Semiannual Radioactive Effluent Release Rept for Jul-Dec 1985

ML20215K998
Person / Time
Site:	Grand Gulf
Issue date:	12/31/1985
From:	MISSISSIPPI POWER & LIGHT CO.
To:
Shared Package
ML20215K996	List: AECM-86-0057, Forwards Semiannual Radioactive Effluent Release Rept for Jul-Dec 1985. Affirms That Past & Present Determinations of Solid Radwaste Total Ci Quantity Performed by Measurement, Not Estimation ML20215K998
References
NUDOCS 8610280421
Download: ML20215K998 (122)
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Grand Gulf Nuclear Station SEMIANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT July 1 - December 31, 1985

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1 8610280421 860226 PDR ADOCK 05000416 R PDR I

i J20RPT850809

TABLE OF CONTENTS SUBJECT PAGE I. INTRODUCTION.............................................. 1 II. DETAILED INFORMATION...................................... 2 A. Regulatory Limits..................................... 2

1. 10CFR20 Limits

a. Fission and Activation Gases................ 2

b. Radioiodines and Particulates............... 2

c. Liquid Effluents............................ 2

2. 10CFR50, Appendix I Limits

a. Fission and Activation Gases............... 3

b. Radiciodines and Particulates............... 3

c. Liquid Effluents............................ 3

3. 40CFR190 Limits.................................. 4 B. Maximum Permissible Concentrations.................... 4

1. Airborne......................................... 4

2. Liquid.......................................... 4 C. Average Energy....................................... 4 D. Measurements and Approximations of Total Activity.... 5

1. For Fission and Activation Gases................. 5

2. For Particulates and Radioiodines................ 6

3. For Continuous Releases.......................... 6

4. For Batch Releases: Gases........................ 7

5. For Batch Releases: Liquid Effluents............. 7 E. Batch Releases........................................ 7

1. Liquid.......................................... 7

2. Gaseous.......................................... 8 F. Abnormal Releases..................................... 8

1. Liquid.......................................... 8

2. Gaseous......................................... 8 G. Estimate of Total Error............................... 8

1. Liquid.......................................... 8

2. Gaseous.......................................... 9

3. Counting Error................................... 9

4. Solid Radioactive Waste.......................... 9 J20RPT850809 - i

TABLE OF CONTENTS (cont'd)

SUBJECT PAGE H. Solid Radioactive Waste Shipments. . . . . . . . . . . . . . . . . . . . 9 I. Radiological Impact on Man........................... 9

1. Water-Rel? ced Exposure Pathways . . . . . . . . . . . . . . . . . . 9

2. Gas-Related Exposure Pathways................... 10 J. Meteorological Data.................................. 10 III. 1985 RADIATION DOSE

SUMMARY

................................ 11 IV. OFFSITE DOSE CALCULATION MANUAL / PROCESS CONTROL A. Program Revisions..................................... 13 i

J20RPT850809 - ii

LIST OF TABLES TABLE PAGE 1A Gaseous Effluents - Summation of All Releases......... lA-1 1B Gaseous Effluents - Elevated Releases................ 1B-1 1C Gaseous Effluents - Ground Level Releases............ 1C-1 2A Liquid Effluents - Summation of All Releases......... 2A-1 2B Liquid Effluents - Continuous and Batch Modes........ 2B-1 3 Solid Radioactive Waste and Irradiated Fuel Shipments........................................ 3-1 4A Joint Frequency Distribution - July 1, 1985 -

October 1, 1985...................................... 4A-1 4B Joint Frequency Distribution - October 1 -

January 1, 1986...................................... 4B-1 4C Joint Frequency Distribution - January 1, 1985 -

January 1, 1986...................................... 4C-1 4D Classification of Atmospheric Stability. . . . . . . . . . . . . . 4D-1 5 Radioactive Liquid Waste Sampling and Analysis Program...................................... 5-1 6 Radioactive Gaseous Waste Sampling and Analysis Program...................................... 6-1 J20RPT850809 - iii

LIST OF ATTACHMENTS ATTACHMENT NUMBER I offsite Dose Calculational Manual Revision No. 5 - Markup II Offsite Dose Calculational Manual Revision No. 6 i

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I. INTRODUCTION This Semiannual Radioactive Effluent Release Report for the period of July 1 through December 31, 1985, is submitted in accordance with Section 6.9.1.8 of Appendix A to Grand Gulf Nuclear Station (GGNS) License No. NPF-29. That portion'of Appendix A which refers to the monitoring of radioactive effluents, Sections 3/4-11 and 3/4-12, will hereafter be referred to as the Radiological Effluent Technical Specification (RETS).

Airborne discharges at GGNS are ground level releases. All liquid and airborne discharges to the environment were analyzed in accordance with the RETS requirements. Also, all effluent releases were within the concentration and total release limits specified by the RETS.

The calculations and terms utilized in this report are defined in the GGNS Offsite Dose Calculation Manual (ODCM).

J20RPT850809 - 1

II. DETAILED INFORMATION A. Regulatory Limits

1. 10CFR20 Limits

a. Fission and Activation Gases - The release rate limit at any time for noble gases to areas at or beyond the site boundary shall be such that:

D tb = average total body dose rate in the current year (mrem /yr)

= X/Q g Kg Q 1I 1 500 mrem /yr Ds = average skin dose rate in the current year (mrem / year)

= X/Q i (Li + 1.1 Mg ) Qi 13000 mrem /yr where the terms are defined in the GGNS ODCM.

b. Radiciodines and Particulates - The release rate limit for the sampling period for all radioiodines, tritium and radioactive materials in particulate form with half-lives greater than 8 days shall be such that:

Dg = average organ dose rate in current year (mrem /yr)

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=

i WP i Qi 11500 mrem /yr where the terms are defined in the GGNS ODCM.

c. Liquid Effluents - The concentration of radioactive materials released in liquid effluents to unrestricted areas from the reactors at the site shall not exceed at any time the values specified in 10CFR20, Appendix B, Table II, Column 2. The concentration of dissolved or entrained noble gases, released in liquid effluents to unrestricted areas from all reagtors

- at the site, shall be microcuries/ml total activity.

limited to 2 x 10 J20RPT850809 - 2

I 2. 10CFR50, Appendix I Limits

a. Fission and Activation Gases - The dose from noble gases in gaseous effluents to areas at or beyond the site boundary shall be such that:

D = air dose due to gamma emissions from noble 7 gases

= 3.17 x 10~ M X/Q' Qg 15 mrad 77qtr gg

> $10 mrad 7/yr i D = air dose due to beta emissions from noble h

~

gas

= 3.17 x 10-8 Ng X/Q' Qi 110 mradj0 /qtr

, 120 mradj6/yr

b. Radiciodines and Particulates - The dose to an individual from tritium, I-131, 1-133, and radioactive material in particulate form with half-lives greater than 8 days in gaseous effluents shall be such that:

Dp = dose to an individual from tritium, I-131, I-133, and radionuclides in particulate form with i half-lives greater than 8 days (arem)

-8 i = 3.17 x 10 g R f W' Qg 17.5 mrem /qtr Any Organ .

$ 15 mrem /yr Any Organ i

Liquid Effluents - The dose from radioactive materials in liquid effluents shall be such that (where the terms are defined in the GGNS ODCM).

DTau

• i [Ai Tau btg C f F] g 11.5 arem/qtr Total Body ,

1 5 mrem /qtr Any Organ l

1 3 mrem /yr Total Body 5 10 arem/yr Any Organ l

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3. 40CFR190 Limits Doses are calculated for Fission and Activation Gases; Radiciodines and Particulates; and Liquid Effluents according to equations contained in Sections 2.(a), (b), and (c), respectively, with the exception that the limits applied are:

125 mrem /yr, Total Body and Any Organ except thyroid 175 mrem /yr, Thyroid 110 mrad 7/qtr or 120 mrad 7/yr, Fission and Activation Gases 120 mrad [/qtror$40 mrad [/yr,FissionandActivation Gases 115 mrem /qtr or 130 mrem /yr, Any Organ, Iodine and particulates 1 3 mrem /qtr or 16 mrem /yr, Total Body, Liquid Effluents 1 5 mrem /qtr or 120 mrem /yr, Any Organ, Liquid Effluents B. Maximum Permissible Concentrations

1. Airborne The Maximum Permissible Concentration (MPC) of radioactive materials in gaseous effluents is limited by 4 the dose rate restrictions of 10CFR20. In this case, the maximum permissible concentrations are actually determined by the dose factors in Table 2.1-1 of the GGNS ODCM.

2. Liquid The MPC of radioactive materials in liquid effluents is limited by 10CFR20, .sppendix B, Table II, Column 2. The MPC chosen is the most conservative value of either the soluble or insoluble MPC for each radioisotope.

C. Average Energy Not Applicable for GGNS RETS.

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D. Measurements and Approximations of Total Activity The following discussion details the methods used to measure and approximate total activity for the following:

1. Fission and Activation Gases

2. Radioiodines

3. Particulates

4. Liquid Effluents Tables 5 and 6 give sampling frequencies and minimum detectable sensitivity requirements for the analysis of liquid and gaseous effluent streams.

Values in the attached tables given as zero do not necessarily infer that the radionuclides were not present. A zero indicates that the radionuclide was not present at levels greater than the sensitivity requirements shown in Tables 5 and 6. For some radionuclides lower detection limits than required may be readily achievable: when a radionuclide is measured below its stated limits it is reported.

1. For Fission and Activation Gases The following noble gases are considered in evaluating gaseous airborne discharges:

Ar-41 Xe-131m Kr-85m Xe-133 Kr-85 Xe-133m Kr-87 Xe-135m Kr-88 Xe-135 Kr-89 Xe-138.

Periodic grab samples from Station effluent streams are analyzed by a computerized pulse height analyzer system utilizing high resolution germanium detectors. (See Table 6 for sampling and analytical requirements.)

Isotopic values thus obtained are used for dose release rate calculations as given in Section II.A.1. of this report. Only those radionuclides that are detected are used in this computation. During the period between grab samples, the amount of radioactivity released is based on the effluent monitor readings. Monitors are assigned a calibration factor based upon the last isotopic analysis using the following relationship:

C =

f U1 +m where C

1 isotopic calibration factor for isotope i J20RPT850809 - 5

U = concentration of isotopic i in the grab t

sample, in Ci/ml.

m = net monitor reading associated with the effluent stream. (Determined at the time of grab sampling).

These calibration factors, along with the hourly effluent monitor values and flow rates, are entered into the laboratory computer where the release rates for individual radionuclides are calculated and stored. If no activity is detected in the grab sample, the calibration factor for Kr-85 and the dose factor for Kr-89 are entered into the laboratory computer.

2. For Particulates and Radioiodines The radioiodines and radioactive materials in particulate form to be considered are:

Zn-65 I-133 Cr-51 Cs-134 Mn-54 Cs-136 Fe-59 Cs-137 Co-58 Ba-140 Co-60 Ce-141 Sr-89 Other Nuclides Sr-90 with half-lives Zr-95 greater than Sb-124 8 days.

I-131

3. For Continuous Releases Continuous sampling is performed on the continuous release points (i.e, Radwaste Vent, Containment Purge, FRA Vent, Turbine Building Vent). Particulate material is collected by filtration. Radioiodines are collected by adsorption onto a charcoal filter. Periodically these filters are removed and analyzed on the pulse height analyzer to identify and quantify radioactive materials collected on the filters. Particulate filters are then analyzed for gross alpha and Strontium-89 and

-90, as required. Gross alpha determinations are made using a 2-pi gas flow proportional counter.

Strontium-89 and -90 values are obtained by chemical separation and subsequent analysis using 2-pi Las flow proportional counters. During major operational occurrences, the frequency of sampling "isofincreased to satisfy the requirements of footnote C Table 6,

" Radioactive Gaseous Waste, Sampling and Analysis,"

(GGNS RETS, Table 4.11.2.1.2-1).

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4. For Batch Releases: Cases The processing of batch type releases (from containment Purge) is analogous to that for continuous releases.

5. For Batch Releases: Liquid Effluents The radionuclides listed below are considered when evaluating liquid effluents:

H-3 Mo-99 Co-58 Tc-99m Co-60 I-131 Fe-55 I-132 Fe-59 I-133 Zn-65 I-135 Mn-54 Cs-134 Cr-51 Cs-140 Sr-89 Ba-140 Sr-90 La-140 Nb-95 Ce-141 Zr-95 Ce-144 Representative pre-release grab samples are obtained and analyzed as required by Table 5. Isotoaic analyses are performed using the computerized pulse 1eight analysis system previously described. Aliquots of each pre-released sample, proportional to the waste volume released, are composited in accordance with the recuirements of Table 5. Strontium determinations are mac e by performing a chemical separation and counting the separated strontium using a 2-pi gas flow proportional counter. Gross alpha determinations are made using 2-pi gas flow proportional counters. Tritium and Iron-55 concentrations are determined by using liquid scintillation techniques. Dissolved gases are determined em31oying grab sampling techniques and then counting on t'le pulse height analyzer system.

E. Batch Releases

1. Liquid 3rd Quarter, 1985

a. Number of batch releases: 50

b. Total time period for batch releases: 14590 minutes

c. Maximum time period for a batch release: 415 minutes

d. Average time period for batch releases: 292 minutes

e. Minimum time period for a batch releases: 0 minutes J20RPT850809 - 7

4th Quarter, 1985

a. Number of batch releases: 32

b. Total time period for batch releases: 14911 minutes

c. Maximum time period for a batch release: 5190 minutes

d. Average time period for batch releases: 466 minutes

e. Minimum time period for a batch release: 0 minutes

2. Gaseous 3rd and 4th Quarter, 1985

a. Number of batch releases: None

b. Total time period for batch releases: 0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br />

c. Maximum time period for a batch release: 0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br />

d. Average time period for a batch release: 0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> l e. Minimum time period for a batch release: 0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> F. Abnormal Releases

1. Liquid

a. Number of releases: None

b. Total activity released: N/A

2. Gaseous

a. Number of releases: None

b. Total activity released: N/A G. Estimate of Total Error

1. Liquid The maximum errors associated with sampling, laboratory procedure and discharge volume are collectively estimated to bei Fission and Activation Gases Isotopic H-3 Fe-55 Sr 45% 30% 35% 55% 44%

J20RPT850809 - 8 _ _ _ . _

2. Gaseous The maximum errors (not including sample line loss) associated with sample flow, vent flow, sample collection, monitor calibration and laboratory procedure are collectively estimated to be:

Fission and

Activation Gases Iodine Particulate Tritium 39% 43% 45% 31%

3. Counting Error (1) Isotopic counting errors are computed by the

., equation:

=JcB+c'S 1

Error Where: C B

= Background counts

, Cg = Sample counts The isotopic counting errors are estimated to be 68% due to the low sample activity.

(2) The gross counting errors associated with H-3, Sr-89, Sr-90, and Fe-55 are computed by the equation:

Error =

l CB+C'3 Where: C B

= Background counts C = Sample counts 3

The estimated error for gross counting is estimated to be 68% due to the low sample activity.

4. Solid Radioactive Waste. (See Table 3 for error terms)

H. Solid Radioactive Waste Shipments.

(See Table 3 for shipment information)

I. Radiological Impact on Man

1. Water-Related Exposure Pathways The values calculated in this section utilize information provided in Tables 2A, 2B and the ODCM.

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Total Dose (mrem) 3rd Quarter 1985 4th Quarter 1985 Whole-Body 2.26E-02 6.98E-03 Bone 3.20E-02 7.76E-03 Liver 3.78E-02 1.77E-02 Thyroid 1.05E-02 1.69E-03 Kidney 2.44E-02 7.51E-03 Lung 7.63E-03 1.78E-03 GI-LLI 5.79E-02 6.13E-02

2. Gas-Related Exposure Pathways' The values calculated in this section utilize information provided in Tables 1A, 1C and the ODCM.

3rd Quarter 1985 4th Quarter 1985 Total Body 1.01 E-01 mrem 4.21 E-02 mrem Skin 6.11 E-02 mrem 2.59 E-02 mrem Particulate, Radiciodine and Tritium 3rd Quarter 1985 4th Quarter 1985 Organ Dose 3.35 E-02 mrem 5.06 E-02 mrem Lower Limit of Detection (LLD) Methodologies If gaseous activity detected in the monthly isotopic analysis is less than the LLDs, a Kr-85 calibration factor and a Kr-89 dose factor are inserted for the effluent monitors. The monitor net count rate is assumed to be zero whenever the monitor net count rate is less than two times the square root of the monitor background count rate.

J. Meteorological Data (See Tables 4A, 4B, and 4C.)

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III. 1985 RADIATION DOSE

SUMMARY

Indicated below is the annual summary of offsite doses attributable to GGNS during 1985. Inspection of the quarterly and annual values indicate that GGNS releases were within the 10CFR50, Appendix I design objectives.

Since there are no other fuel cycle facilities within 8 km of GGNS, 40CFR190 limits have also been met during this period.

All parameters listed were calculated in accordance with the GGNS ODCM.

MAXIMUM

• OFFSITE DOSES AND DOSE COMMITMENTS TO MEMBERS OF THE PUBLIC SOURCE Dose (mrem) 1st Qtr 2nd Qtr 3rd Qtr 4th Qtr Total Liquid Effluents 1.15E-02 5.57E-03 2.26E-02 6.98E-03 4.66E-02 (1)

Airborne Effluents (Iodine &

Porticulates) 2.76E-03 3.47E-03 3.35E-02 5.06E-02 9.03E-02 (2)

Noble Gases 1.19E-01 4.87E-02 1.01E-01 4.21E-02 3.11E-01 (3)

Dircct Radiation 0.0 3.0 5.3 0.0 8.3 (4)

• " Maximum" means the largest fraction of the corresponding 10CFR50 Appendix I and 40CFR190 dose design objectives.

(1) GI tract dose primarily by the fish pathway. This represents 4.66E-01% of the 10CFR50, Appendix I design objective.

(2) Organ dose primarily by the grass-cow-milk pathway. This represents 6.02E-01% of the 10CFR50, Appendix I design objective.

(3) mrad gamma dose to the whole-body.

(4) Based on thermoluminescent dosimeter (TLD) badges. This repre-sents 33.2% of the 40CFR190.10, Section (a) design objective.

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The 8.3 mrem value is the sum of the quarterly average values for thermoluminescent dosimeters (TLDs) placed on the protected area fences.

More specifically, since the first and fourth quarter TLDs and cost of the second and third quarter TLDs ranged around the control values, the 8.3 mrem value was caused primarily by five individual TLDs which were located on the fence facing the Radwaste Building, during the second and third quarters. These TLD readings ranged from cpproximately 30 to 70 mrem.

A study of this anomaly has developed the following rationale establishing that the 8.3 mrem value is a very conservative estimate of dose to the public:

The protected area fence does not define a boundary between unrestricted and restricted areas. By definition, this is the purpose served by the site boundary. The protected area fence represents a limited access area to members of the public. There is no credible scenario where an individual or group of individuals could be placed in the vicinity of the protected area fence for more than one or two hours without being detected or without being under company supervision. The protected area is within the owner controlled area which is continuously manned by trained security personnel.

Continued operation of GGNS will result in higher activity in the waste being processed. This in turn will continue to cause individual TLDs to read significantly higher than the average.

Consideration is currently being given to relocating the TLDs or developing a site boundary distance correction factor to provide a more realistic figure for the maximum possible dose to exposed members of 1 the public.

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IV. OFFSITE DOSE CALCULATION MANUAL / PROCESS CONTROL PROGRAM REVISIONS A. Offsite Dose Calculation Manual (ODCM) Revision 6 Revision 6 to the ODCM was reviewed and approved by the Plant Safety Review Committee on September 27, 1985. The changes within this revision can be characterized as administrative revisions.

The changes do not reduce the accuracy nor the reliability of the dose calculations or setpoint determinations.

The primary intent of these changes was to address sugges-tions made by Franklin Laboratories, a Nuclear Regulatory Commis-sion (NRC) contractor. These suggestions were made in a con-ference call conducted January 15, 1985 involving Franklin Labora-tories, the NRC and Mississippi Power & Light Company.

A markup copy of Revision 5 is included as Attachment I.

Revision 6 is included as Attachment II and a detailed outline of Revision 6 is provided below:

SUBJECT:

Grand Gulf Nuclear Station Offsite Dose Calculation i

Manual (ODCM), Revision 6, September 27, 1985.

• Page v

• Affected Lines: 28 and 29 Revision: Added Tables 3.0-4 and 3.0-5.

Justification: Table of Contents had not been changed to indicate addition of these 2 tables in ODCM, Revision 5.

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• Line numbers reflect revision location in the ODCM, Revision 6.

J37RPT86020601 - 13

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• Page 1.0-5 Affected Line: 14 i ,

Revision: The words " waste tank" were inserted before the word " effluent".

Justification: This change was made for clarification in order to avoid confusing f, with fd or F '

d

• Page 1.0-8 Affected Lines: 21 through 25 Revision: Added a paragraph describing the method used to project the liquid dose at least once J every 31 days as required by GGNS Technical Specification 4.11.1.3.1.

Justification: Addition was made in response to a recommendation by the NRC in a con-ference call conducted January 15, 1985.

It was necessary to document the metho-dology used in projecting liquid dose.

• Page 2.0-4 Affected Lines: 11 and 12, 28 and 29 Revision: Removed I signs on lines 11 and 12. Added an equation for determining C' on lines 28 and 29.

Justification: Change on lines 11 and 12 was admini-

strative in nature and had no impact on setpoint calculation. The values of 500 arem/yr to the total body and 3000 mrem /yr to the skin are the values re-quired to be used by GGNS Technical Specifications.

The equation for C' on lines 28 and 29 was added to document the methodology for obtaining C' .

J37RPT86020601 - 14

• Page 2.0-5 Affected Lines: 1 through 8 Revision: Added an explanation for the variables and constants in the equation for C'.

Justification: Addition of this material was necessary in order to understand the derivation of the equation for C'.

• Page 2.0-8 Affected Lines: 16 through 18 Revision: Inserted a definition for Q'g.

Justification: was ThedefinitionforQ'kofODCM,Revi-inadvertently left ou sion 5.

• Page 2.0-24 Affected Line: 2 Revision: Deleted the word "all" preceding gaseous and replaced the word "is" preceding calculated with the words "may be".

