Semiannual Radioactive Effluent & Waste Disposal Rept for Jul-Dec 1990. W/910228 Ltr

ML20029B504
Person / Time
Site:	Pilgrim
Issue date:	12/31/1990
From:	Richard Anderson BOSTON EDISON CO.
To:	NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
91-027, 91-27, NUDOCS 9103110271
Download: ML20029B504 (49)
v • d • e

Text

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- 10 CFR 50.36a(a)(2)-

PNPS TS Section 6.9.C.1' Reg._ Guide 1.21 fy, BOSTON EDISON ,

Pilgrim Nuclear Power Station. 1 Rocky Hill Road '

Plymouth. Massachusetts 02360 e Pr s t

$'u'$ro7]r't,on, February 28, 1991 BECo Ltr. #91- 027 U.S. Nuclear Regulatory Commission Attention: Document Control Desk Hashington, DC 20555 License No OPR-35 Docket No. 50-293

Subject:

SEMIANNUAL RADI0 ACTIVE EFFLUENT AND HASTE DISPOSAL REPORT FOR THE PERIOD JULY l THROUGH DECEMBER 31, 1990 In accordance with the requirements of 10CFR50.36a(a)(2), Pilgrim Nuclear Power Station Technical Specification Section 6.9.C.1,.and Regulatory Guide-1.21, the Boston dison Company submits the Semiannual Radioactive Effluent and Haste Disposal Report for the period of July 1 through December 31, 1990.

Please do not hesitate to contact me if there are any questions regarding this report.

m hhabi

' A. Anderson

, HJM/bal l

cc

Mr. Thomas Martin ,

Regional Administrator, Region I- '

l U.S. Nuclear Regulatory Commission

.475 Allendale Rd.

I-King of- Prussia PA 19406--

Senior Resident Inspector Pilgrim Station Standard BECo Distribution

- 9103110271 901231 rDR ADOCK.-0500g_- 9_

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, PILGRIM NUCLEAR POVIER STATION I '

I Radioactive Effluent and I Waste Disposal Report l I including g Meteorological Data i

g July 1 through December 31,1990 I

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I A93 BOSTON l gi5iiVEDISON

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l PILGRIM NUCLEAR POWER STATION 1

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Radioactive Effittent and Waste Disposal Report including Meteorological Data July 1 through December 31,1990 h

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BOSTON EDISON COMPANY PILGRIH NUCLEAR POWER STATION RADI0 ACTIVE EFFLUENT AND HASTE DISPOSAL REPORT INCLUDING HETEOR0 LOGICAL DATA JULY l THROUGH OECEMBER 31, 1990 I

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Prepared by: o --

K. J. Sejkora Environmental Program Hanager Approved by:

C. S. Goddard Radwaste/ Chemistry Section Manager I

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TABLE OF CONTENTS Section E191

1. Introduction 1

2. Radioactive Effluent Data 1

3. Radioactive Waste Disposal Data 9 l i

4. Heteorological Data 14

5. Off-Site Dose Calculation Manual Revisions 47

6. References 48 LIST OF TABLE _S i Table EAgf Supplemental Information 3 1A Gaseous Ef fluents - Summations of All Releases 4 IB Gaseous Effluents - Elevated Release 5 1C Gaseous Effluents - Ground Level Release 6 2A Liquid Effluents - Summation of All Releases 7 28 Liquid Effluents 8 3 Solid Waste and Irradiated fuel Shipments 10 4A-1 Distribution of Wind Directions and Speeds for the 15 j 33 f t. Level of the 220 f t. Tower 4A-2 Distribution of Wind Directions and Speeds for the 31 220 ft. Level of the c20 ft. Tower I

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I EXECUTIVE

SUMMARY

BOSTON EDISON COMPANY Pilgrim Nuclear Power Station Radioactive Effluent and Haste Disposal Report i

including Heteorological Data l July 1 to December 31, 1990 INTRODUCTION This report quantifies the radioactive gaseous, liquid, ano radwaste releases, l and summarizes the local meteorological data for the period from July 1 to I December 31, 1990. This document has been prepared in accordance with the requirements set forth in the Pilgrim Nuclear Power Station (PNPS) Technical-Specifications and Revision 1 of Regulatory Guide 1.21, " Measuring, iI Evaluating, and Reporting Radioactivity in Solid Hastes and Releases of Radioactive Materials in Liquid and Gaseous Effluents from Light Water Cooled Nuclear Power Plants."

Amendment No.116 to PNPS Technical Specifications, issued May 13, 1988, modified the reporting requirements for the semiannual Radioactive Effluent Release and Haste Disposal Report including Meteorological Data, The change I allows for the submission of a supplement to the March semiannual report (reporting period for July through December) which would contain_ the dose assessments for the previous year. Accordingly, the attached recort does not contain the radiological impact on humans, the atmospheric dispe sion factors, nor the associated percent Technical Specification limits in Table 1 A (as these limits are based on dose).

The quantity of radioactive material released from Pilgrim Station was determined from sample analyses of gaseous releases from the miin stack and the reactor building vent, and liquid releases into the discF.arge canal. The I quantity and volume of radioactive waste which was shipped off-site from Pilgrim Station for burial was determined from data contained on the radwaste shipping documentaticn. The meteorological data were obtained from instrumentation measurements from the 33 foot and 220 foot levels of the 220 I foot meteorological tower located at Pilgrim Station.

GASE0US EFFLUENTS The gaseous radioactive releases from July 1 to December 31, 1990 are quantified in Tables lA, 18 and IC. Radioactive noble gases released during iE the period totalled 5.68E+2 curies. Releases of radioactive particulates and

E iodines from the main stack and the reactor building vent totalled 2.98E-2 curies, and tritium releases totalled 1.04E+1 curies. No gross alpha radioactivity was detected in gaseous effluents.

LIQUID EFFLUENTS The liquid radioactive releases from July 1 to December 31, 1990 are quantified in Tab!as 2A and 28. Liquid effluents into the discharge canal resulted in a total release to the environment (Cape Cod Bay) of 2.20E-3 curies of fission and activation products and 8.63E-1 curies of tritium.

Dissolved and entrained gases were not detected in liquid effluents during the period. No gross alpha radioactivity was detected in liquid effluents.

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SOLID MASTE

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The solid radioactive waste that has been shipped off-site for burial during F the reporting period is described and quantified in Table 3. Approximately L 235 cubic meters of solid waste was shipped off-site for burial with a total activity of approximately 5.71E+2 curies (major nuclides: Cr-51, Fe-55, Co-58 and Co-60). Pilgrim Station did not ship irradiated components off-site '

I during the reporting period.

METEOROLOGICAL DATA The meteorological data joint frequency distributions are listed in Tables 4A-1 and 4A-2. The percent data recovery for the period of July - December 1990 was 97.6% on the 33 foot elevation and 97.8% on the 220 foot elevation of the 220 foot meteorological tower at Pilgrim Station. Joint data recovery for the entire year of 1990 was 97.1% at the 33 foot level and 97.0% at the 220 foot level, exceeding the Regulatory Guide 1.23 annual data recovery goal of 90%.

l The predominant wind direction was from the southwest, which occurred with a frequency of approximately 15% during this period. The predominant wind speed range at the 33 foot sensor was 4 to 7 mph, which occurred 54% of the time during this period. The predominant wind speed range at the 220 foot sensor l was 13 to 18 mph, which occurred approximately 37% of the time. The predominant stability class was stability class E, which occurred about 42% of the time during this period.

CONCLUSION The PNPS Technical Specifications contain limiting conditions for operations and operational objectives regarding radiological environmental releases.

None of the limiting conditions for operation or operational objectives associated with liquid or gaseous effluents were exceeded during this reporting period, as confirmed by conservative dose assessments performed on a monthly basis during this period. Official dose assessments will be published in a supplement to this report due 90 days following January 1, 1991.

I Conformance to these PNPS Technical Specifications ensures that the releases of radioactive materials in gaseous and liquid effluents were kept as low as is reasonably achievable in accordance with the Nuclear Regulatory Commission's regulation 10 CFR 50, Appendix I, Furthermore, compliance with PNPS Technical Specifications demonstrates compliance with the Environmental Protection Agency's (EPA) federal environmental regulation 40 CFR 190.10, Subpart B.

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1. INTRQ01)CTIQN This report is issued for the period July 1 to December 31, 1990 in accordance with the Bo: ton Edison Company's PNPS Technical Specifications and NRC Regulatory Guide 1.21, " Measuring, Evaluating and Reporting Radioactivity in Solid Hastes and Releases of Radioactive Materials in I Liquid and Gaseous Effluents from Light Water Cooled Nuclear Power Plants," Revision 1 (Reference 1).

Amendment No.116 to PNPS Technical Specifications, issued May 13, 1988, modified the reporting requirements for the semiannual Radioactive Effluent Release and Haste Disposal Report including Heteorological Data.

The change allows for the submission of a supplement to the March I semiannual report (reporting period for July through December) which would contain the dose assessments for the previous year. Accordingly, the attached report does not contain the radiological impact on humans, the I atmospheric dispersion factors, nor the associated percent Technical Specification limits in Table 1 A (as these limits are based on dose).

2. RADI0 ACTIVE EFFLUENT DATA Radioactive liquid and gaseous releases for the period July 1 to December I 31, 1990 are given in the standard NRC Regulatory Guide 1.21 format in Tables lA, IB, 1C, 2A, 28, and the supplemental information form.

I There were no unplanned or non-routine releases of radioactive effluents during this reporting period.

2.1 Gasecus Effluents Gaseous radioactivity is released from Pilgrim Station to the atmosphere from the main stack and the reactor building exhaust I vent. These third and fourth quarter gaseous effluent releases for 1990 are summarized in Table IA. Noble gases released during the period totalled 5.68E+2 curies, for an average release rate of 3.60E+1 pCi/sec. A total of 2.98E-2 curies of radioactive iodines I and particulates with half-lives greater than 8 days was released at an average release rate of 1.89E-3 pCi/sec. No alpha radioactivity was detected on particulate filters during this reporting period. A

,I total of 1.04E+1 curies of tritium was released at an average release rate of 6.57E-1 pCi/sec.

3 The main stack is an elevated release point with a height of 3 approximately 400 feet above mean sea level. The main stack is located about 700 feet west-northwest of the reactor building. The g third and fourth quarter elevated releases for 1990 are shown in

g Table 18.

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The reactor building exhaust vent is considered a ground level l release point with a height of approximately 182 feet above mean sea I level. The exhaust vent is located on the west corner of the reactor building. The ground level releases for the third and fourth quarters of 1990 are shown in Table IC.

2.2 Liauid Effluents Liquid radioactivity is released from Pilgrim Station to the Cape Cod l Bay via the circulating water discharge canal. These effluent relecses enter the Cape Cod Bay at the outfall of the canal which is located about 1100 feet north of the reactor building. '

The liquid releases for the third and fourth quarters of 1990 are summarized in Table 2A, A total of approximately 272,000 liters of radioactive liquid waste (prior to dilution) containing 2.20E-3 I curies of fission and activation products (excluding tritium, gases, and alpha-emitting nuclides) was discharged with a total dilution volume of approximately 2.1 billion liters of water. The liquid I effluents were released at an average concentration of fission and activation products of 1.07E-9 pCi/ml during the third and fourth quarters. A total of 8.63E-1 curie:, of tritium was released, for an I average concentratior of 4.19E-7 pCi/ml. No dissolved and entrained gases were detected in liquid effluents. Alpha radioactivity was not detected in liquid effluents during this reporting period. Quarterly release estimates and principal radionuclides in the liquid effluents I are given in Table 28.

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i fELLIENT AND HASTE DXSPOSAL SEHf ANNUAL REPORT Supplemental Information (1990)

Facility Pilarim Nuclear Power Station ___ Licensee DPR-35

1. Regulatory Limits i

a. Fission and activation gases: 500 mrem /yr total body and 3000 crem/yr for skin at site boundary.

b,c. Iodines, particulates with half-lives >8 days, tritium: 1500 mrem /yr to any organ at site boundary.

d. Liquid effluents: 0.06 mrem / month for total body and 0,20 mrem / month for any organ (without radwaste treatment).

2. Maximum Permissible Concentration

a. Fission and activation gases: 10 CFR 20 Appendix B Table II

b. Iodines: 10 CFR 20 Appendix B Table 11

c. Particulates, half-lives >8 days: 10 CFR 20 Appendix B Table II

d. Liquid effluents: 2E-4 pCl/ml for entrained noble gases; 10 CFR 20 Appendix B Table II values '

for all other radionuclides.

3. Average Energy Not applicable

4. Hethods used to determine radionuclide composition in effluents

a. Fission and activation gases: High-purity Ge gamma spectroscopy for

b. Iodines: all gamma emitters; radiochemistry

c. Particulates: analysis for H-3, Fe-55 (liquids only),

d. Liquid effluents: Sr-89, and Sr-90.

5. Batch Releases

a. Liquid Quarter 3rd 4th I. Number of batch releases: 24 12

2. Total time period for batch releases (minutes): 1.00E+3 7.55E+2

3. Maximum time period for a batch release (minutes): 1.05E+2

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1.05E+2

4. Average time period for batch releases (minutes): - 4.17E+1 6.29E+1

5. Minimum time period for a batch release (minutes): 1.00E+1 2.50E+1

5. Average stream flow during periods of release of effluent into a flowing stream (liter / min): 1.17E+6 1.17E+L

b. Gaseous: Not applicable

6. Abnormal Releases

a. Liquid: None

b. Gaseous: None 3 of 48

TABLE lA EFFLUENT AND HASTE DISPOSAL SEMIANNUAL REPORT (19901 I GASEOUS EFFLUENTS SUMMATION OF ALL RELEASES Quarter Quarter Est. Total Unit 3rd 4th Error. %

A. Fission and activation gases

1. Total release Ci 2.77E+2 2.91E+2 22% l

2. Averaae release D te for ceriod _pCi/sec 3.51E+1 3.69E+1

3. Percent of Tech. Soet. limit  % *

• B. Iodines

1. Total iodine-131 Ci 4.46E-3 2.llE-3 20% l j  ?. Averaae release rate for ceriod uCi/sec 5.66E-4 2.67E-4

3. Percent of Tech. Spec, limit  % *

• C. Particulates

1. Particul, with half-lives >8 days Ci 1.98E-4 3.31E-4 21%

L, Averace release rate for oeriod l uCi/ set 2.51E-5 4.20E-5

3. Percent of Tech. Soec. limit  % * *

4. Gross alcha radio 3ctivity Ci NDA NDA

0. Tritium

1. Total release Ci 4.40E+0 5.97E+0 201 l

2. Averaae release rate for ceriod uCi/sec 5.58E-1 7.57E-1

3. Percent of Tech. Soec, limit  % *

• Notes for Table 1A:

Percent of Technical Specification Limit Values in Section A.3 through 0.3 are to be provided in the annual supplemental dose assessment report to be issued prior to April 1, 1991,

j. 1. NDA is no detectable activity.

