Text

Semiannual Effluent & Waste Disposal Rept,Sept-Dec 1982
	ML17139B403
Person / Time
Site:	Susquehanna
Issue date:	02/28/1983
From:	Miller D, Shank K, Widner T; PENNSYLVANIA POWER & LIGHT CO.
To:	;
Shared Package
ML17139B404	List: ML17139B403; PLA-1510, Forwards Susquehanna Steam Electric Station Semiannual Effluent & Waste Disposal Rept,Sept-Dec 1982;
References
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SUSQUEHANi'lA STEAt", ELECTRIC STATION SEl'lIANNUAL EFFLUEilT Ai"lD HASTE DISPOSAL REPORT REPORT PER IOD:

9/1/82 12/31/82 PENNSYLVANIA POHER 8 LICHT CO('1PANY FEBRUARY, 1983 8303i40485 830301 PDR ADGCK 05000387 R

PDR

SUSQUEHANNA STEAM ELECTRIC STATION SEMIANNUAL EFFLUENT AND WASTE DISPOSAL REPORT REPORT PERIOD:

9/1/82 12/31/82 Prepared by:

. E. Widner

'ealth Physics Specialist Reviewed:

K. E.

Shank Environmental Group Supervisor-Nuclear Reviewed:

D.

W. Miller Ra o ogical 8 Environmental Services Supervisor Approved:

,Ji.

S. PI. Cantone Manager-Nuclea Support Date:

2 zaS~

Pennsylvania Power 8 Light Company Two North Ninth Street Allentown, Pennsylvania 18101

TABLE OF CONTENTS SECTION PAGE 1.

Introduction and Supplemental Information 2.

Effluent and Elaste Disposal Data 3.

I'feterology and Dispersion Estimates 4.

Dose EIeasurements and Assessments 5.

Chan es to the Offsite Dose C

e Solid ocess Control Program and 59

4 W

LIST OF TABLES Table Table Table Table 4: Liquid Effluents' Summation of all Releases 5: Liquid Effluents 6: Solid Waste and Irradiated Fuel Shipments 7: Estimated Total Errors Associated with Effluent IIeasurements Table 1:

Supplemental Information Table 2: Gaseous Lffluents Summation of all Releases Table 3: Gaseous Effluents PAGE 10 12 13 15 17 18 Table Table Table Table Table 8: IIeteorological Data Availability 9: Joint LH.nd Frequency Distributions by Stability Class 10:Average IIeteorological Relative Concen-tration Analysis 11:Selected Direct Radiation I'Ieasurements 12:Calculated Dose Rates in the Riverlands/

Information Center. Complex from Gaseous Effluents 22 38 52 Table 13:Collective Doses to Nembers of the Public Vithin the Riverlands/Information Center Complex Table 14:Calculated Doses at the Residences in the Southeast Sector l'1ithin the Site Boundary.

Table 15:Calculated Doses at the hlalters Residence 55 56 57

P I

I It

LIST OF FIGURES PAGE Figure 1:

Gaseous Ef'f'luent Release Point Locations and Detail Figure = 2:

Figure 3:

Areas

$iithin the Susquehanna Steam Electric Station Site Boundary Open to members of'he Public Locations of'elected Thermoluminescent Dosimeters Near Susquehanna Steam Electric Station.

50 53

SECTION 1

INTRODUCTION AND,SUPPLEMENTAL INFORMATION

c, 4

r

INTRODUCTION 1

The Susquehanna Steam Electric Station is located in Salem Township, Luzerne County, Pennsylvania.

It is on the west bank of the Susquehanna

River, 8 km northeast of Berwick.

The Station consists of two boiling water reactor generating units, each with 1050 15l net electrical capacity.

The reactor and generator units were supplied by General Electric, while the Bechtel Corporation served as architect-engineer and constructor.

Construction of the Station began in the early 1970s.

Fuel load began in Unit 1 in July of 1982.

Initial criticality was achieved in the Unit 1

reactor on September 10, 1982.

The reactor reached 100/ power for the first time on February 4, 1983.

Commercial operation of Unit 1 is expected in the second quarter of 1983.

Unit 2 is currently approximately 75X complete, and commercial operation is expected in late 1984.

Gaseous effluents are released from the Susquehanna Station via 5 rooftop vents on the reactor building (see Figure 1).

Each vent is continuously monitored when operational, and a program of periodic sampling is con-ducted as specified in the plant Technical Specifications.

All liquid effluents are released in batch mode and are sampled and analyzed prior to release.

Liquid effluents from the site are released into the cooling tower blowdown line for dilution prior to release to the Susquehanna River.

Normal blowdown line flow rates are approximately 5000 gpm per reactor unit.

The diluted effluent is added to the river by way of a perforated diffuser pipe placed in the river bed.

The diffuser serves to rapidly and uniformly mix the station discharge with the main flow of the river.

This report presents a summary of the quantities of radioactive materials which were released from the Susquehanna Unit 1 reactor during the period from September 1 through December 31,

1982, the meteorology which served to disperse the gaseous effluents, and the calculated doses which can be attributed to these releases.

In addition, this report serves as a medium for notifying the Nuclear Regulatory Commission of changes to PPSL's Off-Site Dose Calculation Manual (ODCM) and solid waste Process Control Program (PCP).

Table 1 contains supplemental information pertaining to effluents from Susquehanna.

Included are regulatory limits, sampling and analysis

methods, and characterization of the number and duration of batch and abnormal releases.

UNITI REACTOR BUILDING EXHAUST VENT NIT II REACTOR BUILDING EXHAUST VENT 188~ CFM ATB0o F I II

ISS~ CFM ATCPF II~

XBID00CFM 7500 CFM 240AXOCFM AT 100OF I20oF ATI~

ATIIX'-120 F OUTSIDE AIR INTAKE REACTOR BUILDING EXHAUSTST OIESKL EXHAUSTFl.ENUM DIESEL GE4KRATOR BUILDING UNITI TURBINE BUILDING EXHAUST VENT UNITII TURBINE BUILDING EXHAUST VENT EL828'<<

CONTROL BUILDING

~ A

~

P

~

'I

~

~ \\~

~

I

~L.878 I j

I r I Stl'I r<<~ ION+2<<~S<<

21'<<

RAOWASTE SUILDIH

'~op'p<

TURBINE BUILDING lg UNftI EL 875'4" UNITII SUSOUE HANNASTEAM ELECTRIC STATION ER~RATIHG LICEHSK STAGE UNITS 1 *ND 2 EELEESE FSllt LEEltlSES AES EEtllL FIGURE 2,5 2

FIGURE 1

GASEOUS EFFLUENT'T RELEASE POINT LOCATIOi'tS Ai~tD DETAIL

Table 2 contains a summation of all gaseous

releases, grouped into the radionuclide categories of gases, particulates,

iodines, and tritium.

Average release rates are presented and compared to the applicable limits.

Table 3 presents the totals of specific radionuclides in gaseous efflu-ents.

Liquid effluents are summarized in Table 4.

Average diluted concen-trations are presented and compared to applicable concentration limits.

Table 5 contains an isotopic breakdown of radionuclides in liquids re-leased during the report period.

Table 6 presents a characterization of the solid waste shipped offsite during the report period.

Included are the volumes and curie contents associated with each type of waste.

An estimate of major nuclide composi-tion is presented for each waste type, as well as the number of waste shipments from the site, how they were transported, and their final destination.

Table 7 contains estimates of the errors associated with the measurements involved in quantifying radioactive effluents.

Sampling errors, counting

errors, and errors associated with determining effluent flow rates and volumes all contribute to the total error of effluent measurements.

Error estimates are presented for each category of radionuclide detected in gaseous and liquid effluents during the report period.

An extensive radiological environmental monitoring program is in place to provide continuous surveillance of the vicinity of the Susquehanna Steam Electric Station.'ne major part of this program is a network of thermoluminescent dosimeters which is placed around the plant, covering distances from the plant security fence up to 10 miles and beyond.

Table ll contains measurements of direct radiation provided by those dosimeters from this network which are closest to the plant.

Section 3 of this report contains the meteorological data associated with the data period.

The data is in the form of )oint wind frequency dis-tributions by atmospheric stability class.

These distributions are presented in Table 9.

In addition, the meteorological data from the report period was used to generate'nnual average relative concentrations (X/Q's).

These relative concentrations are presented in Table 10, and

. were used in conjunction with the GASPAR code for projection of doses from gaseous effluents.

Table 8 presents the data availability statistics for the key meteorological parameters for the report period.

Section 4 of this report contains an assessment of the doses attributed to the reported radiological effluents.

The LADTAPII code was used for calculation of doses from liquid effluents.

The GASPAR code was used for calculation of doses from gaseous effluents.

These calculations and the direct radiation estimates provided by the environmental dosimeter'measure-ments of Table 11 provide data which can be used to assess the doses to maximally-exposed individuals and members-of-the-public within the site

boundary, as well as total uranium fuel cycle doses.

Section 5 of this report is reserved for documentation of changes to the Off-Site Dose Calculation Manual and the solid waste Process Control

Program.

There were no changes made to the ODCM during the report period.

A revised copy of the administrative procedure which described the Process Control Program is included along, with a statement of the purpose and nature og the changes.

TABLE 1 SEMIANNUAL EFFLUENT AND WASTE DISPOSAL REPORT -1982 SUPPLEMENTAL INFORMATION 1.

Regulatory Limits a.

Fission

& Activation Gases:

3.9 Ci/minute.

(Release rate limit based on noble gas dose rate Technical Specification.)

I'. Iodines:

234 uCi/minute.

(Release rate limit based on Techni-cal Specification limit of 1500 mrem/yr for dose rate from iodine-131, tritium, and particulates with half-lives greater than 8 days.

This number is calculated based on I-131 only.)

C ~

Particulates:

84.6 yCi/minute.

(Release rate limit based on Technical Specification limit of 1500 mrem/yr for dose rate from iodine-131, tritium, and particulates with half-lives greater than 8 days.

This number is calculated based on Sr-90 only.)

2.

Maximum Permissible Concentrations The concentrations of radioactive materials in liquid effluents are limited to the concentrations specified in 10 CFR Part 20, Appen-dix B, Table II, Column 2 for radionuclides other than dissolved or entrained noble gases.

For dissolved or entrained noble gases, the concentrations are limited to the following values, as stated in the applicable Techni-cal Specification:

NUCLIDE MPC (pCi/ml)

Kr 85m Kr 85 Kr 87 Kr 88 Ar 41 Xe 133m Xe 133 Xe 135m Xe 135 2E-4 5E-4 4E-5 9E-5 7E-5 5E-4 6E-4 2E-4 2E-4 3.

Methods of Quantifying Effluents a ~

Fission and Activation Gases:

Samples are ;outinely collected monthly and analyzed with a Ge(Li) detector system which incor-porates a data reduction program to determine radionuclide composition in terms of specific activity.

Data tapes from the continuous vent monitors are used to determine the average concentration of noble gases.

The Ge(Li) isotopic scan data is used to determine a detector coefficient to be used to convert the continuous vent monitor activity to actual activity based on the determined mixture.

The vent and sample flow rates are continuously monitored, and the average flow rates for each vent

ls

Table 1 (Continued) and sample pump are used to calculate the total activity re-leased in a given time period.

b.

Zodines:

Iodine is continuously collected via an isokinetic sampling device from each vent.

Charcoal cartridges are nor-mally exchanged once per week and analyzed on a Ge(Li) system.

The daily average flow rates for the vents and sample pumps are averaged for the duration of thd sampling period, and a ratio of vent flow rate to sample flow rate is obtained.

The ratio is used to determine 'the total activity of each isotope released during the time period in question.

C ~

Particulates:

Particulates are continuously collected via an isokinetic sampling device from each vent.

Filters are normally exchanged once per week and analyzed on a Ge(Li) system.

Flow rate corrections are performed in the same manner as for iodines.

d.

Liquid Effluents:

Each tank"of liquid radwaste is sampled and analyzed for principal gamma emitters prior to release.

Each sample tank is recirculated for a sufficient amount of time prior to sampling to ensure that a representative sample is ob-tained.

Samples are analyzed on a Ge(Li) system and release permits are generated based on the values obtained from the isotopic analysis and the most recent values for tritium', gross

alpha, iron-55, and strontium-89, 90.

An aliquot based on release volume is saved and added to monthly and quarterly composite containers.

The monthly composite is sent to 'an outside vendor for gross alpha analysis.

The quarterly compos-ite is sent to an outside vendor laboratory for iron-5$,

strontium-89, and strontium-90 analyses.

The concentration of each radionuclide in each batch is multi-plied by the volume of the batch to determine the total quantity of each nuclide released in each batch.

The isotopic totals for each are summed to determine the total source term for the time period in question.

4.

Batch Releases a ~

Liquid 1.

2.

3.

4.

5.

6.

Number of batch releases:

Total time period for batch releases:

Maximum time period for a batch release:

Average time period for batch releases:

Minimum time period for a batch release:

Average stream flow during period of release of effluent into a flowing stream:

368 89,456 minutes 428 minutes 242 minutes 1 minute

Table 1 (Continued) i.

Cooling tower blowdown line:

ii.

Susquehanna River:

5638 gym 294 m /second (Estimate based on 1981 measurements for September through December) b.

Gaseous l.

2.

3.

4.

5.

Number of batch releases:

Total time period for batch releases:

Maximum time period for a batch release:

Average time period for batch releases:

Minimum time period for a batch release:

0 NA NA NA NA 5.

Abnormal Releases a ~

Liquid 1.

Number of releases:

2.,

Volume released:

3.

Total activity released:

1 90 gpm x 3 min.

~ 270 gallons

>4.79E-6 but <2.77E-5 Ci b.

Gaseous 1.

Number of releases:

2.

Total activity eleased:

0 NA

SECTION 2

EFFLUENT AND,WASTE DISPOSAL DATA 9

TABLE 2 SEMIANNUAZ EFFLUENT AND WASTE DISPOSAL REPORT - 1982 GASEOUS EFFLUENTS - 'SUMMATION OF ALL RELEASES A.

FISSION AND ACTIVATION GASES

.Unit Seotember Fourth rter 1.

Total Release Ci

>4.29EO but < 1.38E2

<4.23E2 2.

Average Release Rate For Period pCi/Min h

>9.92E1 but < 3.20E3

<3.20E3 3.

