

j CALLOWAY - UNIT 1 3/4 11-3 PAGE 2 Of 3

ATTACHMENT 1 REVlsl0N I

~

TABLE 4.11-1 (Continued) - "s TABLE NOTATIONS (Continued)

(3)The principal gamma emitters for which the LLD specification applies include the following radionuclides: Mn-54, Fe-59, Co-58, Co-60, Zn-65, Mo-99, Cs-134, Cs-137, Ce-141, and Ce-144. This list does not mean that only these nuclides are to be considered. Other gamma peaks that are identifiable, together with those of the above nuclides, shall also be analyzed and reported in the Semiannual Radioactive Effluent Release Report pursuant to Specification 6.9.1.7, in the format outlined in Regulatory Guide 1.21, Appendix B, Revision 1, June 1974.

(4)A composite sample is one in which the quantity of liquid sampled is proportional to the quantity of liquid waste discharged and in which the method of sampling employed results in a specimen that is representative of the liquids released. Prior to analysis, all samples taken for the composite shall be thoroughly mixed in order for the composite samples to be representative of the effluent release.

(5)A continuous release is the discharge of liquid wastes of a nondiscrete volume, e.g., from a volume of a system that has an input flow during the continuous release.

.(6) Samples shall be taken at the initiation of effluent flow and at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> thereaf ter while the release is occurring. To be representa- s

Live of the liquid effluent, the sample volume shall be proportioned to the ,

effluent stream discharge volume. The ratio of sample volume to effluent "

~

discharge volume shall be maintained constant for all semples taken for the composite sample.

1

, Call AWAY - UNIT 1 3/4 11-4 t

PAGE 3 of 3 l_

i

.) .. .

TABLE 4.11-2 Q

~

RADI0 ACTIVE GASEOUS WASTE SAMPLING AND ANALYSIS PROGRAM ,

E .

N

• IMINIMUM LOWER,LIMi l DETECTION c SAMPLING ANALYSIS TYPE OF (LLO)gF'

( , GASEOUS RELEASE TYPE

• FREQUENCY FREQUENCY ACTIVITY ANALYSIS (pCi/ml)

~4

~

1. Waste Gas Decay Each Tank Eac Tank Principal Gamma Emitters (2) 1x10 Tank Grab iSample . ,

-4

2. ContaingtPurge Each PURGE (3) Each PURGE (3) Principal Gamma Emitters (2) 1x10 or Vent hSfnple -6 3

. M H-3 (oxide) 1x10

~4

3. Unit Vent 'H M I3} Principal Gamma Emitters (2) 1x10 M I4}

-6 a le H-3 (oxide) 1x10

{ ~4

- 4. Spent Fuel Building MI} M Principal Gamma Emitters (2) 1x10 h o

m

} Exhaust Grab Sample M(S)

H-3 (oxide) 1x10

-6 5 e

" ~4 "

5. Radwaste Building M Principal Gamma Emitters (2) 1x10 Vent Grab Sample M y(7) -12

6. All Release Types Continuous (6) (8) 1-131 1x10 i

ds IIsted In 1., Charcoal -10 l 2., 3., 4., and Sample I-333 1x10 S. above Continuous (6) (8) g(7) Principal Gamma Emitters (2) 1x10

~II Particulate -

i Sample 1 g

~I Continuous (6) (8) M Gross Alpha 1x10 Compos,te i Particulate $

Sample o Continuous (6) (8) Sr-89, Sr-90 1x10

~I E Q

Composite M

l Particulate ~

Sample

{ p. .

• 1. ATTACHMENT 2 REVISlon 1 e

TABil 4.11-2 (Continued) i l

. lABl.E NOTATIONS l (1)lhea RD'i's defined, for purposes of these specifications, as the smallest concentration of radioactive material in a sample that will yield a net count, above system background, that will be detected with 95% probability

with only 5% probability of falsely concluding that a blank observation represents a "real" signal.

For a particular measurement system, which may include radiochemical j separation:

1 4 4.66 s b- '

j LLD =

E V 2.22 x 108 Y exp (-Aat)

Where: .

lLD = the "a priori" lower limit of detection (microCuries per unit mass or volume),

sb= the standard deviation of the background counting rate or of the counting rate of a blank sample as appropriate (counts per minute),

. E = the counting efficiency (counts per disintegration), )

V = the sample size (units of mass or volume),

7.22 x 108= the, number of disintegrations per minute per microcurie, Y: the fractional radiochemical yield, when applicable, A = the radioactive decay constant for the particular radionuclide (s 8), and I

at = the elapsed time between the midpoint of sample collection and

, the time of counting (s).

I Typical values of E. V, Y, and at should be used in the calculation.

i it should be recognized that the LLD is defined as an a priori (before the fact) limit representing the capability of a measurement system and not as an a posteriori (after the fact) limit for a particular measurement.

i i

I CALIAWAY - UNIT I 3/4 11-10 PAGE 2 of 3

. k

• - - ~ '~ - !

ATTACHMENT T O

REVISlay 1.

. TABLE 4.11-2 (Continued)

TABLE NOTATIONS (Continued)

(2)The principal gamma emitters for which the LLO specification applies include the following radionuclides: Kr-87, Kr-88, Xe-133, Xe-133m, Xe-135, and Xe-138 in noble gas releases and Mn-54, Fe-59, t Co-58, Co-60, Zn-65, Mo-99, I-131 Cs-134, Cs-137, Ce-141, and Co-144 in iodine and particulate releases. This list does not mean that only those nuclides are,to be considered. Other gar..ma peaks that are identifiable, together with those of the above nuclides, shall also be analyzed and reported in the Semiannual Radioactive Effluent Release Report pursuant to Specification 6.9.1.7, in the format outlined in Regulatory Guide 1.21, Appendix B, Revision 1, June 1974.

(*l) Sampling and analysis shall also be performed following shutdown, startup, or a IllERMAL POWER change exceeding 15% of RATED THERMAL POWER within i hour p+ riod.

(4) Tritium grab samples shall be taken and analyzed at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> when the refueling canal is flooded.

(5) Tritium' grab samples shall be taken and analyzed at least once per 7 days from the ventilation exhaust from the spent fuel pool area, whenever spent fuel is in the spent fuel pool. Grab samples need to be taken only when spent fuel is in the spent fuel pool. .

( (6)The ratio of the sample flow rate to the sampled stream flow rate shall be known for the trime period cover'ed by each dose -or dose rate calculation made in accordance with Specifications 3.11.2.1, 3.11.2.2, and 3.11.2.3.

(/) Samples shall be changed at least once per 7 days and analyses shall be cumpleted within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> after changing, or after removal from sampler.

for unit vent, sampling shall also be performed at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> for at. least / days following each shutdown, STARTUP or THERMAL POWER cnange exceeding l$7. of RATED THERMAL POWER within a 1-hour period and analyses shall be completed within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> of changing. When samples collected for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> are analyzed, the corresponding LL0s may be increased by a factor of 10. This requirement does not apply if: (1) analysis shows that the DOSE EQUIVALENT I-131 concentration in the reactor coolant has not increased more than a factor of 3, and (2) the noble gas monitor shows that effluent activity has not increased more than a factor of 3.

(8) Continuous sampling of the spent fuel building exhaust needs to be performed '

only when spent fuel is in the spent fuel pool.

CAli AWAY - LINI T I 3/4 11-11 PAGE 3 of 3 L