Justification: This change eliminated the indication that this meteorological model was the only one which could be used. The "all" was omitted because it was not needed in the sentence.

J37RPT86020601 - 15

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• Page 2.0-35 Affected Lines: Diagram and lines 8 through 13 Revision: Diagram on page 2.0-35 was modified to show release points and monitors used at GGNS.

Lines 8 through 13 were revised to indicate under what circumstances the Offgas Charcoal Beds are bypassed.

Justification: These changes were made in response to recommendations made by the NRC in a conference call conducted January 15, 1985. The diagram on page 2.0-35 did not show all of the release points and monitors and was revised accordingly.

Lines 8 through 13 were revised to clarify the operation of the condenser air ejector system and bypassing the charcoal beds of the Gaseous Radwaste Treatment System.

• Page 3.0-1 Affected Line: 4 Revision: On line 4, Figure 3.0-4 was changed to Figure 3.0-1.

Justification: Reference to figure 3.0-4 on line 4 was incorrect. There is no Figure 3.0-4.

• Page 3.0-2 Affected Line: 18 Revision: Mileage was changed from 0.8 to 0.5 miles.

Justificati 1: Mileage was recalculated.

J37RPT86020601 - 16

• Page 3.0-3a Affected Lines: 6, 10, 13, 15, 18, 32 and 35 Revision: On lines 6, 10, 13, and 15 Figure 3.0-4 was changed to Figure 3.0-1.

On line 18, the distance was changed from 0.75 to 0.70 miles.

On lines 32 and 35, reference to Figure 3.0-4 was deleted.

Justification: Reference to Figure 3.0-4 on lines 6, 10, 13 and 15 was incorrect. There is no Figure 3.0-4.

Distance to the Sector R garden at the meteorological tower provided on line 18 was recalculated.

Predetermined sampling points for fish samples are not appropriate due to availability of fish. Therefore, ref-erence to a figure on lines 32 and 35 was deleted. Samples are collected in the general area as indicated by the description.

• Page 3.0-3b Affected Lines: 6, 15 and 16 Revision: On line 6, reference to Figure 3.0-4 was changed to Figure 3.0-1.

On line 15, the distance in Sector R was changed from 2.2 to 2.0 miles.

Line 16 was revised to identify the sample required by GGNS Technical Specifications.

Justification: Figure 3.0-4 given on line 6 does not exist. Figure 3.0-1 is the correct reference.

The distance to the sampling location in Sector R given on line 15 was recalculated.

Line 16 was revised to identify the sample required by GGNS Technical Specifications.

J37RPT86020601 - 17

• Page 3.0-4 Affected Lines: 15 and 20 Revision: Reference to Figure 3.0-1 was added on lines 15 and 20.

Sector was changed from E to D on line 20.

Justification: Reference to Figure 3.0-1 on lines 15 and 20 had been inadvertently omitted.

Change in sector on line 20 occurred as a result of a routine review and calculation of distance.

• Page 3.0-6c Affected Lines: 22 and 23 Revision: A permanent location for TLD M-85 was identified.

Justification: This location has been used previously and has been incorporated as a permanent location.

Significant Hazards Category Revision 6 to the ODCM involves no changes to the safety-related equipment at GGNS. It does not introduce a significant reduction in the margin of safety and does not involve a significant increase in the probability or consequences of an accident previously evaluated. It does not create the possibility of a new or different kind of accident from any accident previously evaluated nor does it i

reduce the accuracy or reliability of dose calculations or l

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setpoint determinations. Thus there are no significant

' hazards involved.

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J37RPT86020601 - 18 l

B. Process Control Program Revision (PCP)

The PCP has not been revised since Revision 1, which was reported in the August 31, 1984 Semiannual Radioactive Effluent Release Report.  !

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,-,--r

TABLE 1A GASEOUS EFFLUENTS-SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total Grand Gulf Nuclear Power Station UNIT I 3 4 Error %

A. Fission & Activation Gases

1. Total release Ci 4.06E+01 1.89E+01 7.80E+01

2. Average release rate for period uCi/sec 5.17E+00 2.37E+00

3.  % of Technical Specification limit  % 2.00E+00 8.43E-01 B. Iodines

1. Total Iodine-131 Ci 4.67E-05 9.31E-05 8.00E+01

2. Average release rate for period uCi/sec 5.94E-06 1.17E-05

3.  % of Technical Specification limit  % 2.81E-01 5.88E-01 C. Particulates

1. Particulates with half-lives >8 days Ci 1.36E-04 2.59E-04 8.10E+01

2. Average release rate for period uCi/see 1.73E-05 3.26E-05

3.  % of Technical Specification limit  % 1.59E-01 8.12E-02

4. Gross alpha radioactivity Ci 4.61E-07 1.06E-07 D. Tritium

1. Total release Ci 1.02E+00 6.54E-01 7.50+01

2. Average release rate for period uCi/sec 1.30E-01 8.23E-02

3.  % of Technical Specification limit  % 8.82E-03 5.66E-03 E. Tritium, radioiodines and particulates

1.  % of Technical Specification limit Ci 4.49E-01 6.75E-01 J20RPT850809 - 1A-1

. ~ . _ - - . . ._ _... ._ _ __ _ __ _ _ . . - - _ . _ _

TABLE IB GASEOUS EFFLUENTS - ELEVATED RELEASES (Not Applicable - GGNS Releases are considered ground level) 1 l

J20RPT850809 - 1B-1

TABLE IC GASEOUS EFTLUENTS-GROUND-LEVEL RELEASE CONTINUOUS MODE BATCH NODE

Nuclides Released Ureit : Quar ter- Quar t e r- l Quar ter- l Quar t er- l

:  : 3 1 4 3  ! 4  :

1. Fissiori sases Xe-133  : Ci  : 5.62E-03: 9.82E-03: 0.OOE+00l 0.OOE+00

Xe-131M  : Ci 0.OOE+00: 0.OOE+00: 0.OOE+00: 0.OOE+00 Kr-SS  : Ci 0.OOE+00: O.OOE+00: O.OOE+00: O.OOE+001

Xe-133M  : Ci O.OOE+00: O.OOE+00! O.OOE+00: O.OOE+00:

1 Xe-135  : Ci  : 3.51E-01: 1.74E+00: 0.OOE+00: 0.OOE+00:

Kr-85M  : Ci O.OOE+00: O.OOE+00l 0.OOE+00 O.OOE+00l l Kr-87  : Ci O. OOE+C O ! O.OOE+00: O.OOE+00: O.OOE+00:

Xe-138  : Ci 0.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00:

! Xe-137  : Ci l O.OOE+00: 0.OOE+00: 0.OOE+00: 0.OOE+00:

I Kr-85  : Ci l 0.OOE+00: O.OOE+00: O.OOE+00: O.OGE+00:

Xe-135M  : Ci  : 4.19E-02: 1.OOE-01: O.OOE+00: O.OOE+00l l Kr-80  : Ci  ! 4.02E+01l 1.64E+01: O.OOE+00: O.OOE+00:

Ar-41  : Ci 0.OOE+00: 6.70E-01: 0.OOE+00! O.OOE+00:

! Kr-90  : Ci  ! O.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00:

Total for period  : Ci 4.06E+01: 1.89E+01: 0.OOE+00: 0.OOE+00

2. I o d i rie s

! I-131  : Ci  : 4.29E-05: 9.19E-05: 0.OOE+00: 0.OOE+00

I-133  : Ci  : 1.70E-04: 1.57E-04: 0.OOE+00: O.OOE+001

I-132  : Ci O.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00 I-134  : Ci i O.COE+00: O.OOE+00: O.OOE+00: O.OOE+00

1-135  : Ci 1.OSE-04: O.OOE+00: O.OOE+00: O.OOE+001

:  :  : I  !  :

Total f o r- Period l Ci  : 3.20E-04: 2.49E-04 0.OOE+00: 0.OOE+00:

J20RPT850809 - IC-1

TABLE IC GASEOUS EFFLUENTS-GROUND-LEVEL RELEASE

3. Par-ticulates Sr'-89  : Ci  ! 1.27E-06: 6.39E-07: O.OOE+00: O.OOE+001

Sr-90  : Ci 3.65E-07l 1.35E-07: O.OOE+00: O.OOE+00:

! CE-141  : Ci O.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00:

CR-51  : Ci  ! 1.45E-05: 8.19E-05: O.OOE+00: O.OOE+00:

BA-140  : Ci l O.OOE+00: 0.OOE+00: 0.OOE+00: 0.OOE+00:

CS-134  : Ci 0.OOE+00: 0.OOE+00: 0.OOE+00: 0.OOE+00 CS-137  : Ci 0.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00:

! CE-144  : Ci C.OOE+00: O.OOE+00: O.OOE+00: O.OOE+001

ZR-95  : Ci 0.OOE+00: O.OOE+00 O.OOE+00: O.OOE+00:

! NB-95  ! Ci 1.21E-07: 0.OOE+00: O.OOE+00: 0.OOE+00!

CO-58  : Ci 4.84E-07: 3.27E-05: 0.OOE+00: 0.OOE+00 MN-54  : Ci l 1.15E-06: 4.51E-05: 0.OOE+00: 0.OOE+00:

FE-59  : Ci  : 1.81E-07l 1.20E-05: O.OOE+00f O.OOE+00:

CO-60  : Ci 3.26E-07! 2.88E-05: O.OOE+00: O.OOE+00:

LA-140  : Ci l 1.16E-06: 7.51E-07: O.OOE+00: O.OOE+00:

C-14  : Ci 0.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00:

P-32  : Ci i O.OOE+00: O.OOE+00! O.OOE+00: O.OOE+00:

FE-55  : Ci O.OOE+00: O.OOE+00: O.OOE+00! O.OOE+00:

NI-63  : Ci l O.OOE+00: 0.OOE+00: 0.OOE+00: 0.OOE+00:

2N-65  : Ci O.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00 Y-91  : Ci  : 0.OOE+00: 0.OOE+00: 0.OOE+00: 0.OOE+00:

RU-103  : Ci i O.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00:

RU-106  : Ci i 1.13E-04: 5.59E-05: 0.OOE+00: 0.OOE+00:

AG-110M Ci 0.OOE+00! O.OOE+00: 0.OOE+00: 0.OOE+00:

! CS-136  : Ci 0.OOE+00: 0.OOE+00: 0.OOE+00: 0.OOE+00:

PR-143  : Ci O.OOE+00! O.OOE+00: O.OOE+00: O.OOE+00:

1-131  : Ci 3.75E-06: 1.18E-06: 0.OOE+00: 0.OOE+00:

Total for period l Ci 1.36E-04: 2.59E-04 0.OOE+00: 0.OOE+00 l

l l

J20RPT850809 - IC-2

TABLE 2A LIQUID EFFLUENTS-SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total 3 4 Error %

A. Fission & Activation Products

1. Total release (not including H3, ci 6.98E-02 2.88E-02 8.15E+01 gases, alpha)

2. Average diluted concentration during uCi/ml 2.23E-07 5.05E-08 period

3. Percent of applicable limit  % 8.88E-01 1.61E-01 B. Tritium

1. Total release Ci 1.36E+00 1.20E+00 7.65E+01

2. Average diluted concentration during period uCi/ml 4.34E-06 2.10E-06

3. Percent of applicable limit  % 1.45E-01 7.00E-02 C. Dissolved and entrained gases

1. Total release Ci 2.79E-04 2.41E-04 7.43E+01

2. Average diluted concentration during period uCi/ml 8.92E-10 4.21E-10

3. Percent of applicable limit  % 7.28E-01 2.94E-01 D. Gross alpha radioactivity

1. Total release Ci 0.00E+00 0.00E+00 6.80E+01 E. Volume of waste (prior to dilution) liters 5.29E+06 3.10E+07 5.00E+00 F. Volume of dilution water used liters 3.07E+08 5.40E+08 5.00E+00 CParcentages based on 10CFR20, Appendix B, Table II, Column 2 J20RPT850809 - 2A-1

TABLE 2B LIQUID EFFLUENTS-CONTINUOUS AND BATCH NODES CONTINUOUS MODE BATCH MODE

Nuclides Released i Unit : Quar ter- l Quarter- l Quar t e r- l Quar te r- l

:  ! 3 4 3 4  :

I strontium-89  ! Ci O.OOE+00: O.OOE+00: 4.25E-04 1.69E-04:

strontium-90  : Ci  : 0.OOE+00: 0.OOE+00: 5.74E-05: 3.OOE-05:

cesium-134  : Ci  : 0.OOE+00! O.OOE+00: 0.OOE+00: 0.OOE+00:

cesium-137  : Ci  ! O.OOE+00: 0.OOE+00: 0.OOE+00: 0.OOE+00:

iodine-131  ! Ci i O.OOE+00: 0.OOE+00: 4.24E-05: 0.OOE+00:

cobalt-58  : Ci  : 0.OOE+00: 0.OOE+00: 1.26E-03: 1.71E-03:

cobalt-60  : Ci 0.OOE+00: 0.OOE+00: 5.54E-04: 1.08E-03:

iron-59  : Ci 0.OOE+00: 0.OOE+00: 0.OOE+00: 8.11E-04:

zinc-65  : Ci 0.OOE+00! O.OOE+00: 7.81E-04: 1.85E-04:

manganese-54  : Ci  ! O.OOE+00: 0.OOE+00: 5.14E-03: 9.61E-03:

chromium-51  : Ci 0.OOE+00: 0.OOE+00: 3.80E-03: 1.84E-03:

zirconium-niobium-95  ! Ci l O.OOE+00: 0.OOE+00: 0.OOE+00: 1.44E-05:

! mo1Ybdenum-99  : Ci 0.OOE+00: 0.OOE+00: 1.50E-04: 0.OOE+00:

i technetium-99m i Ci O.OOE+00: O.OOE+00 2.52E-04: 5.05E-05:

! barium-1anthanum-140  : Ci 0.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00:

! cerium-141  : Ci  ! O.OOE+00: O.OOE+00: O.OOE+00: O.OOE+00:

NP-239  : Ci 0.OOE+00: O.OOE+00: O.OOE+00: 5.73E-05:

! W-187  ! Ci l O.OOE+00: 0.OOE+00: 3.OSE-05: 3.22E-05:

I Cu-64  : Ci 0.OOE+00: 0.OOE+00! 4.46E-03: 9.36E-04:

I-133  : Ci 0.OOE+00: 0.OOE+00: 5.57E-04: 6.06E-05:

Mn-56  : Ci  : 0.OOE+00: O.OOE+00: 1.06E-04: O.OOE+00:

Na-24  : Ci l O.OOE+00: 0.OOE+00: 4.75E-02: 9.75E-03:

! As-76  : Ci 0.OOE+00: 0.OOE+00: 4.64E-03: 9.22E-04:

Sb-122  : Ci 0.OOE+00 0.OOE+00: 1.81E-04: 2.66E-05:

Br-82  : Ci l O.OOE+00: 0.OOE+00: 7.99E-06: 0.OOE+00:

! Sb-124  : Ci  ! O.OOE+00: 0.OOE+00: 1.17E-05: 3.14E-05:

Ge-77  : Ci  ! O.OOE+00: O.OOE+00: 2.39E-05: O.OOE+00:

I Ru-106  : Ci  : 0.OOE+00: 0.OOE+00: 0.OOE+00: 1.53E-03:

! Total for period (above)  : Ci  ! O.OOE+00: 0.OOE+00! 6.98E-02: 2.88E-02:

xenon-133  : Ci 0.OOE+00: 0.OOE+00: 7.71E-05: 1.09E-04:

xenon-135  : Ci  : 0.OOE+00: 0.OOE+00! 2.02E-04: 1.32E-04:

J20RPT850809 - 2B-1

TABLE 3 Solid Radioactive Waste and Irradiated Fuel Shipments A. Solid Waste Shipped Offsite for Burial or Disposal

1. Type of Waste 6-month Estimate Total Unit Period Error, %

3

a. Spent resins, filter sludges, m 2.26E+02 oil evaporator bottoms, etc. *Ci 2.45E+02 7.6E+01 3

b. Dry compressible waste, m 2.64E+01 contaminated equipment, etc. *Ci 7.00E-02 10.0E+01 3

c. Irradiated components, control m None N/A rods, etc. *Ci

d. Other m None N/A

• Ci

• Total curie quantity determined by measurement.

2. Estimate of major radionuclide composition (by type of waste as identified above),

a. Cr-51  % 39.4 Co-58  % 10.7 Mn-54  % 22.6 Co-60  % 14.0 All Others  % 13.3

b. Cr-51  % 42.7 Co-58  % 14.1 Fe-59  % 15.6 Co-60  % 8.4 All Others  % 19.2

c. N/A N/A

d. N/A N/A Resins were dewatered in steel liners or polyethylene High Integrity Con-tainers according to the requirements of the GGNS PCP and shipped LSA.

DAW was packaged in 55-gallon steel drums or metal boxes and shipped LSA.

J20RPT850809 1

, l TABLE 3 Solid Radioactive Waste and Irradiated Fuel Shipments (cont'd)

3. Solid Waste Disposition

' Number of Shipments Mode of Transportation Destination 27 Truck Barnwell, SC B. Irradiated Fuel Shipments (Disposition)

Number of Shipments Mode of Transportation Destination None N/A N/A J20RPT850809 2

l

'\

TAN I. 4A '

Joint Frequency Distribution 50 Meter level EX'11ENELY INSTAN.E STABILITY CIASS A PERIOD OF RFLORD: 7/1/85 000 Hours 10/1/85 000 Hours WIND SPEED (m/sec) 18 AVG 0-2 3-b 6-8 9-11 17-14 15-17 AND UP TOTAL SPEED

4.8 2.4 0 .0 7 0 0 .0 7.2 2 j IJN E 3.9 2.1 3 .0 ,0 0 .0 6.3 2 11E 6.6 3.6 .0 0 ,0 .0 .o 10.2 3 Et1E H.1 2.1 0 .0 7 0 .0 0 10.2 .2 i DE 4.5 1.8 0 .0 7 0 .0 0 6.3 2 I ESE 5.7 3.6 .0 .0 ,0 .0 .0 9.3 3 i H SE 2.4 2.4 0 .0 ,0 0 0 4.8 .1

, W E SSE 2.1 3 .0 .0 7 0 0 0 2.4 0 l ICS 1.2 1.2 0 .0 ,0 0 0 2.4 .1 l

TJ T SSW .9 .3 0 .0 ,0 0 0 1.2 0 I DISW 2.7 9 0 .0 ,0 .0 0 3.6 .1 u WSW 4.5 1.5 3 .0 ,0 0 .o 6.3 2 11 W 1.8 9 0 .0 ,0 .0 0 2.7 .1

W 'J W 3.3 0 0 .0 7 0 0 .0 3.3 0 11W 6.3 1.8 .3 .0 7 0 .0 .0 8.4 2 flN W 9.6 4.5 3 .0 .0 0 0 14.4 .4 CALM .9 9 2 TOTAL 69.4 29.4 1.2 0 0 0 0 100.0 2 1

i

0. HOURS OF BAD OH MISSING DATA nR .0 PERCEllT FOR 333 HOURS a

! J32RES85080801 - 4A-1

I f

I

\

TABE 4A (cont'd)

• Joint Frequency Distribution 50 Meter level 1

! MXERATELY UNSTABG STABILTIY CIASS B l PERIOD OF PE00RD: 7/1/85 000 Hours 10/1/85 000 Hours

. WIND SPEED (m/sec) t 18 AVG 02 35 68 9 11 17 14 15-17 Ar4D UP TOTAL SPEED tJ 1.5 1.5 0 .0 ,0 0 3 3.0 .1 iJflE 1.5 1.5 0 .0 7 0 0 .0 3.0 .1 11E 3.0 .0 .0 .0 ,0 0 .0 3.0 0 C'J E 1.5 0 .0 .0 ,0 .0 .0 1.5 0

, DE 3.0 1.S .0 .0 7 0 0 0 4.5 .1 l I ESE 8.9 1.S .0 .0 ., 0 .0 0 10.4 3 R SE 3.0 .0 .0 .0 ,0 0 0 3.0 .0

! W C SSL 1.5 .0 0 .0 7 0 0 0 1.5 .0 ICS 1.5 1.5 .0 .0 ,0 0 0 3.0 .1 l

fl T SSa 3.0 .0 0 .0 7 0 .0 .0 3.0 .1 D I SW 4.5 7.5 .0 .0 7 0 0 0 11.9 4 2

0 WSn 16.4 0 0 .0 ,0 0 .0 16.4 .3

IJ W 11.9 0 .0 .0 ,0 0 0 11.9 .2 WilH 14.9 1.S 0 .0 ., 0 0 0 16.4 3 flW 6.0 0 0 .0 70 0 .0 6.0 .1 i

tJNm 1.S .0 .0 .0 .0 0 .o 1.5 0 CALM .0 . .

0 TOTAL R3.6 16.4 0 .o .n 0 0 100.0 1

0. H0tlR.3 UF UAD 03 HISSillG D AT A nR 9 PERCENT FOR 67 HOURS J32RES85080801 - 4A-2

?

(

TABIE. 4A (cont'd)

Joint Frequency Distribution .

50 Meter level SLIQmX IMSTABLE STABITIIY CTASS C PERIOD OF RECORD: 7/1/85 000 Hours 10/1/85 000 Hours l WIND SPEED (m/sec) i 18 AVG 0-2 3-S 6-8 9-11 17-14 15 17 AND UP TOTAL SPEED r

fl 1.1 2.1 1.1 .0 ,0 .0 .0 4.3 .2 1113 E 0 .o .0 .9 ,0 0 0 0 0 flE 1.1 0 0 .0 ,0 0 0 1.1 0 EtlE 2.1 2.1 .0 .0 ., 0 .0 .0 4.3 .1 DE 2.1 3.2 .0 .0 ,0 0 .0 5.4 .1

, I ESE 3.? 2.1 .0 .0 ,0 0 0 5.4 .1 H SE 6.4 2.1 .0 .0 ,0 0 .0 9.6 2 W E SSE 2.1 2.1 1.1 .0 ,0 0 .0 5.4 .2 l ICS 1.1 1.1 0 .0 ,0 0 0 2.1 .1 N T SSh 7.1 3.2 .0 .0 ,0 .0 0 5.4 .1 D I SW 16.1 6.4 1.1 .0 ,0 0 .0 23.6 7 l 0 0 0 0 12.9 3 0 '.lS h 12.9 0 .0 7 9.6 il '1

. 7.S 1.1 0 .0 ,0 0 .0 .2 WNb b.4 1.1 0 .0 0 0 0 6.4 1 4.3 0 0 .0 ., 0 0 .0 4.3 0 IlW ,

14 rJ W 2.1 0 .0 .0 .0 0 0 2.1 9 CAI H .U .