2. LLD for gross alpha listed as NDA is IE-Il pCi/ml.

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1 I TABLE IB i

1 EFFLUENT AND HASTE DISPOSAL SEMfANNUAL REPORT (1990)  !

GASEOUS EFFLUENTS - ELEVATED RELEASI l CONTINUOUS MODE BATCH MODE l Nuclides Released i Unit i Ouarter l Ouarter Ouarter i Ouarter l 3rd 4th N/A N/A I 1. fission gases Kr-85m Cl 7.80E+1 6.69E+1 Kr-87 Ci NDA NDA Kr-88 Ci 5.37E+1 4.80E+1 I Xe-133 Xe-135 Xe-135m Ci Ci Ci 1.19E+2 6.68E+0 5.11E+0 1.55E+2 4,37E+0 5.58E+0 Xc-138 Ci 1.14E+1 NDA Total for ceriod Ci 2.74E+2 2.80E+2

2. Iodines I-131 3.79E-3 1.89E-3 I I-133 Ci Ci 9.96E-3 9.92E-3 Total for oeriod Ci 1.37E-2 1.18E-2

3. Particulates Sr-89 C1 2,43E-5 2.29E-5

, _ . Sr-90 Ci 1.56E-6 NDA Cs-134 Ci l

NDA NDA Cs 137 Ci NDA NDA Sa/La-140 Ci 5.72E-5 3.59E-5

Total for oeriod Ci 8.31E-5 5.8BE-5

4. Tritium l H-3 i Ci i 2.05E-1 l 1.62E-1 ! l l Notes for Table IB:

1. NDA is no detectable activity.

2. LLDs for nuclides listed as NDA are as follows:

Fission gases: 1E-4 pCi/ml Iodines: 1E-12 pCi/ml Particulates: 1E-11 pCi/ml s eE 4e y

TABLE 1C EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1990)

'I GASEOUS EFFLUENTS - GROUND LEVEL RELEASE CONTINU0US H0DE BATCH HODE I l Nuclides Released l Unit l Ouarter 3rd i Ouarter 4th Ouarter N/A l Ouarter N/A l

1. Fission gases Kr-85m Ci NDA NDA Kr-87 Ci NDA NDA Kr-88 Ci NDA NDA Xe-133 Ci NDA 5.00E+0 Il Xe-135 Ci 2.74E+0 6.25E+0

u Xe-135m Ci NDA NDA Xe-138 Ci NDA NDA Total for Deriod Ci 2.74E+0 1.13E+1

2. Iodines I.--131 Ci 6.73E-4 2.18E-4 I-133 Ci 1.50E-3 1.29E-3 Total for oeriod Ci 2.18E-3 1.51E-3

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3. Particulates Sr-89 C i_ _ _ l.15E-4 2.61E d Sr-90 Ci NDA 4.45E-6 Cs-134 Ci NDA NDA

.g Cs-137 Ci NDA NDA

g Ba/La-140 Ci NDA 7.00E-6 Total for oeriod Ci 1.15E-4 2.72E-4

4. Tritium g

5 l H-3 I Ci l 4.19E+0 1 5.81E+0 l I l Notes for Table IC:

1. NDA is no detectable activity.

I 2. LLDs for nuclides listed as NDA are as follows:

Fission gases: lE-4 pCi/ml Iodines: lE-12 pCi/ml

Particulates

lE-ll pCi/ml I

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I TABLE 2A EFFLUENT AND HASTE DISPOSAL SEMIANNUAL REPORT (1990)

'I L10VID EFFLUENTS SUMMATION OF ALL RELEASES Quarter Quarter Est. Total Unit 3rd 4th Error. %

A. Fission and activation products

1. Total release (not including tritium. noble cases. or aloha) Ci 1.62E-3 5.75E-4 12%

i 2. Average diluted concentration durina ceriod uCi/mi 1.38E-9 6.49E-10

3. Percent of apolicable limit  % 6.23E-3% 3.45E-3%

! B. Tritium

1. Total release Ci 8.58E-1 4.58E-3 9.4% l

2. Average diluted concentration durina Deriod uCi/ml 7.33E-7 5.17E-9

3. Percent of aoolicable limit  % 2.44E-2% 1.72E-4%

C. Dissolved and entrained gases

1. Total release Ci NDA NDA 16% _,l

2. Average diluted concentration durina oe_riod uCi/ml NDA NDA

3. Percent of aoplicable limit  % NDA NDA J

.a 0. Gross alpha radioactivity l1.Totalrelease l Ci l NDA I NDA l 34% l E. Volume of waste released l (orior to dilution) liters 2.56E+5 1.61E+4 5.7% ,_

F. Volume of dilution water used durino Deriod liters 1.17E+9 8.86E+8 10%

I Notes for Table 2A:

1. NDA is no detectable activity.

2. LLD for dissolved and entrained gases listed as NDA is IE-5 pC1/ml.

3. LLD for gross alpha listed as NDA is lE-7 pCi/ml.

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1 TABLE 2B 13 EFFLUENT AND HASTE DISPOSAL SEMIANNUAL REPORT (1990) lE LIOUID EFFLUENTS CONTINUOUS HODE BATCH HODE l Nuclides Released i Unit l Ouarter l Ouarter Ouarter l Ouarter l N/A N/A 3rd 4th

1. Fission and Activation Products

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Cr-51 Ci 4. 74 E,- 5 NDA Hn-54 C1 4.94E-5 1.31E-5 i Fe-55 Ci 3.28E-4 1.05E-4 l Fe-59 Ci 1I

! Co-58 Ci __.

NDA 1.97E-5 NDA 2.78E-6

! Co-60 Ci 7.15E-4 2.69E-4 Zn-65 Ci 6,85E-6 NDA Sr-89 Ci NDA 4.56E-6 Sr-90 Ci 7.73E-6 3.27E-6 Zr/Nb-95 Ci I Ho-99/Tc-99m Rh-105 Ci Ci NDA NDA NDA NDA NDA NDA Aa-110m Ci 9.57E-6 NDA Sb-122 Ci NDA NDA I I-131 Ci NDA NDA Cs-134 Ci NDA NDA Cs-137 Ci 4.27E-4 1.77E 4 Ba/La-140 Ci 8.17E-6 NDA Ce-141 Ci NDA NDA Ce/Pr-144 Ci NDA NDA Hf-181 Ci NDA NDA Total for oeriod Ci 1.62E-3 5.75E-4

2. Dissolved and Entrained Noble Gases g Xe-133 Ci NDA NDA g Xe-135 Ci NDA NDA Total for oeriod Ci NDA NDA Notes for Table 28:

g t

1. NDA is no detectable activity,

2. LLDs for nuclides listed as N9A are as follows:

Sr-89 SE-8 pCi/ml I-131 lE-6 pCi/ml Xe-133, 135 lE-5 pCi/ml All Others SE-7 Ci/mi 8 of 48

l W 3. RADLQAITIVE WASTE DISPO W DATA Radicactive wastes (Reference 2) which were shipped off-site for burial I during the period July 1 to December 31, 1990 are given in Table 3, in the standard NRC Regulatory Guide 1.21 format.

The semiannual total quantity of radioactivity in curies and the total volume in cubic meters for the following categories or waste types are listed in Table 3:

a. Spent resins, filter sludges, evaporator bottoms;

b. Dry compressible waste, contaminated equipment, etc.;

c. Irradiated components, control rods, etc.; and,

d. Other.

During July 1 to December 31, 1990 approximately 5.62E+2 curies of spent resins, filter sludges, etc. with a total volume of about 85.3 cubic I meters were shipped from Pilgrim Station to an approved burial site.

Approximately 8.53E+0 curies in dry compressible waste, contaminated equipment, etc. with a total volume of about 1.50E+2 cubic meters was

.l shipped off-site for processing and/or burial .during this period.

Irradiated components and other miscellaneous low-level waste were not disposed of off-site during this reporting period. Irradiated fuel shipments were not made during this period.

Sixteen shipments to Barnwell, SC (Chem Nuclear Systems, Inc.), twenty-six shipments to Oak Ridge, TN (twenty-one to Scientific Ecology Group; five I to Quadrex Corp.), and one shipment to Wampum, PA (Alaron Corp.) were made during the period 3uly 1 to December 31, 1990. Estimates of major radionuclides shipped off-site are listed in Table 3.

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l I TABLE 3 ,

PILGRIM NUCLEAR POWER STATION EFFLUENT AND HASTE DISPOSAL SEMIANNUAL REPORT (1990)

SOLIO HASTE AND IRRADIATED FUEL SHIPMENTS JANUARY - JUNE 1990

1. SOLID HASTE SHIPPED OFF-SITE FOR BURIAL I

'I TYPE OF HASTE UNITS 6 MONTH PERIOD EST. TOTAL ERROR %

a. Spent resins, filter sludges. m3 8.53E+1 evaporator bottoms, etc. Ci 5.62E+2 16%

IE b. Dry compressible waste, m3 1.50E+2 5 contaminated equipment, etc. Ci 8.53E+0 4%

c. Irradiated components, m3 0.00 control rods, etc. Ci 0.00 N/A

d. Other (describe) m3 0.00 miscellaneous low-level waste Ci 0.00 N/A

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M E 3 (Continued)

2. ESTIMATE OF MAJOR NUCLIDE COMPOSITION (by type of waste)

a. Spent resin, filter sludges, evaporator bottoms, etc.

ACTIVITY  % 0F NUCLIDES (CURIES) TOTAL ACTIVITY H-3 8.54E-03 2.00E-03 C-14 2.88E-02 5.00E-03 I Cr-51 Mn-54 Fe-55 1.17E+02 4.51E+01 8.80E+01 2.08E+01 8.02E+00 1.57E+01 Co-58 7.79E+01 1.39E+01 Fe-59 4.30E+00 7.65E-01 Co-60 1.89E+02 3.37E+01 Ni-63 1.45E+01 2.59E+00 I Zn-65 Sr-89 Sr-90 7.05E+00 2.23E-01 1.81E-01 1.26E+00 4.00E-02 3.20E-02 Ag-110m 2.31E+00 4.12E-01 I I-129 I-131 1.31E-05 1.20E-01

<l.00E-03 2.10E-02 Cs-134 2.26E+00 4.02E-01 Cs-137 1.21E+01 2.15E+00 Ba-140 5.58E-01 9.90E-02

Ce-144 1.01E+00 1.80E-01 E Pu-238 7.13E-04 <1.00E-03 3 Pu-239/240 1.14E-03 <l.00E-03 Am-241 1.16E-03 <1.00E-03 Pu-241 4.17E-02 7.00E-03 Cm-243/244 1.65E-04 <1.00E-03 Total 5.62E+02 1.00E+02 il

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l TABLE 1 (Continued)

2. ESTIMATE OF MAJOR NUCLIDE COMPOSITION (Continued) }

b. Dry compressible waste, contaminated equipment, etc.

ACTIVITY  % OF NUCLIDES (CURIES) TOTAL ACTIVIJ1 H-3 3.41E-04 3.99E-03 C-14 8.52E-04 9.99E-03 Cr-51 2.29E-01 2.69E+00 Hn-54 1.26E-01 i Fe-55 Co-58 3.51E+00 2.11E-01 1.4RE+00 4.11E+01 2.48E+00 Fe-59 3.83E-02 4.49E-01 l Ni-59 Co-60 8.52E-04 3.37E+00 9.99E-03 3.95E+01 Ni-63 3.33E-01 3.91E+00 Zn-65 2.56E-02 I Sr-89 5.11E-03 3.00E-01 5.99E-02 Sr-90 3.41E-03 3.99E-02 Tc-99 2.56E-03 i Sb-124 I-129 4.26E-03 8.52E-05 3.00E-02 4.99E-02 9.99E-04 Cs-134 9.37E-03 1.10E-01 I Cs-137 Ce-144 5.85E-01 1.19E-02 6.85E+00 1.40E-01 i Pu-238 4.26E-04 4.99E-03 l Pu-239/240 5.96E-04 6.99E-03 y Am-241 8.52E-04 9.99E-03

Pu-241 3.83E-02 4.49E-01 Cm-243/244 1.96E-02 2.30E-01 Total 8.53E+00 1.00E+02 I

c. Irradiated components, control rods, etc.

% OF NUCLIDES ACTIVITY TOTAL ACTIVITY (CURIES)

TOTAL 0.00 N/A l

d. Other miscellaneous low-leve' "

% OF I NUCLIDES ACTIVITY TOTAL ACTIVITY (CURIES) l TOTAL 0.00 N/A I

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TABLE a (Continued)

3. SOLID RASTE DISPOSITION I Number of Shiomen h Bode of Transoortation Destination 16 Tractor-Trailer CNSI, Barnwell, SC 5 Tractor-Trailer Quadrex, Oak Ridge, TN/

CNSI, Barnwell, SC*

21 Tractor-Trailer SEG, Oak Ridge, TN/

CNSI, Barnwell, SC*

1 Tractor-Trailer Alaron, Hampum, PA/

CNSI, Barnwell, SC*

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• Contaminated wastes were shipped to Quadrex Corp., Oak Ridge, TN; Scientific Ecology Group, Oak Ridge, TN; and Alaron Corp., Hampum, I PA; for volume reduction / salvage. After processing, the remaining wastes will be shipped to Chem Nuclear Systems Inc., Barnwell, SC for burial under Boston Edison Company's burial allocation.

4. IRRADIATED FUEL SHIPHENTS (Disppsition)

Number of Shionents Mode of TranspJrtation Destination None N/A N/A I

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t i

I I 13 of 48

4. ElfM)LQQGAL 0ATA Meteorological data (Reference 3) for the period July 1 to December 31, I 1990 is given in Tables 4A-1 and 4A-2 in the standard joint frequency distribution format as given in NRC Regulatory Guide 1.21.

I The predominant wind direction was from the southwest, which occurred with a frequency of about 15% during this period. The predominant wind speed range at the 33 foot sensor was 4 to 7 mph, which occurred with a I frequency of 54% during this period. The predominant wind speed range at the 220 foot sensor was 13 to 18 mph, which occurred approximately 37% of the time. The predominant stability class was stability class E, which occurred about 42% of the time during this period.

There were a few instances where the data recorded by the 220 foot tower were not continuous. Typically, data IJsses were due to loss of power, j malfunction of the sensors, and/or malfunction of the digital data l

.5 loggers. The net result is that the data recovery for the period of July ,

through December 1990 was 97.6% on the 33 foot elevation and 97.8% on the 220 foot elevation of the 220 foot meteorological tower at Pilgrim Station.

l When averaged over the entire period of January - December 1990, the annual joint data recovery was 97.1% at the 33 foot level and 97.0% at the 220 foot level . This exceeds the 90% or greater annual data recovery goal specified in Regulatory Guide 1.23.

I I

I N,

14 of 48

t

[ TABLE 4A L DISTRIBUTION OF HIND DIRECTIONS AND SPEEDS FOR THE 33 FT. LEVEL OF THE 220 FT. T0HER

( ,# 88 R R. O. OR, -

a R G.4 88 *88 88 X~a 8 s.

- e. N - O-g 88 88 88 88 88 88 88 88 3 8 "** *** 88

, *: '; "9 9.8 88 *"" ** .

e= N M t *3 O O r1 m to o @NM OOO OOO h . o. "N.

• • . C E. O .

OO89 . . .9 4 *o 4 .

- M e M COO Mod 444 000 000 000 000 Nmc

&. O, O, . e=. == m. 4 O. O. O. O. O. O. O. O. e- N. a3

- m .

=

m 88 "S$ b c.4 8 88 *88 88 *88 *a .. ..

w k w OOO COO ccm MO4 000 000 000 @NM

,u O. O. O. O. M. N. * = . * = . 00

. C. o. O. O. e. v.

~ - M n

=

b g ,y S

88 *88 %C8g,* R. E. 88 88 8 8. A NgN.

sw . _ M b. b. b. . h5

m. . 8 b. O. C. 0 m@

g.

b N

M M

8 M

== C00 *= O m NGO C00 COC <>OQ 000 MOV N et - OO VO NO Oo OO

• " ' ' ** O6 OO - e-d ' ' '*

8 5

=i O W C00 000 Mov OOO COO o C00 mod 5 O 2

G 9* 9 o. "- . . o. o. o. o. O g o.. o. 9 --

En. .i

=N W C00 000 NOM COO COO COO

" Nem a

$ *. 99 N" C 8.9O 99 N" 0

N

o. 9 N w=k8=

U.