Percent of Technical Specification Limit

>2.54E-3 but <8.21E-2

<8.21E-2 B.

ZODZNES 1.

Total Iodine-131. Release Ci

<3.37E-5

>6.76E-7 but

<9.40E"5 2.

Average Release Rate for Period QCi/Mi

<6.89E-4

<7.15E-4 3.

Percent of Technical Specification Limit

<2.94E"4

<3.06E-4 C.

'ARTICULATES 1.

Particulates with Half-a'ines

>8 days Released Ci

<1.78E-4

<5.64E-4 2.

Average Release Rate for Period PCi/Min

<3.62E-3

<4.31E-3 3.

Percent of Technical Specification Limit

<4.28E-3

<5.10E-3 4.

Gross Alpha Radioactivity D.

TRITIUM Ci

>3.38E-12 but <3.92E-12

>1.01E"11 but

<1. 18E-11 1.

Total Release Ci

<1. 33E1

<1.76E1 2.

Average Release Rate for Period PCl/Min

<3.09E2

<1.32E2 3.

Per'cent of Technical Specification Limit

<5.78E-3

<2.47E-3 10

NOTES FOR TABLE 2 aThird quarter 1982 strontium data used as an estimate of September's strontium release, since initial criticality occurred on September 10th.

Fourth quarter strontium releases have been estimated as three times the September estimate because of the unavailability of 4th quarter results at time of report preparation.

s In this notation, the first (">") number is the sum of all nuclide totals for all samples in which the given nuclide was determined to be present at the 95% confidence level.

The second

("<") number is the sum of the nuclide totals equivalent to the reported lower limit of detection (LLD) values for those samples in which the nuclide was not determined to be present at the 95't confidence level added to the nuclide totals for all samples in which che nuclide was identified et the 95a C.L.

Example:

Nuclide X:

Saaesle 5

<1.00E-4 Ci Semele B

3.00E-4 Ci Sample C

<2.00E"4 Ci Total for Nuclide X:

>3.00E"4 Ci but <6.00E-4 Ci (Vr/F15-17) vs

1

TABLE 3 SEMIANNUAL EFFLUENT AND WASTE DISPOSAL REPORT 1982 GASEOUS EFFLUENTS Nuclides Released Unit Se tember Fourth uarter 1.

FISSION GASES Krypton-87 Krypton-88 Xenon-127 Xenon-133 Xenon-133,m Xenon-135

. Xenon-135 m

Xenon-138 Total for Period 2.

IODINE-131 Total for Period Ci Ci Ci Ci Ci Ci Ci Ci Ci Ci

< 5.'70EO

<<4. 75EO

4. 29EO

< 6.05EO

< 1.51E1

< 1.79EO

< 6.70EI

<3.35EI

>4 29EO but

<1.38E2

< 3. 37E-5

< 2. 61E1

< 2.59E1

< 3.68E1

< 9.80E1

< 1.05E1

< 1.04E2

( 1 ~ 22E2

( 4. 23E2

>6.76E-7 but <9.40E-5 3.

PARTICULATES WITH HALF-LIVES GREATER THAN 8 DAYS Manganese-54 Iron-59 Cob'alt-58 Cobalt-60 Zinc-65 Strontium-89 Strontium-90 Cesium-134 Cesium-137 Cerium-141 Cerium-144 Total for Period Ci Ci Ci Ci Ci Ci Ci Ci Ci

~ Ci Ci Ci

< 1.26E-5

< 1.80E-5

< 1.22E-5

< 1.23E-5

< 2.00E-5

< 2.51K-12*

< 2.49E-12*

< 1.34E-5

< 1.21E-5

< 2.10E-5

< 5.60E-5

( 1.78E-4

< 3. 35E-5'

7. 75E-5

< 3.50E-5

< 3.95E-5

< 1.22E-4

< 7.53E-12*

< 7.47E-12*

< 4.52E-5

< 3.33E-5

< 3.23E-5

< 1.46E-4

< 5.64E-4 aAll releases are considered continuous mode ground level releases.

Third quarter 1982 strontium data used as an estimate of September's strontium release since initial criticality occurred on September 10.

Fourth quarter strontium releases have been estimated as three times the September estimate because of the unavaila'oility of fourth quarter results at time of report preparation.

12

I V

TABLE 4 SEMIANNUAL EFFLUENT AND WASTE DISPOSAL REPORT - 1982 LIQUID EFFLUENXS - SUMMATION OF ALL RELEASES A.

FISSION AND ACTIVATION PRODUCTS Unit Se tember Fourth Ouarter 1.

Xotal Release (Not including tritium, gases, alpha emitters)

Ci

>8.46 E"4 but

<4.87 E-3

>1.7IE-l but <1.94 E"1 2.

Average Diluted Concentratio During Period l?Ci/ml

>2.12 E-9 but

<1.22 E-8

>1.13 E-7 but <1.29 E-7 3.

Percent of Applicable Limit

>5.30 E-3 but

<3.05 E-2

>2.83 E-l but <3.23 E-l B.

TRITIUM 1.

Total Release Ci

<3.12 E-2

>7.32 E-1 but <8.24 E-1 2.

Average Diluted Concentratio During Period l?Ci/ml

<7.70 E-8

>4.86 E-7 but <5.46 E-7 3.

Percent of Applicable Limit

<2.57 E-3

>1.62 E"2 but <1.82 E-2 C.

DISSOLVED AND ENXRAINED GASES 1.

Total Release Ci

'I

>1.00 E-5 but

<1.61 E-1

>3.70 E"3 but <5.88 E-1 2.

Average Diluted Concentration During Period pCi/ml

>2.51 E-ll but

<4.04 E-7

>2.45 E-9 bI?t <3.90 E-7 3.

Percent of Applicable Limit

>6.28 E"5 but

<1.01 E 0

>6. 13 E-3 but <9. 75 E-1 D.

GROSS ALPHA RADIOACTIVITY 1.

Total Release Ci

<6.14 E-6

<1.63 E-4 E.

VOLUME OF WASTE RELEASED (Prior to Dilution) liters 5.90 E 6 2.29 E 7 F.

VOLUME OF DILPION WAXER USED DURING PERIOD liters 3.98 E 8 1.51 E 9 1 3

~ I

NOTES FOR TABLE 4 aBased on the lowest Maximum Permissible Concentration for dissolved or entrained noble gases presented in Table 3.11.1.1-1 of SSES Technical Specifications (i.e., 4E-5 pCi/ml for Krypton-87) ~

November gross alpha radioactivity data used as estimate of December gross alpha radioactivity due to unavailability of December results at time of report preparation.

bTotal cooling tower blowdown line flow during period of discharge from liquid radwaste system.

(MG/P15-17) 14

I TABLE 5 SEMIANNUAL EFFLUENT AND WASTE DISPOSAL REPORT - 1982 LIQUID EFFLUENTS Nuclides Release Unit Sentember Fourth arter Tritium Sodium-S Chromium"51 Manganese-54 Manganese-56 Iron-55 Iron-59 Cobalt-58 Cobalt-60 Zinc-65 Arsenic-76 Bromine-82 Strontium-89 Strontium-90 Yttrium-91 m Molybdenum-99 Technetium-99 m

Antimony-122 Antimony-124 Te 1lurium-132 Iodine-131 Iodine-133 Cesium-134 Cesium-137 Cerium-141 Cerium-144 Neodynium-147 Tungsten-187 Neptunium-239 TOTAL FOR PERIOD (ABOVE)

Ci Ci Ci Ci Ci Ci Ci Cj, Ci Ci Cj.

Ci Ci Ci Ci Cj.

Ci Ci Ci Ci Ci Ci Cj.

Ci Ci Ci Ci Ci Ci Ci

<3.12 E-2 4.95 E-4

<1.09 E-4

<1.56 E-4 3.11 E-4

<8.77 E-4

<3.24 E-4

<1.51 E-4

<1.73 E-4

<4.98 E-4

<3'6 E"5

<2.26 E-5

<1.16 E-4 3.96 E-5

<1.64 E-4

<2.24 E-4

<1.59 E'-4

<1.84 E-4

<8.30 E"4

>8.46 E-4 but

<3.61 E-2

>7.32 E-1 7.80 E-3 7.64 E-2

>3.68 E-3 4.43 E-4

<2.63 E-3

>3.13 E-3 2.39 E-2

>1.21 E-3

<3.73 E-3 6.30 E-3 2.17 E-3

<1.07 E-4

<6.78 E-5 4.49 E-3

>4.91 E-3 2.16 E-2 3.49 E-4 1.38 E-5 3.17 E-4

>6.66 E-4 4.82 E-4

>5.68 E-3

<1.61 E-3

<2.70 E-3

>3.62 E-3 3.88 E-4 1.09 E-3 2.85 E-3

>9.03 E-1 but <8.24 E-1 but <3.88-3 but <3.54 E-3 but <1.32 E-3 but <8.10 E-3 but <1.58 E"3 but <6.85 E"3 but <9.03 E-3 but <1.02 E 0 Argon-41 Krypton-85 Krypton"85 m

Krypton"87 Krypton-88 Xenon-133 Xenon-133 m

Xenon-135 Xenon-135m TOTAL FOR PERIOD (ABOVE)

See notes on following page.

Ci Ci Ci Ci Ci Cj.

Ci Ci Ci Ci

'7.40 E-4

<1.22 E-1

<2.76 E-4

<1.68 E-4

<5.97 E-4

<7,52 E-4

<1.92 E-3

>1.00 E>>5 but

<2.52 E-4

<1.92 E-3

>1.00 E-5 but

<1.61 E-l

<1. 32

<4.57

<1. 51

<2.46

<2.78

>2.64

<1.01

>1.06 E-3 E-1 E-3 E-3 E-3 E-3 but <5.15 E-3 E-1 E-3 but <1.20 E-3

<1.56 E-2

>3.70 E-3 but <5.88 E-1 15

1

NOTES FOR TABLE 5 aAll releases are in batch mode and are sampled and analyzed prior to release.

In this notation, the first (">") number is the sum of all nuclide totals for all samples in which the given nuclide was determined to be present at the 95'b confidence level.

The second

("<") number is the sum of the nuclide totals equivalent to the reported lower limi.t of detection (LLD) values for those samples in which the nuclide was not determined to be present at the 95+ confidence level added to the nuclide totals for all samples in which the nuclide was identified at the 95+ CL.

Example:

Nuclide X:

Saele A

<1.00 E-4 Ci.

Samele B

3.00 E-4 Ci Ssaale C

<2.00 E-4 Ci.

Total for Nuclide X:

>3.00 E-4 Ci but <6.00 E-4 Ci Third quarter Fe"55 and Sr-89, 90 data have been used as estimates of September releases since initial criticality occurred on September 10th.

Fourth quarter releases have been estimated as three times the September release total estimates.

(Y8/P15-17)

TABLE 6 SEMIANNUAL EFFLUENT AND WASTE DISPOSAL REPORT 1982 SOLID WASTE AND IRRADIATED FUEL SHIPMENTS A. 'OLID WASTE SHIPPED OFF-SITE FOR BURIAL OR DISPOSAL (Not irradiated fuel) 1.

Type of Waste a.

Spent resins, filter

sludges, evaporator bottoms, etc.*

b.

Dry compressible

waste, contaminated equipment, etc.

c.

Irradiated components, control rods, etc.

d.

Others'(describe)

Unit Ci 3

m Ci 3

Ci September-December, 1982 4.0E1 6,2E-2 5.1EO 3.2E-3 0

0 0

2.

Estimate of Major Nuclide Composition (by type of waste)

Unit September-December, 1982 a ~

b.

C ~

Cobalt>>58 Chromium-51 Manganese-54 Cobalt-58 Chromium-51 r

None X

a/

/a 4.0E1 5.1E1 7.0EO 2.2E1 7.8E1 d.

None 3.

Solid Waste Disposition Number of Shioments Mode of Trans ortation Destination

.7 B.

IRRADIATED FUEL SHIPMENTS (Disposition)

Truck

Barnwell, SC Number of.Shi ments None Mode of Trans ortation Destination

Wastes were solidified in cement and shipped in steel liners.

17

II I

TABLE 7 SEMIANNUAL EFFLUENT AND WASTE DISPOSAL REPORT - 1982 ESTIMATED TOTAL ERRORS ASSOCIATED WITH EFFLUENT MEASUREMENTS Measurement Unit Estimated Total Error 1.

GASEOUS EFFLUENTS a.

Fission and Activation Gases b.

Iodines c.

Particulates

d. 'ritium 2,

LIQUID EFFLUENTS a.

Fission and Activation Products b.

Tritium c.

D'issolved and Entrained Gases d.

Gross Alpha Radioactivity 70 70 9.5EO 1.3El None Detected None Detected 7.5EO 9.3EO 8.0EO None Detected

I

SECTION 3 METEOROLOGY AND DISPERSION ESTIMATES

I II

METEOROLOGICAL DATA COLLECTION Meteorological data has been collected at the Susquehanna site since the early 1970s.

At the present time the meteorological system is based on a 300-foot tower located 1,000 feet to the southeast of the plant.

Mind sensors are mounted at 10-meter and 60-meter levels on the tower.

Verti-cal temperature differential is measured'ith redundant sensor pairs at the 10-meter and 60-meter levels.

Sigma. theta is measured at both levels.

Dewpoint and ambient temperature are mounted at the 10-meter level.

Precipitation is measured at ground level.

A back-up meteorological tower was put in place in 1982. It is a 10-meter tower providing an alternate source of measurements of wind speed, wind direction, and sigma theta at 10 meters.

20

TABLE 8 SEMIANNUAL EFFLUENT AND WASTE DISPOSAL REPORT - 1982 METEOROLOGICAL DATA AVAILABILITY DATA PERIOD:

9/1/82 12/31/82 Parameter Percent of Valid Hours Durin Period 1.

Wind Speed a.

All sensors combined b.

10 m sensors c.

60 m sensor

99. 90%

99.32%

36.13%

2.

Wind Direction a.

All sensors combined b.

10 m sensors c.

60 m sensor 99.90%

99.32%

36.13%

3.

Estimate of Atmospheric Stability a.

Delta temperature or sigma theta b.

Delta temperature c.