0 TOT A L, 69.9 2o.9 3.2 0 .n 0 0 100.0 2 l

l

0. HOURS OF llAD Ug !!1SSI'JG DATA OR 9 PERCElJI' FOR 93 HOURS l

J32RES85080801 - 4A-3

\

TABIF. 4A (cont'd) *

" Joint Frequency Distribution 50 Meter level NEUIRAL STABILITY CIASS D PERIOD OF PJ00RD: 7/1/85 000 Hours 10/1/85 000 Hours l

WIND SPEED (m/sec) i 18 AVG 0-2 3-5 6-8 9-11 17-14 15-17 At3D UP TOTAL SPEED Il 1.3 1.7 .0 .0 7 0 0 0 3.0 .1 l

i sjflE 1.3 7 1.0 .0 ,0 0 .0 3.0 .1 flE 1.3 7 3 .3 ,0 0 .0 2.6 .1 Elit 1.3 1.0 0 .0 ,0 0 0 2.3 .1 0C .o 3.3 .7 .0 ,0 0 .0 4.0 2 I ESE 2.6 1.0 0 .0 ,0 .0 .0 3.6 .1 R SE 3.6 1.7 .0 .0 ,0 .0 .0 5.3 .1 j W E SSE 2.0 1.3 0 .0 ,0 0 .0 3.3 .1 ICS 3.0 2.6 0 .0 ,0 .0 .0 5.6 2 Il T SSa 6.9 2.0 0 .0 ,0 0 0 8.0 .2 D I sti 17.9 3.3 3 .0 7 0 0 .0 16.6 4 0 tlSh 14.6 1.7 1.0 .0 0 0 0 17.3 4 fl W 12.9 1.3 .0 .0 ,0 7 .0 0 14.3 3 Wis e 4.3 0 .0 .0 7 0 0 0 4.3 .1 i

11'.4 3.9 3 .0 .0 70 0 .0 3.3 .1 ilt# W 2.0 0 .0 .0 .0 0 .0 2.0 0 CALM 1.3 .

1.3 I TOTAL 73.7 22.b 3.3 3 .n .0 0 100.0 2

0. lindRS UF DnD OH llISS]!4G D ATA nn .9 PERCErJT FOR 301 H0f1RS J32RES85080801 - 4A-4

l

\

, TABE 4A (cont'd) '

Joint Frequency Distribution 50 Meter level SLIG M.Y STABLE STABILITY C1 ASS E PERIOD OF RECORD: 7/1/85 000 Hours 10/1/85 000 Hours i WIND SPEED (m/sec) 18 AVG 0-2 3-b b-8 9-11 17-14 15-17 AND UP TOTAL SPEED

.1 1.8 2.9 0 .0 ., 0 0 .0 4.7 .2 riilE 2.1 1.8 4 0 7 0 0 0 4.3 .1 IIE 2.5 3.3 4 .0 7 0 0 .0 6.3 .2 ENK 2.S 4.1 .0 .2 7 0 0 .0 6.8 .2 DC 1.6 5.3 4 .0 7 0 0 .0 7.2 .3 I ESF- 4.3 9.4 .0 .0 ,0 0 0 13.7 .4 R SE 3.1 3.9 .0 .0 7 0 0 .0 7.0 .2

W E SSE 3.1 3.3 .0 .0 7 0 0 0 6.4 .2 ICS 8.4 3.9 0 0 ,0 .0 0 12.3 3 i N T 558 7.6 4.9 0 .0 7 0 .0 0 12.5 3

D I SW 5.5 2.9 .2 .0 ,0 0 .0 8.6 .2

]'

O tiSW 2.7 4 .0 .0 70 .0 0 3.1 .1 11 W 1.2 .2 .0 .0 ,0 0 0 1.4 9 ell 4 8 1.2 .0 .0 .0 7 0 .0 0 1.2 0

i1W 1.4 .0 0 .0 ,0 0 0 1.4 .0 i Nilk 6 .4 .0 .0 .0 0 0 1.0 .0

! CAbit 1.9 . . 1.9 i TOTAL 51.7 4u.0 1.4 2 .o 9 0 100.0 2

0. HOURG dr B10 GH MISSING DATA nR 0 PERCENT FOR 511 HOURS i

i J32RES85080801 - 4A-5 4

N f

\.

TAN I 4A (cont'd)

Joint Frequency Distribution 50 Meter level

}0DERA1ELY STABLF, STABILITY CLASS F PERIOD OF RE00PD: 7/1/85 000 Hours 10/1/85 000 Hours WIND SPEED (m/sec) 19 AVG 02 3-5 68 9 11 17 14 15 17 AflD flP TOTAL SPEED 11 1.9 2.1 2 .0 7 0 .0 0 4.2 .1 IJIIE 2.5 1. ') .0 .0 7 0 .0 .0 4.4 1

'J E 2.0 2.8 .2 .0 ,0 0 0 5.7 2 EllE .9 2.S .4 .0 7 0 0 .0 3.8 .1 DC 4.4 8.7 2 .2 7 0 0 .o 13.5 5 I ESE 6.9 6.1 .2 .2 7 0 0 .0 12.9 4 R SE 4.0 6.1 .2 .0 ,0 0 .0 10.2 3 W E SSE 8.0 4.0 .0 .0 7 0 .0 0 11.9 3 ICS 5.1 1.1 0 .0 ,0 0 0 6.3 .1 fl T SSW 6.3 1.7 .0 .0 0 0 0 9.0 2 7

U I S4 3.6 1.7 .2 0 ,0 0 0 S.5 .1 0 USw 2.1 2 0 .0 0 0 0 2.3 0 14 W 2.5 0 0 .0 7) 7 0 0 2.5 0 p'3 W 2.1 0 .0 .0 7 0 0 .0 2.1 0 IJ W 1.9 4 0 .0 0 0 0 2.3 .0 titla 1.9 1.3 .0 .0 ,0

. 0 0 3.2 .1 CAbH 1.3 , 1.3 TUTAL 57.5 40.6 1.5 4 .n 0 0 100.0 2

0. HOURS UF uA0 OH HISSillG DATA nR 0 PERCEIJT FOR S27 HOURS J32RES85080801 - 4A-6

\

TAB E 4A (cont'd)

• Joint Frequency Distribution 50 Meter level FXIMNELY STABE SIABILT1Y CIASS G PERIOD OF RECORD: 7/1/85 000 Hours 10/1/85 000 Hours i

WIND SPEED (m/sec) i 18 AVG 0-2 3-a 6-8 9-11 14 15 17 AllD UP TOTAL SPEED

.1 4.1 9 .0 .0 170 0 0 5.0 .1

ltlE 3.8 2.5 .0 .0 ,0 0 0 6.3 2 flE 3.8 2.2 .3 0 ,0 0 .0 6.3 2 EllE 7.2 3.8 .3 .0 7 0 0 0 6.3 2

,0 0 0 14.5 5 DE 4.1 9.8 .b .0 5

I ESE 5.7 7.6 .9 .0 ,0 0 0 14.2 R SE 6.0 1.6 1.3 6 7 0 0 0 9.5 3 W E SSP. 4.4 3 .3 6 7 0 0 0 5.7 2 ICS 6.6 1.3 .3 .6 ,0 0 .0 8.8 2 ti T SSv8 4.1 0 0 .6 7 0 0 0 4.7 .1 D I SW 3.1 0 9 .0 7 0 0 .0 4.1 .1

! Il llSW 2.2 0 0 .0 ,0 0 0 2.2 0 N 11 1.9 0 .0 .0 0 0 0 1.9 0 WrJ w .3 0 .0 .0 ,0 0 0 3 .0 j

ilW 1.3 0 0 .0 ,0 0 .0 1.3 0 i

11N a 2.2 3.S .0 .0 ,0

. 0 .0 5.7 2 CALH 3.1 .

3.1 j

___..._____________________. _____..____. ______. ...... . ... -_. ...2

, TOTAt. 59.0 33.4 S.0 2.5 .n .0 0 100.0

0. 110.lRS OF bad OH 61ISSING D AT A nH 0 PERCEr4T FOR 317 HOURS J32RES85080801 - 4A-7 i

\

(

TABIE 4A (cont'd)

Joint Frequerry Distribution 10 F2ter Irvel i,

l EKIRINEIX UN5TABIE STABILTlY CIASS A PERIOD OF RECORD: 7/1/85 000 Hours 10/1/85 000 Hours i

WIND SPEED (m/sec) 18 AVG 02' 3-5 6-8 9 11 17 14 15 17 AIJD UP TOTAL SPEED 11 12.6 0 0 0 ,0 0 0 12.6 2 ri'I E 9.3 .0 .0 .0 ,0 0 .0 9.3 2 IJE 8.1 0 0 .0 ,0 0 0 9.1 .1

. EtlE H.1 .3 0 0 7 0 0 0 8.4 .1 j DE 2.4 0 0 .0 7 0 0 0 2.4 0 I CSE 3.9 0 0 .0 ., 0 0 0 3.9 .1

H SC 3.6 0 .0 .0 ,0 0 0 3.6 9 W E SSE .3 3 0 0 ,0 0 0 6 0 l .1 ICS 3.6 3 0 .0 0 0 0 3.9 N T SSW 2.7 3 .0 0 ,0 0 .0 3.0 0 l

D I SW 6.3 0 0 .0 ,0 7

0 .0 6.3 .1 0 WS= 3.9 0 .0 .0 ,0 0 0 3.9 0 l NW S.4 .0 0 .0 ,0 0 0 S.4 .1

' Wl3 W 3.3 0 .0 .0 7 0 0 .0 3.3 0

!1W 6.3 0 0 0 ,0 0 .0 6.3 .1

. N 4d 17.4 6 .0 .0 0 0 0 18.0 3 C Abi4

'8 .

9 j .............................. .......................................

TOTAL 98.2 1.8 0 0 .n 0 0 100.0 1 0 FOURS OF GAD OH MISSING DATA nR .0 PERCErlT FOR 333 HOURS J32RES85080801 - 4A-8

~.

C 13 ta3 M

> tal z 4 A.w we o O O O -4O Oeem N N m e4O D 40 e e e e o e e e e e e o e e e e ge o O e Z 8

J B &

4 8 m M 8 m O O O O m O O m m o m Ch 9 w m m m O 8 E.e e e o e e o e e e e e e e e o e e eo mTmT M Tw4m W W m M O W 4 8 o M e4 *4 N 8O E Z G. tC O e D 8 ** ta.

O M 1 o ,400OOOOOOODOOO0000 8 H 2 e e e e e e e e a e e e e e e e tO 2 g 4 8 e U g 8 U

% 9  %

M & I la3 N

• I 3.

O gooocoooooocooooo g 8 M m e e e o e e e o e o e e e e e e C O t . - . e e o n2 mM w

=

g ,

1 5

uy-cg g 9OOCOO000OOOOOOOO 9 2

Cw U C3 w 5 (% % % % % % % % % 4 % % A w

'% 4 % *

• 8C 8 e C y g

• C 3 4 o N

(

- u oO - I. - h e

c, - e o E 8OOOOOC00OCOOOO00

, . . . . . . . . . . . . . . . . 0 ., .g "g h h I N N N I t/3 O O c1 8 t/3 D N cc M J N I OOCOOCOOOOODO000 8

i T 4 N m e e e . . . . . . . . . . . . . oc

.. e e z 8 O I

I 3 y M 8 <

E mBA e e A e30e OOO e e e Oo.ce eOe OCO e . e eOO e I

1 O

3

).e g

l

• • e4 8 e t a.

l I 9 3 8 i o M N I =

f in O D A O O W W C A 7

• T m t.". A O I 3 o e e e . . . e e o e o e e e e e e ec o

,emme mv-emeemmcea e e z l -e m 4 N e&

B@ e B C 8

%8 J La3 a; w W B lt 5 5 39 4 2 ta3 = U2 *al t/: t/3 3 V3 "*324 8 54

=: 2 ta! ta3 la3 W (C *"J "J3 LO 3 3 3 2 2 U 8 3 IH Q M % ta3 U to M C 2 8 5

it M 2 3 3

/:

\-

l TAB E 4A (cont'd)

• Joint Frequency Distribution 10 Meter Imvel

! SLIQmX UNSTABE STABILTIY CIASS C j PERIOD OF RECORD: 7/1/85 000 Hours 10/1/85 000 Hours WIND SPEED (m/sec) i 18 AVG O.2 3-5 6-8 9-11 17 14 15 17 ARID UP TOTAL SPEED Il 3.2 1.1 .0 .0 ,0 0 .0 4.3 .1 j !J N E 2.1 0 0 .0 7 0 0 .0 2.1 0 l IJE 2.1 0 .0 .0 ,0 .0 .0 2.1 0 Er4E 3.2 0 0 .0 7 0 0 .0 3.2 0 DE 1.1 0 .0 .0 ,o 0 0 1.1 0 I ESE 3.2 0 0 .0 ,0 0 .0 3.2 .0 H SE 6.4 0 0 .0 7 0 0 0 6.4 .1

, W E SSE 4.3 1.1 .0 .0 7 0 0 0 5.4 .1 l ICS 3.2 0 .0 .0 ,0 0 .0 3.2 0 il T SSW 7.5 0 0 0 ,0 0 .0 7.5 .1 i D I SW 20.4 1.1 0 .0 ,0 .0 0 21.5 .4 U WSW 16.1 0 .0 .0 ,0 0 0 16.1 .2 a il W H.6 0 0 .0 7 0 0 .0 8.6 .1

) WNW 7.5 0 0 .0 ,0 0 .0 7.5 .1

!iW 3.2 0 0 .0 ,0 0 0 3.2 .0 a flNW 3.2 0 0 .0 .0 0 0 3.2 0 CALH 1.1 . 1.1 TOTAL 96.R 3.2 0 0 .n 0 .0 100.0 1

0. HO'#RS OF JAD OH MISSI:4G DATA nH .0 PERCEWT FOR 93 HOURS l

1 J32RES85080801 - 4A-10

}

i TAE1E 4A (cont'd)

Joint Frequency Distribution '

10 Meter level NEITIRAL STABILT1Y CIASS D PERIOD OF RECORD: 7/1/85 000 Hours 10/1/85 000 Fours WIND SPEED (m/sec) 18 AVG 15 17 AND UP TOTAL SPEED 02 J.S b.B 9 11 17 14 5.0 .1 0 0 0 fl 5.0 .o 0 .0 7 0 0 4.3 .1 1.0 0 .0 ,0 0 NIJE 3.3 0 0 .0 0 0 .0 1.7 ilE 1.7 0 7

0 0 0 3.0 0 3.0 0 0 7 0 ENE 0 .0 0 0 0 1.3 DE 1.3 0 7 0 0 0 0 ,0 0 0 1.7 I ESE 1.7 0 .0 0 0 0 1.7 0 1.7 0 7 .1 R SE 3 0 .0 ,0 0 .0 4.3 W E SSE 4.0 7 0 .0 ,0 0 0 7.6 1 IC5 7.0 0 10.3 .1 N T SSW 10.3 0 0 0 ,0 0 0 21.6 4 0 .0 0 0 D I SW 20.9 7 7 0 12.3 2 0 .0 0 0 0 WSW 17.3 0 7 0 11.0 1 0 0 0 0 Il W 11.9 0 7 0 0 5.3 .1 WNd 5.3 3 0 .0 ,0 0 3.0 0 0 .0 ,0 0 Ilw 3.0 0 0 2.0 0

.0 .0 0 0 0

U1a 2.0 4.0 4.0

. ........................ .... ..... 100.0 CAbit 1

TUTAL 97.3 2.b 0 0 .n .0 .0 0 PERCEi1T FOR 301 HOURS

0. H00ltu JF B4.0 0.4 HISSING DATA nR i

J32RES85080801 - 4A-11

\

TABLE 4A (cont'd) '

Joint Frequency Distribution 10 Meter level

]

SLIGHTX STABIF. STABILT1Y CIASS E PERIOD OF PJ00RD: 7/1/85 000 Hours 10/1/85 000 Hours WIND SPEED (m/sec) 18 AVG 0-2 3-S 6-8 9-11 17-14 15 17 Ar4D UP TOTAL SPEED

!! 4.9 0 0 .0 7 0 0 0 4.9 .1-tilit 7.6 4 .0 .0 ,0 0 .0 8.0 .1 ilE 9.0 .2 .0 .0 7 0 0 .0 9.2 .1 ErJF 4.7 4 0 .0 7 0 .0 0 5.1 .1 DE 3.b 0 .0 .0 7 0 0 0 3.5 0 I ESE 3.7 0 0 .0 f 0 0 0 3.7 0 H SE 5.7 0 0 .0 7 0 0 0 5.7 .1

W E SSE 9.4 2 0 .0 ,0 0 .0 9.6 .1 ICS 17.7 0 .0 .0 7 0 .0 .0 12.7 .1 11 T SSh R.8 4 .0 .0 7 0 0 .0 9.2 .1 D I SW 3.7 .2 0 .0 ,0 0 0 3.9 .0 0 WSW 3.5 0 .0 0 70 0 .0 3.5 0 11 U 1.6 0 .0 .0 ,0 0 .0 1.6 0 Wilk 1.0 0 0 .0 0 .0 0 1.0 9 IlW .6 9 .a .0 ,0 0 .0 6 0 tittw 1.4 2 .0 .0 ,0

. 0 .0 1.6 .9 CALH in.2 .

16.2 TOTAL 98.0 1.9 0 0 .n 0 0 100.0 1

0. HOURS OF tlAD OH .41SSIl1G DATA nR 0 PERCENT FOR 511 HOURS i

J32RES85080801 - 4A-12

%s C

UW M

> ta3 E 4&OO.4eeOMMMCOOOOOO D W3 e e o e e e e e e e e e e e e e t ** C O e 2:

O 2 9 6 4 9 N H I nt)

O w m m @ m @ cp h m @ m f e m m m N 5 to N e e e e a e e e e o e e e o e e e3O mTme@W@lomNW w w& B e f"1 5 O E L t O C "3 5 e4 A O co 8 O .gogogoooogoocooooo e p O 2 e e e e e a e e e e e o e e e e 8O 2 4 5

• U nn 8 O

@ S X N & 8 tal

% W 8 A o 0COCOOOO 000000000 8 s m e o e o e o e e e o e e e a e o 8O C e

M N M B e e m t M nb to n

U *

• k 4

.'o en p c-4 W e- 8 MM e=

N to 8OOCOOOOOCOOOOOOO O  % 3 V =8 C C g to t% 4 s 4 4 s4 4 4 '4 s4 4 % 4 se Uu & ~

a C w O cc hp C 5 H o 4UW M dC e- I at go 4 ** E O O

{ 0 OOOOC000O3O00000 lA N & a e e e e e e o e o e e e e e e I

3 O *3 00 C I

• 2 m in t m

@ E D M e M hC I

6 90000000000000000 E 4 e . . . . e e e e e . . e e . e O. =

ps. D ..

8 *  %

,w 9 O 8

8 O O I 4 3 9NeONNOOOOOONOOO I O b m e e o e e e e o e e o e e e e e 8A i e 6 8 M 7 8

8 I O lh N 8 Z O O h m @ e4 h 33 h O @ A 9 3 ? ? 9 N I O O e e e e e e e e o e e o e e e e e ea O Mv@44944ANM -* h 9 e I m 8 En Im o I O 8

=03 ta) ta) (a2 'a3 s 3 s tJ0 4 2UU M Ca3 *./3 t/3 3 W 2 "'t 2 4 8 f-*

2 = =la3".3U O :/3 O O LO 3 3 'E 3 = U O O 9 H Q M c h3 U N M O = t I

3M2Q 3

O OW W

> lal cc dC & C O v4 ,4 4 O O O w c c o o O c .4 m M e e e e e e e e e e e e e e e e fe C O e T.

8 3 8 P-4 5 .4 H 8 m O @ -4 w @ m N m m m m m m O @ @ co @ s U2 H * * * * * * * * * * * * * * * * *OO mN O e m m m e N v4 m 4 we

• 4 *4 98O CE 4L I O C D E ** In.

O op I o -43OOOOOOOOCOOODCDO 9 H o 2 e e e e e e e e e e o e e e e e 3O =

g e ta 4

9 O in S E CC I tal N t' M -4 5 &

N g o 8 O. Oe O e oOeOe O O.Oe C o O e O. C.O. O C eO

. e .O e

- w . e. e 4

U O E

^ m e = l Y m c y a . 5 Ub~  %

m l OOOOOOOOOOOOOOOO As ss% % s% % s% % % % % A e =6C E 1 C 8 g U2 O N 4 H

y u hge e i

B 4 oo o

4 W 4 4 5' o W eC000000000000000 8

Q E

40 s.

d. O e e e e e e e e e e o e e e e e 3 O 8 e

'J 2 E pm o in B m CG I M Cao N 8 W W M en e M

Q hO h 80000000m@C000000 4 * * * * * * * * * * * * * * *

• 8 8@

e i .T.

>1 l Q O" f I C S I t 8o@moOmmOOOOmOMMe I I O CD m e e e e e e e e e e e e e e e o I e ta.