U W C00 000 MNO COO 000 2

5p M M m C. O, O. O.

g va M. C. O. O. O.

000 -000 O. O. O. O.

WNM e= M.

U.

j 33

==O E U.

• 88 ~ S. $. 383 8 8. - 88 88 e 8 8. O S.R.

m 8 8 4~~E

,E

--g w C00 Moo Nec meo COO COO COO mme m, m. ."8""

, < = 00 o~ 8 7 w -. - N jo.

;. C. O. C. O. -C. 0  ;-8 2

W 88 88 88 t;G.N.--5"=

ss:

- 88

• M. "

. E. t; " R. A.

MM i 2" "N 88 O w C00 Nom N O 40m COO OOO COO

@ 2 *= 40 mNO a < =

y ;

O. O. N. O.

e-M. N.

~

O. O. O. O. O. O. N O. *=.

>- $go u g

=

8 l 88 " R. 8 *R4 88 88 88 55h 33i ::

88 " RgA. ,,,

00-b I a

.r a

-~m nm ^^ Nma @ me 4mm eem 2N a

. O.

=

o.

x u M.

v-.

-~ N. -~

e ,.~

-~ ."M.- ^.. ~^

~.

~ ~ ~

~

.O.,~~. mmr vv.

I A O

~ ~ "

h r" t" 5 t s AAS

& 4 CS 15 of 48

?

I TABLE 4A-1 (continued)

I s ,= e e aee 0 to e a} M OOO OOO OOO *= 0 4

.e.C 4. O. e. N. st N. e-. v. v. O. O. O. O. N O. M.

I O e e N O. O.

> =f N OM N 4 **

O=

J ODO C00 000 000 000 000 cc 000 a O. O. O. O. O. O* O* O. O. O. O O. O. O. O S,) Gs a. tb.

> a I *2 2

a OCO 00 COO O. O.

COO O. O.

COO O O.

C00 00 000 00 000 00 e

000 00

'I OOO e- e= nn NN' OOO OOO OOO OOO I

2 MM4 C. O. Q . O.  %. Q. C. O. O. C. C. O. C. O. N.'".

N W 4 3 OOO m st *t OOO OOO m se st OOO OOO O to N M. $"" O. O. O. N, 6. N. O. O. D. O. C. O.

M N N D. O. e= O. st.

I 4

3 000 -m N .o M 000 000 000 000 ONO O. O. %t. O. to. M. O. O. O. O. O. O. O. O.

e e- N. M.

• Om **

7 ==

kJ 3 OOO OOO M M st OOO OOO a m 00 OOO OOO M M st I

a 3 O. O. N. e=. O. O. C. O. O. O.

w O. O. N. v*.

A st st

^ ~

gu a 88 88 #824 N 8. 04G. 88 88 88 *R8 2 . .

pa w e* *O N

- B 5 w

3 000 000 era OeO C00 000 000 4M.

8- .a w O. O. O. O. 4.*~. O. O. O. O.

m .m.

a m O. O. O. O. 4.**.

b e m

N m - M OOC w e* e C00 N 4 e~ 000 OCO 000 000 een w v I

. O. O. .t. O. O. O. O. C. O. O. D. O. 40 W w ** O. O.

2 **

O m.

O w eem ** e= c ** e- e QOO OOO w m OOO OOO M M sr D O m st. O. st. O 4. O. O. Oe G. O. N s=

O. O.

2 v= e* e= O. O. .

in.

st m l 3 e w OOO *= e e C00 000 000 e 00 00 000 O00 w e- o e st. O. C. 0 C. O.

00 00 OI Q *= 4. O. O c.

e w == E

• Co m U w 000 000 U.C w O 2 m M NN6 OOO C00 OOO COO N N Ok w e w O. O- O. O. to. o. A A m.

I

• O. O. O. O. O. O. O. O. to. O.

b .Ce N N .m.- m.

w w a

=

• W OCC .- e e M M st OOO OOO OOO OOO 2

- .x O

= O, O. 40 st M Om N. e*. O. O. O. O. O O. a m .J

• • se O. O. 4. e.

2

=.J

• =

e .O m3 Oc 0 O cn a

w 2

C, O O N N Ok m st st OOO OOO OOO OOO NyM mmw 2 2 s.C-w O. O. G3. O. O. N. m t

< M O. O. ~). O. O. O. O. O. eJ. M.

• N P. .O.*.O O

(%

.C e.C .C F Q w OOO C00 N N 0h > > et 2 N N CA 000 000 000 Q M Om aum

>= O. O. E0 0 40 0 00 w D. O. O. O. www O. O. 4. e.

I X N N ee m cn c3 M O w OOM

. OOO ** m e OCO COO COO C00 W A

2 000 eem aC 2 O* O. st O*

O. O* O. O. O. O. O= O.

w - - O. O. st. O. O e < e o m O m

=

I &' 88 88 2 .J %

w 2

9 88 ~ ~- s. .

88 88 -

88 ~~s ..

es" 7 3 e O

ww2 OO-

.I. e.

• 3 n eA ee ee Nee <n e e qee ww m Z .I.a e N M. e= N N. *= N se e e mee 22 Q e= N .= e= N wa N A Www e.=ww N -N O ** N I

O. et w v 4ww N. ww w

M x u o e

. ww o.

ww www ww yv. Ia A M w

(".

O m

m um<

wmu w m w 4.. A.. ,,

% .J ^^U M .4 eN aC ww

.I

^

I I 16 of 48

. . - - S a

TABLE 4A-1 (continued) ll I

I .J eC w

O OOO O. O.

f=v N m. O.

O 4 h.

e N. M.

• = m N

• = N. m.

3OO O. O.

OOO O. O.

OOO O. O.

MQM 80 Q 4 p=

4e CN M QM I

N 4 *= 0 e*

.,J OOO 000 000 000 000 000 000

] co 000 ac O. O. O. O. C. O. C. O. C. O. 00 00 00 3 OOO ** O m N .= 0 CCO OOO OOO OOO M .= 4

• 2 00 90 00 00 2

• N. O. Q. C. C. 0 4.,=.

• = N M 3

g 000 N e= 0 000 000 000 000 000 N .= O 00e 4. O. C. O. O O. D. O. O. Oe C. O. @ O.

N N

I l

M O.

M 3

y 3

000 Q0 N e= O 40 WN@

O. w.

000 O. O.

000 C. O.

000 O. O.

000 C. O.

4 M tQ N. N. l N 4 N I u 3 000 M e- Q 4 M eo C00 000 COO OCO OQM QQ 4.,=.

. . N. r 4. C. O. O. O. 23 4 A

M N C. O. Q. C.

> O e-w 3 000 000 4MW eOm OOO w w QQ COO COO NMM m 3 . . O. O. N. N. N. O. O. O.

w N *=

O. O. O. O. V M.

CL m3 m J OOO eOm NMM

> e 00a Mwd COO 000 OOO wmN U N. O. v. m* c. e=. O. O. OO 2 *= O O.

• *= N* m.

- a; M M 8

E5.a w

3 m

000 N - o.

40 M.= '84~

M-. C00 CeO OC8 Omm

• =

m c6 v. O O. 4. e-. C. O. C. O.

0 e 4. a3 is N m M b

N u

M o

M CCO 000 Neo COO COO N gC .=== 00 COO COO Neo w a y O. O. W O. O. O. 00 00 40 W w

. C. O.

2; a N N Q; =*

== Q w COO N e= 0 OOO OOO OOO pa M OOO OOO N e= 4 O e O. O. V. O. O. O. C. O. C. O. QQ O. 2 N O. O. . . @ O.

c. - N

.= a

W 88 " R.==$. 88 88 88 ""3

" R. 8 8m2 O e=

8. 8 .

> N W == I U oa U W 000 OCO Nwo << w O 2 M M COO C00 000 000 N w f' w n w C. O. O. O. Q. O. O. O. EL w m.

• < O. O. O. O. O. O. 4. w.

6 w N N e.

== m.

w w z2 m

= > W C0C OOO N e= 4 Om COO 000 000 M *= 4

> w .0

- c. O. O. O. V. O. " N. O O. O.

.a ~ -

O. O. O. O. 4. e. cr 0 8 <a 2 M wwaO 55 -

W 88 " ". N8 " G. M*. " R.w $. 88 *88 MMW C M w

. . 88

• R.NE. w> _ 8.Q 8 .

.=C*

Q W O00 ,= O m >>*C 2.c aC k

2 M .e d C00 000 000 OCO VN4 a og 2 O. O. 0.**. N. O. O. O. O. O. w w o-.

w M e* O. O. O. O. O. e-. ew T. 4 to c3 ta W

OOM O. C00 POm Om Neo COO O

o. < 2 2 O. O. N. O. "NO V. O.

COO COO VN4 w

• e .c e" e N

O. O. O. O. O. O. a3. e=

4 OOw

@U O

/

y O w C' 2 000 NeO OOO J %

D. O C00 000 000 000 N e= > 4.J .am w 2 O. O. 4. O. O. O. qQ .c eC 0 - O. O. O. O. O. O. O. O.

9 3 N N

. . e ww2 OO-b w ^ Ene en ea Nem een 3

= z -N M. -N N. -N vem omm men 22

--N 0

a C.

M (L

z s.C w w O

Uww vww O

. ww -N M

. ww N.

ww -~ N-N ww 0-N www wwr uus

+= w w e w -,<

4 M O O A wwy LaJ M CL W A.e H W m ..J

^mQ W o -~

aC ww 17 of 48

1 I TABLE 4A-1 (continued)

I

1. "40 3%0 g g; ph4 ;g 304 gg *88 ' 8.8.

• 8 8 N83 ogg I -

1. *88 g

~

88 4- -

88 *88 *88. *88

• S. 8 *88 I B, 8 8.

• C. 2 8 8. " M. s. 88 "88

• 8 8.

• E. -X.

l 1 *88

• 3 2. " 8. E. *88

• S. 8 88 *88 343 g i

t.

, 3 *88 " O.8.

• s.s.

• 8 8 88 *88. *88 " $. A.

I 2

• 88

• s.e. s ;u s. ' 8 8 *88 *88

• S. 8 NE8 g; e *88 ~48 " Ag u. ' 8 8 "88 88

• 8. 8 NSA I "

g-y u

b R *88

• C. E. A R $. ; G M.

g a

• 88 88 *88 S G.Ma gg m -

I U n.i ,

g E :, g:

R "20 " 0. S. Aas gg 235 g 88 '* 8 8 *88 SON gj g g 88 " $. A. D eg s.

• s. t. *88 "88 *8.8 NO j S.

I 8 g

a 9 W

• 8 8 0 g8 3. " $. A. *88 *88 *88

• 8. 8 R R jC.

5 g

N 88 ugh. g 080.

g

• 88 *88 88 88 005 j g;

,g

,5 $a 343 88 E k aG. uEh W

. 8 8.

• C. E. 88

• s. 8

• S. 8 I 6 , .:

g =me E-88 082a 5 %, C. *88 88 *88

• B. 8 A Aab. ((~s

= a . ,i t 557 I ,

4 W

W *88 8 8. " $. A. gW e b. GN" g . *88 *88 88 *00 g ;85_ ~8 ss5 g # C. E. R 4M S. 343g 8.8 88. *88 488 5"*

ww I r ,,

$ 8 ,m 8

g a

W a 8 8. " $. A. " $. A. 393 *88 *88 *88 E 3 jA. **0 ggg I , _a E - :--

n--

s--

.. N.

~--

m--

o--

o--

m. .b m--

o 9 g

's ; -

5 o [ 40$ 4,00 400 * "OU "OS "00 "00 800 dd5 I d AM

• A Q

C  ? 3 g 225 bA J

h 4 "$

I 18 of 48

I TABLE 4A-1 (continued) i

1. " m. 3 m3R ;;

3 nj;-

88% egg *88 a88 og 88 g88 ga I

- e~ ,-

g *88. *88 88 88 88 88 88 8. 8 I 9 a

• 8 8. C RgE. S E. b. " . $. *88 *88 88 A EgR.

1 88 088 228. *88 88 *88 *88 A D R.

t I E.

U 3'

• 8 8. c 3. R.

g

• S. O. '88 '88 88 88 ZG3 4

g

=

• 8 8. s k. R. 338.

*88.. 88 *88 *88 32G gg 5

3 ".s. #32 $20 jg

• 88 *88 88 88 GC8

,g t gg 2

3:

3 g a 8 8.

• S. O. REU 05; *88 *88 *88 RRO a;

gg g$. ,I a 8.8. 50.8- RuS *88 88 8 3.;0

,g n gg* S. O. 8. 8 ,

6 e B " (

% V : 88 R8A %82 88 *8.8 *88 88 au"s ev2 g; 4 gg I E g g W

o 88 A DgR. 002 88 88 88 *88 034 jg 5

o

• ":8 28.m- *82 *88 *88 *8; 88 A88 8 2

r- 3;t E*

g N

w 8 8. R E; s. 0 3jR. 88 88 88 *38 A23 UE8 i B ;c g we 2

• 88 NXS  %#5 :E 88 1 ,

(  :

A; J' 88 a88 *88 A33 A; ggs

": ..g rem R W 88 *88

, g w 8.8 R G g '. RREg; 88 *88 034 jg 85 ;;g

'I a 55 W 88 400

A00 N38 88 88 *88 CR2 552 g 4; Wa 4; **

g; ggg I {g W

= *88 2 R. C. # 4 3. " A. 3 88 *88 88 A33 4 ggg oa hf g

s. E #g8. $ t. R.

88 88 *88 *88 R E gE. $5 5 s: -

z-- r-- ~-- ~-- .-- .-- .-- .-- us-5 e "O 005 u n So "EOS o0S 400 *"OS O"0S "00 E NOS G 5"5 5 ur II I

O h

a i

AA5 OS I

I I 19 of 48

fl s I TABLE 4A-1 (continued)

I I

e #EC -.S RM NCE g; *88 '88

• 8. 8 G80 I g "3.B.

• *88

j 88 g

88 *88 *88 m

g; g 88 ' 8. 8 88 I

i B

a *88 ; G M. *88 '88 *88 *88 *88 ;32 9 '88

• s. 0 "88 *88 "88 *88 *88 "$0 O

d " p 8, "$0

?

g 88 '88 *88 *88 '88 E R O. j I -

a

• 88

• 2 R. g

• E. E.

• 8. 8 *88 "88 *88 2 C %. g I -t e p a " 8. 8 0 3g%. 0%g 3

• 8. 8 *s0 RMR

• 2 hse

• 88 88 *88 >SR gg u '88 88 *B8 CCS g" 5 a ga - -

p i

Q E .D a

. 88 3?3j # E M. g " A. s. 88

• 8.8.

• 8.8 %CE g; b$=

e

8. 8 bb8.j b>8 j *E.8. *88 *88

• B. 8 M c.3;

? 1 "

g 9 W

. *8.8 EE0 g " ?. C. 8. 8 8. 8 88 88 ;G3

- g 5

0 ^

g 8. 8 " $. 8 88

• 8. 8 *88 *88 *88 N 3. S. o-g {.

,E n

• 8. 8 *38 " R. s.

. 88

• S. S. *88 8,8 *34 b '!

E;e a eg

."*8

_- _ *88

• 3. 4 88 8. 8 *88 *88 *88 *44 ggs

,,g k!

W *88

• E. E. *88

. 8. 8 88 *88 *88

• E. P. _$_$~ s 88 ss"

- W " ?. $.

• sa E. " A. 8 88 *88 "

88

• 2 gA. w m", 3 ,

x 88.