Sigma theta, all sensors 98.33%

98.33%

18.10%

~

SUSt)UEIIA)3)A STEAH ELECTRIC STATIOW HETEOROLOGICAL REPORTS JOIltT HIt)D FREQUEt)CY OISTRIBUTIOth BY STABILITY CLASS DATA PERIOD t YY/tDI/DO/IIII)'2/09/Ol/Ol - 82/12/31/2 i RUWDATEi 2/18/83 STABILITY CLASS:

PASQUILL A DATA SOURCE'tl SITE t P )

))IWD SEIISOR IIEIGl)T: 10lt KEY XXX t)Ut)DER OF OCCURREttCES XXX PERCEttT OCCURREWCES TIIIS CLASS XXX PERCEWT OCCURREt)CES ALL CLASSES HIWD SECTOR 0.0-1.5

)IIWD SPEED CATEGORIES (t)ETERS PER SECOWD) 1.5-3. 0 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL HEAW SPEED WWE WE EWE ESE SSE SSH

)OI CALH TOTAL 2

0.97 0.09 0

0.00 0.00 1.94 0.18 6

2'1 0.27 2

0. 97 0.09 0

0.00 0.00 1

0.49 0.05 6

2.91 0.27 4

1.94 0.18 10 4.85 0.4i6 6

2.91 0.27 4

l. 94i 0.18 1

0.49 0.05 0

0.00 0.00 2

0.97 0.09 1

0.49 0.05 0

0.00 0.00 49

23. 79

2. 24 ll 5.34 0.50 10 4.85 0.46 3

1.46 0.14 1

0.49 0.05 1

0.49 0.05 0

0.00 0.00 6

2. 91 0.27 1

0.49 0.05 4

1.94 0.10 27 13.11 1.23 21 10.19 0'6 21 10.19 0.96 3

1.46 0.14 1

0.49 0.05 1

0.49

0. 05 5

2.43 0.23 116 56.31 5.30 1

0.49 0.05 2

0.97 0.09 0

0.00 0.00 0

0.00

.0.00 0

0.00 0.00 1

0.4i9 0.05 4

l.94 0'0 1.94 0.10 13 6.31 0.59 6

2.91 0.27 3

1.46 0.14i 1

0.49 0.05 0

0.00 0.00 0

0.00 0.00 35 16.99 1.60 0

0.00 0.00 0

0 F 00 0.00 1

0.49 0.05 0

0.00 0.00 0

0.00 0.00 5

2.43 0.23 0

0.00 0.00 0

0.00 0.00 6

2.91 0.27 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0. 00 0 ~ 00 0

0 F 00 0;00 14 6.80 0.64 12 5.83 0.55 7

3.40 0.32 7

3.40 0.32 3

1.4i6 0.14 0

0.00 0.00 7

3.40 0.32 9

4.37 0.41 12 5.83 0.55 41 19.90 1.87 40 19.42 1.83 36

17. 48 1.65 7

3.4i0

~ 0.32 2

0. 97 0.09 3

1.4i6 0.14 6

2. 91 0.27 0

0.00 0'.00 206 100.00 9.42 2.16

2. 53 1.63 1.09 1.19 0.00 2.08 1.94 2.38 2.04 2.65 2.93 3.00 2.35 1.34 2.09 CALH 2.34

SUSQUEIIAtNA STEAH ELECTRIC STATIOtl HETEOROLOGICAL REPORTS JOItlT llItlD FREttUEttCY DISTRIBUTION BY STABILIIYCLASS RUNDATE:

2/18/83 DATA PERIOD IYY/)2)/00/ttlt): 82/09/01/01 - 82/12/31/24 STABILITY CLASS:

PASttUILL B DATA SOURCE: Otl-SITE lP)

IIItlD SEt)SOR IIEIGI)T: 10tl KEY XXX ttUttDER OF OCCURRENCES t

XXX PERCEttT OCCURRENCES TtlIS CLASS XXX PERCEtlT OCCURREttCES ALL CLASSES HIND SECTOR 0.0-1.5 llIND SPEED CATEGORIES tHETERS PER SECOtlD) 1.5-3.0 3.0-5.0 5.0-7.5 7.5-10.0

)10.0 TOTA).

HEAN SPEED NE EtlE ESE SE SSE SSH SH HSll

)ttDI CALH TOTAL 0

0.00 0.00 0

0.00 0.00 2

3.77 0.09 1

1.89 0.05 3

5. 66

0. 14 1

1.89 0.05 0

0.00 0.00 2

3.77 0.09 2

3.77 0.09 0

0.00 0.00 0

0.00 0.00 11 20.75 0.50 0

0.00 0.00 3

5. 66 0.14 0

0.00 0.00 0

0.00 0.00 1

1.89 0.05 2

3.77 0.09 2

3.77 0.09 4

7.55 0.18 1

1.89 0 F 05 1.89 0.05 0

0.00 0.00 1

1.09 0.05 3

5.66 0.14 18 33.96 0.02 3

5.66.

0.14 1

1.89 0.05 0

0.00 0.00 0

0.00 0.00 1

1.89 0.05 13 24.53 0.59 3

5.66 0.14 0

0.00 0.00 0

0.00 0.00 1

1. 89 0.05 22 41.51 1.01 0

0.00 0.00 0

0.00 0.00 2

3.77 0.09 0

0.00 0.00 0

0.00 0.00 2

3.77 0.09 0

0.00, 0.00 0

.0. 00 0.00 0

0.00 0.00 0

0.00 O.OD 0

0.00 0.00 0

0.00 0'.00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00 0 F 00 0

0:00 0.00 0

0.00 0.00 0

0.00 0.00 5.66 0.14 4

7.55 0.18 0

0.00 0.00 0

0.00 0.00 2

3.77 0.09 1

1.89 0.05 3

5.66

~ 0:14 2

3.77 0.09 2

3.77 0.09 5

9.43 0.23 19

35. 85 0.87 6

ll:32

0. 27 1

1.89 0.05 0

0.00 0.00 1

1.89 0.05 7.55 0.18 0

0.00 0.00 53 100.00 2.42 3.87 2.63

'.00 0 F 00 1.01 1.12 0.74 1.79 1.56 2.06 3.44 4.40 2.68 0.00 2.46 2.85 CALH 2.88

I I

SUSQUEIIAttttA STEAN ELECTRIC STATION NETEOROLOGICAL REPORTS JOIttT NIllD FREQUEttCY DISTRIDUTIOW DY STADILITY CLASS DATA PERIOD lYY/IOI/DD/liltl: 82/09/01/01 - 82/12/31/24 RUNDATE:

2/10/83 STABILITY CLASS:

PASQUILL C DATA SOURCE-Otl-SITE lP )

IIItlD SEtlSOR NEIGllT: 10tl KEY XXX maeER OF OCCURREttCES XXX PERCEtlT OCCURREllCES TIIIS CLASS XXX PERCENT OCCURREllCES ALL CLASSES HIND SECTOR 0.0"1.5 NItlD SPEED CATEGORIES lNETERS PER SECOND) 1.5-3.0 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL llEAN SPEED

~

0 Etlf ESE SE SSE Sstl SI I llSH CALN TOTAL 1

1.35 0.05 5

6.76 0.23 2

2.70 0.09 3

4.05 0.14 0

0.00 0.00 5.41 0.18 1

1.35

0. 05 1

1.35 0.05 2

2.70 0.09 5.41 0.18 0

0,00 0.00 2

2. 70

0. 09 1

1.35 0.05 0

0.00 0.00 0

0.00 0.00 26 35.14 1.19 3

4.05 0.14 5.41 0.18 0

0.00 0.00 0

0.00.

0.00 1

1.35 0.05 5.41 0.10 5

6.76 0.23 6.76 0.23 5

6.76 0.23 0

0.00 0.00 1

1.35 0.05 0

0.00 0.00 3

4. 05 0.14 31 41.09 1.42 1

1.35 0.05 3

4.05

0. 14 0

0.00 0.00 0

0.00 0.00 0.00 0.00 0

0.00 0.00 1

1.35 0.05 1

1.35 0.05 5

6.76 0.23 1

1.35 0.05 2

2.70 0.09 0

0'. 00 0.00 1

1 35 0.05 0

0.00 0.00 15 20.27 0.69 0

0.00 0.00 0

0.00 0:00 0

0.00 0.00 0

0.00

0. 00 1

1.35 0.05 1

1.35 0.05 0

0.00 0.00 0

0.00 0.00 2

2.70 0.09 0

0.00 0.00 0

. 0.00 0.00 0

0.00 0.00 0

0.00 D.OO 0

0.00 0.00 0

O.OD 0.00 0

0. 00 0.00 0

0.00 0.00 5

6.76 0.23 12 16.22 0.55 2

2.70 0.09 3

4.05 0.14 0

0.00 0.00 4

5.41

0. 18 1

1.35 0.05 2

2.70 0.09 7

9.46 0.32 10 13.51 0.46ll

. 14.86 0.50 9

12.16

0. 4il 3

4.05 0.14 1

1.35 0.05 1

1.35 0.05 3

4.05 0.14 0

0.00 0.00 74 100.00 3.30 2.46

2. 10 0.89 0.89 0.00 0.73 0.67 1.34 2.11 1.83 3.11 2.21

2. 91

2. 68

"'.78 2'6 CALll 2.15

SUSQUEHAtlWA STEAN ELECTRIC STATIOtt HETEOROLOGICAL REPORTS JOIttf WItlD FREQUENCY DISTRIBUTION BY STABILITY CLASS DATA PERIOD tYY/tQI/DD/IIII):82/09/01/01 - 82/12/31/24 RUWD ATE 2/18/83 STABILITY CLASS:

PASQUILL D DATA SOURCEi Otl-SITE tP)

IIIttD SEt)SOR IIEIGIIT: 10ll KEY XXX ttUttBER OF OCCURREttCES XXX PERCEttT OCCURREtlCES TIIIS CLASS XXX PERCENT OCCUttREtKES ALL CLASSES

)IIWD SECTOR 0.0-1.5 WlttD SPEED CATEGORIES ttlETERS PER SECOND) 1.5-3.0 3.0-5.0

5. 0-7. 5 7.5-10.0

>10.0 TOTAL WEAN SPEED

~

NE El)E ESE SE SSI4 SH W

ttN CALtt TOTAL 19 3.34 0.87 21 3.69 0.96ll

l. 93 0.50 9

1.58 0.41 9

1.58 0.41 7

1.23 0.32 6

1.05 0.27 4

0.70 0.18 8

1.41 0.37 23 4.04 1.05 9

1.58 0.41 9

1.58 0.41 4i 0.70 0.18 3

0.53 0.14 2

0.35 0.098 1.41 0.37 6

1 05 0.27 153 26.89 7.00 22 3.87

. 1.01 14 2 ~ 46 0.64 13 2.28 0.59 8

1.41 0.37 8

1.41 0.37 20 3.51 0.91 10 1.76 0.46 9

1.58 0.41 21 3.69 0.96 26

4. 57.

1.19 38 6.68 1.74 15 2.64 0.69 7

1.23 0.32 9

1.58 0.41 14 2.46 0.64 21 3.69 0.96 255 44.82 11.66 6

1.05 0.27 3

0.53 0.14 0

0.00 0.00 1

0.18 0.05 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 6

1.05 0.27 10 1.76 0.4i6 5

0.88 0.23 18 3.16 0.02 34i 5.98 1.55 13 2.28 0.59 13 2.28 0.59 7

1.23 0.32 22 3.87 1.01 138 24.25 6.31 0

0.00 0.00 0

0.00 0.00 3

0.53 0.14 0

0.00 0.00 0

0.00 0.00 3

0. 5'3 0.14 2

0.35 0.09 7

1.23 0.32 1

0.18 0.05 1

0. 18

0. 05 17

2. 99 0.78

.0 0.00 0.00 0

0.00 0.00 0

O.OD 0.00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0 00 0.00 0

0.00 0.00 0

0.00 0;00 0

0.00 0.00 0

0. 00 0 ~ 00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00 0.00 47 8.26 2.15 38 6.68 1.74 24 4.22 1.10 18 3.16 0.82 17

2. 99 0.78 27 4'5 1.23 16

2. 81

0. 73 19 3.34 0.87

. 42 7.38 1.92 54 9.49 2.47 65 11.42

2. 97 61 10.72 2.79 26 4.57 1.19 32 5.62 1.46 24 4.22 1.10 52 9.14 2.38 7

1.23 0.32 569 100.00 26.02 1.89 1.49 1.52 1.60 1.34 1.82 1.80 2.38 2.59

l. 74 2.48 3.11 3.07 3.59 3.00

2. 93 CALtl 2.34

I II

SUSQUEtlAtNA STEAtf ELECTRIC STATIOtt METEOROLOGICAL REPORTS SOlttT )tlttD FRECUEttCY DISTRIDUTION DY STADILITY Ct.ASS RUND ATE" 2/18/83 DATA PERIOD t YY/)0)/DD/IIII): 82/09/Ol/01 - 82/12/31/24 STADILITY CLASS:

PASRUILL E DATA SOURCE> Ott-SITE tP)

P)ItlD SEt)SOR IIEIGlll': 10H

)IIND SECTOR 0.0-1.5 KEY XXX NU))DER OF OCCURREt)CES XXX PERCENT OCCURREI)CES TIIIS CLASS XXX PERCEttT OCCURREttCES ALL CLASSES IIIND SPEED CATEGORIES t tlETERS PER SECOND) 1.5-3.0 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL HEA)t SPEED EWE ESE SE SSE SSH SI'I HSH Itt)N CALlt TOTAL 38 5.37 1.74 80 11.32 3.66 66 9.34 3.02 42 5.94 1.92 15 2.1Z 0.69 6

0.85 0.27 8

1.13 0.37 25 3.54 1.14 26 3.68 1.19 49 6.93 2.24 32 4.53 1.46 10 1.41 0.46 7

0.99 0.32 15

2. 12 0.69 6

0.85 0.27 17 2.40 0.78 52 7.36 2.38 44i 8 63.37 20.48 21

2. 97 0.96 20 2.83 0.91 12

~

1.70 0.55 6

0.85 0.27 0

0.00 0 F 00 4

0.57 0.18 1

0.14 0.05 6

0.85 0.27 16 2.26 0.73 26 3.68 1.19 31

4. 38 1.42 13 l.84 0 59 1

0.14 0.05 1

0.14 0.05 0

0.00 0.00 14 1.98 0.64 172 24.33 7.86 0.57 0.18 3

0.42 0.14 2

0.20 0.09 0

0.00 0.00 0

0.00 0.00 1

0.14 0.05 1

0.14 0.05 0.28 0.09 3

0.42 0.14 3

0.42 0.14 2

0.28 0.09 0

0.00

0. 00 0

0.00 0.00 0

0.00 0.00 7

0. 99 0.32 28 3.96 1.28 0

0.00 0.00 0

0.00 0.00 0.42 0.14 0

0.00 0.00 0

0.00 0.00 3

0.42 0.14 0

0.00 0 F 00 0

0.00 0.00 0

0.00 0.00

. 0 0.00 0.00 0

0.00 0.00 0

0.00 O.OO 0

0.00 0.00 0

0.00

0. 00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00

0. 00 0

0. 00

0. 00 0

0.00 0.00 0

0.00 0.00 63 8.91 2.88 105 14.85 4.80 80 11.32 3.66 49

6. 93 2.24 15

2. 12

0. 69 10 1.41

'.46 10 1.41 0.46 33 4.67 1.51 47 6.65 2.15 78 11.03 3 57 66 9.34

3. 02.