9 4 3 I O 8 N I CE If M 0 4 0 30 4 .n m @ @ m m M O O m M -4 O e o e e e e e o e e e o e e emSe 9e eee N 9 M CL M a we e4 TIN D I 0@

i O

c Z

O e

8

% e .3 W ta) W W 3 3 3 3 .3 8 4 l

' OW7 t/3 W t/3 03M 23248H

?. 7 7. *.a3 lal W :/31/3 m :C M 3 T 3 :* l' U eB94 C oMzWUHHO= e 5

3M3D 8

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

TABE 4A (cont'd) -

Joint Frequency Distribution 50 Meter level STABILITY CLASS A - G PERIOD OF RECORD: 7/1/85 000 Hours 10/1/85 000 Hours WIND SPEED (m/sec) 18 AVG 0-2 J-b 6-8 9-11 11 15 17 AND UP TOTAL SPEED el 2.5 2.1 .1 .0 170 7

0 0 4,7 .1 N'il 2.S 1.7 3 .0 ,0 0 .0 4.5 .1 HE 3.2 2.S 2 .0 7 0 0 .0 5.9 2 EHE 7.7 2.7 .1 0 ,0 0 0 5.6 2 DE 2.9 5.8 .3 .0 7 0 0 0 9.1 3 I ESE 5.1 S.7 .2 0 ,0 .0 0 11.0 3 R SE 3.9 3.3 2 .1 ,0 0 0 7.5 2 W E SSE 4.1 2.1 .1 .1 7 0 0 0 6.4 2 ICS 4.9 2.0 0 .1 ., 0 0 0 7.1 2 N T 55= $.1 2.0 .0 .1 ,0 0 .0 7.2 2 D I SW 5.7 2.2 3 0 ,0 0 0 8.3 2 0 USW 5.3 6 2 0 ,0 0 0 6.1 1 il W 3.9 4 .0 0 ,0 .0 0 4.4 1 WNW 2.6 .1 0 .0 7 0 0 0 2.7 0 MW 2.7 4 0 .0 ,0 0 .0 3.2 1 NHh 2.8 1.6 0 .0 .0 0 0 4.5 .1 CALH 2.8 ,

1.6 TOTAL 61.8 3S.4 7.2 5 .n 0 0 100.0 2 S9. HOURS OF Ball OH HISSI:JG DATA nR 2.7 PERCENT FOR 2208 HOURS r

J32PFS85080801 - 4A-15

t TABLE 4A (cont'd)

Joint Frequency Distribution -

10 Meter level STABILTIY CIASS A - G PERIOD OF RECORD: 7/1/85 000 Hours 10/1/85 000 Hours WIND SPEED (m/sec) 18 AVG 0-2 3-b 6-8 9-11 17-14 15 17 AND UP TOTAL SPEED 11 4.8 2 .0 .0 7 0 0 0 5.0 .1 riut 5.4 .4 0 .0 ,0 .0 0 5.9 .1 JE 8.2 2 0 .0 0 .0 0 8.4 .1 ENE 6.7 .1 0 .0 ,0 7 .0 0 6.9 .1 DC 4 . 4. 0 0 .0 ,0 0 .0 4.2 0 I ESE 3.3 2 .0 .0 0 0 0 3.5 .0 R SE 4.- ,U .0 .0 7

,0 0 .0 4.5 0 W E SSE 4.s .2 0 .0 7 0 0 0 4.8 .1 ICS 6.5 3 .1 .0 ,0 0 .0 6.9 .1 r1 T SSm 5.1 3 0 .0 7 0 .0 .0 5.4 .1 DIsw 6.6 3 0 .0 ,0 .0 .0 6.9 .1 0 JSh 4.4 .0 .0 .0 7 0 0 0 4.4 .1 il d 3.8 0 0 .0 7 0 0 .0 3.8 .0 uf14 7.7 0 0 .0 7 0 .0 0 2.8 0 Nd 7.1 .0 0 .0 7 0 0 0 2.1 0 N fl a 4.3 2 .0 .0 .0 .0 .0 4.5 .1 C A bil 4.3 . 20.0 TOTA 1, 97.2 2.7 1 0 .o .0 0 100.0 1

59. POURS OF Uhu UH HISSli3G DATA nH 2.7 PERCEfJT FOR 2208 HOURS J32RES85080801 - 4A-16

d

\

TABLE 4A (cont'd)

PERCENT BAD DATA REPORT PERIOD OF RECORD: 7/1/85 000 Hours 10/1/85 000 Hours REPORT COVElts 2208 HOURS

.IOURS PERCENT 50M DIRECTION 0. .00 504 WI:4D SPEED 0. .00 104 !)1HECTION 0 .00 10t1 WI:1D SPEEU 0. .00 TEMPERATUHE 50 2.26 DEW POINT 0 00 DELTA T 59. 2.67 PHECIPITATION 2. 09 J32RES85080801 - 4A-17

l TABLE 4B Joint Frequency Distribution 50 Meter Irvel 1

1 FXIM NELY UNSTABLE STABIIIIY CIASS A PERIOD OF RECORD: 10/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 19 AVG 02 3-5 6-8 9 11 17-14 15-17 AND UP TOTAL SPEED 13 .7 3.0 7 .0 ,0 .0 0 4.4 .2 H N h. 3.7 0 0 .0 ,0 .0 0 3.7 .1

iJ E 3.0 7 0 .0 7 0 0 0 3.7 .1 E!1E 1.S 0 0 .0 7 0 .0 0 1.5 0 0E 4.4 1.5 0 .0 ,0 .0 0 5.9 .1 I ESE 2.2 S.2 0 .0 ,0 0 0 7.4 .2 R SE .7 2.2 0 0 7 0 0 0 3.0 .1 W E SSE 3.0 3.0 0 .0 7 0 0 0 5.9 .2 ICS 1.5 0 0 .0 ,0 0 0 1.5 0 IJ T SS a~ .0 1.5 0 .0 7 0 0 .0 1.5 .1 D I SW 3.7 3.0 7 .0 7 0 0 0 7.4 3 0 WSa 4.4 7 7 .0 ,0 0 .0 5.9 .1 Il W 3.0 0 0 .0 0 0 0 3.0 0 Wraw S.9 7 .0 .0

.f

,0 0 0 6.7 .1 fl4 11.1 14.1 0 .0 0 0 0 25.2 8 tJ N d 4.4 8.1 7 .0 ,0

. 0 0 13.3 5

.9 0 CALM .

.n 100.0 2 TOTAL S3.3 43.7 3.0 0 .0 0 i

! 0. HOORS UF BAD 08 HISSillG D AT A nR 0 PERCENT FOR 135 HOURS J32RES85080801 - 4B-1

4 1

TABE 4B (cont'd)

Joint Frequency Distribution 50 Meter level i

i i

) M]DERA7ELY UNSTABE . STABILITY CUSS B PERIOD OF RERED: 10/1/85 000 Hours 1/1/86 000 Hours

]

i

WIND SPEED (m/sec) i 18 AVG l 02 35 68 9 11 17 14 15 17 AND UP TOTAL SPEED

! N .0 5.1 0 0 ., 0 0 0 5.1 .3 i NNE .0 2.6 0 .0 ,0 0 .0 2.6 .1 0 0 0 0 I NE .0 0 0 .0 ,0 0

ENE 2.6 0 0 .0 ., 0 0 0 2.6 0 0 0 2.6 0

! DE 2.6 0 0 ., 0 I I ESE .0 7.7 0 0 ,0 .0 0 7.7 3 R SE .0 5.1 0 .0 ., 0 0 0 5.1 .2 W E SSE 5.1 7.7 0 .0 .f 0 0 0 12.8 5 i ICS 2.6 2.6 0 .0 .,0 0 .0 5.1 2 l N T SSW 7.7 0 0 .0 ., 0 0 0 7.7 .1

! D I SW 2.6 ~ '7.7 26 .0 ,0 0 0 12.8 5 l 0 WSW .0 5.1 0 0 ., 0 0 0 5.1 2 i NW 5.1 0 0 0 ., 0 0 0 5.1 0 WNW 2.6 0 26 .0 ., 0 0 0 5.1 2 i NW .0 2.6 2.6 .0 ., 0 0 0 5.1 3 NNW 2.6 12.8 0 .0 .0 0 .0 15.4 6 0

CALM .0 . .

TOTAL 33.3 59.0 7.7 0 .n .0 0 100.0 2

! 0. HOURS OF BAD OR NISSING DATA nR 0 PERCENT FOR 39 HOURS

! J32RFS85080801 - 4B-2

TABLE 4B (cont'd) l Joint Frequency Distribution i

i 50 Meter Isvel i

i SLIQfrLY UNSTABLE STABII.1TY CIASS C 10/1/85 000 Hours 1/1/86 000 Hours PERIOD OF io n mD:

4 1

WDO SPEED (m/sec) 1 1

J 18 AVG 60 9 11 15 17 AND UP TOTAL SPEED 35 17 14

~

02 6 N 1.1 6.6 4.4 .0 0 0 .0 12.1 NNE 2.2 0 0 .0 ., 0

, 0 0 2.2 0 I

NE 2.2 0 0 0 ., 0 0 0 2.2 0 l .0 0 0 0 .,0 0 .0 0 0 ENE 1.1 1.1 0 0 0 0 .0 2.2 .1 j DE 7 8.8 3 I ESE 4.4 4.4 0 .0 .,0 0 .0 l

R SE 2.2 11.0 1.1 .0 ., 0 0 0 14.3 6 j

W E SSE 2.2 5.5 1.1 .0 7 0 0 1.1 9.9 6 l-ICS 1.1 2.2 0 .0 .,0 0 .0 3.3 1 1.1 1.1 1.1 .0 ., 0 0 0 3.3 .2 N T SS18 D I SW 4.4 1.1 0 .0 ., 0 0 0 5.5 1 l

3.3 0 0 0 ,0 0 0 3.3 .1 j 0 WSW 0 0

., 0 0 .0 WW .0 0 0 .0 2.2 .1 WWW 1.1 1.1 0 .0 .,0 0 .0 j

NW 5.5 5.5 0 .0 .,0 0 0 11.0 3 j

NNW 1.1 17.6 .0 .0 0 0 0 18.7 .7 1

1.1 1.1 CALM . . .

TOTAL 34.1 57.1 7.7 0 .n 0 1.1 100.0 3 j

i 1

0 PERCENT FOR 91 HOURS

0. HOURS OF BAD OH NISSING DATA nR J32RES85080801 - 4B-3 4

1 4

i t-

\

I TABII. 4B (cont'd)

Joint Frequency Distribution ~

50 Meter level i

j NEUIPAL STABILT1Y CIASS D i

10/1/85 000 Hours 1/1/86 000 Hours

! PERIOD OF RECORD:

1 WIND SPEED (m/sec) 18 AVG 9-11 14 15-17 At4D UP TOTAL SPEED 0-2 3 . 's 6-8 170 0 0 13.1 6 2.7 8.4 20 .0 7

.1 1

3.1 1.8 .0 .0 0 0 0 4.9

'a rJ E 1.1 0 .0 7

0 0 0 4.0 .1

'J E 2.9 7

.1 EllE 2.7 1.8 0 .0 ,0 0 0 4.4 7 0 .0 ,0 0 0 1.6 0 0E 9 0 0 4.9 .1 1 ESE 2.2 2.7 .0 0 ,0 R SE 3.3 3.8 7 .0 7 0 0 0 7.8 3 i

11.5 5 W E SSE 3.1 6.9 1.6 0 ,0 0 0 2.4 4.0 .7 0 ,0 0 0 7.1 2 ICS 0 2.2 0 11 T SSW 1.6 .7 0 .0 ,0 0

.1 2.0 9 2 .0 0 0 0 3.1 l D I SW 7 0 0 2.7 .1 O WSW 1.1 1.3 .2 .0 7 0

Il W 2.0 7 0 0 ,0 .0 0 2.7 0

?.4 9 0 .0 ,0 0 3 3.3 1 WNb 0 6.9 2 2.9 ,0 0 tlW 3.8 2 .0 0 0 0 19.5 8 II'J h 5.3 10.9 3.3 .0 4

CAbri 41.9 4

49.2 8.9 .o .n

..... 0 0

10J.0 ... 2

! TitT Als 0 PERCEf3T FOR 4S1 HOURS

0. HodRS JF BAD OH c11551t4G DATA nR J32RES85080801 - 4B-4

\

' TABII 4B (cont'd)

Joint Frequency Distribution 50 Peter Irvel SLIGRILY STABLE STABII.I*IY CIASS E PERIOD OF RECORD: 10/1/85 000 Hours 1/1/86 000 Hours L,

i WIND SPEED (m/sec) i 18 AVG 0-2 3-S 6-8 9-11 14 15-17 AND UP TOTAL SPEED 11 3.8 4.4 .2 .0 170 7

0 .0 8.3 3 j IJ tJ E B.6 3.3 3 0 ,0 0 0 12.2 3 IJE 4.2 3.3 1.6 .0 7 0 0 .0 9.1 3

.0 0 0 3.3 0 EiJE 3.3 0 .0 7

.0 uE 2.1 1.8 0 .0 7 0 0 0 3.9 .1 l 5 I ESE 2.3 9.8 3 .0 7 0 0 .0 12.4 R SE 2.4 8.8 0 .0 7 0 0 0 11.2 .4 J

W E SSE 2.1 5.5 5 .0 7 0 0 0 8.1 3 IC3 1.8 3.9 5 .0 ,0 0 .0 6.2 2 l

N T SSW .5 1.5 .0 .0 0 0 0 1.9 .1 D I Sd .8 1.3 5 .0 ,0 0 .0 2.6 .1 0 USW .8 1.3 2 .0 ,0 0 0 2.3 .1 l

11 W .5 1.3 0 .0 ,0 0 0 1.8 1 WIJW 1.1 1.1 0 .0 ,0 0 .0 2.3 .1 i

j IJW 3.1 2.9 2 .0 ,0 0 0 6.2 2 IJ N W 2.9 4.1 6 .0 ,0

. 0 0 7.7 3 3

CALil .3 .

TOTAL 40.R 54.3 4.9 0 .n 0 0 100.0 2 i

0. H0dd3 UF DnD OH MISSillG DATA nR 0 PERCENT FOR 613 HOURS j

J32RES85080801 - 4B-5

i i

TABE 4B (cont'd)

Joint Frequency Distribution '

50 Meter level i

i l

4 i MXHA1ELY STABE STABILTIY CIASS F l PERIOD OF RECORD: 10/1/85 000 Hours 1/1/86 000 Hours i

WDO SPED (m/sec) j 18 AVG i 0-2 3-5 6-8 9-11 . 14 15-17 AND UP TOTAL SPEED N 3.6 2.8 0 .0 170 7

0 0 6.4 .2 NNE 5.6 2.8 4 .0 0 0 0 8.8 3 7

l NE 2.2 2.6 3.6 .0 0 0 0 8.4 .4 ENE 3.6 9 0 .0 ., 0 .0 0 4.5 1 l 7

DE 3.2 3.6 0 .0 ., 0 0 0 6.7 2 j I ESE 6.4 15.9 8 0 ., 0 0 0 23.1 8

R SE 3.9 8.6 0 0 ., 0 0 0 12.6 5 j W E SSE 2.8 2.6 0 .0 g o 0 0 5.4 .1 l ICS 1.7 2 0 .0 ., 0 0 0 1.9 0 i N T SSW 1.5 8 0 0 7 0 0 0 2.2 0 D I SW .4 9 0 .0 ,0 0 0 1.3 0 0 WSW 1.9 1.1 0 .0 ., 0 0 .0 3.0 .1 NW 2.4 0 0 .0 0 0 0 2.4 0 l 7

WNW 1.3 1.7 0 0 ., 0 0 0 3.0 .1

-l NW 2.2 1.9 0 .0 7 0 0 0 4.1 .1

) NNW 2.4 3.0 0 .0 .0 0 0 5.4 .2 CALM .6 6 l . .

TOTAL 45.8 49.5 4.7 0 .n 0 0 100.0 2 1

1

0. HOURS OF BAD OR NISSING DATA nR 0 PERCENT FOR 533 HOURS

]

J J32RES85080801 6 I

a

l l

TAM E 4B (cont'd) l Joint Frequency Distribution l 50 Meter level

• l FXIRDELY STANE SI%BILTIY CUSS G l

PERIOD OF RE WRD: 10/1/85 000 Hours 1/1/86 000 Fours l

j WIND SPEED (m/sec) i i

i

_ 18 AVG 0-2 3-5 6-8 9-11. 17-14 15 17 AND UP TOTAL SPEED N 5.8 1.7 0 .0 0 0 0 7.4 .2 NNE 2.4 3.0 2.7 3 ., 0

., 0 0 0 8.5 .4 NE 2.0 3.0 3 .0 0 0 5.4 .2 l ENE 2.0 .7 0 .0 ., 0 0 0 2.7 .1

. DE 1.4 4.4 0 0 ,0

., .0 0 5.8 .2

! I ESE 6.1 8.5 3 .0 ., 0 0 0 14.9 5 l R SE 8.1 7.8 .0 .0 f 0 0 0 15.9 .5 W E SSE 3.4 3.0 .0 .0 ., 0 0 0 - 6.4 2

ICS 1.7 2.0 0 0 ,0 0 0 3.7 .1 i N T SSW 2.7 1.7 0 .0 ,0 .0 0 4.4 .1 i D I SW 2.0 1.0 0 .0 0 0 0 3.0 .1 i 0 WSW 3.4 0 0 .0 ,0 0 0 3.4 .0 i

NW 1.7 .0 0 .0 ,0

, 0 0 1.7 .0 i WNW 1.0 0 0 .0 ., 0 0 0 1.0 .0 i NW 6.4 1.0 0 .0 ., 0 0 .0 7.4 .2 i

I NNW 3.4 1.7 .0 .0 .0 .0 0 5.1 .1 CALN 3.0 . . 3.0 i ......................................................................

l TOTAL 56.6 39.7 3.4 3 .n 0 0 100.0 2 i

0. HOURS OF BAD OR MISSING DATA nR .0 PERCENT FOR 295 HOURS j J32RES85080801 4B-7

,/

\

TABLE 4B (cont'd)

Joint Frequency Distribution

• 10 Meter Imvel EXTRINELY UNSTABLE STABILITY CIA 9S A I

PERIOD OF RECORD: 10/1/85 000 Hours 1/1/86 000 Hours i

l I

WIND SPEED (m/sec) 18 AVG 0-2 3-5 6-8 9-11 17-14 15 17 AND UP TOTAL SPEED fl 3.7 1.5 0 .0 ,0 0 0 5.2 .1 utiE 3.7 0 0 .0 ,0 0 .0 3.7 .0 rJE 3.0 .0 .0 .0 7 0 .0 0 3.0 .0 Elli. 3.0 0 .0 .0 g 0 0 .0 3.0 0 DE 3.7 0 .0 .0 ,0 0 0 3.7 0 I ESE 2.2 .0 0 .0 ,0 7 .0 3.0 .1 11 SE 3.7 0 .0 .0 7 0 0 0 3.7 .1 W E SSE 2.2 7 0 .0 ,0 .0 7 3.7 .2 ICS 3.0 0 0 .0 ,0 .0 0 3.0 .1 N T SSh 4.4 1.5 .0 .0 ,o 0 0 5.9 2 D I SW 4.4 3.0 0 .0 0 0 .0 7.4 2 7

O WSn 3.7 0 0 .0 0 0 0 3.7 0

.4 W 3.0 0 .0 .0 ,0 7

0 0 3.0 0 WNW S.9 0 0 .0 7 0 .0 0 5.9 .1

'J W 13.3 0 .0 .0 0 0 0 13.3 2 n fJ W 17.0 9.6 .J .0 ,0

. 0 0 26.7 7 CALM 2.2 . . 2.2 l TOTAL 82.2 16.3 0 0 .n 7 7 100.0 1 3 0. H0dHs UF BAO Og AISSIr4G Data nR' .0 PERCENT FOR 135 HOURS J32RES85080801 - 4B-8 ,

TABE 4B (cont'd)

Joint Frequency Distribution 10 Meter level

}ODERA*IELY UNSTABE STABILITY CUSS B PERIOD OF RECORD: 10/1/85 000 Hours 1/1/86 000 Hours i

! WIPO SPEED (m/sec) 1 i .

. 10 AVG 02 35 68 9 11 17 14 15 17 AND UP TOTAL SPEED N .0 5.1 0 .0 ., 0 0 0 5.1 .2 NNE 2.6 0 0 .0 7 0 0 0 2.6 .0 NE .0 0 0 .0 ., 0 0 0 0 0 ENE 2.6 0 0 .0 ., 0 0 .0 2.6 0 DE .0 0 0 .0 .,0 2.6 0 2.6 4 I ESE .0 0 0 0 0 0 0 0 0 R SE 2.6 0 0 .0 ., 0 0 .o 2.6 0

.f W E SSE 12.8 7.7 0 .0 0 0 0 20.5 6 ICS .0 2.6 0 0 .,

0 0 .0 2.6 .1 N T SSW 10.2 2.6 0 0 ., 0 0 0 12.8 2 D I SW 10.2 2.6 0 0 ., 0 0 0 12.8 3 0 WSW 7.7 0 0 0 ., 0 0 0 7.7 .1 NW .0 0 0 .0 ., 0 0 0 0 0 WNW 7.7 2.6 0 .0 ,0 0 0 10.2 2 NW 7.7 0 0 0 .,0 0 0 7.7 .1 i NNW 5.1 5.1 .0 .0 .0 0 0 10.2 .3 CALM .0 . .

0 TOTAL 69.2 28.2 0 0 .o 2.6 0 100.0 2

0. HOURS OF BAD OR MISSING DATA nR 0 PERCENT FOR 39 HOURS J32RES85080801 - 4B-9

l 6

1 TABE 4B (cont'd)

Joint Frequency Distribution 10 Meter Invel 1

\

1 1

SLIQf1LY UN5 TABLE STABILITY CULSS C PERIOD OF RECORD: 10/1/85 000 Hours 1/1/86 000 Hours

- WIPO SPEED (m/sec) i 18 AVG

02 35 68 9 11 17 14 15 17 AND UP TOTAL SPEED j N 1.1 5.5 0 .0 ,0 0 0 6.6 2 j NME 4.4 .0 0 .0 ,0 0 0 4.4 0

NE 3.3 .0 0 0 ., 0 0 .0 3.3 0 j ENE 3.3 0 0 .0 f 0 1.1 .0 4.4 2 j DE 3.3 .0 0 0 .f 0 0 .0 3.3 0

, I ESE 2.2 0 0 .0 ., 0 0 0 2.2 0 i R SE 6.6 2.2 0 .0 ., 0 0 0 9.9 2

W E SSE 6.6 5.5 0 .0 0 0 0 12.1 3 ICS 3.3 1.1 0 .0 .,0 0 0 4.4 .1 N T SSW 1.1 0 0 .0 ., 0 0 0 1.1 0

.g 1 D I SW 8.8 -

0 0 .0 ,0 0 0 0.8 2 1 0 WSW 2.2 0 0 .0 0 0 0 2.2 0 NW 0 0 0 0 ., 0 0 0 0 0 j .,

l, WNW 4.4 0 0 .0 ., 0 0 0 4.4 .1 l NW 16.5 0 0 .0 ,0 0 0 16.5 4 4 NNW 14.3 2.2 0 .0 .0 0 0 16.5 5 CALM 1.1 . .