[3 W. *88 #;2  ; *88

• 8. 8 a88

• 8 8. ' 8.8 * ; E. Rod gge h "

88 ; G; M. *88 y

b 3

8. 8 8. 8 *88 *88 032 g E h, E ::

C0g

- x- r- s-- ~-- ., .--e. .-- g-5 o O" 0 $ U00 J, 0 %* "O$ O"0$ '? O S "0$ 20$ cc5 E

u n a o E E G r

• a r"ya5

$ ' a

-o u 05 20 of 48

7

- 4 TABLE 4A-1 (continued)

F g

• 8. 8 033 g SCR gN R gB. *88 *88 *88 R 8.Rg

.I - -

at g 88

• 8. 8 88 *88 88 88 *88 88 I U

• 88 88 *88 "88 88 *88 *88 88 l

I Q "88 *88 *88 *88 *88 88 *88 *88 R  ? *88 *8.8. '88

$ 8. 8 *88 *88 *88 *8.8 2

• 88 NR8 g 88 *88 88 *88

• 8 8. " R.8 i

• 5, E,

3 s 88 * ; gR. 2 2g$.

• 8 8

• 88. *88 88. E88a g g- F R

• 8. 8. * ,t gX. 3 3., g N RgS. *8.8 88 *88 "W3g l -

8 ms 3s g . 3. *88 *88 " A. 8 *88

• 8.8. *88 88 " A. 8 6, w 5 *

*88 88 88 *8.8 88 i R.

5 g g a

N *88 88 88 88 *88

8. 8 *88 88 88

8. 8 y 9 . 88

5 I g a N *88 8. 8 88 88 *88 88 88 88

,_gg

^

9 ,$

, .N

• S. 8 8. 8 88 88 88 88 88 a8.8 ee58 a

1 Bd 98 88 *88 558

,; 88

• 8. 8 88 88

• 8.8 g g <s

• = ,,l wm l R

- i

• E. 8 w 8. 8 88 88 8. 8 *88 88 55

8. 8 --8 a

88 88 ssi u 88 88 *88 *88 *88 *88 "5: em E

88 R

g < ta

• 8. 8 8. 8, 88 88

• 8. 8 *88 88 o U

" 8.8 ggg 8

8 g "

g *88

• 8. 8 *88 88 88 *88 *88 88 ut s o "h

% a g

b [

oog

^ 3^^ man Na^ NAM W^^ $N ao l M^^

EOS o;$ 400 *"00 "0$ 700 NO3 800 005

• r^^ M^^

I ' "

4 E "

a n E G e

• 5*5 t

t?.

e d 02" 1

I 21 of 48

l TABLE 4A-1 (continued) 1 I

I "AA R22 RSS NEE 88 *88 88 "88 5

• darn wee me

~aa--

Rgg, , ,

88 88 8. 8 88 88 *88 88 88 H, 88 388 gg" C. E. " S. 8 88 *88. *88 332 gg i 88 *88 *88 88 RSS I 8 3 8 8. S a. n. L. 8 gj 5 " s. s. A ;R. R;;#cc *88

• 8. 8 *88 *88 488 gg I ~

I 88 A33 2AA 33 88 88 *88 88 kEE 4;

e "

$ " $. 8 488 R S- ,S.

• R. E. 88 *88 88 833 I -

=

t 3 *88 NRA 3AR ESS 88 88 gg g-y  ;; n;;  ;; 88 ; S. S.

I y -- na l ~B!

8 g . 3 " $. $. A38 2%4 gg Ruh

8. 8 88 88 4%%

~;;

be:d 5

• " 88 X$$ 383 '* 2 **2 88 *88 88 ES I 44 *'

" W4

"A; E

a g g M

. " $. $. USN REE 88 88 88 88 822 gg  ;; gj

5 I a 5

- t a

M "$$ 088 %EE aa  ;;

88 88 88 88 %GC AA g-t g2

<5e I

W r "; '88 200 388 88 88 88 88 RAA ""*

gyt w '

.: a aa -

l A; cc 2 * =5

- *88 "88 SMA "$8 88 *88 *88 CSS ggs I

= "

a4 na ' '

JJ n

..B m

i R

, a

~

E W

. 88 089  ;

3E0 gg 588 88 88 *88 Rtc 6B jj --g

1. 15 W ~$$ ?G" 23t $*E

88 *88 88 388 5" Q AA JJ ad

"di yyg l 8 b

W

= 88 A$$

Mcc R**

88 88

88 $88

8. 8 %

a JJ 888 8 "

"$$ G88 %RR "Es 88 *88 *88 RAE sg ut i gg s:

9

.

a ' -

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5 e

=

x--

EOS c, c t

,,-- s-- ~-

J, 0 *0 TC$

.-- e--

Tct ~;$ ";S e;$ 005

-- .-- ms-

; 5 * "

? 3 6 m o t e **5 tt a LL5 h

• 00 22 of 48

4 ,TKd S G fy %t&.W'd M& M -

' ;a 7 4

TABLE 4A-1 (continued)

I I

t I g 88 #0

g. 882j REE;

• Sjt. 88 *88 RSE -

j

• 88 88 88 88 88 *88 *88 '* 8 8 g

.I 88 *88. *88 2 0 E.

9

, 88 " E. s. # R.,O. "04 j j U *88 '88 R G jE. RE3 g *88 *88 *88 R34 j N

?

E. 88 *88 R U4S. ~$8  ; *E4 N. *88 *88 R8R I

~ -

5

,, 88 *88. "A3 " E. s. " R. $. 88 '88

• E C.

, g g I - -

e, t

"s 8. 8 88 88 " 8. 8 80 *88 88 88 g" g- 3 *88 *88 "$8  ; 8. 8 88 88

• 8.8 ~$8 a

.I x y :w$ -$ 3

. 88 *88 #024 " R. $. *82 88 8. 8

• E,N.

o e 5 R e: u 88 *88 *88 8. 8 *88 *88 88 88

.I 8 g

g g W

.

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• 8. S. m2

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8. 8 '88 88 88 88 8. 8 ~$R ; EEa gg 558

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O o w ooo ogg ss~ vme ogg egg ooo -no Esi

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,,9 b E CQg I

a Ema man Aan Nme eme 5 o f 300 UOS .', 0 " *"0S 700 70S "0S S0$

vae vem men $$*

0d5 4 5 O 2 S

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I l 23 eT 48

[

ll TABLE 4A-1 (continued)

I I

.#. 88

• E gS. O S. U. %% . *Sn.

g *88 '88 sE3g i

g 88 *88 88 *88 88 88 88 88 D *88 " X. s

• c jS.

.

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• 8.8

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U *88 I g g  ?

5 *87 a 8. 8 "2x X

g s. " g; A. " g% s. ' 8 8.

• 8 8 *88 SE3

j. #cS j. " xs.

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=

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• n s. g

• n gk. " M. s.

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c "

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g g" g-R 88 88 "22 "3 88 88 j j. 88

• N g%.

I g!I 6m:g :u E a,

88 *88 ' 8. 8 # cg S. *88 g.

88 88

• Rgk.

l 88 83 8. 8 88 *88 88 88 88 5

88 a88 p g W a

• 8. 8 88 *88 *88 *88 88

~

5 I :

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,V w W m

88 88 88

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_=

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• E gS. 88 *88 88 *88 N88 g gg n*

,gs

_g k!

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W 88 88 88 *88 "23 "X.s. *88 88 "M8 "03 j 88 " c jS. _$_$~

55E 8

88. *88 88 *c5 "a 4 4 l

g<

9 8 w

a *8.8. *88 "x.s. a88 88 *88 *88 " x.s. e8*o

=

g w

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88 st 8 a g r - BB-5 k bO N ON O~ ON

-S g e. k 5"~ "~~ *~N ON N N NhN N g 6** A~* &** -

• • **~

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• b tt" S

_  ::s 2 "3 24 of 48

I I TABLE 4A-1 (continued)

I I

1. *88 "Si %29 Ec2 *Eb *88 *88 388 5

J' y; g' &'

g' a e

g

• 88 *88 *88 88 *88 *88 *8.8 88 i U

a 88 *88 "S3j" $. G. 88 *88 88

• njs.

g

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• L. O. " S. 3 *88 *88 88

• 8.. ".

(I

8 g ,g *88 *88 "S3 N O gS.

4 " $. $. *88 88

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i

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• 8 A.

g j g 5

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l p5

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E 2 a

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• S. S. g 88 "08 g

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8. 8 gE 4

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==

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,,g

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• E. ,N. EE~5 --

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!E 88 R

v g W a 88 " $. $. 88

• 8. 8 *88 *88 "$8 j 99 gg5 h_f_ *88 " $. $. 88 " $. $. 88 *88 88 ~C8 55,5 8 2 g ,,

5 : x, oog n

• m .. un ~n . an, a m .. ;t~

5 I

o E A  ! "OS a"S 40$ "03 * "OS O 700 E NOS G SOL t dM5

=55 e a t e.

t i On" r < --

25 of 48

l w

l TABLE 4A-1 (continued) l w

1. "8 2E* g c2 880 383 *88 88 383 5

JJ ud m

~4Ja-an * *

• gJ

,~

4 g *88 *88 *88 *88 8

88 88 *88 . .

88

, 3 a o88 - = s.

• S. A. $ 3 gC. N #. 8 *88 88 480 g; D

• 8 8. " h.8. % 3 jA. SR2 *88 *88 88 003 g gg 3 g o88 ~48 *2 305 88 *88 325 y a g gg " h. 8 gg

~ -

. 3 *88 88 C03 230 N h. 8 *88 *88 208 j g gg 3

s - ". s. " h. 8 c k gS. E G. 3 88 88 *88 222 3 j;

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3 a88 "E.s. %28 0~h. "88 88 88 O RgE.

3

g w

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f 6 m 8 *

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3 a g

• R. A. # R S. j 3 S

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{ -

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. o. . . . . c o. 8*

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88 88

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g W 88 " h. 8 " $. 3 '# 4 0 " S. $.

~

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c w nro

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r d ih0 ww 26 of 48

s -

3 P116 RIM OCT90-DEC90 MET DATA JOINT FREQUf WCY DISTRIBUTION (220-700T TOWER) 33.0 FT WIND DAIA STABILITY CLASS E Ct ASS FREOLANCY (PERCEMT)

• 41.34 UIND DIRECTION F RC#4 SPEED (MPH) N NNE WE ENE E ESL SE SSE $ SSU SU USM U IXJ NV NNU V48L TOTAL CAtM 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (t) .00 .00 .00 .00 .00 .00 .00 .00 . (,3 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .06 .00 .00 .00 .03 .00 .00 .00 .00 .00 C-3 3 2 2 2 9 7 11 15 14 7 10 10 6 5 7 2 0 112 (1) .33 .22 .22 .22

.09

.99 .77 1.21

.32 .50 1.65 1.54

.64

.77 1.10 1.10

.32 46 46

.66

.27

.55

.23

.77

.32

.22 .00

.00 12.35 5.10 m

(2) .14 .C9 .C9 41 .68 .09 r-4-7 6 7 12 1 4 2 25 24 39 82 58 69 75 54 45 1 0 ;a4 m (1) .66 .77 1.32 .11 .44 .22 2.76 2.65 4.30 9.04 6.39 7.61 8.27 5.95 4.96

.09 1.14 1.09 1.78 3.74 2.64 3.14 3.42 2.46 2.05 11

.05

.00 55.57 22.97 g

-a (2) .27 .32 .55 .05 .38 .00  :

O 8-12 (1) 7

. TT 1.43 13

.00 0

.00 0

.77 7

.77 7

.55 5 2 11 83 55 15 28

.22 1.21 9.15 6.06 1.65 3.09 2.98 1.10 27 10

.77 7

.00 0 277 30.54 m

n

$ (2) .32 .57 .00 .00 .32 .32 .23 .09 .50 3.78 2.51 .68 1.28 1.23 .46 .32 .00 12.63 @

13-18 0 6 0 0 2 0 0 0 0 1 0 0 3 2 0 0 0 14 (1) .00 .66 .00 .00 .22 .00 .00 .00 .00 .11 .00 .00 .33 .22 .00 .00 .00 1.54 5 e

(2) .00 .27 .00 .00 .09 .00 .00 .00 .00 .05 . 0L- .00 .14 .09 .00 .00 .00 .64 cr v

19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .C3 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .03 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 -00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 Att SPEEDS 16 28 14 3 22 16 41 41 64 1 73 123 94 112 88 62 10 0 907 (1) 1.76 3.09 1.54 .33 2.43 1.76 4.52 4.52 7.06 19.07 13.56 10.36 12.35 9.70 6.8? 1.10 .00 100.00 (2) . 73 1.28 .64 .14 1.00 .73 1.87 1.87 2.92 7.89 5.61 4.25 5.10 4.01 2.83 .46 .00 41.34 (1):PERCINT OF Att GOto OBSERVAIIONS FOR INIS PAGE (2)rPEREENT OF Att GOLO OBSERVATIONS FOR THIS PERIOD C= CAIM (UIWD SPEED LESS THAN OR EOUAL TO .50 MPa)

w M M M M M M M M M M M M M M M M PltGRIM OCT90-DEC90 NET DATA JOINT FRECrJENCY DISTRIButt04 (220-f oof TOWER) 33.0 FI UIND DATA STABILITY CLASS F CL ASS FREQUENCY (FERCEMT) = 19.64 UIND DIRECTION FRf*4 SPEED (MPH) N WNE NE ENE E ESE SE SSE S SSu SV USu u w.s Nu NNV vast TOTAL EALM 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 1 (1) .00 .00 .00 .00 .00 .23 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .23 (2) .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 22 13 14 9 3 6 8 3 0 118 -4 C-3 2 2 0 3 6 4 12 11 (1) 46 .46 .00 .70 1.39 .93 2.78 5.10 2.55 3.02 3.75 2.09

.55 1.00 .50 .59 .64 .41

.70 1.39 1.86

.14 .27 .36

.70

.14

.00

.00 27.38 5.38 r-(2) .09 .09 .00 .14 .27 .18 m 4-7 0 0 4 4 7 3 10 13 17 32 81 16 7 2 0 0 0 196 s.

S y (1) .00 .00

.00

.93

.18

.93

.18 1.62

.32

.70 2.32 3.02 3.94 7.42 18.79 3.71 1.62

.14 .46 .59 .77 1.46 3.69 73 .32

.46

.09

.00

.00

.00

.00

.00

.00 45.48 8.93 7

(

(2) .00 _,

O

' 8-12 0 0 0 0 5 1 5 5 3 55 29 0 0 0 0 0 0 103 23.90 2

o h (1) .00 .00 .00 .00 1.16 .23 1.16 1.16 .70 12.76 6.73 .00 .00 .00 .00 .00 .00

• (2) .00 .00 .00 .00 .23 .05 .23 .23 .14 2.51 1.32 .00 .00 .00 .00 .00 .00 4.69 3 13-18 0 0 0 0 4 0 0 1 3 5 0 0 0 0 0 0 0 13 Y (1) .00 .00 .00 .00 93 .00 .00 .23 .70 1.16 .00 .00 .00 .00 .00 .00 .00 3.02 5 a

(2) .00 .00 .00 .00 .18 .00 .00 .05 .14 .23 .00 .00 .00 .00 .00 .00 .00 .59 v

19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 2 2 4 7 22 9 27 41 34 105 124 25 to 8 8 3 0 431 (1) .46 .46 .93 1.62 5.10 2.09 6.26 9.51 7.89 24.36 28.77 5.80 2.32 1.86 1.86 .70 .00 100.00 (2) .09 .09 .18 .32 1.00 .41 1.23 1.87 1.55 4.79 5.65 1.14 .46 .36 .36 .14 .00 19.64 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF Att GOOD OBSERVAll0NS FOR THIS PERIOD C= CALM (WIND SPEED LESS THAM OR EQUAL 10 .50 fWH)

~

TABLE 4A-1 (continued) r-r l

g 88 2 SgC. %>3 j; 243g 88 88 88 883

- ~ r - Pg

_ W g *88

• S. 8 88 *88 8. 8 88

• S. 8 88

-- 3, 88 *88 *88 88 88 *88. *88 *88 I 3 H *88 P o88 *88 *88 88 *88 *88 88 88 *88 *88 88 *88 88

$ 88

• 8. 8

=

. a8,8 88 88 8,8 88 *88 88

• 8. S.