25 3.54 1.14 8

1.13 0.37 16 2.26 0.73 6

0.85 0.27 38

5. 37 1.74 50 0.20 2.65 707 100.00 32.33 1.42 1.00 0.91 0.72 1.30 1.08 1.08 1.68 1.37 1.58 1.81 1.20 0.84 0.64 1.92 CALH 1.19

SUSQUEIIAttWA STEAII ELECTRIC STATION NETEOROLOGICAL REPORTS JOINT )IItlD FREQUEIICY DISTRIBUTION BY'STADILITYCLASS RUNDATEI 2/18/83 DATA PERIOD IYY/lul/OD/IDI )'2/09/Ol/Ol - 82/12/31/24 STADILITY CLASS:

PASQUILL F DATA SOURCE:

OW-SITE IP)

IIItlD SENSOR IIEIGIIT: lell KEY XXX IIUIIDER Of OCCURREtlCES XXX PERCE)IT OCCURREIICES TIIIS CLASS XXX PERCENT OCCURREtlCES ALL CLASSES NIttD SECTOR 0.0-1.5 IIIND SPEED CATEGORIES ttlETERS PER SECOND) 1.5-3.0 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL IIEAtt SPEED ttNE tlE ENE ESE SE SSE SSII Sll NSI'I

)net

)OCR W

CALN TOTAL 10 3.23 0.46 47 15.16 2.15 79 25.48 3.61 33 10.65 1.51 9

2. 90 0.41 8

2.58 0.37 3

0.97 0.14 1.29 0.10 8

2.58 0.37ll 3.55 0.50 5

1.61 0.23 6

1.94 0.27 0.97 0.14 0

0.00 0.00 5

1.61 0.23 4

1.29 0.10 54 17.42 2.47 236 76.13 10.79 1

0. 32

0. 05 2

0.65 0.09 6

1.94 0.27 0

0.00 0.00 0

0.00 0.00 1

0.32 0.05 1

0.32 0.05 0

0.00 0.00 3

0 ~ 97 0.14 1

0.32 0.05 0

0.00 0.00 0

0.00 0.00 15 0.69 0

0.00 0.00 0

0.00, 0.00 0

0.00

0. 00 0

0.00 0.00 0

0.00 0.00 1

0.32

0. 05 0

0.00 0.00 0

0.00

'0. 00 0

0.00 0.00 0

0.00 0.00 1

0.32 0.05 0

0.00 0.00 0

0.00 0.00

~

0 0.00 0.00 0

0.00 0.00 0

0.00

0. 00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

O.DD 0.00 0

0.00 0.00 0

0.00 0.00

~ 0 0.00 0.00 0

0. 00 0.00 12 3.87 0.55 51

. 16.45 2.33 85 27.42 3.89 34 10.97 1.55 9

2.90 0.41 8

2. 58 0.37 3

0.97 0.14 5

1.61 0.23 10 3.23 0.46ll 3.55 0.50 8

2.58 0.37 7

2.26 0.32 3

0.97 0.14

.0 0.00 0.00 5

1.61 0.23 1.29 0.10 55

17. 74 2.51 310 100.00 14.17 0.82 0.74 0.84

0. 76 0.77 0.53 0,52 1.16 1;06 0.81 1.15

1. 02 0.52 0.00 0.54 0.50 CALII 0.66

SUSQUE))AHHA STEAH ELECTRIC STATIOtl HETEOROLOGICAL REPORTS JOIttT HItlD FRft)Uft)CY DISTRIBUTIOtl DY STABILITY CLASS RUHDATE:

2/18/83 DATA PERIOD l YYflsl/DD/till): 82/09/01/01 - 82/12/31/24 STABILITY CLASS:

PASQUILL G DATA SOURCE:

Ot)-SITE lP) llItlD SEHSOR IlEIGllT: 10ll KEY XXX HU))DER OF OCCURREtlCES XXX PERCEHT OCCURRE)lCfS Tt)IS CLASS XXX PERCE))T OCCURREHCES ALL C).ASSES l'lItlD SECTOR 0.0-1.5 IIItlD SPEED CATEGORIES t tlETfRS PER SECOtlD) 1.5-3.0 3.0-5.0 5.0-7.5 7.5-10.0

)10.0 TOTAL HEAtl SPEED EHE ESE SE SSf IQ SSH SII.

I)S)i l)H H

cnew TOTAL 1.49 0.18 41 15.30

1. 87 99 36.94 4.53 45 16.79 2.06 10 3.73 0.46 1.12 0.14 1.4i9

0. 18 3

1.12 0.14 1

0.37 0.05 0

0.00 0.00 3

1.12 0.14 5

1.87 0.23 2

0. 75

0. 09

~

2 0.75 0.09 1

0.37 0.05 1

0.37 0.05 3ri

12. 69 1 55 224 83.58

10. 24i 1

0.37 0.05 0

0.00 0.00 6

2.24 0 ~ 27 0

0.00 0.00 1

0.37 0.05 0

0.00 0.00 0

0.00 0.00 8

2. 99 0.37 0

0.00 0.00 0

0.00,

'.00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00 0.00 1

0.37 0.05 0

0.00 0.00 0

0.00 O.OD 0

0.00 0.00 0

0.00 0.00

~ 0 0.00 0.00 0

0.00 0.00 0

0. 00 0.00 5

1.87 0.23 42 15.6?

1.92 105 39.10 4.80 45 16.79 2.06ll 4.10 0.50 3

1.12 0.14 1.49 0.18 1.12 0.14 1

0.37 0.05 0

0.00 0.00 3

1.12 0.145 1.87 0.23 2

0.75 0.09 2

0.75 0.09 1

0;37 0.05 1

0.37 0.05 35 13.06 1;60 268 100.00 12.25 1.30 0.73 0.83 0.79'.59 0.97 0.84 0.89 Q. 89 0.00 0.67 0.54 0.$ 6 0.56 0.45

0. 67 CAul 0.70

SUSQUEIIAM<A STEAH ELECTRIC STATION tIETEOROLOGICAL REPORTS JOINT I'IIt<D FRECIUE)ICY DISTRIBUTION BY STABILITY CLASS RUNDATEi 2/18/83 DATA PERIOD IYY/I<<I/DD/IIII): 82/09/01/01 82/12/31/24 ALL CLASSES DATA SOURCEi ON-SITE IP)

IIItlD SEIQOR IIEIGIITi 10<I KEY

)OQC NU<mER Of OCCURREt<CES XXX PERCENT OCCURR1EtlCES TIIIS CLASS Xm<

PERCEt<T OCCURREI<CES ALL CLASSES HItID SECTOR

0. 0-1 ~ 5 tlIND SPEED CATEGORIES t tlETERS PER SECOttD) 1.5-3.0 3.0-5.0 5.0"7.5 7.5-10.0'10.0 TOTAL HEAN SPEED

<< i

~

)G<E EIIE ESE SE SSE Sl)

HSN teal N

CALH TOTAL 74 3.38 3.38 19ri 8.87 8.87 261 11.93 11.93 138 6.31 6.31 47 2.15 2.15 R9 1.33 1.33 26 1.19 1.19 4iri 2.01 2.01 49 2.24 2.24 99 4.53 4 53 57 2.61 2.61

-36 1.65 1.65 10 0.82 0.82 20 0.91 0.91 16 0.73 0.73 31 1.42 1.42 14i 6 6.60 6.60 1147 52.4i5 r2 45 59 2.70 2.70 53 2.42 2.42 40 1.83 1.83 15 0.69 0.69 10 0.46 0.46 24 1.10 1.10 17 0.78 0.78 19 0.87 0.87 4i8 2.19 2.19 86 3.93 3.93 102 4.66 4.66 56 2.56 2.56 1'2

0. 55

0. 55 12 0.55 0.55 16 0.73 0.73 46 2.10 2.10 615 28.12 28.12 15 0.69 0.69 12 0.55 0.55 2

0. 09

0. 09 "1

0.05 0.05 0

0.00 0.00 0

0.00 0.00 1

0.05 0.058 0.37 0.37 18 0.82 0.82 14 0.64 0.6ri 52 2.38 2.38 46 2.10 2.10 18 0.02 O.ORlri 0.64 0.64 8

0.37 0.37 30 1.37 1.37 240 10.97 10.97 0

0.00 0.00 0

0.00 0.00 1

0. 05

0. 05 6

0.27 0.27 0

0.00 0.00 1

0.05 0.05ll 0.50 0.50 2

0.09 0.09 7

0.32 0.32 1

0.05 0.05 1

0.05 0.05 30 1.37 1.37 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

&.00 0.00 0

0.00 0.00 0

0.00

0. 00 0

0.00 0.00 0

0.00 0.00 149 6.81 6.81 264 12.07 12.07

-303 13.85 13.85 156 7.13 7.13 57

2. 61

2. 61 53 2.42 2.42 R.Ol

'2.01 73 3.34 3.34i 121 5.53 5.53 199 9.10 9.10 212

9. 69

9. 69 149 6.81 6.81 50

2. 29 2.29 53 2.42 2.42 41 1.87 l.87 108 4.94

4. 9ri 155 7.09

7. 09 2187 100.00 100.00 1.67

.1. 16 0.95 0.93 0.92 1.38 1.41 1.55 2.03 1.62 R.R7 2.66 2.49 2.58 2.18 2.41 CALH 1.53

ll ELECTRIC STATION NETEOROLOGICAL REPORTS SUSQUEIIANNA STEA JOINT IIItlD FREGUEttCY DISTRIDUTIOtl DY STADILITY CLASS RUNDATEi 2/10/83 DATA PERIOD lYY/tet/DD/t)H) 82/09/01/01 - 82/12/31/24 STADILITY CLASS:

PASQUILL A DATA SOURCEi 0'l-SITE lP) ttI)ID SEtlSOR IIEIGIIT: 60tl KEY XXX Nut)DER OF OCCURREtlCES xxx pERcelrr occunnet.ces TRIs cLass xxx pencetlT occuRRetlces ALL cl.asses I-II)ID SECTOR 0.0-1.5 IIIND SPEED CATEGORIES lllETERS PER SECOtlD) 1.5-3.0 3.0-5.0 5.0-7 5 7.5-10.0

>10.0 TOTAL ttEAN SPEED tttte thE ESE SE SSE 4>

s O

Sll llSH N

th tN CALN TOTAL 1

0.94 0.10 3

2.83 0.31 1.89 0.21 1

0.94 0.10 0

0.00 0.00 0

0.00 0.00 2

1.89 0.21 1

0 474 0.10 2

1.89 0.21 0

0.00 0.00 2

1:89 0.21 0

0.00 0.00 0

0.00 0.00 1

0.94 0.10 0

0.00 0.00 15 14.15 1.55 1

0.94 0.10 1

0.94 0.10 0

0.00 0.00 0

0.00 0.00 6

5.66 0.62 4

3.77 0.41 12 11.32 1.24 6

5.66 0.62 4

3. 77 0.41 3

2.83 0.31 2.83 0.31 0

0.00 0.00 1

0.94 0.10 41 38.60 4i. 24 0

0.00 0 F 00 0

0.00 0.00 0

0.00 0.00 9

8.49 0.93 10 9.43 1.03 6

5.66

'0. 62 1

0. 94i 0.10 1

0.94 0.10 1

0.94 0.10 3.77 0.41 32 30.19 3.31 0

0.00 0.00 0

0.00, 0.00 0

0.00 0.00 0

0.00 0.00 2

1.89 0.21 8

7.55 0.83 3

2.83 0.31 1

0.94 0.10 0

0.00 0.00 0

0.00 0.00 14 13.21 1.45 0

0.00 0.00 0

0.00 0.00 3.77 0.41 0

0.00 0.00 0

0.00 0.00 4

3.77 0.41 0

0.00 0.00 0

O.OO 0.00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00 0.00 2

1.89 0.21 4

3.77 0.41 2

1.89 0.21 1

0.94 0.10 0

0.00 0.00 0

0.00 0.00 8

7.55 0.83 5

4.72 0.52 25 23.58 2.58 24 22.64 2.48 19

17. 92 l.96 5

4.72 0.52 3.77 0.41 1

0.94 0.10 6

5.66 0.62 0

0.00 0.00 106 100.00 10.95 1.45 1.23 0.78 0.89 0.00 0.00 0.00 1.9D 1.88 3.04 4.15 3.22 2.51 3.58 3.24 CALN

3. 25

SUSQUEtlAWt)A STEAH ELECTRIC S

.JO!t t'EOROLOGICAL REPORTS JOIWT WItlD FREQUE))CY DISTRIBUTIOtl BY STABILITY CLASS RUWDATE:

2/18/83 DATA PERIOD lYY/lDf/DD/ttt) ) t 82/09/01/01 - 82/12/31/24 STABILITY CLASS:

PASQUILL 8 DATA SOURCE:

Otl-SITE lP) l)It)D SEtlSOR llEIGIIT: 60tt KEY XXX ttU)lBER OF OCCURRftlCES XXX PERCEt)T OCCURREWCES TIIIS CLASS xxx pERcEtlr occURREt)DEs ALL GLAssEs IIIWD HItlD SPEED CATEGORIES lHETERS PER SECOWD)

SECTOR 0.0-1.5 1.5-3.0 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL HEAN SPEED E)IE ESE SE S

'I SSl I Sll CALH TOTA).