1.1 16.5 0 .n 1.1 0 100.0 2 TOTAL 82.4 0 1

I

0. HOURS OF BAD OR MISSING DATA nR 0 PERCENT FOR 91 HOURS J32RFS85080801 - 4B-10 i

l

'\

1 l TABIE 4B (cont'd) i Joint Frequency Distribution .

10 Meter Imvel t

. NEITIRAL STABILT1Y CIASS D I PERIOD OF RECORD: 10/1/85 000 Hours 1/1/86 000 Hours I

WIND SPEED (m/sec) 18 AVG 68 9 11 15 17 At3D UP TOTAL SPEED 02 3-S 17 14 9.7 2.7 0 .0 ,0 0 0 12.4 3 l

14 NtJF 3.5 0 0 .0 7 0 0 0 3.5 0 IJE 4.9 .0 0 .0 70 0 0 4.9 1 0 0 0 3.1 0 E?lE 3.1 0 0 .0 7 DE 2.9 0 0 .0 7 0 0 0 2.9 0 I ESE. 2.0 2 0 .0 7 0 0 0 2.2 0 i

R SE H.2 3.1 0 .0 7 0 0 .0 11.3 3 0 0 0 8.6 2 W E SSE 7.1 1.6 0 .0 7 IC3 4.0 9 .0 .0 ,0 0 0 4.9 1 N T SSh 2.7 0 9 .0 7 0 0 0 2.7 0 4

3.3 2 0 .0 0 0 0 3.5 0 l D I SW 7 0 0 2.2 0 IJ WSn 2.0 2 .0 .0 ,0 0 13 W 3.5 0 0 .0 ,0 0 0 3.5 WWW 3.1 2 0 0 ,0 0 0 3.3 .0

!!W 6.2 4 0 .0 ,0 0 0 6.6 1 0 21.1 6 IJ N

• 12.6 9.4 0 .0 .0 0 3.1 3.1 CAbt!

0 .n 0 0 100.0 1 TUTAL 82.0 10.0 0 i

0 PERCEt3T FOR 451 HOURS

0. HudRS OF BIsD OH MISSING DATA nR

' J32RES85080801 - 4B-11 1

b i

! \

1 i

TABLE 4B (cont'd)

I Joint Frequency Distribution -

10 Meter level i

1 i

.I

SLIGNILY STABII STABILTIY CIASS E 4 PERIOD OF RECORD

10/1/85 000 Hours 1/1/86 000 Hours I

WIND SPEED (m/sec) i

~

l i 18 AVG 0-2 3-5 6-8 9-11 17-14 15-17 ANU UP TOTAL SPEED N 10.9 3 .0 .0 0 .0 .0 11.2 2 7

title 6.8 3 0 .0 f 0 0 0 7.2 1

• J E 6.8 2.1 0 .0 ,0 0 0 9.0 2 EllE. 4.1 2 .0 .0 7 0 0 0 4.2 0 l 4.4 0

OE 4.2 2 0 .0 ,0 0 0 I ESE 3.1 0 0 0 7 0 0 0 3.1 0 H SE 10.3 1.0 0 .0 7 0 .0 0 11.2 2 l

j W E SSE b.7 1.0 .0 .0 7 0 0 0 6.7 1 j ICS 3.8 5 0 .0 ,0 0 0 4.2 1 tl T SS* 1.0 3 0 .0 7 0 0 0 2.1 0 D I SW 3 . t* 8 0 .0 f u 0 0 2.6 0 l 0 0 2.1 0 i U tJSh 1.9 2 0 .0 70 N 11 1.0 0 0 .0 70 0 0 1.0 0 j 2.1 0 With 2.1 0 .0 .0 ,0 0 0 11W b.o 3 0 .0 ,0 0 0 5.4 1

Ilfla 7.3 1.3 0 .0 .0 0 0 8.6 .1 l CALM 14.7 .

14.7 1 ......................................................................

T11TAL 91.5 U.S 0 0 .o 0 0 100.0 1

} 0 PERCENT FOR 613 HOURS

0. HOURS OF UAD OH HISSING DATA nR l

l J32RES85080801 - 4B-12

~., s O

f.S W 44 ct;

> tal adl0.weog m *4 w O O C C O O O O c O w 3 en e e e e e e e e e e e e a e e e 8e o O e :Z:

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G. EO C D E ** In.

o e 8 o .430COOCOoooOOOOOco I io f4

=

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% f% % % % A 4 4 % A sA s4 A 4 4 e 1 c .en O ,4 5 .4 8 e d V 0 at U C3 N

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Z 5J M La3 *3 a 4 3 3 E ~B J I 4 T. W Z 'A W V3 t/3 3 to = 3 = *t: I fr*

2 2 = la3 W W to '4 t*J t*3 t*J 3 3 3 """ 2 U 8IHO O H % '3 U f* H C 2 8 9

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< B m 9.e 8 N O .=4 9 OD tD N 9 O W m W O O W e O & & 8 ge o e e e o e e. e o e e a e o e o e 3O M W W eD O C @ N w WNmI o e4 W W9O 2 Q. 8O C D Ie is.

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• M S IOOOOOCOOCOOOOOOO 8 C I M (E f% % % % % % % % % 4 % % % % % % e d

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H o w C 9 g C e a w o hp O g C CO i 50 U w I C l ** M t OOCOCOOCOOCOOOOO c e g n y e e e e e o e o e e e o e o e e  :

.c . = g o CO 8 I to gm N

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c m aCOC0000000000000 t .c

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If 7 g a X

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't. LaJ M La at A 3 1 .38 at

= *.a3 N to *.a3 t/3 to 3 t/3 2 2 2 at I H O 7 = tal *.a3 M LS 1*3 L1 t1 Li 3r 3 3 = 2 U t O 5 t*

O. w % ts! O F4 M O 2 8 5

3H2O g

l 4

TABE 4B (cont'd) l Joint Frequency Distribution

! 50 Meter level l

J l

t STABILITY CTASS A - G PERIOD OF RFCORD: 10/1/85 000 Hours 1/1/86 000 Hours j

i i

! WIND SPEED (m/sec) i i

18 AVG 02 35 68 9 11 17 14 15 17 AND UP TOTAL SPEED

!! 3.4 4.5 .7 .0 7 0 0 0 9.6 .3 IlslE b.1 2.4 5 .0 ., 0 0 0 8.2 2 l IIE 2.9 2.3 1.4 .0 7 0 0 0 6.6 3

! Er4E 2.8 7 0 .0 ,0 0 0 3.5 1 uC 2.1 2.3 0 .0 .,0 0 0 4.4 .1 I ESE 3.6 9.1 3 .0 7 0 0 .0 13.2 5 R SE 3.6 7.2 2 .0 ., 0 0 .0 11.0 4

.3 W E SSE 2.8 4.6 5 .0 7 0 0 0 8.0 ICS 1.9 2.4 3 .0 ,0 0 0 4.5 .1 11 T SSh 1.4 1.1 .0 .0 7 0 0 0 2.5 .1 D I SW 1.5 1.3 3 .0 7 0 0 0 3.0 .1 j

j 0 WSm 1.8 1.1 .1 .0 ,0 0 0 3.0 .1 i li d 1.7 .5 0 .0 ,0 .0 0 2.2 0 j Wilh 1.8 1.0 0 .0 ,0 0 0 2.8 .1

1W 4.0 3.2 .1 .0 0 .0 0 7.4 2  ;

i IIN = 3.4 5.9 9 .0 ,0

. 0 0 10.2 .4 '

l 8 CALM 3.4 ,

i TUTAL 44.8 4'J.6 5.5 .0 .n .0 .n 100.0 2 1

51. HOURS UF BAD OR llISS!!4G DATA nR 2.3 PERCENT FOR ?200 HOURS J32RES85080801 - 4B-15

TABE 4B (cont'd)

Joint Frequency Distribution 10 Meter level STABILITY CIASS A - G PERIOD OF RECORD: 10/1/85 000 Hours 1/1/86 000 Hours WIND SPFED (m/sec) 18 AVG 0-2 3-d 6-8 9-11 17-14 15-17 AND UP TOTAL SPEED IJ 8.1 1.1 .0 .0 ,0 0 0 9.3 .2 IINE 4.7 6 0 .0 ,0 0 0 5.3 .1 NE 6.3 1.7 .0 .0 ., 0 0 0 8.0 .1 Erik. 5.3 0 .0 .0 ,0 0 0 5.4 1 DC 5.6 .1 .0 .0 ,0 0 0 5.7 .1 I ESE 3.o 0 .0 .0 ., 0 0 0 3.7 0 R SE 6.4 1.0 0 .0 7 0 0 0 7.5 .1 W E SSE 4.3 1.0 .0 .0 ,0 0 .0 5.3 .1 ICS 2.8 4 .0 .0 ,0 0 0 3.2 .1 N T SSm 7.0 2 0 .0 0 0 0 2.2 0 7

D I SW  ?.3 5 .0 .0 ,0 0 .0 2.8 0 0 WSh 1.8 .1 0 .0 ., 0 0 0 1.9 0

'I W 1.5 0 0 .0 7 0 .0 0 1.5 0 WNd 7.S .1 0 .0 7 0 0 .0 2.6 0 NW 5.3 2 0 .0 ,0 .0 0 5.6 .1 tJ N d 7.9 3.0 0 .0 .0 0 .0 10.9 3 CALH 7.9 .

19.0 TIITAL 89.4 10.4 0 0 .n .1 0 100.0 1 l

bl. HOURS OF DAD OH HISSING DATA nR 2.3 PERCENT FOR 2208 HoijRS i

l J32RES85080801 - 4B-16 l

, f, l (:

. TAM E 4B (cont'd) *

)

1 PERCmr PAD DATA REPORT i PERIOD OF PE00RD: 10/1/85 000 Hours 1/1/86 000 Hours i

HEPORT COVERS 2208tlJUHS i il0JRS PERCEdT SOM DIRECTION 1. 05 Sort W10D SPEED 1. 05 10:1 DIRECTInN 1. 05 10*1 WINb SPEED 1. 05

, TEMPERATURE 1. 05 DCW Pu1NT 851. 38.54 I D8bTA T 51. 2.31 j PRECIPITATION 2. 09 l

1 1

I i

i J32RES85080801 - 4B-17

l

\

TABLE 4C

. Joint Frequency Distribution 50 Meter Level EXTREMELY UNSTABLE STABILITY CLASS A PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 0-2 3-5 6-8 9-11 17-14 15-17 AND UP TOTAL SPEED Il 4.8 4.2 3 .0 ,0 .1 .0 9.4 3 NNE 4.5 2.2 .1 .0 0 .0 .0 6.8 2 ilE 4.9 4.1 .0 .0 ,0 7 .0 0 9.0 3 ENE 6.3 1.8 .0 0 7

0 .0 .0 R.1 2 DE 3.8 2.5 0 .0 7 0 .0 .0 6.3 2 I ESE 3.7 3.0 3 .0 ,0 0 0 7.0 .2 i

R SE 7.3 2.1 .3 .0 ,0 0 .0 4.6 .1 W E SSE 1.8 .7 .0 .0 7 0 0 0 2.5 .0 ICS .8 7 .4 .0 ,0 0 .0 1.9 .1 i N T sSd .4 4 .1 .0 7 0 0 .0 .9 0 i D I SW 1.9 1.6 .7 .0 ,0 0 .0 4.2 2 i 0 WSW 3.0 .9 .3 .0 ,0 0 .0 4.2 .1 UW 1.4 9 0 .0 7 0 .0 0 2.3 .1 WNW  ?.9 1.5 0 .0 ,0 .0 0 4.4 .1 NW 6.8 6.6 3 .0 ,0 .0 0 13.7 4 ilN k 7.0 6.1 9 .0 0 0 .0 14.1 5 cal 4H .4 . . 4 l

TOT A t, 56.8 39.4 3.7 0 6 .1 0 100.0 2 O. HOLIRS OF BAD OR MISSING D ATA nR 0 PERCEt!T FOR 731 HOURS i

! J37860210DUPTABLE - 4C-1 a

/

(

TABLE 4C (cont'd)

Joint Frequency Distribution 50 Meter Level MODERATELY UNSTABLE STABILITY CLASS B PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 02 3-5 68 9 11 19 14 15-17 AND UP TOTAL SPEED 11 2.2 3.9 .0 .0 h0 0 0 6.1 .2 fit 3E 2.6 2.2 0 .0 ,0 0 .0 4.8 .1

JE 2.2 1.7 4 .0 7 0 0 .0 4.3 .1 E 1E 2.6 0 0 .0 7 0 0 .0 2.6 0 DE 3.0 1.3 0 .0 7 0 .0 .0 4.3 .1 I ESE 5.6 3.5 0 .0 7 0 0 0 9.1 3 H SE 1.3 3.5 2.0 .0 ,0 0 .0 7.4 3 W E SSE 2.6 2.6 1.3 .0 .,0 0 0 6.5 3 ICS 1.7 2.2 .4 .4 ,0 .0 .0 4.8 2 t1 T SSw 2.2 4 1.3 .0 7 0 0 0 3.9 .2 D I SW 3.7 4.8 9 .0 ,0 0 .0 7.4 3 0 WSW 5.6 2.6 .0 .0 7 0 0 0 8.3 2 84 W 4.8 1.3 4 .0 ,0 0 0 6.5 2 WNW 6.1 1.7 .4 .0 ,0 0 0 9.3 .2 f4W 3.0 4.3 .4 .0 ,0 0 .0 7.8 .2 HNW 2.6 4.8 .0 .0 .0 .0 0 7.4 3 CALH .4 . . 4 TOTAL 50.4 40.9 8.3 4 .n 0 0 100.0 2

0. H0llR3 UF BAD OR HISSING DATA nH .0 PERCENT FOR 230 HOURS J37860210DUPTABLE - 4C-2

I

{

\

TABLE 4C (cont'd)

Joint Frequency Distribution -

50 Meter Level SLIGHTLY UNSTABLE STABILITY CLASS C PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours

! WIND SPEED (m/sec) 18 AVG 0-2 3-5 6-8 9-11 15-17 AND UP 1.3 17-14 TOTAL SPEED I,

13 3.4 16 .0 7

0 0 .0 6.3 .3 TJ tlE. 1.8 3 .0 .0 0 .0 0 2.1 0 tJE 1.3 .5 .0 .0 ,0 0 .0 1.8 .0 Efil:- 1.0 1.3 .0 .0 ,0 0 .0 2.3 .1 DC 2.1 2.1 .0 .0 7

,0 0 .0 4.2 .1

I ESE 3.1 4.4 0 .0 0 0 .0 7.5 .2 7

R SE 2.3 6.8 1.3 W E SSE

.3 ,0 .0 0 10.7 .4 1.6 3.1 1.6 .3 ,0 .0 3 6.8 4 ICS .8 2.9 .3 .0 ti T SSW

,0 .0 0 3.9 .2 l 1.3 2.3 10 .0 ,0 0 .0 4.7 .2

, D I SW 4.9 b.7 1.0 .0 ,0 .0 .0 11.7 .4

] O WSW 4.9 1.0 0 il W

.0 ,0 0 3 6.3 .2 1 3.6 2.9 .3 .0 0 .0 .0 6.8 2 l

tt:l= 3.9 2.6 .0 .0 ,0 7

0 .0 6.5 .2 11W 4.7 3.4 .0 .0 0 .0 .0 9.1 2 7

ritJ W 1.6 8.1 .5 .0 .0 0 0 10.1 .4 CALM .3

.................- ........ 3.......

TUT A1, 40.6 50.8 7.5 5 .n 0 5 100.0 2 i

i 2. HOURS JF DAD OH llISSING DATA nH 5 PEHCEllT FOR 386 HOURS l

l J37860210DUPTABLE - 4C-3 I

/

(

TABLE 4C (cont'd)

Joint Frequency Distribution 50 Meter Level NEITTRAL STABILITY CLASS D PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 02 3-5 68 9 11 19 14 15 17 ANo UP TOTAL SPEED I4 2.1 6.3 1.1 .1 0 0 .0 9.6 .4 fl1E 1.6 2.1 f,0 .1

.1 .0

,0

.0 .0 3.9 f1E 1.5 1.1 .0 .0 , .0 0 2.6 .1 E'4E 1.6 8 0 .0 ,0 .0 .0 2.4 0 0E .5 1.4 .1 .0 0 0 .0 2.0 .1 I ESE 1.7 2.1 .8 .0 ,0

, .0 0 4.6 .2 11 S E 2.3 2.9 1.3 .0 7 0 0 .0 6.5 3 W E SSE 1.9 4.1 1.4 .2 ,0 0 .0 7.7 3 ICS 2.3 6.1 1.3 .0 ., 0 0 .0 9.7 .4 IJ T SSW 3.1 2.S .6 .0 ,0 0 .0 6.3 .2 D I SW 5.5 3.1 3 .0 ., 0 .0 0 9.0 .3 0 WSW 5.0 Il 'J 1.6 .2 .0 ,0 .0 .0 7.5 .2 6.8 1.1 .2 .0 ,0 0 0 8.0 .2 W'l W 4.1 1.3 .1 .0 ,0 0 .0 5.6 .1 lid 3.2 2.4 .1 .0 ,0 .0 0 5.8 .2 NNW 2.3 5.3 .9 .0 .0 .0 .0 8.5 .3 CALM .4 . . 4 TOTAL 46.6 44.2 8.8 4 .n 0 0 100.0 2

52. HOURS OF Bl*D On 14ISSIllG DATA nR 2.7 PERCErlT FOR 1954 HnURS

J37860210DUPTABLE - 4C-4

f

\

TABLE 4C (cont'd)

Joint Frequency Distribution ,

50 Meter Level SLIGHTLY STABLE STABILITY CLASS E PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 0-2 3-b 68 9 11 17 14 15 17 AtID UP TOTA 1, SPEED 11 2.7 3.2 .0 .0 0 0 .0 5.9 .2 IJiit: 4.3 2.8 2 .0 ,0

, 0 .0 7.2 .2 IIE 3.3 2.6 .S .0 7 0 .0 .0 6.4 .2 tillE 2.3 1.7 .0 .0 ,0 0 .0 4.1 .1 DE 1.6 2.9 .2 .0 ,0 0 .0 4.8 2 I ESE 2.3 8.8 11 .0 ., 0 .0 .0 12.2 .5 R SE 1.8 6.9 .9 .0 ,o 0 .0 9.6 4 W E SSE 2.4 5.1 6 .0 ,0 .0 0 8.2 .3 ICS 3.6 5.3 4 .0 0 0 0 9.4 3 il T SSw 3.5 5.2 .2 .0 ,0 7

0 .0 8.9 .3 D I SW 2.7 2.4 .2 .0 ,0 0 0 5.3 2 U tish  ?.2 1.1 .1 .0 ,0 0 0 3.5 .1 11 13 1.7 1.2 .1 .0 ,0 0 .0 3.0 .1 WrJW 1.4 1.0 .2 .0 ,0 .0 .0 2.5 .1 ilW  ?.1 1.6 .0 .0 ,0 0 .0 3.7 .1 HN4 1.8 2.5 .2 .0 .0 0 .0 4.5 .1 CAbd .6 . 6 TOTAL 40.5 54.3 5.0 .1 .n .0 0 100.0 2

68. HOURS OF HAD OR MISSI'JG D AT A nR 2.9 PERCENT FOR 2347 HOURS J37860210DUPTABLE - 4C-5

i

(

TABLE 4C (cont'd)

Joint Frequency Distribution 50 Meter Level MODERATELY STABLE STABILITY CLASS F PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 02 3.S 68 9 11 17 14 15 17 AND UP TOTAL SPEED IJ 2.6 3.1 0 .0 0 0 0 5.7 2 tit 3E 3.8 1.8 .1 .0 ,0 0 .0 5.8 2 f1E 2.4 2.7 1.1 .0 ,0 7

0 0 6.2 3 E'3 M  ?.7 1.9 .1 .0 7 0 .0 .0 4.6 .1 I) E 3.6 5.6 .2 .0 ,0 .0 .0 9.4 .3 I ESt. 4.8 10.0 .5 .0 7 0 .0 .0 15.4 6 It SE 3.S 7.0 .2 .0 7 0 .0 0 10.6 4 W E SSE 4.3 3.7 .0 .0 ,0 .0 .0 8.0 2 ICS 3.2 1.6 .0 .0 ,0 0 0 4.9 .1 f3 T 558 3.6 1.8 0 .0 ,0 0 .0 5.4 .1 D I SW 4.0 2.0 .1 .0 7 0 0 .0 6.1 .2 O WSd 7.1 .B .0 .0 ,0 .0 .0 2.9 .1

1 W  ?.3 .3 .1 .0 7 0 0 .0 2.8 .1 WNw 2.1 1.0 .1 .0 ,0 0 0 3.2 .1 IlW 2.0 1.2 .0 .0 ,0 0 0 3.2 1 ti!!d 2.6 1.9 .1 .0 0 0 0 4.5 .1 CALil 1.1 . 1.1 TOT A t. $0.7 45.3 2.8 .1 .n .0 .o 100.0 2

2. HOUH;; UF D AD OH 11ISSil4G D AT A nR .1 PERCENT FOR 1764 HOURS J37860210DUPTABLE - 4C-6

t

\

TABLE 4C (cont'd)

Joint Frequency Distribution 50 Meter Level i

1 EXTREMELY STABLE STABILITY CLASS G PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours l

l WIND SPEED (m/sec) 18 AVG 02 35 6-8 9 11 1,9 11 15-17 AND UP TOTAL SPEED fl 4.1 1.2 .0 .0 ,0 .0 .0 5.3 .1 rJNE 2.9 2.2 .7 .1 ,0 .0 .0 5.9 2

1. E 3.0 3.0 .2 .0 7 0 .0 .0 6.1 .2 C'J E 2.6 3.2 .1 .0 ,0 .0 .0 5.9 .2 DE 2.7 6.4 .3 .0 ,0 .0 .0 9.4 .3

, I ESE 4.4 8.8 .4 .0 ,0 .0 .0 13.7 5 R SC 6.2 5.3 .4 .2 0 .0 .0 12.1 .4 d C SSE 3.7 1.6 .2 .2 ,0

, 0 .0 5.7 2 ICS 4.9 1.8 .1 .2 ,0 .0 .0 6.9 .2 il T SSW 3.8 1.4 .0 .2 7 0 .0 .0 5.4 .1 D I SW 3.1 4 3 .0 ,0 .0 .0 3.8 .1 il WSW 3.0 2 0 .0 ., 0 .0 .0 3.1 0 IJ W 3.4 3 2 .0 ,0 0 0 1.9 .0 W;iw 1.0 4 .3 .0 ,0 .0 .0 1.7 0 Ilw 3.0 1.0 .0 .0 .,0 .0 0 4.0 .1 N:lW 3.5 2.3 0 .0 .0 .0 .0 5.8 .2

CALM 3.1 . 3.1 i

TOTAL $6.4 39.7 3.1 8 .n 0 0 100.0 2 f O. HOURG OF BAD UR :iISSillG DATA nR 0 PERCENT FOR 1110 HOURS i

J37860210DUPTABLE - 4C-7

i k

TABLE 4C (cont'd)

Joint Frequency Distribution 10 Meter Level EXTREMELY UNSTABLE STABILITY CLASS A PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) i 18 AVG 02 35 68 9 11 1p.14 15 17 Aflu UP TOTAL SPEED rJ 9.6 1.2 .0 .0 ,0 .1 0 10.9 .3 IJrJE 8.9 5 .0 .0 0 0 0 9.4 2 flE 7.2 .4 0 .0 ,0 7

0 0 7.7 .1 Efth 7.S .1 .0 .0 ,0 0 .0 7.7 .1 DE  ?.9 .1 .0 .0 7 0 0 0 3.0 0 I ESE 2.5 3 .0 .0 ,0 .1 0 2.9 1 R SE 3.0 .1 .0 .0 7 0 0 .0 3.1 0 W E SSE 3.5 5 .0 .0 ,o 0 .1 2.2 .1 1CS 2.3 .3 .1 .0 ,0 0 0 2.7 .1 11 T SSk 2.1 .7 0 .0 ,0 0 .0 2.7 .1 D I SW 4.0 1.9 .0 .0 ,0 0 0 5.9 .1 O WSW 3.0 .0 .0 .0 ,0 0 .0 3.0 0 fl u 3.7 0 0 .0 ,0 0 .0 3.7 0 Wilk 4.6 .1 .0 .0 ,0 .0 .o 4.8 ,1 flW B.1 1.8 0 .0 ,0 0 .0 9.8 2 fatia 15.3 4.1 .0 .0 .0 0 .0 19.4 4 CALM .9 . . .