88 *88 I

=

g t

9 88 O ug S. 200 a *88 " b x.

E43 88 88 *88 C28 j h ". k.

g g 8. 8 *88 R R. g4

- 3, R I

- r 8 $!

g - a. 8. 8 " R. $. "#3  ;

88 88 8. 8 88 # 8 S.

o w 5 2

%. g0 :

3 88 88 88 88 8. 8 88 88 *88 E

o

N 88 88 *88 88 88 88 g g o 28

• 8. S.

5 a

W 88 88 88 88 *88 88 *88

• 8. 8 22 zg 5, $ W 88 88 *8.8 *88 88 *8,8 88 88 egEb8

$;d 25*

5 88 88 8. 8 8. 8 88 88 *88 8. 8 ggs W

. 88 " Rg$. 88 8. 8 *88 88 $E~

88 " R. $. ;-B E

88 88 88 *88 88 ss" g

W 88 88 8,8 $e*n 5, x

88.

8 W 88 *88. *88 88 88 *88 g 3 ,

88

• 8.8 cod ggg

=

hf_ *88 88 88 88 88 88 8 a

8. 8 8. 8 ,,,

EN E : oog

- x-- r-- u- ~- -- <-- a-- en-  ;;~

5 o E EOS UO$ 40$ "00 70$ '? O $ "OS *00 00 5

4 5 " " "

2 e

G t a 2[5 t .. e e

m ORv

d. --

29 of 48

11 'v M M M M M M M M M M M M M M M PItGRIM OC190 DEC90 MEI DAT A J0!NT FREQUENCf DISTRIBUTION ;220-F007 TELTR) 33.0 FT WIND OATA STA9ItliY CLASS Att C1 ASS TREQUE NCY (rf 5 CE NT) = 100.00 WINO DIRECTION TROM SrtED(MPH) N NNE WE ENE E ESE SE SSE 5 SSV SV WSW W Lv.i W kW VRBL TOTAL cat M 0 0 0 0 0 1 0 0 0 0 0 1 0 0 0 0 0 2 (1) .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .09 (2) .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .09 C-3 8 10 5 8 15 14 25 37 27 23 28 32 9 13 19 8 0 281 --e (1) .36 .46 .23 .36 .68 .64 1.14 1.67 1.23 1.05 1.28 1.46 41 .59 .87 .36 .00 12.81 >

(2) .36 46 .23 .36 .68 .64 1.14 1.69 1.23 1.05 1.28 1.46 41 .59 .87 .36 .00 12.81 E m

4-7 20 28 38 10 22 9 44 49 69 139 186 117 118 101 105 28 0 1083 3 w (1) .91 1.28 1.73 46 1.00 41 2.01 2.23 3.14 6.34 8.48 5.33 5.38 4.60 4.79 1.28 .00 49.36 >

O (2) .91 1.28 1. 73 46 1.00 41 2.01 2.23 3.14 6.34 8.48 5.33 5.38 4.60 4.7* 1.28 .00 49.36 L o ^

% 8-12 11 22 21 10 17 14 10 7 21 170 121 30 101 79 64- 33 0 731 u (1) .50 1.00 .96 .46 .77 .64 .46

.46

.32

.32

.96 7.75 5.52 1.37 4.60 3.60 2.92 1.50 .00

.00 33.32 8 o> (2) .50 1.00 .96 .46 .77 .64 .96 7.75 5.52 1.37 4.60 3.6G 2.92 1.50 33.32  :)

av 13-18 9 34 0 3 6 3 0 1 7 11 1 0 9 11 0 2 0 97 Y (1) .41

.41 1.55 1.55

.00

.00

.14

.14

.27

.27

.14

.14

.00

.00

.05

.05

.32

.32

.50

.50

.05

.05

.00

.00

.41

.41

.50

.50

.00

.00

.09

.09

.00

.00 4.42 4.42 5

n.

(2) v 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .C0 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 48 94 64 31 60 41 79 94 124 343 336 180 237 204 188 71 0 2194 (1) 2.19 4.28 2.92 1.41 2.73 1.87 3.60 4.28 5.65 15.63 15.31 8.20 10.80 9.30 8.57 3.24 .00 100.c0 (2) 2.19 4.28 2.92 1.41 2.73 1.87 3.60 4.28 5.65 15.63 15.31 8.20 10.80 9.30 8.57 3.24 .00 100.00 (1) PERCENT OF ALL C00D OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PERICO C= CALM (WIND SPEED LESS THAN OR EQUAL To .50 MPH) l t

I

M^"E'E l U R _I I ___

PILCRIM Jut 90-SEP90 MCI DAT A JOINT TREQtJE NCY DISTRIBUTION (220 - 7 00T YO'4 R )

STABILITY CLASS A CL ASS FREQUEkCY (PERCENT) = 11.57 220.0 FT UIND DATA UlWD DIPECT!GN FROM SPEED (MPP) W NNE WE ENE E ESE SE SSE S SSU SU U5V U WW Nu MNU VRBL TOTAL

]O nw 0 0 0 0 0 0 0 -4 0 0 0 0 0 0 0 0 0 0 CALM (1) 0

.00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00

.00

.00

.00

$3

.00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 m to (2) .00 .00 .00 C C-3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 ro d 1

.00 .00 .00 .00 .00 .00 .00 .00 .00 40 OO (1) 00 40 .00 00 .00 .00 .00 .00 Z

.00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 m (2) 00 .05 .00 -4 0 9 7 3 0 0 1 0 0 0 0 2 2 6 2 0 51 4-7 8 11

.00 20.24 r- I .-e

.00 40 .00 .00 .00 .00 .77 .77 2.33 77

$ (1) 3.17 4.37 3.57 2.78 1.17 _C0

.00 .05 .00 .00 .00 .00 .09 .07 .28 .09 .00 2.34 Q" ]

(2) .37 .51 41 .32 .14 .00 mo r-7 5 9 7 1 2 0 100 f- m

' 9 9 4 6 8 6 0 4 12 U 8-12 11

.00 37.68 A (1) 4.37 3.57 3.57 1.59 2.M 3.17 2.38 .00 1.57 4.76 2.78 1.93 3.57 2.78 40 77 o

's:o u

.28 .37 .28 .00 .18 .55 .32 .23 .41 .32 .05 .07 .00 4.59 00 (2) .51 41 41 18 m e 13-18 2 9 10 1 1 0 5 3 6 11 11 3 7 8 5 4 0 86 YO m*

.00 1.98 1.19 2.38 4.37 4.37 1.19 2.78 3.17 1.98 1.57 .00 34.13 (1) .79 3.57 3.97 40 .40

.51 .14 .32 .37 .23 18 .00 3.75 ro @

(2) .09 41 46 .05 .05 .00 .23 .14 .28 .51 ro m O

4 0 0 0 0 0 0 0 0 0 3 0 0 0 14 y 19-24 0 5 2

.00 .00 .00 .00 .00 .00 .00 .00 .00 1.17 .00 .00 .00 5.56 m 2" (1) .00 1.98 .79 1.59

.00 00 .00 .64 .Ow

.00 .25 07 .18 .00 .00 .00 .00 .00 .00 .00 .00 .00 .14 (2) 0 0 0 0 0 wU 0 0 0 0 0 0 0 0 0 0 0 0 GT 24 0 (1) 00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 km" mO

.00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 nw (2) .00 .00 .00 to 8 11 4 to 23 18 8 18 20 12 8 0 252 All SPEEDS 21 35 30 16

.00 100.00 (1) 8.33 13.87 11.90 6.35 3.97 3.17 4.37 1.59 3.97 9.13 7.14

.83 3.17

.37 7.14

.83 7.94

.92 4.76

.55 3.17

.37 .00 11.57 (2) 96 1.61 1.38 .75 46 .37 .51 18 46 1.06 (1)=PE RCENT OF ALL 0000 035ERVATIONS FOR THIS PACE (2)=PERCE NT OF ALL GOOD OBSERVAi!ONS FOR THIS PE RIOD C= CAtM (UtuD SPEED LESS THAM OR ECUAL 10 .50 HPd)

I _ _ _ _ _ __

I TABLE 4A-2 (continued)

1. 88 "0S 28% RES Rtc #25 o88 283

- n a' fe JJ n

ad n

A' ' '

gA g *88 o88 o88

. *88. *88 88 88 88 3, 88 88 88 88 88 88 *88 88

? o88 o88 " s.n 3 "08 " #. 8 8. S. '88

• 2. sR.

I 3 3 o88 o88 "08~" s. 2n " 0. ~S.

3

~ -

88

• 8. 8 " E.>?.

n I ,

3 o88 " a. s. " s. n3 " 0. ~S. *00

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88 88 W R. $.

c s

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88 o88 " $. 3 M 88 8,8 88 " s.M 3

}

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a= @

4 " A.>=s. 88 0 ; S.

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R 88 88 88 " s.M 3 " R.b 4 88 *88 E S. r$.

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5 w oog ooo -~r ~g ego .9 ogo

• ogo mgo t 9. . . 9 *. 'a

.". $2 1

o - ~ r 3;x 0;*m w one ceo

,= p .n., oo8 0 00

c. o. m s. o o.oo8 o.ooo

. c. ooo 00 ero >. E t S.

s -

j gg i EU 88 88 "08 g

88 88 88 88 " 0 gS, ~"5

==o gg

,,g

$$5

' w

• ooo ooo ero uro

.9

-~r ooo one

"!j"B

• ". *9 o 0. o9 "9 99 9N l

m e ~

3 - ~ -,

o w ooo ooo ~ro ooo -~r -~e oom ==z

9. 9 *. ** " "

y ~

. . 99 . o E. o9 ! ". Wd"

- - m ggg g w ogo oeo -~r ooe -~r ooo ~r.

m < # .9 9 o. "9 o. 9 oogo. . "9 o. 9 *9 99 ggo5 a<" " " "

d 6 = coe e o g,a a. o.

-~r

r. o. o80o - ~  ; s.

m N

r. o.r o 8. o 0 ao80 rCo ddh

g. ,,9 I E

" oog gne cr w a Z ** N r. a Nn em N. ea N Naa e* ** N eme

-**N een N e= N oem N-N uma oeN wwE Q Q g ww Www owv ww ww ww ww www o -

e u A N Q

- - wwv I "

E.,

H d

A4 hho o vv f 32 of 48

I TABLE 4A-2 (continued)

I .i

• S. 8 " R;$.

R

• R. Ab3; E R 8.

• u4n. " R;$. 083g I i g

88 S. 8 88

• B. 8 *88. '88

• 88 *88 I U

. *88 *88 ..

'88 "R0 g '88. *88 88 " R. $.

U *88 8 8. " g US

. 88 "

R. $.

• E. 8 *88 "G3 g E *88 88 "32

• 88 " R. C. "RG G 88 *20 g R.i g ..

j I

3

. 88 88 N UgS.

• 2 jC. N gU S. " R. G.

88 283

- g 3 "

b

. $ "88 88 #88. N"3 G. 3

• E. 8 88

• U. eD.

I

- ~ m

- 2.

g" g- 3 *88 *88 " U S. g " R. $. # 3g D. *88 "88 *34 g w

E$I g g -

a *88 *88 " G gS. "04 e

g "G3g *88

• 8. 8 ? $. $. ,

B "

b'.ejg 88

• B. 8 " R. $. 'M3 "G3

• 88 "$2 o u g g *S.8 j I g . - -

E g g W

e 88

• S. 8 " R. $. ""8 g 88,

• 8,8 88 "G2 g

5 a 88 88 8.8. " Gg 3

• S. S. 88

• S. 8 " G s, o'

, u g ,, g g V 88

• sie 88 " Rg$. "G8 *88 e

t g $. -

g 88 88 " Gg s. "gg " ".

5 s

'I w u a

• .a. - .e.

88

• B. S. N gU S. 88 " R. $. 88 88 "G3 . g ..g

a. s .

g , t,

.R rr.

i 88

• E, 8 " R gS. " ; S. *88 " R. $. 88 I ,

E 7 -

w OOo

- se Ogg ..

N-S

.s OO{

g

s. Ogg cog s.

OOO ss NS

1. 2j S.

e. hN5 E!

B

• ==

t " . .

N

. n--

I

• t <

5 W

a

• 88 88 " R.- 8 88 " R.- s. " R.- $.

R. $.

1. 25 o

BOM S$$

a g e.

8h *88 " R. $. 88 " Rg$. " Rg $. " R; $. 88

• E jS. hk g m

h C ~ nn 3 = .z. e. n ~n u. .n ~n ~nn -~

enn

,-~a ann

~ p~

ann enn 55 w

., O. le E

4( .o8~.sv U

V V %8 QWW . V %sa w e ~.,s a ~r ga

-~

e.3ww g

~~r gQw M &

I to E R~ E

~

• p A

a' M .C tt" E

e s., AABN

.< ~

p a.a 33 of 48

-  % >to r ,r 3y8" go3::mgav L 000 599 410 O63 820 004 320 004 A 00 146 724 ?54 448 438 106 307 T 1 1 4 O

T t

8 8

000 00 000 3

00 000 73 1

00 000 26 3

00 000 46 3

00 000 91 00 000 3

00 000 09 01 1

00 0

V J

W 000 00 135 20 438 91 438 91 135 20 000 00 279 40 295 175 C 2

W 000 000 279 279 608 279 000 295 W 00 00 40 40 42 40 00 175

_ 1 2 4 J 000 135 438 304 563 000 000 320 7 00 20 91 73 12 00 00 106 W

9 1

V 000 135 279 40 563 12 599 146 1

279 40 000 00 515 281 3

V

= 00 20

) 1 3 51 t

x E M 000 000 135 867 608 000 000 599 .

C S 00 00 20 83 42 00 00 146 a U E 1 1 3 P

) (

R J 000 135 304 036 1 86 563 000 004 E f S' 00 20 71 134 289 12 00 438 E.

c t N 2 4 1 91 7 E U M f Q O 2 000 000 304 927 844 438 000 484 W

)

w E R 5 00 00 71 1 48 387 91 00 689 C R T 5 F F 4 81 42 N 1 0 S O 2 S I S 000 1 35 279 623 927 438 000 273 2 m T 00 20 40 1 77 148 91 00 479

( t C C E 3 4 91 N R O I I D E 000 000 732 320 732 000 000 784 T S 00 00 63 1 06 63 00 00 222 .

U D S .

B N 1 3 1 61 I I R W E 000 T 1 35 304 052 304 000 000 784 )

S S 00 20 71 269 71 I

00 00 222 eH f P D 4 61 EiM CR f D AE0 C E 000 000 464 623 304 000 000 372 PP5 N S S 00 00 1 26 177 71 00 00 365 C S E sS u A 3 3 71 iI c L HHo E C T TT .