0 0.00 0.00 0

0.00 0.00 0

0.00 0.00 1

4.00 0.10 0

0.00 0.00 0

0.00 0.00 1

4.00 0.10 1

4.00 0.10 0

0.00 0.00 1

4.00 0.10 0

0.00 0.00 0

0.00 0.00 1

4.00 0.10 0

0.00 0.00 0

0.00 0.00 5

20.00 0'2 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00 0.00 1

4.00 0.10 0

0.00 0.00 0

0.00

0. 00 0

0.00 0.00 1

4.00 0.10 0

0.00 0.00 0

0.00 O.OD 0

0.00 0.00 1

4.00 0.10 4

16.00 0.41 1

4.00 0.10 0

0.00 0.00 0

0.00 0.00 1

4.00 0.10 2

8.00 0.21 2

8. 00 0.21 ll 44.00 1.14 0

0.00 0.00 0

0;00 0.00 0

0.00 0.00 0

0.00 0.00 2

8.00 0.21 3

12.00 0.31 0

0.00 0.00 0

0.00 0.00 1

4.00 0.10 0

0.00 0.00' 24.00 0.62 0

0.00 0.00 0

0.00 0.00 2

8. 00 0.21 0

0.00 0.00 0

0.00 0 F 00 0

0.00

'0. 00 2

8.00 0.21 0

~

0.00 0.00 0

0.00 0.00

"'0 0.00 0.00 0

0.00 0.00 '

0.00 0.00 0

0.00 0.00 1

4.00 0.10 0

0.00 0.00 0

0.00 0.00 1

4.00 0.10 4

16.00 0.41 10 40.00 1.03 2

8. 00

0. 21 0

0.00 0.00 0

0.00 0.00 1

4.00 0.10 4

16.00 0.41 2

8.00 0.21 0

0.00 0.00 25 100.00 2.58 0.00 0.00 0.00

0. 0lr 1.34 0 F 00 0.00 0.09 3.91 5.61 2.23 0.00 0.00 3.80 3.69 4.25 CALH

SUSCUEIIAt&A STEA15 ELECTRIC S..

>>II t)ETEOROLOGICAL REPORTS JOT)tT IIIttD FREGUEIICY DISTRIBUTION BY STABILITY CLASS RUNDATE 4 2/18/83 DATA PERIOD IYY/I,I/DD/IIII): 82/09/01/01 - 82/12/31/2>)

V IIIHO SECTOR 0.0-1.5 IIIND SPEED 1.5-3.0 STABILITY CLASS:

PASGUTLL C DATA SOURCE:

Olt-SITE IP )

IIIIID Sf)@OR IIEIGIIT: 60ll KEY XXX

)IUIIBER Of OCCURRBICES XXX PERCENT OCC'URRENCES TRIS CLASS

~ XXX PERCEt)T OCCURREtlCES ALL CLASSES CATEGORIES IHETERS PER SECOND) 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL

)IEAN SPEED

~

~l g

NE fHE ESE SSE SS) I SII IISH NN CALII TOTAL 1

3.57 0.10 0

'0. 00 0.00 1

3.57 0.10 0

0.00 0.00 0

0.00 0.00 1

3.57 0.10 1

3.57 0.10 0

0.00 0.00 0

0.00 0.00.

0 0.00 0.00 0

0.00 0.00 0

0.00

~

0.00 0

0.00 0.00 1<>. 29 0.>>1 10.71 0.31 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00 0.00 1

3.57 0.10 0

0.00 0.00 1

3.57 0.10 0

0.00 0.00 2

7.1>>

0.21 2

7. 1>'>

0.21 0

0.00 0.00 1

3.57'

'0 1

3.57 0.10 0

0.00 0.00 ll

39. 29 1.1<>

1 3.57 0.10 0

.0.00 0.00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

D.OO 0.00 0

0.00 0.00 1

3.57 0.10 3

10.71 0.31 1

3.57 0.10 0

0.00 0.00 0

0.00 0 F 00 2

7.1>

0.21 2

7. 1<>

0.21 10

35. 71 1.03 0

0.00 0.00 0

0.00 0.00 2

7. 1>>

0.21 0

0.00 0.00 0

0.00 0.00 2

7. 1>>

0.21 0

0.00 0.00 0

0 ~ 00 0.00 0

0.00 0.00 0

0.00 0.00 1

3.57 0.10 0

0.00 0.00 0

0.00 0.00 1

3.57 0.10 0

0.00 0.00 0

0.00 0:00 0

0.00 0.00 0

0.00 0.00 5

i7.86 0.52 0

0.00 0.00 1

3.57 0.10 0

0.00 0.00 0

0.00 0.00 1

3.57 0.10 0

0.00 0.00 2

7. 1>'>

0.21 5

17.86 0.52 5

17. 86 0.52 3

10.71 0.31 0

0.00 0.00 1

3.57 0.10 3

10.71 0.31 2

7.10 0.21 0

0.00 0.00 28 100.00 2.89 1.88 0.00 0.00

0. 00 0.00 1.79 0.00 1.56

>>.>)7 3.62 2.53 0.00

2. 68 3.13 3.80 CAI.N 2.95

SUSQUEIIAIDIA STEAtl ELECTRIC STATION NETEOROLOGICAL REPORTS JOItlT NItID FREQUEtlCY OISTRIDUTIOil DY STABILITY CLASS RUNDATE:

2/18/83 DATA PERIOD IYY/IDI/OD/IIII):82/09/01/01 - 02/12/31/24 STABILITY CLASS:

PASQUILL D DATA SOURCE: Otl-SITE IP )

tlIND SEIISOil IIEIGIIT: 6011 KEY XXX NUID)ER OF OCCURREt)CES XXX PERCEtlT OCCURRENCES TIIIS CLASS

)ON PERCENT OCCURRENCES ALL CLASSES IIIND IIItlD SPEED CATEGORIES IIIETERS PER SECOND)

SECTOR

0. 0-1.5 1.5-3.0 3.0-5.0 5.0"7.5 7.5-10.0

>10.0 TOTAL IIEAN SPEED t)NE tlE Etlf ESE SE SSE s

4)

SSIl SII HSI.I tIID1 tDI CALtl TOTAL 7

2.65 0.72 8

3.03 0.03 1

0.38 0.10 0

0.00 0.00 2

0.76 0.21 0

0.00 0.00 1

0.38 0.10 1

0.38 0.10 2

0.76 0.21 1

0.30 0.10 1

0.38 0.10 0

0.00 0.00 2

0.76 0.21 1

0.38 0.10 2

0.76 0.21 1

0.38 0.10 l.lci 0.31 30 11.36 3.10 9

3.41

0. 93 2

0. 76 0.21 1

0.38 0.10

~ 2 0.76 0.21 0

0.00 0.00 0

0.00 0.00 1.89 0.52 5

1.89 0.52 6

2. 27 0.62 13 4.92 1.34 1

0.38 0.10 0

0.00 0.00 9

3.cil

0. 93 8

3.03 0.83 12 4.55 1.24 73

27. 65 7.54 7

2.65 0.72 0

0.00 0.00 0

0.00

~ 0. 00 0

0.00 0.00 0

0.00 0.00 1

0.38 0.10 5

1.89 0.52ll F 17 1.14 19 7.20 1.96 10 3.79 1.03 14 5.30 1.45 9

3.41 0.93 16 6.06 1.65 9

3.41

0. 93ll Ci. 17 1.14 112 42.42 11.57 0

0.00 0.00 0

0.00 0.00 1.52 0.41 8

3.03 0.83 13 4.92 1.34 2

0.76 0.21 5

1.89 0.52 1

0.38

..0.10 3

1.14 0.31 0

0.00 0.00 1

0.38 0.10 37 14.02 3.82 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00 0.00' 0.00 0.00 0

0.00 0.00 4

1.52 0.41 2

0. 76 0.21 0

0.00 0.00 0

0.00 0.00 6

2. 27 0.62 0

0.00 0.00 0

0. 00 0.00 1

0.38 0.10 2

0.76 0.21 0

0.00 0.00 0

0.00 0.000 0.00 0.00 0

0.00 0.00 0

0.00 0.00 3

1.14 0.31 23 8.71 2.38 10 3.79 1.03 2

0.76 0.21 2

0.76 0.21 0

0. 00 0.00 2

0.76 0.21 15 5.68 1.55 31 11.74 3.20 43 16.29 Ci, Ci4 26

9. 85 2.69 20 7.58

2. 07 12 4.55 1.24 29 10.98 3.00 19

7. 20

l. 96 25 9.47 2.58 1.14 0.31 264 100.00 27.27 2.37 0.98 1.56 2.23 1.01 0.00 2.46 3.84 4.98 5.12 3.24 4.53 3.33 3.59 3.00 3.13 CALN 3.66

SUSQUEIIANNA STEAH ELECTRIC STATION HETEOROLOGICAL REPORTS JOINT HItlD FREIIUENCY DISTRIBUTION BY STABILITY CLASS RUNDATEt ~

2/18/83 DATA PERIOD IYY/IRVDD/lilt)t 82/09/01/Ol - 82/12/31/2ci STABILITY CLASS:

PASQJILL E DATA SOURCE i ON-SITE I P )

I'IItlD SEtlSOR IIEIGIIT: 60!t KEY XXX IIIRIBER OF OCCURREttCES XXX PERCENT OCCURRENCES TIIIS CLASS X)OI PERCEtlf OCCURREt)CES ALL CLASSES IIIND SECTOR

0. 0"1.5

'ltItlD SPEED CATEGORIES IIIETERS PER SECOtlD) 1.5-3. 0 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL HEAN SPEED tQE NE ENE ESE SE SSE SSH SH NSH

)55I CALH TOTAL 13 4.66 1.3ci 13 4.66 1.34 5

1.79 0.52 7

2.51 0.72 2

0.72 0.21 3

1.08 0.31 2

0.72 0.21 3

1.08 0.31 7

2.51 0.72 6

2.15 0.62 6

2 15

0. 62 3

1.08 0.31 0

0.00 0.00 1.43 0.41 6

2.15 0.62 9

3.23 0.93 13 4.66 1.34 09 31.90 9.19 19 6.81 1.96 13'.66 1.34 3

1.08 0.31 1

0.36 0.10 0

0.00 0.00 0

0.00 0.00 1

0.36 0.10 3

1.08 0.31 9

3.23 0.93ll

3. 9ci 1.14 6

2.15 0.62 6

2. 15 0.62 0

0.00 0.00 4

1.43 D.Cil 7

2.51 0.72 6

2.15 0.62 89 31.90 9.19 Ci l.ci3 0.41 9

3.23 0.93 4

1.43 0.41 1

0.36 0.10 0

0.00 0.00 0

0.00 0.00 Ci 1.43 0.41'8 2.87 0.83 10 3.58 1.03 9

3.23 0.93 6

2.15 0.62 Ci 1.43 0.41 1

0.36 0.10'

l. 79 0.52 11

3. 9ci 1.14 76

27. 2ci 7.85 0

0.00 0.00 0

0.00 0.00 1

0.36 0.10 Ci 1.43 0.41 2

0.72 0.21 1

0.36 0.10 0

0.00 0.00 0

0.00 0.00 1

0.36 0.10 0

0.00 0.00 9

3.23 0.93 0

0.00 0 F 00 0

0.00 0.00 0

'.00 0.00 0

0 F 00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00 0 F 00 0

0.00 0.00 0

0.00

-0.00 0

0.00 0.00 0

0.00 0 F 00 0

0.00 0.00 2

0.72 0.21 1

0.36 0.10 0

0.00 0.00 0

0.00 0.00 1.08 0.31 12.9) 3.72 35 12.54 3.62 12 4.30 1.24 9

3.23 0.93 2

0.72 0.21 3

1.08 0.31 3

1.08 0.31ll 3.94 1.14 30 10.75 3.10 30 10.75 3.10 22 7.89 2.27 15 5.38 1.55

1. ci3 0.41 9

3. 23

0. 93 19 6.81 1.96 26

9. 32 2.69 13 4.66 l.3ci 279 100.00 28.82 1.97

2. 06 2.07 1.34 0.56 0.67 1.34 2.82 3.46 3.01 2.64 2.80 4.47 1.94 2.39 2.39 CALH 2.35

. SUSQUEttAttHA STEAN ELECTRIC STATION HETEOROLOGICAL REPORTS JOIt)T tlIHD FREQUEttCY DISTRIDUTIOtt DY STABILITY CLASS DATA PERIOD lYY/iL'VDD/tttt)t82/09/01/Ol - 82/12/31/24 RUHDATEt 2/18/83 STABILITY CLASS:

PASQUILL F DATA SOUt)CE: ON-SITE lp)

)IIllD SENSOR llfIGIIT: 60)i KEY XXX HUttBER OF OCCURREt)CES XXX PERCE)lr OCCURREtlCES THIS CLASS XXX PERCEttT OCCURREttCES ALL CLASSES HI)ID tlIHD SPEED CATEGORIES ltlETERS PER SECOtlD)

SECTOR 0.0-1.5 1.5-3.0 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL tlEAtl SPEED ttltE Et)E ESE SE SSE SSll Sll t)Sli tDI tttas CALtt TOTAL 12 8.70 1.24 21

15. 22 2.17 6

4.35 0.62 2

1.45 0.21 2

1.45 0.21 1

0.72 0.10 6

4.35 0.62 8

5.80

0. 83 6

4.35 0.62 4

2.90 0.41 3

2.17 0.31 2

1.45 0.21 0

0.00 0.00 0

0.00 0.00 5.00 0.03 5

3.62 0.52 3

2.17 0.31 86 62.32 0.00 14 10.14 1.45 7

5.07 0.72 0

0.00 0.00 0

0.00 0.00 1

0.72 0.10 0

0.00 0.00 0

0.00 0.00 1

0.72 0.10 2.90 0.41 1

0.72 0.10 0

0.00 0.00 0

0.00 0.00 5

3.62 0.52 3

2.17 0.31 36 26.09 3.72 1

0.72 0.10 0

0.00 0.00 0

0 F 00 0.00 5

3.62 0.52 2

1.45 0.21 0

0.00 0.00 1

0.72 0.10 0

0.00 0.00 0

.0. 00 0.00 9

6.52 0.93 0

0.00 0.00 0

0.00 0.00 2

1.45 0.21 2

1.45 0.21 0

0.00 0.00 0

0.00 0.00 2.90 0.41 0"