9 TOTAL 87.1 12.3 1 0 6 3 .1 100.0 1

0. HOURS UF BAD OH MISSfi4G DATA nR .0 PERCEllT FOR 731 HOURS J37860210DUPTABLE - 4C-8

/

k TABLE 4C (cont'd)

Joint Frequency Distribution 10 Meter Level MODERATELY UNSTABLE STABILITY CLASS B PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 02 6.1 3.S 1.7 68 9 11 if.t4 15 17 AIJD UP TOTAL SPEED

.2 11 tJ IE

.0 .0

,0 0 0 0 7.8 4.3 1.3 .0 .0 , .0 .0 5.6 .1 rJE 3.9 4 .0 .0 ,0 0 .0 4.3 .1 Et;E 3.5 0 .0 .0 ,0 .0 0 3.5 0 DE .9 .0 .0 .0 ,0 .4 .0 1.3 .1 I ESE 2.2 .9 .0 .0 ,0 0 .0 3.0 .1 R SE 3.S .4 .0 .0 ,0 .0 0 3.9 .1 W E SSE 4.3 3.0 7.4 70

.0 .0 0 .0 2 IC5 3.0 3.0 .4 .0 ,0 .0 .0 6.5 .2 la T SSW 4.0 3.0 .0 .0 0 0 .0 7.8 2 D I SW 7.4 1.7 .0 .0 ,0

, 0 .0 9.1 .2 U WSW R.7 .0 .0 .0 ,0 0 .0 8.7 1 11 W 4.8 .0 .0 .0 ,0 .0 .0 4.8 .1 Wr1W 10.9 .4 .0 .0 ,0 .0 .0 11.3 .2

!J W S.5 .9 .0 .0 ,0 0 .0 6.5 .1 tiilm S.b 2.2 .0 0 .0 .0 .0 7.8 .2 CALH .4 . . 4 Tt1TAL H0.0 19.1 4 0 .n .4 0 100.0 1

0. HOURG dr BAD Olt 141SSif1G DATA nH .0 PERCErlT FOR 230 HOURS l

J37860210DUPTABLE - 4C-9

i f

k TABLE 4C (cont'd)

Joint Frequency Distribution 10 Meter Level SLIGHTLY UNSTABLE STABILITY CLASS C PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 02 3-5 6-8 9-11 17-14 15-17 AND UP TOTAL SPEED fl 2.6 2.3 .0 .0 7 0 0 .o 4.9 .1 IJ N E 2.6 3 .0 .0 ,0 .0 .0 2.8 0

!J E 2.3 .0 .0 .0 7 0 0 0 2.3 0 EllE 2.8 3 .0 .0 7 0 .3 .0 3.4 .1 DE 2.3 .0 .0 .0 ,0 0 .0 2.3 0 I ESE 3.1 .3 .0 .0 ,0 0 .0 3.4 .1 R SE 5.4 5 0 .0 7 0 .0 .0 6.0 .1 11 E SSF 4 . ') 4.4 5 .0 ,0 .0 .0 9.9 3 ICs 2.6 2.0 0 .0 ,0 0 .0 5.4 .2 11 T SSW 3.6 1.3 .0 .0 ,0 .0 .0 4.9 .1 D I SW 9.9 2.8 .0 .0 ,0 .0 .0 12.7 1 11 tf S W 7.0 3 .0 .0 ,0 .0 .0 7.3 .1 Il W 4.7 0 .0 .0 ., 0 .0 .3 4.9 .2 WNW R.8 .0 0 .0 ,0 .0 .0 R.8 .1 fJU B.6 0 .0 .0 ,0 0 .0 8.6 2 tJ'J W 9.1 2.6 0 .0 .0 0 .0 11.7 3 C Al Il .S . 5 TOTAL B1.0 17.') 5 .0 .n 3 3 100.0 2

1. H0llHG OF DAD OH HISSirJG DATA nR .3 PERCEisT FOR 386 HOURS J37860210DUPTABLE - 4C-10

i~

\

TABLE 4C (cont'd)

Joint Frequency Distribution 10 Meter Level NEUTRAL STABILITY CLASS D PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG U-2 3-S 6-8 9-11 17-14 15-17 AND UP TCTAL SPEED II 6.5 3.2 .1 .0 ,0 0 0 9.9 3 fif3E 3.7 6 0 .0 ,0 .0 .0 4.4 .1 IJE 3.0 0 .0 .0 7 0 0 .0 3.0 0 Ellh 2.1 0 .0 0 7 0 .0 .0 2.1 .0 0E 1.S 0 0 .0 7 0 0 .0 1.5 .0 I USK  ?.1 2 .0 .0 7 0 .0 .0 2.3 0 It SE 3.6 1.0 .0 .0 70 0 .0 4.6 .1 W E SSE 4.1 2.7 .1 .0 ,0 0 .0 6.9 2 ICS 6 . ') 4.2 0 .0 7 0 .0 .0 11.2 3

1. T SSW 6.0 1.1 .0 .0 ,0 0 .0 7.2 2 D I nu 9.7 1.1 .0 .0 ,0 .0 0 10.7 2 0 WSd 6.6 1 .0 .0 ,0 .0 .0 6.7 .1 Il il 5.7 0 .0 .0 ., 0 0 .0 5.7 .1 tillw 6.1 4 .0 .0 ,0 0 .0 6.5 .1 11W S.2 3 .0 .0 ,0 .0 0 5.S .1 lif1W 6.1 3.0 0 .0 0 0 .0 9.1 .2 CAbri 7.7 .

2.7 IOTAL 81.7 1d.9 3 .0 6 .0 .0 100.0 .1 i

51. P0difJ UF BAD Ou MISSING DATA nR 2.6 PERCEIJT FOR 1954 HOURS J37860210DUPTABLE - 4C-11

TABLE 4C (cont'd)

Joint Frequency Distribution 10 Meter Level SLIGHTLY STABLE STABILITY CLASS E PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 0-2 35 68 9 11 17 14 15-17 AND UP TOTAL SPEED il 6.7 4 .0 .0 7 0 0 .0 7.1 .1

'J N E 6.2 3 .0 .0 ,0 .0 .0 6.5 .1 rJE 6.0 .6 .0 .0 0 0 .0 6.6 .1 ENE 4.7 2 .0 .0 ,0 7 0 .0 4.9 .1 OE 1.9 0 .0 .0 0 .0 .0 4.0 0 I ESE 3.6 3 .0 .0 ,0 0 .0 3.9 .0 R SE 6.1 .5 .0 .0 ,0

, .0 .0 6.6 .1 W E SSE 7.9 1.1 .0 .0 ,0 .0 .o 9.6 2 ICS 9.2 1.1 .0 .0 0 0 .0 10.3 2 il T SSW h.7 8 0 .0 ,0 7 .0 .0 7.4 .1 D I SW 3.3 .4 .0 .0 ,0 .0 .0 3.7 .1 0 USd 3.1 .1 .0 .0 0 0 .0 3.3 0 11 W 2.1 .1 .0 .0 .,0 0 .0 2.1 .0 W!!W 2.1 .2 0 .0 ,0 7

0 .0 2.3 .0 ilW 2.7 .1 .0 .0 ,0 0 .0 2.8 0 N!!w 5.2 .S .0 .0 .0 0 .0 5.7 .1 CAL 4 14.0 . 14.0 TOTAL 43.1 b.9 0 .o 6 .0 0 100.0 .1

67. HOURS OF D10 OR lilSSING D ATA nR 2.9 PEHCENT FOR 2347 HnURS J37860210DUPTABLE - 4C-12

/

\

TABLE 4C (cont'd)

Joint Frequency Distribution 10 Meter Level MODERATELY STABLE STABILITY CLASS F PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec)

. 18 AVG 02 J.5 68 9 11 17 14 15 17 AND UP TOTAI, SPEED l1 4.6 7 .0 .0 0 0 .0 5.4 .1 utlE 4.8 .4 0 .0 ,0 .0 .0 5.2 .1 NE 7.6 1.2 .0 .0 ,0 7 .0 .0 8.8 .1 EtJE 6.9 0 .0 .0 7 0 .0 0 6.9 .1 DE 7.5 3 .0 .0 7 0 .0 .0 7.8 .1 I ESE 5.0 .1 .0 .0 0 .0 .0 5.1 0 R SE '5.1 0 .0 .0 ,0

, 0 0 5.4 .1 W E SSE 3.9 .0 .0 .0 ,0 .0 .0 4.0 0 f

IC3 4.7 .1 0 .0 7 0 .0 .0 4.8 .1 IJ T SSW 1.9 .0 .0 .0 ,0 .0 .0 1.9 0 D I S'l 2.0 .1 .0 .0 ,0 .0 .0 2.1 .0 0 IISW 1.2 0 0 .0 ,0 .0 .0 1.2 0 il W .9 0 0 .0 7 0 0 .0 1.0 .0 Wilm 1.5 0 .0 .0 ,0 0 0 1.5 0 IJ W  ?.4 .u .0 .0 7 0 .0 .0 2.4 .0 H!lW 3.5 .2 .0 .0 .0 0 0 3.7 .1 CAI,H 37.6 . 32.6 TOTAL 96.5 3.S 0 .0 .n .0 0 100.0 1 i

l 2. HOURS OF DAD OH ttISSING DATA nR .1 PERCENT FOR 1764 HnURS l

J37860210DUPTABLE - 4C-13

/

\

TABLE 4C (cont'd)

Joint Frequency Distribution 10 Meter Level EXTREMELY STABLE STABILITY CLASS G PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 0-2 3-5 6-8 9-11 17-14 15-17 AND UP TOTAL SPEED 13 2.3 .2 0 .0 0 .0 .0 2.5 0 7

11NE 3.2 .7 0 .0 ,0 0 .0 4.0 .1 IIE 10.2 4 .0 .0 ,0 0 .0 10.5 .1 ENE 11.8 0 .0 .0 ., 0 .0 .0 11.8 .1 DC 12.0 .0 .0 .0 ,0 .0 .0 12.0 .1 I ESF 4.7 3 .0 .0 ,0 0 .0 4.9 .1 R SE 2.9 .1 .0 .0 ,0 .0 .0 3.0 0 W E SSt. .9 .1 .1 .0 ,0 .0 .0 1.1 .0 ICS 1.3 3 .2 .0 ,0 0 0 1.7 .0 N T SSW 3.0 4 .0 .0 ,0 0 .0 1.4 .0 D I SW .2 .3 .0 .0 ,0 .0 .0 4 .0 0 WSd .3 .1 .0 .0 ,0 .0 .0 4 0 11 W .B 0 0 .0 ,0 .0 .0 8 0 WuW .8 .3 .0 .0 ,0 0 0 1.1 .0 flW 1.2 3 0 .0 ., 0 .0 .0 1.4 .9 NNd 3.0 .4 .0 .0 .0 0 .0 3.3 .1 CAbri 39.6 . 39.6 TOTAL 96.1 3.b 3 .0 .n 0 0 100.0 1 0 HOUlt3 OF DAD OR i41SSING DATA nR .0 PERCENT FOR 1110 HOURS J37860210DUPTABLE - 4C-14

f.

k I

TABLE 4C (cont'd)

Joint Frequency Distribution 50 Meter Level STABILITY CLASS A - G PERIOD OF RECORD: 1/1/85 000 llours 1/1/86 000 Hours i

WIND SPEED (m/sec) 18 AVG 02 J.5 68 9 11 17 14 15 17 AND UP TOTAL SPEED 11 2.8 3.7 .4 .0 ,0 0 .0 6.9 .2 HilE 3.3 2.2 .2 .0 ,0 .0 .0 5.7 .2

1E 2.7 2.3 .4 .0 0 0 .0 5.4 .2 E?lE 2.6 1.7 .0 .0 ,0 .0 .0 4.3 .1 11 E 2.2 3.5 .1 .0 ,0 .0 .0 5.8 .2 I ESE 3.2 6.7 .7 .0 .,0 7

0 .0 10.6 .4 R SE 2.9 5.3 .8 .0 ,0 0 .0 9.0 3 W E SSE 2.8 3.6 .6 .1 ,0 .0 .0 7.1 .3 IC3 3.0 3.7 5 .0 ,0 0 0 7.2 3 N T SSW 3.1 2.7 .3 .0 ,0 0 .0 6.1 .2 D I SW 3.7 2.4 .3 .0 ,0 .0 .0 6.3 2 0 'fSh 3.3 1.1 .1 .0 ,0 .0 0 4.5 .1 11 ',1 3.1 .9 .1 .0 7 0 0 .0 4.2 .1 W'J W 2.5 1.1 .1 .0 ,0 0 .0 3.8 .1 tl'd 3.0 2.2 .1 .0 ,0 0 .0 5.3 .1 14'f w 2.8 3.6 .4 .0 .0 .0 0 6.7 .2 CAbfl 7.8 . 1.0 TOTAL 47.R 40.b 5.3 3 .n .0 0 100.0 2 362. HollRs OF' BAD OH HISSING D ATA nR 4.1 PERCEelf FOR 8760 HOURS J37860210DUPTABLE - 4C-15

T TABLE 4C (cont'd)

Joint Frequency Distribution 10 Meter Level STABILITY CLASS A - G PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours WIND SPEED (m/sec) 18 AVG 0-2 3-5 6-8 9-11 17-14 15 17 AND UP TOTAL SPEED

J 5.7 1.3 .0 0 o .0 .0 7.0 .1 ihik. 5.0 5 .0 .0 ,0 7 .0 0 5.5 .1 flE 6.1 .5 .0 .0 0 Crib ., 0

.0 0 6.6 .1 5.6 .1 .0 .0 .0 0 5.7 .1 DE 5.0 .1 .0 .0 ,0 0 0 5.0 .1 I ESE 3.5 .2 .0 .0 ,0

, .0 .0 3.8 0 R SC 4.6 .4 .0 .0 W C SSE

,0 .0 .0 5.0 .1 4.3 1.3 .1 .0 7 0 .0 .0 5.7 .1 ICS 5.6 1.6 .0 13 T SSW

.0 ,0 .0 .0 7.2 .2 4.2 7 .0 .0 ,o .0 .0 4.9 .1 D I Sif 4.5 7 .0 .0 0 WSW 3.S

,0 .0 .0 5.3 .1

.1 .0 .0 ,0 0 .0 3.5 0 ti d 2.8 0 .0 .0 0 W rJ W 3.5

,0 .0 2.8 0

.2 .0 .0 ,0 0 .0 3.7 .1 111 3.8 .3 .0 .0 ,0 .0 .0 4.1 .1 i1'J W 5.6 1.4 .0 .0 0 .0 .0 7.3 .1 l CALM 5.R 16 l

TOTAL 90.7

---

. --.......6 -......

9.6 2 .0 .n .0 0 100.0 .1 l

359. HOURS OF DAD OR HISSI'JG DATA nR 4.1 PERCENT FOR 8760 HOURS J37860210DUPTABLE - 4C-16

i

(

TABLE 4C (cont'd)

PERCENT BAD DATA REPORT PERIOD OF RECORD: 1/1/85 000 Hours 1/1/86 000 Hours

'l PERCHNT PAD DATA !!EPORT REPOR1 COVEHS 8760HJUas iludRS PkRCENT 5011 UIRECTIf1N ') S . 3.12 501 WIND SPE ED 139. 1.59 10:4 UIRECTI0rl 100 1.14 l ort WirJD SPEED 136. 1.55 4

TEMPERATURE 128. 1.46 DI:d POINT 1327 15.15 DELT.A T 238. 2.72 PRECIPIIATInr2 2183. 24.92 J37860210DUPTABLE - 4C-17

_w

TABLE 4D CLASSIFICATION OF ATMOSPHERIC STABILITY Stability Fasguill st* Temperature Change Classification Categories (degrees) with Beight (C/100m)

Entremely Unstable A 25.0 e-1.9 b derately Unstable 3 20.0 -1.9 to -1.7 Slightly Umstable C 15.0 -1.7 to -1.5 Neutral D 10.0 -1.5 to =0.5 Slightly stable E 5.0 -0.5 to -1.5 b derately Stable F 2.5 1.5 to 4.0 Extremely Stable . C 1.7 34.0

• Stenderd deviation of horizontal wind direction fluctuation over a period of 15 minutes to 1 bour. The values shown are average for each stability classification.

J20RPT850809 - 4D-1

TABLE 5 RADIOACTIVE LIQUID WASTE SAMPLING AND ANALYSIS PROGRAM Minimum Type of Lower Limit Liquid Relesse Sampling Analysis Activity of Detection Type Frequency Frequency Analysis (LLD)

(pCi/ml),

-7 A. Batch Waste P P Principa 5x10 Releage Each batch Each Batch Emitters) Gama Tanks

-6 I-131 1x10

-5 P M Dissolved and 1x10 One Batch /M Entrained Gases (Gama emitters)

-5 P M H-3 1x10 b

Each Batch Composite

~7 Gross Alpha 1x10

-0 P Q Sr-89, Sr-90 5x10 b

Each Batch Composite

-6 Fe-55 1x10 E. SSW Basin Principaf Gama 5x10 '

(prior to Each Each Batch Emitters blowdown) Blowdown 1x10

-6 I-131 l

l J20RPT850809 1

TABLE 6 RADIOACTIVE GASEOUS WASTE SAMPLING AND ANALYSIS PROGRAM Gaseous Release Type Sampling Minimum Type of Lower Limit Frequency Analysis Activity of Detection Frequency Analysis (LLD)

(pCi/ml)"

~4 A. (1) Radwaste Building M M Principag*gama 1x10 Ventilation Grab Sample Emitters Exhaust -6 H-3 1x10 d c -12 (2) Fuel Handling Continuous W I-131 1x10 Area Ventila- Charcoal tion Exhaust Sample -10 I-13 1x10 d ye ~11 (3) Containment Continuous Principa} Gama 1x10 Ventilation Particulate Emitters Exhaust Sample (I-131,Others) d ~11 (4) Turbine Building Continuous M Gross Alpha 1x10 Ventilation Composite Exhaust Particulate Sample d -ll Continuous Q Sr-89, Sr-90 1x10 Corposite Particulate Sample

-6 Continuous Noble Gas Noble Gases 1x10 Monitor Gross Beta or Gama l

~4 B. (1) Offgas Post M M Principaf Gama 1x10 Treatment Grab Sample Emitters Exhaust, when-ever there is flow (2) Standby Gas Treatment A Exhaust, when-ever there is flow.

(3) Standby Gas Treatment B Exhaust, when-ever'there is flow.

Note: Footnotes indicated are listed in GGNS Technical Specifications, l Table 4.11.2.1.2-1.

J20RPT850809 1 l . .

ATTACHMENT I 0FFSITE DOSE CALCULATIONAL MANUAL REVISION NO. 5 - MARKUP i

i k

1 J200DCM850829

e 8

.tsr e nau:s Title Pace Table 1.2-1 gioncemulation Factors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.0-9 1.2-2 Ingestion Dose Factors Fbr Adulta. . . . . . . . . . . . . . . . . . . 1.0-10 l 1.2-3 Site malated Ingestim Dose Ccamitpunt Factor....... 1.0-13 i 2.1-1 Dose Factors for W re to a Semi-infinita 2.0-6 l

Cloud of Noble Gmees................................

l l

2.2-la PatNay Done Factors for heimiemi specification f

3.11.2.1 and secticm 2.2.1.b. . . . . . . . . . . . . . . . . . . . . . . . 2.bil 2.2-lb PatNay Done Factors for Techrdcal Specification 2. 0-13 3.11. 2.1 and Secticm 2.2.1.b. . . . . . . . . . . . . . . . . . . . . . . . .

2.2-2a PatNay Dose Factors for hchnical Specifications 4.11.2.3 and Sectico 2.2.2.b. . . . . . . . . . . . . . . . . . . . . . . . 2.0-15 1 2.2-2b PatNay Dose Factors for hchnical Specifications 2.0-17 4.11.2.3 and Section 2.2.2.b........................