R E 000 000 599 438 000 000 000 927 T f 00 00 1 46 91 00 00 00 I

1 48 RRL T I 3 OOA N L 4 F F U I I Q O B E 000 135 438 SSE A N 304 563 867 000 1 36 NN J

T 00 20 91 71 12 83 00 289 OOR E I ! O A S 1 1 4 Tf T

A AAN VVA D E 000 608 438 438 563 608 000 515 R RH T

N 00 42 91 91 12 42 00 281 EET SS E 1 1 1 51 BBS P OOS 0 E 000 E

000 608 991 867 60S 304 247 0DL 9 M 00 00 02 04 83 42 71 344 0O P A N 0OD E T 2 S A 1 1 9 71 CGE E

D t.LP 0 N 000 400 438 608 304 F t,7 356 t LS 9 O 00 4 00 91 71 83 t N 2 7 M. 42 230 AA G

U I 1 1 51 F f N J W OOI M T U

) T ! (

I F M)) 3) ) 7) ) 2) ) 8)) 4)) 4)) S) ) NN R H t 1 2 - 12 - 12 1 12 1 12 212 212 D12 E EM C 0 P A(( C(( 4(( -(( - (( - (( (( E ( ( CCL t M C 8 3 9 T E RRA i 0 ( 1 1 G P EEC P 2 D S PP 2 E r = =

E L ))C P L 1 2 S A ( (

wh k 3co 1

M M E E ( b_I I ____

!LCRIM JUL90-SEP90 MET DAT A JOINT FREQUENCf DISTRIBUTION (220-F00f TCrtER)

STABILITY CLASS E CL ASS FREQUENCY (PERCENT ) = 43.16 220.0 FT WINO CA1A W kD DIRECTION FPOM SSE S SSV SW VSW V WW NU hMV VREL TOTAL W NME NE EWE E ESE SE SPkED(MPM) 0 0 0 0 0 0 0 0 0 0 2 cat M 0 0 1 0 0 0 1

.00 .00 .00 .00 .00 .00 .00 .00 .00 .21

.00 .00 .11 .00 .00 .00 .00 .11 (1)

.00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .09 (2) .00 .00 .05 .00 .00 2 0 2 1 1 1 0 1 0 25 C-3 (1) .21 2

.21 2

.21 2

.11 1

.21 2 4

.43 3

.32 .11 1

.21 .00 .21 .11 .11 .11 .00

.00

.11

.05

.00

.00 2.64 1.15 cn

.09 .15 14 .05 .09 .00 .09 .05 .05 .05 (2) .09 .0c .09 .05 r-6 4 2 3 1 3 12 0 143 4-7 7 7 11 14 15 24 18 15 1 h

1.60 .64 43 .21 .11 .32 .11 .32 1.28 .00 15.21 f w (1) . 74 .74 1.17 1.49 1.60 2.55 1.91 .28 .15 .07 .05 .14 .05 .14 .55 .00 6.57 7 (2) .32 .32 .51 .64 .69 1.10 .83 .69 to us 27 9 29 25 7 9 10 12 11 0 273 m l 14 9 34 k o I?

(1) 24 16 25 2.55 1.70 2.66 1.49 1.28 12

.96 3.62 2.27 96 3.09 2.66 .74 96 1.06 1.28 1.17 .00 29.04 n 41 1.56 1.24 41 1.33 1.15 .32 41 .46 .55 .51 .00 12.53 1.10 . 73 1.15 .64 .55 N (2) 3,. -~

6 7 30 13 77 63 24 35 18 25 17 0 13-18 25 5 13 10 2

.21 .64 .74 3.19 1.35 8.19 6.70 2.55 3.72 1.91 2.77 1.81 .00 30.47 S j (1) 2.66 .53 1.35 1.v6 .83 1.19 .78 .00 17.03 no i (2) 1.15 .23 .60 46 09 .23 .32 1.38 .60 3.54 2.89 1.10 1.61 o.

0 0 0 3 25 40 2 to 3 5 1 0 119 19-24 5 2 19 1 0

.00 .00 .00 .32 2.53 4.26 .21 1.06 .32 .53 .11 .00 12.66 (1) .53 .21 2.02 .11 .00 .05 .00 5.46

.87 .05 .00 .00 .00 .00 14 1.29 1.84 .09 46 .14 .23 (2) .23 .09 0 0 0 2 0 0 0 0 2 0 7 l GT 24 2 1 0 0 0 0 0 00 .00 .00 .00 .00 .00 .21 .00 .00 .00 .00 .21 .00 .74 (1) .21 ,11 .00 .00 .32

.00 .00 00 .00 .00 .00 .00 .00 .09 .00 .00 .00 .00 .09 .C9 (2) .09 .05 43 62 74 33 '138 134 35 58 33 46 44 0 940 ALL SPEEDS 65 '33 71 40 31

.00 100.00 (1) 6.91 3.51 7.55 4.26 3.30 4.57 6.6G 7.87 3.51 14.68 14.26 3.72 6.17 3.51 4.89 4.68 .00 43.16 (2) 2.98 1.52 3.26 1.84 1.42 1.97 2.85 3.t.0 1.52 6.34 6.15 1.61 2.66 1.52 2.11 2.02 (1)= PERCENT OF ALL GOOD OB5ERVATIONS FOR THIS PAGE (2)=PERCENI 0F ALL C000 OBSERVAil0NS FOR THIS PERIOD C= CALM (WIND SPEED LESS THAN OR EQUAL 10 .50 MPN) ll P1 w mmm

. c . _ -

I TABLE 4A-2 (continued)

I 1 # 88 us h20 GS8 5Rc %ss 88 ~84 5

A' ~a' J. A JJ Ja ' '

"gJ

- - e g

88 88 *88 *88 *88 . . 8. 8 88 88 co -- rem -*r ooo ooo ooo M EN

. o. . M. . r. N. M. o. o. o. o. e. o. o. *-M.

g 3 o88 ~ ;; 8

. '# R. !!!.

• A. ". *$.n. *88 88 343 g lE g 3

3 o88 *88 ~ 2. S. *S 88 88 "88 g h. " E. 3  ;

, I ,

5 2

o88 88 88 083

.o o

5 8 jR.

ros ~~.

88 88 RAR se~

g; 99 oog

, --r r m .,

e s ok8 "9 9 ". *9. **9 . 9. *h*

I ~~

m u

~ --

N t;

• 3 ooo oog 9. .J- {1 . W{e 80 oee "9" Mgg oog ** b *P x

9 o.

w- a

.. 9. **9 r~

5 I

a o88 ooo o~e ooo g m

.=

r

. o. o. ~ ~.o. S.--,g. enc.

-o meew. o. o. n 3 ~.,

, g g .

g; 1

4 R

~ < -

$! w ooo ooo ., r c seu

- r.

~*r r-r o88 omo g u o. c. o. o. ~.. g - ~g r. m. o. ~e-g; 5 m

- a w ogo ooo ooo oo- one -g o g *.3 omN 5m o

a u . o. 99 99 al

~

• . - .n* . "

. .. ~ N ".

e I

~t 3 w oo coo rer I -g 9. age oog

- ooo o~e -

o

9. 99 *9 . ..

.. 9 o. -".*. 82

- - m w-r

> - s~e

• 9 eey u w ooo NNo ** ** r N & ** *= r ooo *-M*= 4Ar

=0 99 9. "9 .9 99 o. 9 -** rm 55 .

I

" " E;o E "-

• 88 * $. -N. ";8 88 88 ~~[

8. 8 . 88

• b. -R. ss 5,

w ooo ,re ese n r -,

I , ;

E m

=

w ooo

=

o. o.

o. o.

--e

~..

n. o.

ree

e. ~. a. . e 8. o0 o 8. o0 o 8. o0

~ . . o 0. e.

ooo

o. c. oe8o. eooo. o.

r- 8 o.

no-

g. "5"8"8 ew

<<=

CEE mm-

g. or, x 88m

(

[3 e <

W 88 88 " E. 3

• b. 2 88 88 88

• 8 ';

g.

d g

m g oog coo.9 rem*N rem rer 99 ego egg ddh

= --e 9- . .

N ^*- '1 .9 o mma o

3 OQ=

b w a rma mem ea Nan man oma vna amm $$

E w-N *-N N. eN wmr 5 o, g u--

"-N

-eN N-N N-N o-N

, 3-- 4-~

4-~ 4-- ,-- --- ugj rR ~ E m

- - =

S t. r., *.,

m J ^^w m -~

m m. -

36 of 48

TABLE 4A-2 (continued)

I I t- *88 E b. 3 MM O. .NN

.. C S. S. *: R.

- C.W N G. E. *88 ~ 8. r ;'.

@M $0 .* p *e,+

I

.O. ** N r.J

.o.

1. ,, 88 88 '88 *88 *88 *88 . .

88 '88

a. *88

, n. s. * $.e= n. " A. s. 88 *88

• 8. 8 " E. M. N D *88 n. s.

• R.- S. # -c.s. * $.n.

• 8.8.

• 8 8. " A.3

e. '3 *88. '88 "28

• P, 4. " R. 3 . 8. 8 *88. 085

~ ~r a 88 o88 o88 o88 083 t R. R. ., e 88 R C. E.

4 ..

I f, oeo - e. r mm, so o A eoA ooo NON u

. b, o. o. m. o. o. e.. -s g n. *e -r. c%. N N.o. &o.o. o. r N. g e I

I .

y,a D

m o

w 2

m oco coo oro ., r .o

o. o. 0. o. N.

. N.**.

P" orm M M. M.

r r e;J.

• • O. %

4

. ooo O. O.

-na e 8J. rn.

rN w -

• . d b. 3 oo8 o 8. o0 oN0 mme e m

=

r 0

NN8#. - m.. .

.c E.s.m u. . o88 *= $ N.,

r c..-

..I v.

. - 4 b 6 m

b N

a ooo oooo. o.are N.se . e.c .Nm. ~or --r coo , c o.

N. o. o. e- N. r. m. o. o. o. N we. e .

u u.> N I

. ** M N *"

5

=

Q u, M

eoo eoo Doo OQ+* e N 60 ** ** r ooe oeN w p w Ce. o. o. o. o. o. 80. st. *-..4 m. o. o. o. N N. >.

A N n .(v

. 1 3 a

M 88 88 * $. 0 n. s. " e=n. s. 88 88 E U.m'?. 8 ,2, Q e* W == 1

> w O ag t.r.

. o u

e m e

ooo N~n r .o r ~No --r een .- u u r,

,a, m

o. o. c. o. r. N.

-.rm o. e. o. m. o. o. 6 e g. r.

n me D> W EWo W r4M --e e o88 o 8. o0 r. ~. m. o. o88 o80 o88 4A m.R. 8 8 o.

~

- - --g

• '2 0 "02 88 O G. S. rh

-R -; 88 88 g I

W

< m m #R -

. S.

. . 8, 8,

--g

< st 4 2 Q W ea ** r  : ><

E oo9 4 r en %f r M oOo oCQ ooO 4 o ** CK Ch: 3B:

66. W-

- o. O. M. o. N. e" N. c'. o. Q. o. O. C. o. OJ. *,. me w e= e= N g tp e I

E UQM W

[< W

=

88 88 " E. 3 *tR *88 *8,8 *88

• E. NG. 8S"

. . o m

w +- ,=

Q w

+ <

o' Q

a ooo oeo on .o r m .o m r .e m --#. ooo emm Ad5

.ae I

@ Q o. o e. o. r. N. <<

.E r. N. r. N. m. b. o. o- e 4. N.

-3 e

- e. - ., wm9 O O -=

• 3

E--

r. s-- ~-- .- .-- s, -- r--  ;;-

5, e

=

m - , ~

< o .~

~-

. ~. . ~- . ~ ~. .~ N ,N -

0

~. vu.

,z I

E W CD M Ch >= w a m .C

=== o* w e= e- c C wy y

.1 N N

o M w

w a.. p u m

a.J ** - U a -N M er, -w 36 of 48

1 1

3

- TABLE 4A-2 (continued) 1 r

L a COO ~-o --O .. 40 rre C00 eOO

.E O

O. O.

40

~

- ".~ 4 M A. c. N e. . O. . O. O. N O. W.

e- -- m a

- ** Q M v.n

.J OOO COO COO OOO COO C00 000 000 to O. O. O. O. D. O. O. O. D. O. D. O. O. O. C. O.

E o88 *88 " M. s.

2 . .

88 *88 88 88 " N. -G.

• 2 000 000 ** N m MmW 090 000 000 4@m

. 00 00 00 C. O. O. O. m. o. O. . N. .

, - m e Ch 000 000 44m N e= N med OOO COO .tNd 3.2

'*W4.

W.

m a O. O. O. O. N. e'.

m N. M. O.** O. O. O. O.

o m sa y

3 000 Coe -Nr ror mer COO C00 -~-

C. O. O. O. M. O. W. N. c. N. O. O. -40 O. O.

• - e . .

=

COO er~ em~ COO O v

a, y, O 8. O0 00 r s. o. e. r. r. m. O88 O. O. - 8.~. .

m M O 6 g e O.

e N 3 000 000 -Ne @Om MMA Med C00 OQM y

e ** w 10 O. O. O. O. M. C. eJ. N. m. M. &.**. O. O. .

2 e= N O M M p- y ** N

- 8 5. a o OO8 0 COe -~r Nr8 coo 200 CeO n!w 3

w

.m . m .

00

n. o. e. O. O. O. O. O. O. m 8. .,.

• • N M

. 2 O M Q N e M OOO OOO ** N e Med OOO OOO COO .P W M N < - 00 00 w ,,,, y M. O. O.**. O. O. O. O. O. O. N. e*.

U w ** M W 2 a

+=

.O.i. O w OOO OMO OOO OOO

.= 0 00 60 OOO OOO OOO OOO 00 00 3 0 m O. O. O. O. C. O. O. O.

2 In.

.. a

• w OOO -Nr OOO COO OOO COO 000 *= N D ^

M H.

O C. O. M. O.

O. O. O. O. O. O. O. O. 6. O. M. o.

8xk

- Q L w U w OOO O00 OCO DOO < WO M M OCO OOO OOO Opp

,2 . m O. O. O. O. O, O. O. O. O. O. O. O. O. O.

t. A m.

a O. v.

w m. m.

d.,

.. W =2e

• " >=>=>=

88 88 88 88 88 88 88 88 Egym 2 -

4 h,

55

< m W

m 88 88 "88 88 88 *88 88 88 - _5 5 erw 5

• t *C E *.E O w 000 000 000 000 > > eC 2

000 000 000 000

• . C. O. C. O. Oe O. O. O. C. O.

ar wwe a m.

.s C. O. C. O. O. C.

E p A. m q,

w Q@

w 000 2

m O. O.

OOgO.

cogO. OOO O, O.

Coe O. O.

OgO . O.OgO cog eqd w

41

(

. O. O. . 550 QQw O

O' 3R O9O eNe OOO OOO OOO OOO O OOO *= N *) .e.#.b

. o.o.

V. O. M. O. O. 3 00 et et s, .9 o. O. O. O. O. O. m. b.

a m0 3 -.

9

== :s

.I. w ^ E^^ Nem -v

m. a ~n eS ^ ^ q^^ o^^ eem 2

Oe

=

O.

O

=

r K

v

--~

dww U

Uww N. A m 4ww

~

M

. -~ --~

ww n

6 ww ~. -~

O ww

~-N ww 0-~

www p

_2 2 u-1 u.

ss tm 4

• - - O L N O wwU

~ m V

%,, C.r. ,,

W

(= J.