0.00 0.00 0

0 F 00 0.00 0

0.00 0.00 0

0.00 0

0.00 0.00 0

0.00 0.00 I

0 0.00 0.00 0

0.00 0.00 0

O.OD 0.00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0.00, 0.00 0

0.00 0.00 0

0.00 0.00 27 19.57 2.79 28 20.29 2.89 6

. 4.35 0.62 2

1.45 0.21 3

2.17 0.31 1

0.72 0.10 6

4.35 0'2 8

5.00 0.83 14 10.14 1.45 12 8.70 1.24 4

2.90 0.41 3

2.17 0.31 0

0.00 0.00 0

0.00 0.00 13 9.42 1.34 8

5.80 0.83 3

2. 17 0.31 138 100.00 14.26 1.75 1.15 1.19 0.56 1.27 0.89 0.78 1.01 2.84 2.61 1.12 2.07 0.00 0.00 1.37 1.15 CALll 1.55

SUSQUEIIA)DIA STEAH ELECTRIC STATXOtt HETEOROLOGICAL REPORTS JOTIIT tITIIO FREQUEttcv DTSTnzourrott Dv STADTLzTY ct.Ass RUNDATEt 2/18/83 DATA PERIOD IYv/tnt/OD/IIII) t 82/09/Ol/01 - 82/12/31/24 STADILITY CLASS:

PASQUXLL G DATA Sauf CE: CII-SITE I P )

tlItID SEIISOR IIEIGIITt 60)I KEY xxx Nutn)ER 0F occURREtlcEs xxx pERGEtlT occURREIICEs TIIIs cLAss xxx pEncE)lr occunnEllcEs At.L cLAssEs Hltlo SECTOR 0.0-1.5 I)IIID SPEED CATEGORIES ltlETERS PER SECDIID) 1.5-3.0 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL HEAN SPEED IOIE NE ElIE ESE SE SSE SSN Sll Inst t)H Ntat CALH TOTAL 15 11.72 1.55 9

7.03 0.93 9

7.03 0.93 3

2.34 0.31 3

2.34 0.31 2

1.56 0.21 4

3.13 0.41 5

0.52 3

2.34 0.31 3.13 0.41 0

0.00 0.00 0

0.00 o.'ao 1

0.78 0.10 2

1.56 0.21 7

5.47 0.72 7

5.47 0.72 6

4.69 0.62 74 57.81 7.64 11 8.59 1.14 2

1.56 0.21 1

0.78 0.102.

l.56 0.21 0

0.00 0.00 0

0.00 0.00 4

3.13 0.41 1

0.78 0.10 2

1.56 0.21 0

0.00 0.00 1

0.78 0.10 1

0.78 0.10 0

0.00 0.00 5

3.91 0.52ll 8.59 1.14 41 32.03 4'4 0

0.00 0.00 1

0.78 0 ~ 10 0

0.00 0.00 0

o.oa 0.00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 2.34 0 ~ 31 1

0.78 0.10 0

0.00 0.00 1

0.78 0 ~ 10 0

0.00 0.00 0

0.00 0.00 4.69 0.62 0

0.00 0.00 0

0.00-0.00 0

0.00 0,00 0

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 1'.78 0.10 0

0.00 0.00 0

o.oa 0.00 0

0.00 0.00 0

0.00 0.00 1

0.78 0.10 D

0.00 0.00 0

0. 00 0.00 0

0.00 0.00 0

0 F 00 0.00 0

0.00 0.00 0

0.00 o.'oa 0

0.00 0.00 0

0.00 0.00 26-20.31 2.69 12 9.38 1.24 10 7.81 1.03 5

3.91 0.52 3

2.34 0.31 2

1.56 0.21 4

3.13 0.41 9

7.03 0.93 8

6.25 0.83 7

5.47

'0.72 0

0.00 0.00 2

1. 56 0.21 2

1.56 0.21 2

1.56 0.21 12 9.38 1.24 18 14.06 1.86 6

4.69 0.62 128

" 100.00 13.22 1.38 1.38 1.16 1.21 1.12'.01 1.01 1.64 2.85 1.60 0.00 2.80 1.56 0.56 1.43 1.64 CALH 1.44

Y SUSQUEIIAIIWA STEAN ELECTRIC STATION IIETEOROLOGICAL REPORTS JOItIT tlItlD FREQUEtlCY DISTRIDUTION DY STADILITY CLASS DATA PERIOD IYY/IRVDD/IIII):d2/09/01/Ol - 82/12/31/24 RUWDATEI 2/18/83 AI.L CLASSES DATA SOURCE i OW-SITE I P )

I)IND SEtlSOR IIEIGIIT: 60ll IKEY XXX IIUIIDER OF OCCURREtlCES XXX'ERCENT OCCURREtlCES TtlIS CLASS XXX PERCEtIT OCCURRENCES ALL CLASSES ttlttn SECTOR 0.0-1.5 I'IIWD SPEED CATEGORIES IHETERS PER SECOND) 1.5-3.0 3.0-5.0 5.0-7.5 7.5-10.0

>10.0 TOTAL IIEAN SPEED WE ENE ESE SSN SW IISN CALI) 49 5.06 5.06 54 5.58 5.58 24 2.48 2.48 13 1.34 1.34 10 1.03 1.03 6

0.62 0.62 13 1 34 1.34 20 2.07 2.07 21 2.17 2.17le 1.86

'.86 11 1.14 1.14 7

0.72 0.72 3

0.31 0.31 7

0,72 0.72 24 2.4ie 2.48 23 2.38 2.38 25 2.58 2.58 57 5.89 5.'89 25 2.58 2.58 5

0.52 0.52 5

0.52 0.52 1

0.10 0.10 0

0.00 0.00 2

0.21 0.21 18 1.86 1.86 21

2. 17 2.17 36 3.72 3.72 28 2.89 2.89 14 1 45 1.45 0.41 0.41 17 1.76 1.76 26

2. 69 2.69 33 3.41 3.41 13 1.34 1.34 10 1.03 1.03 4

0.41 0.41 1

0.10 0.10 0

0.00 0.00 0

0.00 0.00 1

0.10 0.10 9

0.93 0.93 28 2.89 2.89 46

4. 75 4.75 33 3.41 3.41 29 3.00 3.00 14 1.4i5 1.45 19 1.96 1.96 19 1.96 1.96 30 3.10 3.10 0

0.00 0.00 0

0.00 0.00 5

0.52 0.52 17 1.76 1.76 24 2.4S 2.4Sll 1.14 1.14 8

0.83 0.83 2

0.21 0.21 3

0.31 0.31 2

0.21 0.21 1

0.10 0.10 0

0.00 0.00 0

0.00 0.00 4

0.41 0.41 5

0.52 0.52 0

0.00 0.00 0.41 0.41 0

0.00 0.00 0

0.00 0.00 3

0.31 0.31 3

0.31 0.31 0

0.00 0.00 0

0.00 0.00 119

~12. 29 12.29 89 9.19 9.19 33 3.41 3.41 19 1.96 1.96 11 1.14 1.14 6

0'2 0.62 16 1.65 1.65 52 5.37 5.37 94 9.71 9.71 132 13.64 13.64 83 S.57 8.57 62 6.40 6.40 23 2'8 2.38 46

4. 75

4. 75 71 7.33 7.33 87 8.99 S.99 25 2.58 2.58 1.86 1.52 1.48 1.29 1.06 0.82 1.22 2.45 3.71 3.84 3.24 3.82 3.35 3.03 2.32 2.47 CALII TOTAL 303 31.30 31.30 292 30.17 30.17 256 26 45 26.45 73 7.54 7.54 13 1.34 1.34 6

968 0.62 '00.00 0.62 100.00 2i64

AVERAGE tlETEOROLOGICAL RELATIVE CotlCEWTRATIOH At)ALYSIS DATA PERIOD: 09/Ol/82 TO 12/31/82 FIXED AIID SPECIAL DISTANCES DISPERSIOII ANALYSIS

>>>> RADIOLOGICAL EFFLUEtlT DISPERSION PROGRAII ADSSES>>>>

FOR SEIIIAIIIIUALEFFLUEWT AHD tlASTE DISPOSAL REPORT 1982 SUSQUEIIAte)A STEA)l ELECTRIC.STATIOtlj LUZERIIE COUIITYj PA PEtltlSYLVAt)IA Pol'IER A LIGIIT COIIPAWYj ALLEWTOltNj PA OATE 23-FEG-83 AOSSES DEVELOPED GY tlonIFICATION OF Dan PROGRAII At)DIFF AFFECTED SECTORS tttlf tlf Etlf E

ESE SE SSE S

SSH SN HSH H

IOOI IIH Ht)N N

0.5 WILES I.805 KN) 1.2E-05 1.3E-05 9.7E-06 l.of-05 7.1E-06 6.8E-06 9.8E-06 1.5E-05 2.2E-05 f.lf-os 1.2E-05 8.9E-06 9.1E-06 6.5E-06 6.2f-06 8.9E-06 1.4E-05.2.0f-os 3.0E-OS 3.7E-OS 3.4E-OB 2.6E-OS 1.6E-OS 1.3E-OG 1.6E-OB 3.1E-OS 3.4E-OS 1.2E-05 1.3E-05 9.7E-06 9.9E"06 7.0E-06 6.7E-06 9.7E-06 1.5E-05 2.2E"05 1.2E-05 1.3E-05 9.7E-06 9.9E-06 7.1E-06 6.8E-06 9.7f-06 1.5E-05 2.2E-05 1.1E-05 1.2E-05 S.GE-06 9.1E-06 6.4E-06 6.1E-06 8.9E-06 1.3E-'05 2.0E-05 1.1E-05 1.2E-05 8.9E-06 9.1E-06 6.5E-06 6.2E-06 8.9E-06 1.3E-05 2.0E-05 Gos. 'os.

aos.

'os.

eos.

Sos.

Gos.

4.2E-05 4.6E-05 3.7E-05 1.2E-05 8.3E-06 8.5E-06 8.9E-06 3.8E-05 4.2E-05 3.4f-os 1.1E-05 7.6E-06 7.8E-06 8.2E-06 3.9E-OB 3.4E-OS 2.3E-OG 1.0E-OS 1.1E-DB 1.3E-OS 1.9E"08 4.2E-05 4.5E-OS 3.7E-05 1.2E-05 8.2E-06 8.4E-06 8.9E-06 4.2E-05 4.6f-os 3.7E-05 1.2f-os 8.2E-06 8.5E-06 8.9E-06 3.8E-05 4.2E-OS 3.4E-05 1.1E-05 7.5E-06 7.7E-06 8.1E-06 3.8E-05 4.2E-OS 3.4E-05 1.1E-05 7.5E-06 7.8E-06 8.2E-06 805.

805.

~

805.

1.5 I)ILES I2.41 Kll) 2.6E-06 2.8E-'06 2.0E-06 2.2E-06 2.4E-06 1.7E-06 5.1E-09 6.5E-09 5.9E-09 2.5E-06 2.8E-06 2.0E-06 2'f-06 2.8E-Oo 2.0E-06 2.1E-06 2.3E-06 1.7E-06 2.2E-06 2.4E-06 1.7E-O6 2414.

2414.

24i14.

1.7E-06 1.4E-06 4.0E-09 1.7E-06 1.7E-06 1.4E-06 1 ~ 4E-06 2414.

1.2E-06 1.3E-06 1.0E-06 1.1E-06 2.4E-09 2.2E-09 1.2E-06 1.3E-06 1.2E-06 1.3E-06 9.9E-07 1.1E-06 1 ~ OE-06 1.1E-06 2414.

24i14.

1.7E-06 1.4E-06 2.5E-09 1.7E-06 1.7E-06 1.4E-06 1.4E-06 2414.

2.8E-06 4.6E-06 2.4E-06 3.9E-06 4.9E-09 6.0E-09 2.7E-06 4.5E"06 2.8E-06 4.6E-06 2.3E-06 3.8E-06 2.4E-06 3.9E-06 2414.

2414.

G.BE-06 7.5E-06 7.3E-09 8.7E-06 B.GE-06 7.3E-06 7.4E-06 2414.

1.1E-05 6.2E-06 2.4E-06 1.7E-06 9.1E"06 5.3E-06 2.0E-06 1.4E-06 7.3E-09 3.5E-09 1.7E-09 1.9E-09 1.1E-05 6.1E-06 2.3E-06 1.6E-06 1.1E"05 6.2E-06 2.3E-06 1.7E-06 8.9E-06 5.1E-06 1.9E-06 1.4E-06 9.1E-06 5.2E-06 2.0E-06 1.4E-06 2414.

2414.

1.8E-06 1.8E-06 1.6E-06 1.6E-06 2.4E-09 3.3E-09 1.8E-06 1.8E-06 1.8E-06 1.8E-06 1.5E-06 1.5E-06 1.5E-06 1.5E-06 2414.

2414.

2.5 ttILES l4.02 Ktl) 1.3E-06 1.4E-06 1.0E-06 1.1E-06 1.2E-06 8.3E-07 2.3E-09 3.0E-09 2.7E-09 1.3E-06 1.4E-06 1.0E-06 1.3E-06 1.4E-06 1.0E-06 1.0E-06 1.)E-06 8.1E-07 1.05-06 1.1E-06 8.2E-07 4023.

4023.

Oi023.

S.OE-07 6.5E-07 1.7E-09 7.8E-07 S.OE-07 6.3E-07 6.4E-07 4i023.

5.2E-07 4.2E-07 o.oE"10 5.0E-07

5. 1E-07 4.0E-07

4. 1E-07 4023.

5.9E-07 8.2E-07 1.3E-06 4.8E-07 6.6E-07 1.0E-06 8.7E-10 1.1E-09 2.0E-09 5.7E-07 7.9E-07 1.2E-06 5.9E-07 8.1E-07 1.3E-06 4.6E"07 6.4E-07 9.0E-07 4.7E-07 6 'E-07 1.0E-06 4023.