2.2-2c PatNay Dose Factors for hehnical Specifications 2.0-19 1

4.11.2.3 and Section 2.2.2.b........................

2.2-2d PatNay ! bee Factors for hchnical Specifications 2. 0-21 4.11. 2.3 and Se cticm 2. 2. 2.b. . . . . . . . . . . . . . . . . . . . . . . . {

2.2-3 Controlling Deceptors, locations and PatNays....... 2.0-23 2.3-1 Atmospheric Dispersicm Permutars for Tecimical 1 Specifications 4.11.2.1.1, 4.13.2.2, 4.11.2.3, 2.0-26 4.11.2.5.1..........................................

3. 0-2 3.0-1 Air Sanpler Collecticm sites . . . . . . . . . . . . . . . . . . . . . . . .

sites...................... 3.0-3 .

3.0-2 Miscellaneous collection 3.0-3 TID Iccations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 . 0-4 v - - - -

3.0-4 Vegeta tion Sampl e Sour ce s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3. 0- 3 0 ,

3.0-5 Fish Sample sources..................................... 3.0-11 g - , ~- -

GMND (RAF,1EIT 1 Dev. 1 - 7/83 c

ODCM LIST OF ETFE TIVE PAGES

., PAGE REV. PAGE REV.

. NO. NO. NO. N0.

1 #4 2.0-22 1 11 2 2.0-23 5 iii 2 2.0-24 #4 iv 2 2.0-25 0 v f4 2.0-26 5 vi 2 2.0-27 3 vii 5 2.0-28 5 2.0-29 3 1.0-1 0 2.0-30 3 1.0-2 2 2.0-31 0 1.0-3 2 2.0-32 0 1.0-4 1 2.0-33 0 1.0-5 #4 2.0-34 0 1.0-6 1 2.0-35 #g 1.0-7 5 2.0-36 5 1.0-8 #4 3.0-1 #4 1.0-9 2 3.0-2 #4 1.0-10 0 3.0-3 5 1.0-11 0 '

3.0-3a #4 1.0-12 0 3.0-3b #4 1.0-13 2 3.0-4 #4 1.0-14 1 3.0-5 5 l

1.0-15 4 3.0-6 5 3.0-6a 5 2.0-1 5 3.0-6b 5 2.0-2 5 3.0-Sc #4 2.0-3 2 3.0-7 3 2.0-4 .f 4 3.0-8 1 2.0-5 #4 3.0-9 3 2.0-6 0 3.0-10 5 2.0-7 5 3.0-11 5 2.0-8 f4 2.0-9 f4 2.0-10 5 2.0-10a 5 2.0-11 1 2.0-12 1 2.0-13 2 2.0-14 1 2.0-15 2 2.0-16 2 2.0-17 1 2.0-18 2 2.0-19 1 2.0-20 1 2.0-21 2 GRAND GULF, UNIT 1 vii Rev. 5 - 1/85

hs, a control room alam occurs if the dilutien flow rate falls below the assmed f1w rate of 90 percent of the actual dilution flow, or if the waste tank effluent flow ra'ta exceeds 90 percent of the calculated maximan waste tank effluent f1w rate, and the release is teminated.

Step 5) The radioactivity nonitor metpoint ney now be specified based on the values of fC ,g F, and f which were specified to provide capliance with the limits of 10CFR20, Appendix B, Table II, Colum 2. The monitor response is primarily to game radiation; therefore, the actual setpoint is based on 2C. 9 g

'Ihe setpoint concentration, C, is dew as follows: e g [wastetank d C C*

=h 9 9 (uCi/ml) (7) where f, is the actual (or maximan expected) effluent ficw rate. The value of C, (uci/ml) is used to detemine the monitor setpoint (CPM) fran the calibraticr curve of Figure 1.0-1.

NtnE: The setpoint contains a factor of ccriservatiwn, even if the calculated maximan waste tank flow rate is attainable, since the calculated rate catains the safety factor margin, weste tank effluent f1w rate margin, and the dilution flow rate margin. In practice, the actual waste tank effluent f1w rate normally is many tines less than the amiculated tank f1w rate, thus prwiding an additional conservatisn during t

l release.

l GRAND EnE,LNIT 1 1.0-5 Rev. 0 - 8/82

F = near field average dilution factor for Cg during any 3

liquid effluent eelease. Defined as the ratio of the average undiluted Ifquid waste flow during release to the product of the average flow from the site discharge structure to unrestricted receiving waters times the applicable factor of 2(5) . 5

= average undiluted liquid waste flow average flow from site discharge x 2 l5 g

5 K = units conversion factor 1.14 x 10 6 3

= 10 al 8766 hr 10 bi

• xi - sej y

Up = adultfishconsumption(21kg/yr)I3) .

BF = Bioaccumulation factor for each nuclide, 1. in 4

fish, in pti/kg per pC14 from Table 1.2-1 (taken from Reference 3 Table A-1).

DF,

= Dese conversion factor for each nuclide, 1, for adults in preselected organ Tau, in arem/pti, free Table 1,2-2 (taken from Reference 3. Table E-11).

for radionuclides which might be observed Calculated values of AiTau J#EEfr 1" " S"i d '"'"'"t' 15 'i" '" * * *

Doses from liquid effluents to UNRESTRICTED AREAS are projected at least every 31 days as required by GGNS Technical Specification 4.11.1.3.1.

These projections are made by averaging the doses (DTAU) rom Previous c'perating history (normally the previous six months) which is indicative of expected future operations.

GRAND Gut.F. UNIT 1 1.0-s Rev. 5 - 1/s5

8 IIOTES For Section 2.1.1

. l5

1) The calculated setpoint values will be regarded as upper ,

bounds for the actual setpoint adjustments. That 16. setpoint adjustments are not required to be performed if the existing ,

setpoint level correspynds to a lower count rate than the calculated value.

2) A more conservative setpoint may se calculated to minimiz'e requirements for adjustment of the monitor utilizing the 5

' calculations provided in section 2.1.1 and the terms listed below:

D = 500 arem/yr TB 5 D, = 3000 mrem /yr 3

R" = conservative count rate per erem/yr to the total I body (Xe-133 detection, Kr-89 dese)

=

C' + (X/Q x K x Q{}

where.

Q" = Assigned release rate value of, for example, 1.0 uti/sec,Xe-133. Flow rate utilized is the maximum designed flow. (See definition of C' below.)

C' = count rate of vent monitor for an effluent concentration of Xe-133 corresponding to a 1.0 uti/sec release rate of Xe-133. (Note: Calculate the related concentration based on dilution flow.)

gg = total body dose factor for Kr-89, the most K

(g#*/**,fa) restrictive isotope, from Table 2.1-1.

i L

&a-# / = conservative count rate per arem/yr to the skin R," -)

e-

~

= C' + X/Q m [L

• 1.190 a Q*

Where L = skin dose factor for Kr-89, from Table 2.,1-1, 5 GRAND GULF UNIT 1 2.0-4 Rev. 5 - 1/s5

5

. M = si,r, dose factor for Kr-89, from Table 2.1 1.

, . , ~/ . ~ m ,,d ~ - ,

_~ ,, , . - __

f-

= (X) Q" (3.53E-5) (60)

Where, .

i X = volume efficiency factor of the system for Xe-133 in cpa/uCi/cc.

V = maximum designed ventilation flow rate in )

cubic feet per minute (cfe) (

3 3.53E-5 = the conversion factor for ce to ft 60 = the conversion factor for minutes to .

seconds

~

_ _ , ,, _v~-.

, s-l l Z # 5 E R 7*

1

\ m y S.0~ Y l

l l

i 2.b5 Rev. 5 - 1/85 W1

• - j

~

rate of release of ceble gas L

Q'g =

radionuclide i (uCi/Sec) from the /

}

N

h. release point. ,

s s. .s._ .....,_.--s-W = controlling sector annual average atmospheric l

, l l

dispersion at the SITE SOUNDARY er UNRESTRICTED

- 5 AREAS inside the SITE B0UNDARY for the appropriate pathways EQ = ,4.537 a 10-6* ,,gf ,3 for inhalation in 5

< the WN'n' sector, D7Q = 1.301 a 10*8** m*2 for other pathways 5 in the $$E sector p

g

= the total dose parameter for radionuclide 1 (arem/yr per uti/m8) for inhalation and (m'

• 5 arem/yr per uti/sec) for food and ground plane J#SEE7 pathways, from Table 2.2 1.a-d.

O'g

= average release rate of isotope i of trittur, 1-131. 1-133 or other radionuclide in particulate fore, with half-lives greater than eight(8)daysinthecurrentyear(uC1/sec).

2.2.2.a For the purpose of implementation of Specification 3.11.2.2, the air dose at the 5ITE SOUNDARY or at 5 UNRESTRICTED AREAS inside the SITE SOUNDARY shall be determined as follows:

e air dose due to gama er.issions free noble gas 0,

radionuclide1(arad)

= 3.17a10*8[gg M iTQ' Og

• The highest annual average X/Q for the GGNS 51TE SOUNDARY or UNRESTRICTED AREAS inside the SITE BOUNDARY is Hamilton Lake (WNW, 0.75 miles). This value is taken from the Grand Gulf Nuclear 5 5tation Final Environmental Report, Table 6.1.F8.

• • Value taken from Reference 4. Table 6.1.26 2.0-s Rev. 5 - 1/s5 GRAND GULF. UNIT 1

's e

Where.-

X70'= relative concentration for the SITE,00UNDARY er UNRESTRICTED AREAS inside the $1TE 80'UNDARY. 5

= 4.537 x 10-6* ,,gf ,3. in the WNW sector

~

My = sir dese'. factor due to gama emissions from 3

noble gas radionuclide 1 (erad/yr per utt/m )

from Table 2.1-1 Q '.

= cumu1*tive release of radionuclide 1 of noble 5

gas, tritium. 1-131. 1-133, or material in particulate form over the period of interest (uti)

Note: 3.17 x 10-8 is the inverse of the number of seconds per year, and Dg = air dose due to beta emissions from noble gas radionuclide f (mrad)

= 3.17x10-8{g Ng X/Q' Q, Where.

Ng = air dose factor due to beta erissions from ,

3 noble gas radionuclide 1 (erad/yr per vCi/m )

from Table 2.1-1 kQ'= relative concentration for the 51TE SOUNDARY or 5

UNRESTRICTED AREAS inside the $1TE BOUNDARY 3

= 4.537 x 10~0* sec/m . in the WNW sector

• The highest annual average X/Q for the GGN5 SITE B0UNDARY or 5

UNRESTRICTED AREAS inside the $1TE SOUNDARY is Namilton Lake 0.75 miles). This value is taken from the Grand Gulf Nuclear

$tation Final Environmental Report. Table 6.1.28.

Rev. 5 - 1/s5

,$ RAND GULF. UNIT 1 ,, g

' " r~ ~ l 2.3 Meteorological ledel .

l 2.3.1 The atmospheric dispersion for[ gaseous releases"#

omiculated using a ground-level, M11t fem of the straight line flow sodel.

3 X/Q = atmospheric dispersion (sec/m )

2.03 4 k zu [

w ere, r = distance k) fra release point to location of interest 6 = plume depletion factor at distance r fr a Figure 2.3-1.

u = wind speed at ground level m/sec) k = open terrain recirculation factor at distance r, fr a page 2.0-34

~

l2 the lesser of (,2 + b2 y h or [3 r l

[=

were, T

F = vertical standard deviation @) of the plume at distance r for ground-level releases under the ,

stability category indicated by T, frm Figure 2.3-2.

l T = taperature differential with vertical separa-tion ('K/100m) b = height of the reactor building = 53.3m.

SAND GLUE, IMIT 1 2,0-24 Rev. 2 - 5/84

{

2.5 GASDOUS RADOETE 'mEMMEhi SYSTEM to ensure The instruments required to be C h by 152S 3/4.11.2.4 that the GASBOUS RADWASTE TREMMENI (GKAS) SYSTEM is functicming are:

1. Absorber train bypass swit& (IN64-IIS-M611) g

2. Bypass valve indicaticm (IN64-F045) teien the absorber train bypass switch is in the '11 GAT position and the bypass valve indicates closed, the GASDOUS RADWASTE 'DGEDGh7 (GTGAS) SYSTEM is functioning.

I/SER T

&~ J

& o@cy e.

/y.6 .

m vor:

WONR E13JlSC m, c2 en:m:.m: armss -_

no A 2 ffn2 M e cAs e A2p N to e F045 anczA soc,rza rum e assem # n szn,o w- _ _ y 0 -

(aime p _ oucxw. _ _ . _

4 ans h .

,% EPA EPA W 1 F D W IT) FILID FIL2 p db

/ V su o e n

/ Euoc waa

' 4

!=

S: 2 - r-1 M .rry b h p ::d p::;i'.c.' O; li.Tn; er L J.J s1 ^'

Wifir-*i- ? 12.2.1 :r: re m r ::' ', Se f.=:::1 i:'- .-ill & c:_" *"'

--Tr :: =: :: i= :: :::::=.1;;y ; .i;;

=:h :: 7:%1: ':

tic."-

2.0-35 pev. 4 - 8/84 GRAND GUIE, ilNIT 1

f OA G * .

M gas

3. .

p s.t.

W.ll 9 9W (1) e,,.,.,

gy l .A, 3* "

Sm. au.In 86 l

mlf. \ 04

-Of 3.PB,151.) 55. . W.. i f!LTI. FILTF. 1

' _ ___.. _. _ _ _ _ _ _ _ _ _ _.._ ' i

/ ..w=

er=

. .-______i witm rnre, elket al F- i' . -- ~

Fb

r. . '='

_J u u s

d 99 N.. '

S*7519f n

.t , 93 g FILTF. Flieg.

.m..W . , ,

dh 4

"TrP1 W y me. I Fl m FILTfl flLTil .flL f.

{

"'m " I m. ,., -

c -

_ , mim- m u w%..

u.u.i. tt.c.

.* ia.

ygg, n ,g,,gg e. ..ew=*.e o r, . to a

.t:-

ta O .a.

I une yg. .. . .)

g .411k l.e t 7, ., mime g F

pg e vg. , gur. tests" Star F Q' . ~

i '. .

' C' ' . 8 .

.s. Ig _ i sL.cw I r - ...4 ,

7, t %Mr' t

v. j p J

} i L s g........

K.) . . . . . .

. h

,,, ... , .g..

ru m enu.

7 - c ,. , . -

i ...r.

.A. .. ... ,.,9 J J l

p I

) . . . .. . . . . .

i l

l

1. he shercoal beds are bypassed during startup until en adequate dowpoint is obtained in ti,e process stream.

2. Thie pathney may be uti1 Ired for power levels g $%.

3. During normal operations the dentster and filter unfts (proff1ters, charcoal filters and HEPA filters) are

, not installed in the filter tref n. However, the filter trefn is evaliable to be operable at a later date l uhen the filter and desister are installed. Taken from Reference 4, Figure 3-8.

i l 4. Standby Ces Treatment System not normally operated.

3.0 RADIOLOGICAL ENVIRONP. ENTAL MONITORING Sampling letttions as required in section 3/4.12.1 of the '

Radiological Effluent Technical Specification are descr.ibed in Table 3.0-3 through 3.0 3 and shown on maps in N gures 3.'0-1 through 3 The types of togetation and fish efhich are normally available for sampling are identified in Tables 3.0-4 and 3.0-5 respectively.

l l

3.0-1 Rev. 5 - 1/s3 GRAND GULF, UNIT 1

ODCM TAB C .0-1 AIR SAMPLER COLLECTION SITES AIR SAMPLERS NtRBER FIGURE LOCATION 3.0-3 Southeast of GGNS at the Port Gibson City Barn.

• A5-1 PG (SectorGRadius5.5 miles) 3.0-2 North Northeast of GGNS on by 61 South across AS-2 61N from the Yokena Church. (Sector S Radius 13 miles) 3.0-2 North Northeast of GGNS on by 61 south at the

• A5-3 61 VA Vicksburg Airport. (Sector S Radius 18 miles) 3.0-1 Southwest of GGNS. $10djo property on Waterloo AS-4 GJOE Road. (Sector L Radius .9 miles) 3.0-1 South of GGNS behind MP&L training eenter AS-5 TC building. (Sectu J Radius .4 miles) 3.0-1 Northeast of GGNS, uth of Grand Gulf Road.

• AS-6 R5 (SectorCRadius. miles)

• AS-7 Mi 3.0-1 North of GGNS,(located gical Tower.

next Sector A Radius .8 miles) to the Meteoro 3.0-1 East of GGNS located at Maggie Jackson's

• AS-8 WR trailer on Waterloo Road near the Eastern SITE SOU C ARY. (Sector E Radius .5 miles)

AS-g GGMP 3.0-1 North of GGNS, located in Grand Gulf Military Park. (SectorARadius1.5 miles) 3.0-3 West Northwest of GGNS. located at Newe11 ton, AS-10 NLT Louisiana. (Sector P Radius 12.5 miles) 3.0-3 West Southwest of GGNS, located at St. Joseph.

AS-11 STJ Louisiana. (Sector M Radius 13.0 miles) 5

• Technical Specification requirements 3.0-2 Rev. 5 -1/s5 kAND GULF. UNIT 1

TABLE 3.0 CONTINUED)

Page Z of 3 SURFACE WATER Finure 4500 ft. upstream of the GGNS Upstream

• 3.o r outfall to allow adequate mixing of the Mississippi and Big Black f Rivers.(SectorQ) 5000 ft, downstream of SGNS Downstream

• 3.0 [ outfall, near the most southern radial well. (Sector N)

Discharge Basin

• 3.0- West of GGNS. 0.5 miles.

Sector p VEGETATION .2 Broad Leaf Vegetation

• 3.0-[ South of GGNS near the old training center (Sector J. 0.5 5

miles) and North Northwest of GGNS near the Meteoro, logical Tower (SectorR.0.7 miles)

NOTE The above locations are gardens maintained by MP&L inside the SITE BOUNDARY in order to provide a more 5

conservative calculation of doses due to the potential ingestion of contam-insted vegetation. These two sam-pling sites exceed the requirements of Technical Specification 3.12.1.

Alcorn State University South-west of GGN5 (Sector K. 10.5 miles)

FISH $A M ES J.0 # Downstream of the discharge Comercially or recreationally important point in the Mississippi River species M Upstream of Discharge point uninfluenced by Plant l .

Operations.

5

• Technical Specification requirements GRAND GULF, UNIT 1 , 3.o.3. Rev. 5 - 1/s5

ODCM

- TABLE 3.0 M CONTINUED)

Page 3 of 3

-SEDIMENT $AMPLES

• Finure Collected semiannually during 3.0f f the low water periods of the Tidal Basin - samples taken

/ downstream of the outfall in the

.I s vicinity of the boat landing near Hamilton Lake outlet and in thetarpeSlip. (Sector N and Q, 2 mi es)

. Collected upstream from barge SEDCONT

~

slip at Upper rand Gulf Landing (SectorR.2 miles) l 5

• i;;hr.i;;l 4;;!!!;;th? 7;;;' ;;;2t; "'

=

_____ p -

• Hamilton Lake outfall is a Technical Specification requirement

/

.c

%- _ _ _ ~ _ _ . _ _

~ ~ ~

. . .n Rev. 5 - 3/s3 GRAND GULF, UNIT 1 3.0-3b

~

00CM TABIT3.0-3

TLD LOCATIONS 7 age 1 of 6 .

LOCATION FIGURE SECTOR , MILE TLD NO.

M-00 Maintained in lead shield - -

during the exr.. tare period -

• M-01 REA Pole-East f Entry Gate at Lake Claiborn > 3.0-3 E 3.5 M-02 REA Pole Lt.f. c' Entry Gate Windsor Rui' 3.0-3 L 7.0 M-03 REA Pole Et,t 31de Hwy 61 P.G. Coun'.r y tiub entrance 3.0-3 H 7.0 M-04 MP&L Pole-Hwy 547 North Side en Between Twin Power Poles ( 3.0-3 : G 6.5

%.A M-05 50 yards North of Hwy 18 Approximately 5 miles East of U.S. 61 3.0-3 F 9.0 M-06 REA Pole-East of Willows IN 5 10.0 Beyond MMB Church MS Hwy 462 30[3.I, Port Gibson City Barn AS-1 3.0-3 G 5.5

• M-07 M-08 West Side Big Black River South Entrance 3.0-3 C 8.5

• l4-09 Cak Tree Hanger-South Warner Tully Camp 3.0-3 D 3.5

• M-10 Entrance Gate Grand Gulf 1.5 Military Park 3.0-1 R M-11 Hwy 61 3 miles North of Big Black River at Twin Tower 3.0-3 C 10.5 M-12 Mwy 61 at AS-2-61 North i Yokena 3.0-2 B 13.0 M-13 Hwy 61 Letourneau Hill West 5 3.0-2 B 15.0 Side of Road

• Technical Specification requirements 5 t

GRAND GULF, UNIT 1 3.0-4 Rev. 5 - 1/85

TABLE 3.0 CONTINUED) e T .D LOCAT:.ON5 i' age 6 o4 6 TLD NO. LOCATION FIGURE StCTOR . MILE M-74 Midway of North fence Not Shown F Onsite M-75 Corner in fence in front *

• of Maintenance Shop A M-76 Southeast corner SSW Sasins A M-77 Protected area fence beside "

• maintenance shop R M-78 Outside vault in Admin. 81dg. Q M-79 Wall in Central Records (middle) Q M-80 Wall in Central Records old " "

library location Q M-81 Inside Admin. Bldg., 2nd floor. " "

northeast wall Q M-82 Tech Support Area Q M-83 Tech Support Secretary's office Q M-84 Security Island P n-

]pg5 aas .< . a., u.... -

• M-86 Sechtel Gate North Site 0.5 Soundary 3.0-1 8 M-87 Intersection of Rodney Road

& transmission line 3.0-3 J 3.5

• M-88 River mile marker 409.5 3.0-1 A 4.2

• M-89 Middle Ground Island 3.0-1 R 4.4 3.0-1 Q 3.5 5

• M-90 Across from Middle Ground Island Transmission Ifne by pond 3.0-1 J 4.5

• M-91 i

• Technical Specification requirements

- -- - _ - - ~ " 5 Lee Electric Building Across om Port Gibson Eigh School 3.0-3 G 5.2 SRAND GULF, UNIT 1 3.0-6c Rev. 5 - 1/85

ATTACHMENT II OFFSITE DOSE CALCULATION MANUAL REVISION NO. 6 J200DCM850829 i

l Revision No. 6 Date 9/27/85 l GRAND GUIJ NUCLEAR STATION OFFSITE DOSE CALCULATION MANUAL SAFETY RELATED EVALUATION APPLICABILI'TY SAFETY EVALUATION ENVIRONMENTAL EVALUATION APPLICABLE APPLICABLE NOT APPLICABLE X NOT APPLICABLE Reviewed / Approved: .m C _A 9[7/D Supervtiitod Environ = ental Services /Date Reviewed / Approved: b . MsA 7/n//f Su'pervisor, Radiolo'gical Services /Date 7 7/f[

Reviewed / Approved:

'a , diologi & Environmental Services /Date Reviewed / Approved: ~ aM f f /9//7/65 D' c or . ucle r/Supporg/Datd Reviewed / Approved: .