A AQ H *= N

< ww 37 of 48

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

M M M M M M M M M M PILL 2!M Jut 70-St P90 ME T DAT A JOINT tat o'f NCY DISTRIBUf!DN (220-FOOT f ot.:E R )

220.0 ff WIND DATA STABILIff CtAss Att CI A55 FREQUE ECY (PESCTNT) = 100.00 uma otRECT 304 f Eret SPEED (MPH) N NNE NE ENE E ItE SE 55L S Ssu su V52 V tm W NW .%L 101AL cat M 0 0 1 0 0 0 0 1 0 0 0 0 0 0 0 0 0 2 (1) .00 .00 .05 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .0C .09 (2) .00 .00 .05 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .09 C-3 7 3 V 6 2 6 5 1 3 0 3 2 3 2 1 3 0 56 (1) .32 .14 .41 .23 .07 .28 .23 .05 .14 .00 .14 09 14 .09 .05 .14 .00 2.57 $

(2) .32 .14 .41 .28 .07 .28 .23 .05 .14 .00 .54 07 .14 .09 .05 .14 .00 2.57 (D i 4-7 20 27 32 35 42 44 27 24 15 12 13 8 13 18 21 24 0 3 77 w (1) .92 1.33 1.47 1.61 1.93 2.02 1.24 1.10 .69 .55 .60 .37 .60 .25 .96 1.10 .00 17.31 y w (2) .V2 1.33 1.47 1.61 1.93 2.02 1.2G 3.10 .67 .55 .60 .37 .60 .23 .96 1.10 .00 17.31 e o 65 51 47 82 57 41 48 38 24 19 0 693

-* 8-12 46 40 42 28 23 39 -s n

3 (1) 2.11 1.84 1.95 1.27 1.06 1.79 3.03 2.34 2.25 3.76 2.62 1.58 2.20 1.74 1.10 .87 .00 31.82 0

m (2) 2.11 1.84 1.93 1.27 1.06 1.77 3.03 2.34 2.25 3.76 2.62 1.88 2.20 1.74 1.10 .87 .00 31.62

-^

13-18 40 23 29 16 4 11 17 50 53 152 145 87 87 40 44 22 0 822 (1) 1.84 1.06 1.33 .73 .18 .51 .27 2.30 2.43 6.98 6.66 3.99 3.99 1.84 2.02 1.01 .00 37.74 S (2) 1.84 1.06 1.33 .73 .18 .51 .87 2.30 2.43 6.98 6.66 3.59 3.99 1.84 2.02 1.01 .00 3 7.74 19-24 10 15 28 15 0 1 0 1 8 35 62 4 13 7 7 1 0 207 (1) .46 .67 1.29 .69 .00 .05 .00 .05 .37 1.61 2.85 18 .60 .32 .32 .05 .00 9.50 (2) .46 67 1.27 .69 .00 .05 .00 .05 .37 1.61 2.85 18 .60 .32 .32 .05 .00 9.50 .

l GT 24 10 5 0 0 0 0 0 0 0 0 2 0 0 0 0 4 0 21 l (1) 46 .23 .00 .00 .00 .00 .00 .00 .00 .00 .09 .00 .00 .00 .00 .18 .00 .96 (2) .46 .23 .00 .00 .00 .00 .00 .00 .00 .00 .09 .00 .00 .00 .00 .18 .00 .96 Att LPEEDS 133 115 141 100 71 101 117 128 128 281 282 142 364 105 97 73 0 2178 (1) 6.11 5.28 6.47 4.59 3.26 4.64 5.37 5.88 5.88 12.90 12.95 6.52 7.53 4.82 4.45 3.35 .00 100.00 (2) 6.11 5.28 6.47 4.59 3.26 4.64 5.37 5.88 5.88 12.90 12.95 6.52 7.53 4.82 4.45 3.35 .00 100.00 (1)-PE2 CENT OF Att COCO OBSERVATIONS FOR THIS PAGE (2)=PERC[NI Of Att GOOD OBSERVATIONS FOR THIS FERICO C= CALM (WIND SPEED LESS THAN OR EQUAL to .50 MPM)

[

L TABLE 4A-2 (continued)

.4 OOO OOO 4MN N ** 4 m4O O sf O M .O ,* 90003 f <

g O. Q. O. O.

O

,.V.

V 40 o

• = ,e. 4 u

n V . g*=

A

• • m2 eJ.

rw O. j(>

8 i

g 88 88 88 88 8.-8 *88 . . 8,8 *88 . .

{

• t OOO 000 000 NNm O *= N M44 000 OMW k

. a Oe O. O. O. O. O. d. M. ** 00. .ae M. **e O. O. N 4. &.

m k N m e=

• 1 OOO OOO OOO O e= N N GO $ 4 & 93 NOO h 00 00 -

C. O. V m. . . 4 -04 e= M. e. @. N. m o. n.

M N & W m **

N m OOO OOO M44 mNO N EO @ N4& 0OM a) Ch m3 r

&. C.. CJ. Q O.

. M.**. e= N. N. ** m. e. m. O. 4. N. M 4. N.

m N - > - 4 -

,=

2 e o88 o88 88 " $..-8 " R. $. " R $. " R. $.

• g n. .

- m 3 000 000 000 000 Coe COO C00 000 U. s O. O. O. O. O. O. C. O. C. O. C. O.

00 00 m

t w

a w .-

u E o88 88 88 " R. $. 88 88 88 " R. $.

D 2 h

m B!

a

- Ma os.s. o88 *88 " A. *. "28 88 88

• s Mm.

N *=

b N

M M

b

- M O *3 O OOO OOO ** 93 m OOO OOO OOO - e3 m N -

w SC. u O. O. O. O. O. O. N. O. O. O. O. O. O. O. N. O.

W W 8 5 g

N e

88 88 8. 8, 88 88 88 88 88

-g

- 3 W 88 88

• 8.8 " R. $. R, 8, 88 ^

O 88 " $. -S. Q mm U

w wK LJ

< we x

2 M OOO COO OOO 000 000 000 ODO OOO M

y a w O. O. O. O. O. O. O. O. O. O. O. O.

sw a m.

< O. O. O. O.

5 .a -mm -

mxO 5 w OOO 000 000

- O. O. O. O.

00 O88 O80O CO8 0

O88 . .

000 C. O. 88a<

2

- -W .

0 to w OOO OOO N@6 emw O 8. O6 OO8

• = to m M

2 w C. O. O. O. o. . m. O. N. O.

OO8 0 Mww

m. , . 85

-.8

• =

t- N eC .c eC 2 Q W C00 000 000 000 m e= M 000 O00 > > eC 2 00 00 00 m e= M wax

>=

O. O. O. N.

00 QQ kew-

. . O. N. MM i "

• O w COO 888 y 2 O* O.

COO O. O.

N4&

m* O.

Neo m o.

COO 000 OSO QMb QU 2

5w aC

• C. O.

O. O. O. O. *=.e=. O O < r O m o a COO COO dm> @bc Neo COO 000 b @ N eo .o .a. .a

.JCre

- , O. O. O. O. *=.e-. 4. N. e. O. O. O. O. O. e= n. e. e( eC v

v - 3 n < - > -9 00-x -

- -w 3

- A Eam em am Nam a3 ^ ^ ^ M^^

Et E .a *= N M. e= N N. ** N

. *=

wwN 4 .^- N 4 N .a* m O e= N 22 ww

.%). O. c.

I et w w W

Uww 4ww 80 r= *w= wN m

N. ww o

s.N w wwi u u .I 4

- O w - -

>=

a w

m w a ec A N O e www

~ m C.6 Q.

m .

m -u d -

%e

~9 SR 1

39 of 48

1 1

H TABLE 4A-2 (continued)

L m

1. 88 88 #02 330 NCE 08R EE3 G8o B

4' a*

~

aa M y* A

- gA

- g o88 o88 88 88 88 88 *88 88 g

• 88.. o88 88 88 " M. 8 " $. 8 88 "88 g

e' oogo. . oog. o.

-4M r- o.

MN4

-4g n. Mog*. . o g o. o oes I

4 - s e 4 *3 ooo oco MN W4.*

N e$ & MN4 Noh MN4 Mo-M O. ,S o. O. o o.

4.

00

@.. o. o. @. - o. d.

M 4 M 4.

{

" 88 I -

S. 8 o ooo 88 "88 MN4 M

. . "334 " 8 8.M " S. sA. "$8 oeo e

oo8 m

a.

w 3 o 8. o0 o80 o. o. .. N o.e S. o. o. o. M e.e n.

4 M N I 8 g

u u,

3 88 88 *88 88 # c. t.

e 88 *88 *02 4

- . E5 3 000 eno o9 ogg - oa p. ~eo -49 Neg e-e I 8 : :

elm 5 "

9o 88 99 M

9.

M NN 4_ V : 88, 8,8 88 "88 l

g u 88 " $. 8 " X. 8 8

g N

a 88 88 88 88 88 88 88 88

, g

! W 8. 8 88 88 88 88 88 88 88 s ;m I

8;"

5 "m W 88 88 88 ~88 *88 w

d m . 88

• S. 8 "88 EEE mm

" 52o I -

w oog o .

egg ooo

.. R o.

coo o. o.

ooo

o. 9 oog o. ,

ooo99 o 8. g 88# .

- . --a mmm 8 : W 88 88 88 *88 "88 "88 *88 # c t. 85 g ;8 I ,

o W

= oDo ooo ooo ooo NoS -4M j

oo8 MN4 j

<<=

hNk mm-

' - o. o. a. o. a. o. o. o. o. o. M. o. o. #. . mm i " ~

• 88" 8y <

Wm 88 88 *88 " #. 8 " X. 8 88 88 ~88 E m - - -

.. O o < M m

( w 6 = oee ooo oeo oeo ddh a~ u V

o

=

a. o. o 8. e0 o 8. oo. e 8. o0 o. o. a. o. a. o. ao8 o. <<

p O 3 wwJ oo-3

=

O m

= x_,-~

em m. e ~n me

k. -~ ~~m emm den 4mm mem 55*

o -~ ~-N o-~ wwz O

g <ww Www 4ww . -w~w . w ~w ~. ww ww www vus ed "

n.

N

~

o w

0 2 G re 555 sn u. N 1

m -N

< ww 40 of 48

I TABLE 4A-2 (continued)

I _

I W 88 88 *R4 #80 0"8 2*c 03% G8C

~ '*

a' I g d

g 88 *88 f'

S. S.

ja

• S. 8 *88 *88 f' y' 88 *88 ga

=

i, I H a

• 88 "88. "30 *88 *88 " R G.  ; '88 " b. B. =

Q '88 *88 " S ;$. "R3 g "23 g " R gb.

I C. D 3 88 *88 " ?. $. *88 "R3

" R. $. " M. $.

" S ;$. N gD S. 5; A. .

I u

5 88 8,8 " E;C. *88 Ngg j.

M g 4pg g 4

a G *88 88 " ?;$. " S; G. #A44 " R;$. 88 " " ;O.

l E*

g u

y 3 88 88 88 88 "R3 s " S a$. " Sa $.

" t!;A.

w ,

B g u I

,3 88 88 Nb8 s g -

• 8. 8 g "22g #A2 j" %. s. E b jb.

6 m 5 "

88 88 88 *88 " ?. 8 *88 g u 88 " ? ;G.

I 5 g

a 9

W m

88 88 *88 88 " b gS. 88 *88 " ; js.

i  ; 5

M 88 88 88 88 88 88 *88 8, 8, g; 1

,_g l

1 5, "rg N

m 88 88 11 8 ~28 88 *88 *88 " S ;$. E8

eg i Ec O

=a

=

88 88 " S. $. 88 " R;$. "b8 g 88

• R jE. ggo<

EE8 557 erw8 W 88 *88 88 *88 " S. 8 *88 1

m 88 " a.. s. ;E !$

Q o w

= ogg ego -or oog uso eg*e oeo m ,e o sta num

.9 "o "*

o. . .. .. *9

. ~.. "

i " #

888 I 8u < W 88 88 " R. 8 *88 88 88. *88 " S. $. cS g3g o <

R- g 88 88 88 88

• S. 8 88 *88 *88 EE,5 1 8 _a ..

cog

- U a tan am

--~ --~een Nam oma mem g o m. e m

~

=

g m-~

go- u--

~ N.

o---~

-- 4-- g ~. ~-~

o,.

e ma

,-- c-~

3-- gg-mx I tt 0 e3

" E "

h d a AAS S O$

E I

I 41 of 48

. ,4 .

n- ,-

M M M M M M M M M M M l

PILCRIM OCT90-DEC90 ME T DAT A JOINT FRFrrE NCY DISTRIBtJIIC4 (220-FOOT 7tM R) 220.0 FT t1tkD DATA STABILITY CLASS 0 CLASS FREQt1ENCf (PE sCf 4T) e 25.11 VIND DIRECTION FROM SPEED (MPH) N NME N1E ENE E E SE SE SSE S SSV SV USu W UNU rJ WJ VREL TOTAL CALM 0 0 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 1 0 1 1 0 1 0 0 0 1 1 0 1 1 0 0 0 8 (1) .19 .00 .19 .19 .00

.00

.19

.05 00 .00 00

.00

.00

. '. 9

.05

.19

.05

.00

.00

.19

.05

.19

.05

.00 .00

.00

.00

.00 1.49

.37 Q

m (2) 05 .00 .05 .05 .00 .00 r-4-7 0 2 1 1 4 2 3 0 0 3 2 1 0 0 0 0 0 19 (1) .00 .37 .19 .19 .74 .37 .56 00 .r9 .56 .37 .19 .00 .00 .00 .00 .00 3.54 h M (2) .00 .09 .05 .05 .19 .09 .14 00 .00 .14 .09 .05 .00 .00 .00 .00 .00 .89 7 ro 4 4 7 7 7 4 0 75 S 8-12 (1) 6 6 1.12 1.12 1.12 6

.37 2

.00 0

.56 3

93 5

1.49 8

.74 .74 .93 5

1.30 1.30 1

.19 1.30 .74 .00 13.97 m

n

$ (2) .28 .28 .28 .09 .00 .14 .23 .37 .19 .19 .23 .33 .33 .05 .33 .19 .00 3.51 Q

,+

13-18 0 2 8 4 5 0 9 6 9 18 21 8 21 19 14 1 0 145 (1) .00 .37 1.49 .74 .93 .00 1.68 1.12 1.68 3.35 3.91 1.49 3.91 3.54 2 61 .19 .00 27.00 5 (2) .00 .09 .37 .19 .23 .00 .42 .28 .42 .84 .98 .37 .98 .89 .65 .05 .00 6.78 e a

19-24 0 2 7 1 5 5 0 0 5 14 11 7 27 23 32 5 0 144 (1) .00 .37 1.30 .19 .93 .93 .00 00 .93 2.61 2.05 1.30 5.03 4.28 5.96 .93 .00 26.82 (2) .00 .09 .33 .05 .23 .23 .00 .00 .23 .65 .51 .33 1.26 1.08 1.50 .23 .00 6.73 GT 2f 21 14 1 0 0 4 0 1 6 0 0 0 33 27 24 15 0 1?6 3.91 2.61 .19 .00 .00 .74 00 19 1.12 .00 .00 .00 6.15 5.03 4.47 2.79 .00 27.19 (2) .98 .65 .05 .00 00 .19 .00 .05 .28 .00 .00 .00 1.54 1.26 1.12 .70 .00 6.83 ALL SPEEDS 28 26 24 9 14 15 17 15 24 40 40 23 89 71 77 25 0 537 (1) 5.21 4.84 4.47 1. = 2.61 2.79 3.17 2.79 4.47 7.45 7.45 4 28 16.57 13.22 14.34 4.66 .00 100.00 (2) 1.31 1.22 1.12 42 .65 .70 .79 .70 1.12 1.87 1.87 1.03 4.16 3.32 3.60 1.17 .00 25.11 (1)=PE RCFNT OF Att COLO OBSERVATIONS FOR THIS PACE (2)= PERCENT OF Att COOO OBSERVATIONS FOR THIS F(RIOD C= CAtM (VIND SPEED LESS THAN OR ECtJAL TO .50 MPM)

E bf

L- 6 M M M M M 1 l

l l

1 1

PILGRIM UCI90-DEC90 MET DATA JOINI FREQUE NCY IJISTRIBUTION (220-F00T TOWER)

~

220.0 Fi WINS DATA STABit!!f CLASS E CLASS FRE cuENCf (FERCE NT)

• 41.42 W!ED DikECTIDW TROM N NNE NE ENE E ESE SE SSE S sSu Su trsu u Wu Nu NW v2BL TOTAL SPEED (MPH) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 CALM 0

.00 .00 .00 .00 .00 .00 .00 .00 .00 .03 .00 .00 .00 .00 .00 .00 .00 (1) .00

.00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 0 0 0 0 1 1 1 0 0 1 0 1 0 9 C-3 1 1 1 1 y

(1) .11 .00 .00 .00 .11 .11 .11 .00 11 .11 .11 .00 .00 .11 .00 .11 .00 1.02 (2) .05 .00 00 .00 .05 .35 .05 .00 .C5 .05 .05 .00 .00 .05 .00 .05 .00 .42 to s-2 4 2 4 7 2 1 3 4 3 3 2 4 1 0 42 4-7 0 0 h

.00 .23 45 .23 45 7? .23 11 .34 .45 .34 34 .23 .45 .11 .00 4.74 h (1) .00

.19 .14 .14 .09 .19 .05 1.96 7

" (2) .00 .00 .09 .19 .07 19 .33 .09 .05 .14 .00 ro O 15 7 3 3 0 119

~* 8-12 1 3 5 1 4 2 24 17 6 8 8 1? ,s b (1) .11 .34 .56 .11 45 .23 2.71 1.92 .68 90 .90 1.35 1.69 79 .34 .34 .00 13.43 n W (2) .05 .14 .23 .05 .19 09 1.12 .79 .25 .37 .37 .56 .70 .33 .14 .14 .00 5.56 @

at 5 3 0 0 17 21 19 75 49 24 51 48 38 3 0 366 13-18 2 1 (1) .23 .56 34 .00 .00 11 1.92 2.37 2.1? 8.47 5.53 3.84 5.76 5.42 4.29 .34 .00 41.31 5 e

(2) .09 .23 14 .00 .00 .05 79 .98 .89 3.51 2.29 1.59 2.38 2.24 1.78 .14 .00 17.11 o.