4023.

2.2E"06 1.7E-06 2.4E-09 2:IE-06

2. 1E-06 1.7E-06 1.7E-06 4023.

4.2E-06 5.5f-06 3.4E-06 4.4E-06 3.0E-09 3.gf-09 4.0E-06 5.3E-06 4.1E-06 5.4E-06 3.2E-06 4.2E-06 3.3E-06 4 ~ 4E-06 4023.

4023.

2'E-06 1.1E-06 7.6E-07 8.7E-07 9.5E-07 2.3E-06 8.6E-07 6.1E-07 7.0E-07 7.6E-07 1.4E-09 6.7E-10 7.6f-jo 9.9f-lo 1.5f-09 2.7E-06'.0E-06 7.3E-07 8.4E-07 9.2E-07 2.8E-06 1.1E-06 7.5E-07 8.6E-07 9.4E-07 2.2E-06 8.2E-07 5.9E-07 6.8E-07 7.4E-07 2.3E-06 8.5E-07 6.1E-07 6.9E"07 7.6E-07 4023.

4023.

3. 5 IIILES I 5. 63 KI))

7. 3f-07 8. 3E-07 6. 4iE-07 5.6E-07 6.5E-07 5.0f-07 1.2E-O'9 1.6E-09 1.5E-09 7.0E-07 S.OE-07 6.2E-07

.7.2E-07 G.3E-07 6.4E-07 5.4E-07 6.2E-07 4.0E-07 5.6h-07 6.4E-07 4.9E"07 5632.

5632.

4.6E-07 3.5E-07

8. 4iE-10 4.4E-07 4.58-07 3.4E-07 3.5E-07 5632.

2.9E-07 2.2E-07 4.5E-10 2.7E"07 2.8E-07 2.1E-07 2.2E-07 5632.

2.9E-07 4.4E-07 6.5f-07 1.1E-06 2.2E-07 3.4E-07 5.0E-07 8.5E-07

3. 0E-10 5. 1E-10 9. 2E-10 l.1E-09 2.7E-07 4.2E-07 6.2E-07 1.0E-06 2.8E-07 4.4E-07 6.4E-07 1.1E-06 2.1E-07 3.3E-07 4.8E-07 8.1E-07 2.2E-07 3.4E-O7 5.0E-07 8.4E-07 5632 5632.

5632.

5632, 2.3E-06 3.0E-06 1.5E-06 6.1E-07 4.5E-07 4.7E-07 5.2E-07 1.8E-06 2.3E-06 1.2E-06 4.7E-07 3.4E-07 3 ~ 7E-07 i'j.oE-07 1.4E-09 1.5E-09 6.5E-10 3.3E-10 4.0E-10 4.8E-10 7.6E-10 2 ~ 2E-06 2.8E-06 1.4E-06 5.7E-07 4.2E-07 4.5E-07 5.0E-07 2.3E-06 3.0E-06 1.5E-06 6.0E-07 4.4E-07 4.7E-07 5.2E-07 1.7E-06 2.2E-06 1.1E-06 4.4E-07 3.3E-07 3.5E-07 3.9E-07 1.0E-06 2.3E-06 1.2E-06 4.6E-07 3.4E-07 3.6E-07 4.0E-07 5632.

5632.

TOTAL OOS 2920 TOTAL IHV OOS -

274 CALI)S LOllER LEVEL -106.00 KEY: EtlTRY 1 RELATIVE Cot!CEIITRATIoth - XOQ IS/tl>>>>3)

EtlTRY 2 DEPLETED RELATIVE COHCEtlTRATION IS/H>>>>3)

Et)TRY 3 REI.ATIVE OEPOSITIOH RATE I I/!Ix>>2)

EIIIRY 4 DECAYED XOQ IS/ll>>>>3) - IIALF LIFE 2.26 DAYS ENTRY 5 DECAYED XOQ IS/II>>>>3) - IIALF LIFE 8.00 DAYS Et)IY 6 DECjoPL XOQ IS/It>>>>3) - IIAI.F LIFE 2.26 DAYS ENTRY 7 OECjDPL XOQ IS/ll>>>>3) - IIALF LIFE 8.00 DAYS EtlTRY 8 - DISTAI!CE Itl IIETERS

AVERAGE )IETEOROLOGICAL RELATIVE CONCENTRATION ANALYSIS DATA PERIOD: 09/01/82 TO 12/31/82 FIXED AtlD SPECIAL DISTAtlCES DISPERSIOtl ANALYSIS iiii RADIOLOGICAL EFFLUEtlT.DISPERSIOtl PROGRA)l ADSSES tie FOR Sft)IA)dh)AL EFFLUENT AtlD HASTE DISPOSAL REPORT, 1982 SUSQUEIIAtd)A STEA)i ELECTRIC STATIOtl) LUZERNE COUt)TYp PA PEt)NSYLVAtlIA POllfR t) LIGIIT COllPANY) ALLfttTORI PA DATE 23-FED-83 ADSSES DEVELOPED BY )IODIFICATION OF Ddtt PROGRAI) ANDIFF tltlE NE Etlf E

ESE SE AFFECTED SECTORS SSE S

SSW SII IIS'H IttdR td)H 4.5 HILES l7.2ri 5.0E-O? 6.0E-07 3.8f-07 4.5E-07 7.5E-10 1.0E-09 4.8E'-07 5.?E-O?

5.0E"07 5.9E-07 3.6E-07 4.2E-07 3.7E-07 4.4E-07 7241.

7241.

Kll) 4.?E-07 3.6E-O?

1.0E-09 ri.5E-07 4i.7E-07 3.4iE-07 3.5E-07 7241.

3.1E-07 1.7E-07 1.6E-07 2.3E-07 1.3E-07 1.2E"07 5.3E-10 2.4E-10 2.0E-10 2.9E-07 1.6E-07 1.5E-07 3.1E-O? 1.7E-07 1.6E-07 2.2E"07 1.2E-07 1.1E-07 2.3E-07 1.3E"07 1.2E-07 7241.

7241.

2.5E-07 1.8E-O?

2. 6E-10 2.3E-07 2.4if-07 1.7E-07 1.0E-07 7241.

4.0E-07 6.?E-07 3.0E-07 5.0E-07 5.2E-10 6.1E-10 3.BE-07 6.3E-07 3.9E-07 6.5E-07 2.8E-07 4.7E-07 3.0E-07 4.9E-07 7241.

7241.

1 'iE-06 2.0E-06 1.1E-06 1.5E"06 8.1E-10 9.2E-10 1.4E-06 1.9E-06 1.4E-06 2.0E-06 1.0E-06 1.4E-06 1.1E-06 1.5E-06 7241.

7241.

1.0E-06 7.7E-07 3.9E-10 9.4E-O?

1.0E-06 7.0E-07 7.5E-07 7241.

4.1E-O?

3.1E-07

2. OE-10 3.?E-07 4.0E-07 Z.BE-07 3.0E-07 7241.

2. 9E-07 3.4iE-07 2.9E-07 2.1E-07 2.2E-07 7241.

3.3E-07 2.4E-07 2.5E-07 7241.

2.2E-O?'2.5E-07 2.4E-10 3.2E-10 2.7E-07 3.2E-07 3.6E-07, 2.7E-07 4.8E 3.4E-07 3.5E-O?

2.5E-07 2.6E-07 7241.

7.5 l)ILES )12.07 Kll) 2.3f-07 2.9E-07 2.3f-07 1.6E-07 2.0E-07 IMAGE-07

2. 9E-10 4i. 2E-10 4. 2E-10 2.1E-07 2.6E-07 2.1E-07 2.3E"07 2eGL'-07 2 ~ ZE-07 1 5E 07 1

GE 07 1 5E 07 1.6E-O? 1.9E-07 1.6E-07 12068.

12068.

1.5E-07 6.2E-OG 5.3E-OG 1.0E-07 4.3E-OG 3.7E-OG 2.0E-10 7.3E-11 5.3E-11 1.3E-07 5.6E-OG 4.7E-OG 1.4E-O? 6.0E"08 5.1E-OG 9.2E"08 3.9E-OG 3.3E-OG 9.9f-08 4.2E-OG 3.6E-OB 12068.'2068.

12068.

8.5E-OG 5.9E-OG 7.2E"11 7.6E-OG 0.2E-OG 5.3E-OB 5.7E-OB 12068.

1.5E-07 2.6E-07 1.1E"07 1.8E-07 1.?E-10 1.9E-10 1.4E-07 2.3E-07 1.5E-07 2.5E"07 9.6E-OG 1.6E-07 1.0E-O? 1.?E-07 12068.

12068.

6.0E-07 G.GE-07

4. 2E-07. 6.1E-07 2.?E-10 3.2E-10 5.4E-O? 7.9E-07 5.9E-O? 8.5E-07 3.8E-07 5.5E-O?

4.1E-O? 5.9E-07 12068.

12068.

4.1E-07

2. 9E-07 1.2E-10 3:5E-07 3.9E-07 2.5E-07 2.7E"07 12068.

1.8E-07 1.3E-07 1.2E-07 9.0E-OG 7.1E-11 G.GE-11 1.5E-07 1.2E 07 1.7E-07 1.3E-07 1.1E-07 8.1E-OB 1.2E-07 8.7E-OB 12068.

12068.

1.6E-07 1.1E-07

1. 2E-10 1.4iE-07 1.6E-07 1.0E-07 1.1E-07 12068.

2.3E-07 1.6E-07 2 ~ 6E-10

2. 1E-07 2.2E-07 1.4E-O?

1.5E-07 12068.

15.0 t)ILES )24.1 Ktt)-

4.0E-OG 6.6E-OG 7.8E-OB 2.4E-OG 4.1E-OB 4.0E-OG 3.?E-11 7.2E-11 1.1E-10 3.4E-OG 5.7E-OG 6.5E-OG 3.8E-OG 6.3E-OO 7.4E-OG 2.1E-OB 3.5E-OG 4.0E-OG 2.3E 08 3.9E 08 4.5E 08 24135.

24135.

25.0 ))ILES lri0.2 Ktl) 6.0E-09 9.2E-09 2.4E-OB 3.7E-09 5.0f-09 1.3E-OB 4.8E-IZ 7.6E-12 2.5E-ll 5.2E-09 7.1E-09 1.8E-OG 6a2E-09 8.5E-09 2.2E-OG Z.OE-09 3.9E-09 1.0f-OG 3.4E-09 4.6E-09 1.2E-OG 40225.

40225.

4i0225.

3.5E-OB 1.5E-OB 1.3E-OG 2.1E-OG 9.4E-09 8.1E-09 3.4E-ll 1.3E"ll 9.8E-12 2.8E-OG 1.2E-OG 1.0E-OG 3.3E-OG 1.4E-OG 1.2E-OG 1.?E-OB 7.5E-09 6.5E"09 2.0f-08 B.GE-09 7.6E-09 24135.

24135.

24135

'.0E-OB 4.9f-09 2.0E-09 5.5E-09 2.7E-09 1.1E-09 7.5E-12 3.1E-12 1.1E-12 7.3E-09 3.4E-09 1.4E-09 9.1E-09 4.4E-09 1.7E-09

/i.Of-09 1. 9E-09 7. 4 E-10 5.0E-09 2.4E-09 9.6E-10 4i0225.

40225.

4i0225.

2.0E-OG 1.2E=OB 1.2E-11 1.6E-OG 1.8E-OG 9.7E-09 1.1E-OG 24i135.

3.3E-09 1.0E-09 1.5E-12 2.3E-09 3.0E-09 1.3E-09 1.6E-09 40225.

1.9E-OG 4.?E-OG 1.2E-OB 2.9E-OB 1.5E"11 2.6E-11 1.6E-OG 3.9E-OG 1.8E-OB 4.5E-OB 9.6E-09 2.4E-OB 1.1E-OG 2.7E-OG 24135.

24135.

3.3E-09 8.2E-09 1.8E-09 4.5E-09 2.0E-12 3.3E-12 2.3E-09 6.0E-09 2.9E-09 7.5E-09 1.2E-09 3.3E-09 1.6E-09 4.1E-09 40225.

40225.

1.0E-07 1.4E-O?

6.2E-OB 8.4E-OG 3.2E-ll 3.4E-ll 8.3E-OG 1.IE-07 9.5E-OB 1.3E-07 5.1E-OG 6.7E-OB 5.9E"08 7.9E"08 24i135.

24135.

2.4E-OG 2.3E-OB 1.3E-OG 1.3E-OG 5.6E-12 4.2E-12 1.7E"08 1.6E-OB 2.1E-OB 2.1E-OB 9.4E-09 G.BE-09 1.2E-OB 1.1E-OB 40225.

40225.

6.3E-OG 3.9E-OB 1.3E-11 4.?E-08 5.8E-OG 2.9E-OG 3.6E-OG 24135.

7.6E-09 4.2E-09 1.2E-12 4.OE-09 6.6E-09 2.6E-09 3.6E-09 40225.

3.6E-OG'.7E-OG 3.1E-OB 2.2E-.OB 1.6E-OB 1.9E-OG 1.0E-11 1.3E-11 1.7E-11 2.7E-OG 2.2E-OB 2.5E-OB 3.3E-OG 2.5E-OB 2.9E-OG 1.6E-OG 1.3E-OG 1.6E-OB 2.0E-OG 1.5E-OB 1.8E-OG 241/5.

24135.

6.5E-09 3.6E-09 4.7E-09 3.5E-09 2.0E-09 2.6E-09 1.4E-12 1.3E-12 2.0E-lZ 4.1E-09 2.5E-09 3.4E-09 5.6E-09 3.3E-09 4.3E-09 2.2E-09 1.4E-09 1.8E-09 3.1E-09 1.8E-09 2.3E-09 40225.

40225.

3.4E-OG 2.18-08 2.8E-ll 2.8E-OG 3.2E-OG

1. 7E-OB-2.0E"08 24135.

7. 95-09 4.3E-09 5.0E-12 5.9E"09 7.2E-09 3.2E-09 4.0E-09 40225.