> I/M2/[$

Ctnririad, Plful Safety Review Committee /DKe ~ /~

GRAND GULF, UNIT I i Rev. 6 - 9/85 J200DCM850829

OFFSITE DOSE CALCULATION MANUAL LIST OF TABLES Table Title Page 1.2-1 Bioaccumulation Factors................................. 1.0-9 1.2-2 Ingestion Dose Factors For Adults....................... 1.0-10 1.2-3 Site Related Ingestion Dose Commitment Factor........... 1.0-13 2.1-1 Dose Factors for Exposure to a Semi-infinite Cloud of Noble Gases.................................... 2.0-6 2.2-la Pathway Dose Factors for Technical Specification 3.11.2.1 and Section 2.2.1.b............................ 2.0-11 2.2-lb Pathway Dose Factors for Technical Specification 3.11.2.1 and Section 2.2.1.b............................ 2.0-13 2.2-2a Pathway Dose Factors for Technical Specification 4.11.2.3 and Section 2.2.2.b............................ 2.0-15 2.2-2b Pathway Dose Factors for Technical Specification 4.11.2.3 and Section 2.2.2.b............................ 2.0-17 2.2-2c Pathway Dose Factors for Technical Specification 4.11.2.3 and Section 2.2.2.b............................ 2.0-19 2.2-2d Pathway Dose Factors for Technical Specification 4.11.2.3 and Section 2.2.2.b............................ 2.0-21 2.2-3 Controlling Receptors, Locations and Pathways........... 2.0-23 2.3-1 Atmospheric Dispersion Parameters for Technical Specifications 4.11.2.1.1, 4.11.2.2, 4.11.2.3, 4.11.2.5.1..............................................2.0-26 3.0-1 Air Sampler Collection Sites............................ 3.0-2 3.0-2 Miscellaneous Collection Sites.......................... 3.0-3 3.0-3 TLD Locations........................................... 3.0-4 3.0-4 Vegetation Sample Cources............................... 3.0-10 6

3.0-5 Fish Sample Sources..................................... 3.0-11 GRAND GULF, UNIT 1 v Rev. 6 - 9/85

~

ODCM LIST OF EFFECTIVE PAGES i

PAGE REV. PAGE REV.

NO. NO. NO. NO.

i 6 2.0-22 1 ii 2 2.0-23 5 iii 2 2.0-24 6 iv 2 2.0-25 0 v 6 2.0-26 5 vi 2 2.0-27 3 vii 6 2.0-28 5 2.0-29 3 1.0-1 0 2.0-30 3 1.0-2 2 2.0-31 0 1.0-3 2 2.0-32 0 1.0-4 1 2.0-33 0 1.0-5 6 2.0-34 0 1.0-6 1 2.0-35 6 1.0-7 5 2.0-36 5 1.0-8 6 3.0-36 6 1.0-9 2 3.0-1 6 1.0-10 0 3.0-2 6 1.0-11 0 3.0-3 5 1.0-12 0 3.0-3a 6 1.0-13 2 3.0-3b 6 1.0-14 1 3.0-4 6 1.0-15 4 3.0-5 5 3.0-6 5 2.0-1 5 3.0-6a 5 2.0-2 5 3.0-6b 5 2.0-3 2 3.0-6c 6 2.0-4 6 3.0-7 3 2.0-5 6 3.0-8 1 2.0-6 0 3.0-9 3 2.0-7 5 3.0-10 5 2.0-8 6 3.0-11 5 2.0-9 6

2.0-10 5 2.0-10a 5

( 2.0-11 1 2.0-12 1 2.0-13 2 2.0-14 1

! 2.0-15 2 2.0-16 2 2.0-17 1 1 2.0-18 2 l

2.0-19 1 2.0-20 1 2.0-21 2 GRAND GULF, UNIT 1 vii (Corrected)

. - _ _ J20 LIST --- .. .. . _ . - . _ - _ - - - _ _ Rev. 6 -_ 9/85_ . . .

Thus, a control room alarm occurs if the dilution flow rate falls l below the assumed flow rate of 90 percent of the actual dilution j flow, or if the waste tank effluent flow rate exceeds 90 percent of the calculated maximum waste tank effluent flow rate, and the release is terminated.

Step 5) The radioactivity monitor setpoint may now be specified based on the values of ICg, F, and f which were specified to provide compliance with the limits of 10CFR20, Appendix B, Table II, Column 2. The monitor response is primarily to gamma radiation; therefore, the actual setpoint is based on I 8 C. 8 The setpoint concentration, C,is determined as follows:

I d

C = -

I C f

8 8 (uCi/ml) (7) a 6

where f, is the actual (or maximum expected) waste tank effluent

! flow rate. The value of C,(uCi/ml) is used to determine the monitor setpoint (CPM) from the calibration curve of Figure 1.0-1.

NOTE: The setpoint contains a factor of conservatism, even if the calculated maximum waste tank flow rate is attainable, since the calculated rate contains the safety factor margin, waste tank effluent flow rate margin, and the dilution flow rate margin.

In practice, the actual waste tank effluent flow rate normally is many times less than the calculated tank flow rate, thus providing an additional conservatism during release.

i GRAND GUI.F, UNIT 1 1.0-5 Rev. 6 - 9/85 J200DCM850829

e F = near field average dilution factor for C gduring any 3

liquid effluent release. Defined as the ratio of the average undiluted liquid waste flow during release to the product of the average flow from the site discharge structure to unrestricted receiving waters times the applicable factor of 2(5) ,

= average undiluted liquid waste flow average flow from site discharge x 2 K, = units conversion factor 1.14 x 10

=

6 10 pCi x 10 3a1 + 8766 br uCi Kg yr U = adult fish consumption (21 kg/yr) ( ).

F BF j = Bioaccumulation factor for each nuclide, i, in fish, in pCi/kg per pCi/1 from Table 1.2-1 (taken from Reference 3, Table A-1).

DF g = Dose conversion factor for each nuclide, i, for adults in preselected organ, Tau, in arem/pCi, from Table 1.2-2 (taken from Reference 3, Table'r.-11).

Calculated values of A iTau f r radionuclides which might be observed in liquid effluents are given in Table 1.2-3.

I i

Doses from liquid effluents to UNRESTRICTED AREAS are projected at least l

every 31 days as required by GGNS Technical Specification 4.11.1.3.1.

l 6

l These projections are made by averaging the doses (D,ggg) from previous operating history (normally the previous six months) which is indicative of expected future operations.

l GRAND GUII, UNIT 1 1.0-8 Rev. 6 - 9/85 RwiWcT:fMMB _ ~ _ - . _ . ~ _ _

NOTES For Section 2.1.1

1) The calculated setpoint values will be regarded as upper bounds for the actual setpoint adjustments. That is, setpoint adjustments are not required to be performed if the existing setpoint level corresponds to a lower count rate than the calculated value.

2) A more conservative setpoint may be calculated to minimize requirements for adjustment of the monitor utilizing the calculations provided in section 2.1.1 and the terms listed below:

D = 500 arem/yr TB 6 D,, = 3000 mrem /yr R" = conservative count rate per mrem /yr to g

the total body (Xe-133 detection, Kr-89 dose)

= C' + (X/Q x K x Q")

Where, Q" = Assigned release rate value of, for example, 1.0 uCi/sec, Xe-133. Flow rate utilized is the maximum designed flow.

(See definition of C' below.)

C' = count rate of vent monitor for an effluent concentration of Xe-133 corresponding to a 1.0 uti/see release rate of Xe-133, (Note: Calculate the related concentration based on dilution flow.)

= (X) 6" (3.53E-5) (60) 6 V

I GRAND GULF, UNIT 1 2.0-4 Rev. 6 - 9/85 nwwrawunse __

Where, X = volume efficiency factor of the system for Xe-133 in cps /uci/cc.

V = maximum designed ventilation flow rate in 6 cubic feet per minute (cfe) 3 3.53E-5 = the conversion factor for cc to ft 60 = the conversion factor for minutes to seconds X = total body dose factor for Kr-89, the most restrictive isotope, from Table 2.1-1.

R" = conservative count rate per arem/yr to s the skin

= C' + [ X/Q x (L + 1.1M) x QU ]

Where, L = skin dose factor for Kr-89, from Table 2.1-1, M = air dose factor for Kr-89 from Table 2.1-1 2.0-5 Rev. 6 - 9/85 GRAND GULF, UNIT 1

~

W = controlling sector annual average atmospheric dispersion at the SITE BOUNDARY or UNRESTRICTED AREAS inside the SITE BOUNDARY for the appropriate pathway.

~0* 3

= 4.537 x 10 sec/m for

{X/Q inhalation in the WNW sector.

= i

-8** m-2 for other (D/Q = 1.301 x 10 pathways in the SSE sector Pg = thetotaldoseparamegerforradionuclide i, (argm/yr per uCi/m ) for inhalation and (m . arem/yr per uCi/sec) for food and ground plane pathways, from Table 2.2-1.a-b.

= rate of release of noble gas 6 Q ' *. radionuclide 1 (uCi/Sec) from the release point.

= average release rate of isotope i of Q'*. tritium, 1-131, I-133 or other radionuclide in particulate form, with half-lives greater than eight (8) days in the current year (uci/sec).

l l

l l

i

• The highest annual average X/Q for the GGNS SITE BOUNDARY or UNRESTRICTED AREAS inside the SITE BOUNDARY is Hamilton Lake (WNW, l

0.75 miles). This value is taken from the Grand Gulf Nuclear Station Final Environmental Report, Table 6.1.28.

• • Value taken from Reference 4, Table 6.1.26.

l 2.0-8 Rev. 6 - 9/85

[ GRAND Gulf UNIT 1

2.2.2.a For the purpose of implementation of Specification 3.11.2.2, the air dose at the SITE BOUNDARY or at UNRESTRICTED AREAS inside the SITE BOUNDARY shall be determined as follows:

Dy = air dose due to gansia emissions from noble gas radionuclide i (arad)

-8 gjg,

= 3.17 x 10 y,g,

• • g*,

Where, X/Q' = relative concentration for the SITE BOUNDARY or UNRESTRICTED AREAS inside the SITE BOUNDARY.

-6*

= 4.537 x 10 sec/m3 , in the WNW sector M. = air dose factor due to gamma emissions

• from noble gas radionuclide 1 (arad/yr per uCi/m3 ) from Table 2.1-1 Q*.

= cumulative release of radionuclide i of noble gas, tritium, I-131, I-133, or material in particulate form over the period of interest (uCi)

~0 Note: 3.17 x 10 is the inverse of the number of seconds per year, and D = air dose due to beta emissions from noble B

gas radionuclide i (arad)

~8

= 3.17 x 10 1.* N* . X/Q' Q*.

Where, N. = air dose factor due to beta emissions

• from noble gas radionuclide 1 (arad/yr per uCi/m3 ) from Table 2.1-1 X/Q' = relative concentration for the SITE BOUNDARY or UNRESTRICTED AREAS inside the SITE BOUNDARY

-6*

= 4.537 x 10 sec/m3 , in the WNW sector

• The highest annual average X/Q for the GGNS SITE BOUNDARY or UNRESTRICTED AREAS,inside the SITE BOUNDARY is Hamilton Lake (WNW, 0.75 miles). This value is taken from the Grand Gulf Nuclear Station Final Environmental Report, Table 6.1.28.

GRAND GULF, UNIT 1 2.0-9 Rev. 6 - 9/85 j J200DCM850829

2.3 Meteorological Model 2.3.1 The atmospheric dispersion for gaseous releases may be l6 calculated using a ground-level, wake-split form of the straight line flow model.

3 X/Q = atmospheric dispersion (sec/m )

2.03 6 k ru 1 Where, r = distance (m) from release point to location of interest 6 = plume depletion factor at distance r from Figure 2.3-1.

u = wind speed at ground level (m/sec) k = open terrain recirculation factor at distance r, from page 2.0-34 I = the lesser of (c 2 + br) 4 or J 30 n

Where, c = verticle standard deviation (m) of the plume at distance r for ground-level releases under the stability category indicated by T, from Figure 2.3-2.

T = temperature differential with vertical separation

(*K/100m) b = height of the reactor building = 53.3m.

I i

l l

l

! 2.0-24 Rev. 6 - 9/85 I

GRAND GULF, UNIT 1

. e 2.5 Caseous Redweste Treatment System The instruments required to be checked by RETS 3/4.11.2.4 to ensure that the CASEOUS RADWASTE TREATMENT (Offges) SYSTEM is functioning are:

1. Absorber train bypass switch (IN64-HS-M611)

2. Bypass valve indication (IN64-F045)

When the ebsorber train bypass switch is in the TREAT position and the bypass valve indicates closed, the CASE 0US RADWASTE TREATMENT (Offgas) Systeri is functioning.

so amamuu

. . . 2-.. ,,. . ., <n .O

% $ E g Q- l Q, _j_- 9 #

'"".lT%!? 6.

C no i

. .L._ Y i

,,a4--. ,=, 4- - - - - - , , = ;;- - , ,

=

,, - .-. r- r- -

" d J I j aW m  %

m

- = - g, n.

!i ,"' , ,

t w T..g; "

I ne m= fWT.:-

eu ,

.E" . . . 7,_. L

~

"7 ' ~_ j

.6.

D

%,.. r .-

.g.'>.=. -

I U

_p ., 9 _-.; &

- -. 6

... a

.... l . . , O ,";. .G.

I

'r g:: ;- LEF _

";:.?

L . ....

O._.

l 4 G ,"d* .

"lllT .

.(- - -

. ce U j 'l"7'""%:T,

1. The charcoal beds are bypassed during startup untti an adequate dowpoint is obtained in the process stream.

2. This pathway may be utilized for power levels & 5%.

3. During normal operations the deelster and filter units (prefilters, charcoal filters and HEPA filters) are not installed in the filter train. However, the filter train is eve 11able to be operable at a 1 ster date when the filter and demister are installed. Taken from Reference 4, Figure 3-8.

4. Standby Cas Treatment System not normally operated.

CDAND GUI LilNIL1 .2.0-35 Rom 6 - 9/85 . _ _ -

J A

3.0 RADIOLOGICAL ENVIRONMENTAL MONITORING Sampling locations as required in Section 3/4.12.1 of the Radiological Effluent Technical Specification are described in Tables 3.0-1 through 3.0-3 and shown on maps in Figures 3.0-1 through 3.0-3. The types of 6

vegetation and fish which are normally available for sampling are identified in Tables 3.0-4 and 3.0-5 respectively.

I GRAND GULF, UNIT 1 3.0-1 Rev. 6 - 9/85 J200DCM850829

_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ * * " " * * * - = - . _ . , , , . _ _

ODCM TABLE-3.0-1 AIR SAMPLER COLLECTION SITES AIR SAMPLERS NUMBER FIGURE LOCATION

• AS-1 PG 3.0-3 Southeast of GGNS at the Port Gibson City Barn.

(Sector G Radius 5.5 miles)

AS-2 61N 3.0-2 North Northeast of GGNS, on Hwy 61 South across from the Yokena Church. (Sector B Radius 13 miles)

• AS-3 61 VA 3.0-2 North Northeast of GGNS on Hwy 61 south at the Vicksburg Airport. (Sector B Radius 18 miles)

AS-4 GJ0E 3.0-1 Southwest of GGNS. Glodjo property on Waterloo Road. (Sector L Radius .9 miles)

AS-5 TC 3.0-1 South of GGNS behind MP&L training center building. (Sector J Radius .4 miles)

• AS-6 RS 3.0-1 Northeast of GGNS, South of Grand Gulf Road. 6 (Sector C Radius .5 miles)

• AS-7 MT 3.0-1 North of GGNS, located next to the Meteorological Tower. (Sector A Radius .8 miles)

• AS-8 WR 3.0-1 East of GGNS, located at Maggie Jackson's trailer on Waterloo Road near the Eastern SITE BOUNDARY. (Sector E Radius .5 miles)

AS-9 GGMP 3.0-1 North of GGNS, located in Grand Gulf Military Park. (Sector A Radius 1.5 miles) l AS-10 NLT 3.0-3 West Northwest of GGNS, located at Newe11 ton, Louisiana. (Sector P Radius 12.5 miles)

AS-11 STJ 3.0-3 West Southwest of GGNS, located at St. Joseph,

Louisiana. (Sector M Radius 13.0 miles)

• Technical Specification requirements GRAND GULF, UNIT 1 3.0-2 Rev. 6 - 9/85 J200DCM850829

ODCM TABLE 3.0-2 (CONTINUED)

Page 2 of 3 SURFACE WATER FIGURE Upstream

• 3.0-1 4500 ft. upstream of the GGNS 6l outfall to allow adequate mixing of the Mississippi and Big Black Rivers. (Sector Q)

Downstream

• 3.0-1 5000 ft. downstream of GGNS outfall, 6l near the most southern radial well.

(Sector N)

Discharge Basin

• 3.0-1 West of GGNS, 0.5 miles, Sector P 6l VEGETATION Broad Leaf Vegetation

• 3.0-1 South of GCNS near the old training 6 center (Sector J, 0.4 miles) and North Northwest of GGNS near the Meteorological Tower (Sector R, 0.7 miles) 6 NOTE The above locations are gardens maintained by MP&L inside the SITE BOUNDARY in order to provide a more conservative calculation of doses due to the potential ingestion of contam-insted vegetation. These two sam-pling sites exceed the requirements of Technical Specification 3.12.1.

Alcorn State University Southwest of GGNS (Sector K, 10.5 miles)

FISH SAMPLES Commercially or Downstream of the discharge point 6l recreationally important in the Mississippi River species

• Upstream of Discharge Point 6l uninfluenced by Plant Operations.

• Technical Specification requirements l

l GRAND GULF, UNIT 1 3.0-3a Rev. 6 - 9/85 J200DCM850829

ODCM TABLE 3.0-2 (CONTINUED)

Page 3 of 3 SEDIMENT SAMPLES

• FIGURE 3.0-1 Collected semiannually during the 6l low water periods of the Tidal Basin - samples taken downstream of the outfall in the vicinity of the boat landing near Hamilton Lake outlet and in the Barge Slip.

(Sector N and Q, 2 miles)

SEDCONT Collected upstream from barge slip at Upper Grand Gulf Landing 6 (Sector R, 2 miles)

I

• Hamilton Lake outfall is a Technical Specification requirement 6 I

I GRAND GULF, UNIT 1 3.0-3b Rev. 6 - 9/85 J200DCM850829

ODCM TABLE 3.0-3 TLD LOCATIONS Page 1 of 6 TLD NO. LOCATION FIGURE SECTOR MILE M-00 Eaintained in lead shield - - -

during the exposure period

• M-01 REA Pole-East of Entry Gate at Lake Claiborne 3.0-3 E 3.5 M-02 REA Pole Left of Entry Gate Windsor Ruins 3.0-3 L 7.0 M-03 REA Pole-East Side Hwy 6]

P.G. Country Club entrance 3.0-3 H 7.0 M-04 MP&L Pole-Hwy 547 North Side 6 Between Twin Power Poles 3.0-3 G 6.5 50 yards North of Hwy 18 )

M-05 Approximately 5 miles East of U.S. 61 3.0-3 F 9.0 M-06 REA Pole-East of Willows 6 Beyond MMB Church MS Hwy 462 3.0-3 D 10.0

• M-07 Port Gibson City Barn AS-1 3.0-3 G 5.5 M-08 West Side Big Black River South Entrance 3.0-3 C 8.5

• M-09 Oak Tree Hanger-South Warner Tully Camp 3.0-3 D 3.5

• M-10 Entrance Gate Grand Gulf Military Park 3.0-1 R 1.5 M-11 Hwy 61 3 miles North of Big Black River at Twin Tower 3.0-3 C 10.5 M-12 Hwy 61 at AS-2-61 North Yokena 3.0-2 B 13.0 M-13 Hwy 61 Letourneau Hill West Side of Road 3.0-2 B 15.0

• Technical Specification requirements GRAND GULF, UNIT 1 3.0-4 Rev. 6 - 9/85 J200DCM850829

e ODCM TABLE 3.0-3 (CONTINUED)

TLD LOCATIONS Page 6 of 6 TLD NO. LOCATION FIGURE SECTOR MILE M-74 Midway of North fence Not Shown P Onsite M-75 Corner in fence in front " "

of Maintenance Shop A M-76 Southeast corner SSW Basins A M-77 Protected area fence beside " "

maintenance shop R M-78 Outside vault in Admin. Bldg. Q M-79 Wall in Central Records (middle) Q M-80 Wall in Central Records old " " -

library location Q M-81 Inside Admin. Bldg., 2nd floor, northeast wall Q M-82 Tech Support Area Q M-83 Tech Support Secretary's office Q M-84 Security Island P M-85 Lee Electric Building Across 5.2 6 from Port Gibson High School 3.0-3 G

• M-86 Bechtel Gate North Site Boundary 3.0-1 B 0.5 M-87 Intersection of Rodney Road

& transmission line 3.0-3 J 3.5

• M-88 River mile marker 409.5 3.0-1 A 4.2

• M-89 Middle Ground Island 3.0-1 R 4.4

• M-90 Across from Middle Ground Island 3.0-1 Q 3.5

• M-91 Transmission line by pond 3.0-1 J 4.5

• Technical Specification requirements GRAND GULF, UNIT 1 3.0-6c Rev. 6 - 9/85 J200DCM850829

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