19-24 6 2 0 0 3 6 2 3 4 67 66 17 26 39 22 5 0 268 (1) .68 .23 00 .00 .34 .68 .23 .34 45 7.56 7.45 1.92 2.93 4.40 2.48 .56 .00 .'") . 25 (2) .28 .09 .00 .00 .14 28 .09 .14 19 1.13 3.09 .79 1.22 1.82 1.03 .23 .00 12.53 14 0 0 6 5 1 2 3 9 0 16 17 3 4 0 82 GT 24 1 1

.00 00 .68 .11 .56 .11 .23 .34 1.02 .00 1.81 1.92 .34 .45 .00 9.26 (5) 1.58 .11

.79 .14 .19 .00 3.83 (2) .65 .05 .00 .00 .23 05 .23 .C5 .09 .14 .42 .00 .75 10 5 16 15 56 44 33 157 137 66 111 114 70 17 0 886 ALL SPEEDS 24 11 (1) 2.71 1.24 1.13 .56 1.81 1.69 6.32 4.97 3.72 17.72 15.46 7.45 12.53 12.87 7.90 1.92 .00 100.00 47 .23 .75 7.34 6.40 3.09 5.19 5.33 3 27 .79 .00 41.42 (2) 1.12 .51 .70 2.62 2.06 -1.54 (1)rFERCENT OF Att COOD OBSERVATIONS FOR 1HIS PAGE (2)=PERCINT Of 'LL GOOD CBSERVAficNS FOR THIS PERIOD CS CALM (WIND SPEED LESS THAN OR EQUAL TO .50 MPH) i

P I L GRIM OCf 90 DEC90 ME T D A T A JOIN T FREQUE NCY DISTRIBUTION (220-7007 10LTR) 220.0 ff VIND DATA STABILITY CLASS T CL ASS FREQUENCY (F E RCEMT) = 18.93 WIND DIRECTION FROM N NE ENE E ESE SE SSE S SSW SV USV W LVJ NV WNV VRBL TOTAL SPEE0(MPH) NNE CAL M 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

.00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (1)

(2) .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 3 .00 .00 .00 .00 C-3 0 0 0 2 0  ? 2 0 0 0 0 1 0 1 0 1 0 8 (1) .00 .00 .49 .00 .25 .49 00 .00 .00 .00 .D .00 .25 .00 .25 .00 1.95 --4 (2)

.00

.00 .00 .00 .09 .00 .05 .09 00 .00 .00 .00 .05 .00 .05 .00 .05 .00 .37 $

r-7 0 0 48 "'

4-7 0 0 0 2 3 1 9 5 4 4 5 2 3 3 (1) .00 .00 .00 49 .74 .25 2.22 1.23 .99 .99 1.23 49 .74 .74 1.73 .00 .0( . 11.85 A 3

A (2) .00 .00 .00 .09 .14 .05 .42 25 .19 .19 .23 .09 .14 .14 .33 .00 .00 2.24 7 N

O 10 8 8 8 9 to 4 4 1 5 2 0 77

-g 8-12 0 1 3 1 3 (1) .00 .25 .74 .25 .74 2.47 1.98 1.98 1.98 2.22 2.47 .99 99 .25 1.23 49 .00 19.01 2 o

.47 .19 .19 .23 3.60

$ (2) .00 .05 .14 .05 .14 .47 .37 .37 .37 .42 .05 .09 .00

.s 13-18 0 0 0 0 2 1 14 ?0 8 29 33 17 14 12 2 0 0 152 $

3 (1) .00 .00 .00 .00 49 .25 3.46 4.94 1.98 7.16 8.15 4.20 3.46 2.96 .49 .00 .00 37.53 (2) .00 .00 .00 .00 .09 .05 .65 94 .37 1.36 1.54 .79 .65 .56 09 .00 .00 7.11 5 ca.

19-24 0 0 0 0 3 2 3 4 6 33 37 4 0 1 0 0 0 93 (1) .00 .00 .00 .00 .74 .49 .74 99 1.48 8.15 9.14 .99 .0C .25 .00 .00 .00 22.96 (2) .00 .00 .00 .00 .14 .09 .14 19 .28 1.54 1. 73 .19 .00 .05 .00 .00 .00 4.35 CT 24 0 0 0 0 6 0 5 5 1 8 2 0 0 0 0 0 0 27 (1) .00 .00 .00 .00 1.48 .00 1.23 1.23 .25 1.98 .49 .00 .00 .00 .00 .00 .00 6.67 (2) .00 .00 .00 .00 .28 .00 .23 .23 .05 .37 .09 .00 .00 .00 .00 .00 .00 1.26 ALL ST EEDS 0 1 3 5 17 15 41 42 27 83 87 28 21 18 14 3 0 405 (1) .00 .25 .74 1.23 4.20 3.70 10.12 10.37 6.67 20.49 21.48 6.91 5.19 4.44 3.46 .74 .00 100.00 (2) .00 .05 .14 .23 .79 .70 1.92 1.96 1.26 3.88 4.07 1.31 .98 .84 .65 .14 .00 18.93 (i >=PERCf NT OF ALL Cfx10 OBSERVATIONS FOR INIS #95E (4)= PERCENT OF ALL C000 OBSERVAf!ONS FOR THIS PE R!f.O C= CALM (VIND SPEED LESS 11 TAN OR EQUAL TO .50 MPM)

m -

TABLE 4A-2 (continued)

I I #

O 88 *tAN *EE

• A. O.

O 4 M4.** ". " S. h. " 8*=8 $ 8. m.

4

- 8N I

- - - 4 -

d 88 88 8 8. - 88 88. "98 88 *88 I

3 000 000 C00 000 000 000 000 000 3e OO 00 CO OO CO 2 O. O. O. O* *

• C. O* ' ' ' ' ' ' ' '

• 1 000 000 *NM e. N e COO OOO N46 fa 63 0 40 0 Q. C. C. O.

e e=

D. O. C 0' . 0O O. O. O. c. o.

M N 000 000 p eJ e NQ@ N(O OOO C00 m&M W 63 0

. O. O. O. O. w o.

. w O.

. O. O. O. C. O. N.

N *= M M @

I tt 3 000 000 000 == N e NN4 000 000 M *f a O, O. O. O. O. O. M. O. e' #3. m. O. O.

e" W 4 O. O. .

en ** M

.A N N 8

y 3 000 000 000 4N4 4NO -Nm 04N m

w ti, O b. OO. O. O. O. O. O. O. N. e. N.**. $3. O. M. 4 N N **

I 4

A **

O I"* 3 m

000 000 008 -Ne e80 ., N o 000 00 O sn N v

2 O. O. O. O. G. . m. o. N. ". v e. d.

>=

e Ok k E3 g o w 5= 3 m

000 000 00 000 00

.- ~ m C00 000 00

.-~m 00 v

.p.

a

.h.

m e O. O. m. o.

8'"

C 8. O0 O. O.

f*'

b N

M e

b m N

= OOO OOO e= N M N4& e= N e COO OOO 4 N Oh et -

w .J v O. O. O. C. S3. O. 4. O. h). O. O. O. O. O. N.".

W w M I

e* *= N 2 CE

~~

O. O w O00 *= N e ** N m

• Nm OOO o.

m M OOO OOO Mm4 p 80 0 03 a

2 m C. O. E3. O. a3. O. O. O. O. O. O. O. sf. *=.

• • ** s= m oc 3

• - w OOO wa Nm OOO OOO OOO OOO OOO e= N e e H e 00

- C O. m3. C. O. O. O. O. O. O. O. O, a3. C. Oz O *= O ct v= Wm E

>= 0 63 tr U w OOO e- N m OOO OCO COO 4wO 2 M M 000 OOO e= N m g e w O. O. S3. O. O. O. O O.

O. O. O. O. O. O.

E3 0 A A m.

.3 et w e- m= m.

O = .

I J

w W KEO cs:

m >=

w CCO ** N e OOO OOO OOO OOO OOO ** N W

>=>=>=

O. O. to. O. O. O. O. O. O O. O. O.

(*

- - O. O. to. O. 0 8 <3 2 J - w-a

_ . O m ., w W W- W 88 " F. ~88 88 88 88 88 "38 I at O

w

.C u

w W

2 DOO O. O.

e.

N s{ G M

w o.

OOO e=

O. O.

OOO O. O.

OOO O. C.

OOO O. O.

OOO O. O.

N M

Ch

. C.,.

8. 8. .

>- m. O eg et 2

> > et cu cc z ww-aw K M 03 g) M I

00M O w OOO OOO 000 OOO COO 000 000 w

CA 2 ODO .J y eC 2 C. O. C. 0 O. O. Q. C. O. O. O. O. O. O. C. O.

w *a O Q *C OVw O w O 2 000 000 e* N m OOO C00 OOO OOO PNm JJA Ch O w4M I

== 2 O. O. O. O. m3. O. O. O. O. O. < es; O. O- O. O. to. O.

U O

3

• • e= 6nO O O --

2 r =.=.

-. 3 w

.

• I^^ ^^ N^^ ^^ a) ^ ^ 4a^

Oc 3 s e* N M. N i ** N 4^^ M^^ 22

.= N ****N NeN 63 O. Ck *( w w U"ww 4ww N.=. ww . vw

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Plt CRIM OC190-DEC90 NET DATA JOINT TREQUENCY DISTRIBul!ON (220-f 00T ToutR) 220.0 TT WIND DATA STABILITY CLASS ALL CLASS FREQUENCY (PERCENT) = 100.00 WIND OIRE CTION FR(H SPEED (HPH) N NNE NE ENE E ESE SE SSE 5 Ssu SV USV U uw W NNV wat TOTAL cat M 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 2 0 3 4 2 4 4 1 1 2 2 1 1 3 0 2 0 32 (1) .0? .00 .14 .19 .09 .19 .19 .05 .05 .09 .09 .05 .05

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.14 .00 .09 .00 1.50 j (2) .09 .00 .** .19 .09 . t iT .19 .05 .05 .09 .09 .05 .14 .00 .09 .00 1.50 m r-7 7 0 m 4-7 5 5 4 8 10 7 19 3 6 to 11 13 14 2 136 (1) .23 .23 .19 .37 47 .33 .89 .37 .28 47 .51 .33 .33 .61 .65 .09 .00 6.36 **

$ (2) .23 .23 .19 .37 .47 .33 .89 .37 .23 .47 .51 .33 .33 .61 .65 .09 .00 6.36 7 to O 8-12 13 13 14 4 7 18 38 34 21 28 25 27 31 28 24 16 0 341

{1) .61 .61 .65 .19 .33 .84 1.78 1.59 .98 1.31 1.17 1.26 1.45 1.31 1.12 .75 .00 15.94 2

@ (2) .61 .61 .65 .19 .33 .84 1.78 1.59 .93 1.31 1.17 1.26 1.45 1.31 1.12 .75 .00 15.94 g

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13-18 4 8 20 9 8 2 41 49 39 1.9 115 69 104 99 66 15 0 777 (1) .19 .37 .94 42 .37 .09 1.92 2.29 1.82 6.03 5.33 3.23 4.86 4.63 3.09 .70 .00 36.33 5 (2) .19 .37 .94 .42 .37 .09 1.92 2.29 1.82 6.03 5.38 3.23 4.86 4.63 3.09 .70 .00 36.33 to c.

19-24 6 4 8 4 13 13 5 7 16 119 119 33 59 68 74 15 0 563 -

(1s .28 .19 .37 .19 .61 .61 .23 .33 .75 5.56 5.56 1.54 2.76 3.18 3.46 .70 .00 26.32 (2) .28 .19 .37 .19 . 61- .61 .23 .33 . 75 5.56 5.56 1.54 2.76 3.18 3.46 .70 .00 26.32 CY 24 35 1! 1 0 12 5 10 7 9 14 12 1 59 55 36 19 0 290 (I) 1.64 .70 .05 .00 .56 .23 .47 .33 .42 .65 .56 .05 2.76 2.57 1.68 .89 .00 13.56 (2) 1.64 .70 .05 .00 .56 .23 .47 .33 42 .65 .56 .05 2.76 2.57 1.68 .89 .00 13.56 ALL SPEEDS 65 45 50 29 52 49 117 106 92 302 284 138 261 266 214 69 0 2139 (1) 3.04 2.10 2.34 1.36 2.43 2.29 5.47 4.96 4.30 14.12 13.28 6.45 12.20 12.44 10.00 3.23 .00 100.00 (2) 3.04 2.10 2.34 1.36 2.43 2.29 5.47 4.96 4.30 14.12 13.28 6.45 12.20 12.44 10.00 3.23 .00 100.00 (1)= PERCENT Of ALL C000 OBSERVAi!ONS FOR THIS PACE (2): PERCENT Of ALL COOD OBSERVAi!ONS FOR THIS PERIOD C= CALH (WINO SPEED LESS THAN OR EQUAL TO .50 MPH)

!I l 5. OFF-SITE DOSE CALCULATION HANUAL REVISIONS i

i The PNPS Of f-site Dose Calculation Manual (00CM) was not revised during i the time frame of July - December,1990.

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6. REFERENCES l 1. U. S. Nuclear Regulatory Commission, "Heasuring, Evaluating, and Reporting Radioactivity in Solid Hastes and Releases of Radioac'ive c

Materials in Liquid and Gaseous Effluents from Light-Hater-Cooled Nuclear Power Plants", Regulatory Guide 1.21, Revision 1 June 1974.

2. A. R. Hilliams memorandum to L. A. Loomis, " Effluent and Haste Disposal Semiannual Report Reg. Guide 1.21 (Table 3)", dated February 8, 1991.

! 3. T. A. Messier memorandum to K. J. Sejkora, "PNPS 3rd and 4th Quarter 1990 Met Data JfD Tables", dated February 5, 1991.

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