TOTAL OBS - 2928 TOTAL Il)V OBS -

274 CALt)S LONER LEVEL -106.00 KEYi El)TRY 1 RELATIVE C01ICft)TRATIOtl - XOQ lS/ttiiii3)

EtlTRY 2 DEPLETED RELATIVE COtlCE)ITRATIOtl IS/H<ii3)

El)TRY 3 RELATIVE DEPOSITIOtl RATE II/ttxii2)

EtlTRY 4 DECAYED XOQ tS/ttiiii3) - IIALF LIFE 2.26 DAYS El)TRY 5 DECAYED XDQ tS/tt>ii3 l - IIALF LIFE 8.00 DAYS Et)TRY 6 DECtOPL XOQ tS/tt.iii3) - IIALF LIFE 2.26 DAYS Et)TRY 7 DECtDPL XDQ tS/tt>>3) - IIALF LIFE 8.00 DAYS EtlTRY 8 - DISTAtlCf Itl t)ETEPS

'I

AVERAGE tlETEOROLOGICAL RELATIVE CONCENTRATION At)ALYSIS DATA PERIOD: 09/Ol/82 TO 12/31/02 FIXED AWD SPECIAL DISTA)tCES DISPERSIOW ANALYSIS w<<RADIOLOGICAL fFFLUEtlT DISPERSIOW PROGRAH ADSSES <<<<

FOR Sft)IA)tt)UAL EFFLUENT are HASTE DISPOSAl. REPORT, 1982 SUSQUEIIA)tt)A STEAN ELECTRIC STATION; LUZERWE COUNTY PA PEWWSYLVAtlIA POllER 8 LIGIIT COllPAtlY) ALLENTO)IWy PA DATf 23-FEG-83 AOSSES DEVELOPED DY llODIFICATION OF DPI PROGRA)t At)DIFF AFFECTED SECTORS ttNE tlE EtlE f

ESE SE SSE S

SSH SH l)S)t H

ttttH WH tttal

35. 0 WILES t 56. 3 KH)

'1.GE-09 2.4E-09 6.4f-09 2.1E-09 6.9E-10 3.8E-10 7.3f-10 8.2E-10 9.0E-10 1.2E-09 3.2E-09 1.1E-09 3.5E-10 1.9E-10 3.7E-10 4.1E-10 1.0E-12 1.6E-12 5.4E-12 1.3E-12 3.6E-13 1.7E-13 2.7E-13 4.0E-13 1.2E-09 1.7E-09 h.hf-09 1.4E-09 4.2E-IO 2.3E-10 4.4E-10 S.OE-10 1.6E-09 2.1E-09 5.7E-09 1.9E-09 5.9E-10 3.2E-10 6.3E-10 7.1E-10 6.3E-10 8.5E-10 2.2E-09 7.0E-10 2.1E-10 1.1E-10 2.2E-10 2.5E-10 G.OE 10 1 lE 09.2 9E 09 9.4E 10 3 OE 10 1.6E 10 3.1E 10 3 5E 10 56315.

56315.

I.hf-09

7. 2E-10

4. 7E-13

9. 3E-10 1.3E-09 4.?E-10 6.3E-10 56315.

7.5E-09 4.9E-09 1.5E-09 4.4E-10 4.6E-10 1.7E-09 3.GE-09 Z.hf-09 7.6E-10 2.2E-10 2.3E-10 G.SE-10 1.4E-12 7.2E-13 1.9E-13 7.5E-14 1.4E-13 5.8E-13 4.8f-09 3.0E-09 8.1E-10 2.4E-IO 2.8E-10 1.1E-09 6.6E-09 4.2E-09 1.3E"09 3 'E-10 4.0E-10 1.5E-09 2.4E-09 1.5E-09 4.1E-10 1.2E-10 1.4E-10 5.3E-10 3.3E-09 2.1E-09 6.3E-10 1.8E-10 Z.OE-10 7.4E-10 56315.

56315.

1.4E-09 7.1E-10 7.4E-13

9. 6E-10 1.3E-09 4.8E-10 6.3E-10 56315.

hi5.0 IIILES I?2.4 Kll) ------------

7.1E-10 8.1E-10 2.3E-09 7.0E-10 1.7E-10 3.3E-10 I.hf-09 3.3E-10 3.88-10 1.1E-09 3.3E-10 7.9E-11 1.5E-10 6.4E-10 3.5E-13 4.6E-13 1.6E"12 3.6E-13 7.5f-lh 1.3E-13 4.4E-13 4.5E-10 5.3E-10 l.hf-09 4.1E-10 9.lf-ll 1.8E-10 7.4E-10 6.1E-10 7.1E-IO 2.0E-09 5.9E-10 1.4E-IO 2.?E-10 1.1E"09 2.1E-10 2.5E-10 6.6E-10 1.9E-10 4.2E-11 8.3E-11 3.5E-10 2.9E-10 3.3E"10 9.1E-10 2.7E-10 6.5E-ll 1.3f-10 5.3E-10 72405.

724i05.

72405.

724i05.

72hi05.

724i05.

1.6E-09 4.2E-10 7.3E-10 2.0E-10 6.5E-13 1.2E-13 0.6E-10 2.5E-10 1.3E"09 3.6E-10 4.0E-10 1.2E-10 6.0E-10 1.7E-10 724i05.

72405.

3.1E-09 1.2E-09 1.4E 09 5.6E-10 4.8E-13 1.5E-13 1.7E-09 6.5E-10 2.6E-09 9.9E-10 G.lf-10 3.0E-10 1.2E-09 4.6E-10 72405.

724i05.

1.?E-10 5.1E-11 5.3E-11 2.6E-10 3.9f-lh 1.6E-14 2.9f-lh 1.6E-13 1.7E-10 5.0E-11 6.2E-11 3.1E-10 2.9E-10 8.6E-11 9.4E-ll 4.6E-10 8.1E-ll 2.3E-11 2.9f-ll 1.4E-IO 1.4E-IO 4.0E-ll 4.4f-ll 2.2E-10 72405.

724i05.

72405.

1.9E-10 1.8E-13

2. 5E-10 3.4E-10 1.1E-10

1. 6E-10 72405.

3.8E-10 1.1E-10 1.1E-10 5.5E-10 4.0E-10 0,4 l)ILES l0.64i4 Kll) 1.6E-05 1.8E-05 I.hf-05 1.4E-05 1.7E-05 1.3E-05 3.8E-OG 5.2E-OG 4.8E-OG 1.6E-05 1.8E-05 1.4E-05 1.6E-05 1.0E-05 1.4E-05 I.hf-05 1.7E-05 1.3E-05 1.4E-05 1.7E-05 1.3E-05 644i.

64ri.

64iri.

0. 6 HI LES l0. 965 K)I)-

9.5E-06 1.0E-05 7.4E-06 8.6E-06 9.4E-06 6.7E"06 2.2E-08 2.9E-OG 2.5E-OG 9.4E-06 1.0E-05 7.3E-06 9.5E-06 1.0E-05 7.3E-06 8.5E-06 9.4E-06 6.6E-06 8.6E-D6 9.hf-06 6.7E-06 965.

965.

l.hiE-05 1.3E-05 3.8E-OG l.hif-05 l.hiE-05 1.3E-05 1.3E-OS 64ih.

1.1E-05 9.6E-06 9.8E-06 8.9E-06 2.4E-08 1.9E-OG 1.0E-05 9.5E-06 1.1E-05 9.5E-06 9.7E-06 G.GE-06 9.7E-06 8.8f-06 644.

644.

7.5E-06 5.4E-06 5.2E-06 6.8E-06 4.9E-06 4.?E-06 2.0E-OG 1.2E-OG 1.0E-OG 7.5E-06 5.3E-06 5.1E-06 7.5E-06 5.4E-06 5.2E-06 6.8E-06 4.GE-06 4.7E-06 6.8E-06 4.9E-06 4.7E-06 965.

965.

1.3E-05 2.0E-05 3.1E-05 1.2E-05 1.8E-05 2 'E-05 2.2E-OG 4.3E-OG 4.9E-OG 1.3E-05 2.0E-05 3.1E-05 1.3E-05 2.0E-05 3.1E-05 1.2E-05 1.8E-05 2 'E-05 1 ~ 2E-05 1.8E-05 2.9E-05 644.

644.

644, 7.5E-06 1.1E-05 1.?E-05 6.0E-06 1.0E-05 1 'E-05 1.2E-O8 2.3E-OG 2.6E-OG

?.hf-06 1.1E-05 1.7E-05 7.5E-06 1.1E-05 1.7E-05 6.7E-06 1.0E-05 1.5E-05 6.8E-06 1.0E-05 1.6E-05 965.

965.

1.2E-05 l.lf-05 1.3E-05 1.1E-05 1.0E-OS 1.2E"05 1.6E-08 1.7E-OG 2.8E-OG 1.2E-05 1.1E-05 1.2E-05 1.2f-05 1.1E-OS 1.3E-05 1.1E-05 1.0E-05 1.2E-05 1.1E-05 1.0E-05 1.2E-05 644.

644.

3.3E-05 3.8E-05 3.0E-05 3.5E-05 3.1E-08 2.9E-OG 3.3E-05 3.GE-05 3.3E-05 3.8E-05 3.0E-05 3.4E-05 3.0f-05 3.5E-05 965.

965.

2.9E-05 2.6E-05 1.8f-08 2.9E-05 2.9E-05 2.6E-05 2.6E-OS 965.

9.7E-06 6.4E-06 G.GE-06 5.8E-06 7.9E-09 8.4E-09 9.6E-06 6.3E-06 9.7E-06 6.4E-06 8.7E-06 5.?E-06 8.8E-06 5.8E-06 965.

965.

6.5E-06 5.9E"06 9.7E-09 6.5E-06 6.5E-06 5.8E-06 5.9E-06 965.

7.0E-06 6.3E-06 1.5E-OG 7.0E-06 7.0E-06 6.3E-06 6.3E-06 965.

6.0E-OS 6.3E-05 5.3E-05 1.8E-05 5.5E-05 5.8E-05 4.9E-05 1.7E-05 5.5E-OG 4.'if-08 3.3E-OG 1.4E-OG 6.0E-05 6.3E-OS 5.2E-05 1.8E-05 6.0E-05 6.3E-05 5.3E-05 1.8E-05 5.5E-05 5.8E-05 4.9E"05 1.6E-05 5.5E-05 5.8E-05 4.9E-05 1.6E-05 64ih.

644.

TOTAL ODS - 2920 TOTAL It)V ODS -

274 CALt)S LOHER LEVEL KEY: EtlTRY 1 RELATIVE COt)CfttTRATIOtt - XOQ t'S/)tx<<3) ftlTRY 3 RELATIVE DEPOSITION RATE ll/H<<<2)

Etlll'Y 5 DfCAYEO XOQ lS/tl<<<<3) - llALF LIFE 8.00 DAYS EtlTRY 7 DECtDPL XOQ lS/W<<<<3) - IIALF LIFE 0.00 DAYS

-106.00 EtlTRY 2 DEPLETED RELATIVE COWCEtlTRATIOtl tS/tt<<<3)

El)TRY 4 DECAYED XOQ tS/ttii<<3) - IlALF LIFE 2.26 DAYS EWlRY 6 DEC>DPL XOQ lS/W<<<<3) - IIALF LIFE 2.26 DAYS ENTRY 8 - DISTAtlCf Itl IIETERS

AVERAGE tlETEOROLOGICAL RELATIVE COtlCENTRATION At)ALYSIS DATA PERI90: 09/Ol/82 TO 12/31/82 FIXED AND Sr ECIAL DIST'AWCES DISPERSION ANALYSIS x>> RADIOLOGICAL EFFLUENT DISPERSIOtl PROGRAH ADSSES ii>>

FOR SEIIIAIIIIUALEFFLUEIIT AIID IIASTE DISPOSAL REPORTS 1982 SUSQUEIIAt)NA STEAII fLECTRIC STATION) LUZERIIE COUIITYy PA PENISYLVAIIIAPOFIER A LIGIIT CGIIPAIIY1 ALLEIITOHNp PA DATE 23-FEG-83 ADSSES DEVELOPED DY IIODIFICATION OF DAH PROGRAH ANDIFF AFFECTED SECTORS ttNE tlf Et)E E

ESE SE SSE S

SSH SH NSH H

tI)IH HH Nt)H tl

0. 7 HILES I1. 126 KtlI-7.9f-06 8.4E-06 6.0E-06 5.9E-06 4.2E-06 4.2E-06 6.0E-06 9.2E-06 7.1E-06 7.6E-06 5.35-06 5.3E-06 3.7E-06 3.7E-06 5.4E-06 8.2E-06 1.0E-OB 2.3E-OG 2.0E-OG 1.5E-OG 9.4E-09 7.9E-09 9.9E-09 1.9E-OG 7.8E-06 8.4E-06 5.9E-06 5.9E-06 4i.lE-06 4.1E-06 6.0f-06 9.1E-06 7.9E-06 8.4E-06 5.9E-06 5.9E-06 4.2E-06 4.1E-06 6.0E-06 9.2E-06 7.0E-06 7.5E-06 5.3E-06 5.3E-06 3.7E-06 3.7E-06 5.3E-06 8.2E-06 7.1E-06 7.5E-06 5.3E-06 5.3E-06 3.7E-06 3.7E-06 5.4E-06 8.2E-06 1126.

1126.

1126, 1126.

1126.

1.4E-OS 1.2E-05 2.lf-08 I~ 4E-OS 1.4E-OS 1.2E-05 1.2E-05 llg6.

2.?E-OS 3.1E-05 2.2E-05 7.3E-06 4'E-06 5.5E-06 5.5E-06 2.5E-OS 2.?E-OS 2.0E-05 6.6E-06 4.4E-06 4.9E-06 4.9E-06 2.6E-OB 2.3E-OG 1.4E-OG 6.0E-09 6.4E-09 G.OE-09 1.1E-OG 2.7E-05 3.0E-05 2.2E-05 7.2E-06 4.9E-06 5.4f-06 5.4E-06 2.7E-05 3.1E-05 2.2E-05 7.3E-06 4.9E-06 5.4E-06 5.4E-06 2.4E-05 2.7E-05 2.0E-05 6.5E-06 4.4E-06 4.8E"06 4.9E-06 2.5E-.05 2.7E-OS 2.0E-OS 6.5E-06 4.4E-06 4.9E-06 4.9E-06 1126.

1126.

0.8 IIILES I1.207 Ktl) 6.2E-06 7.0f-06 5.1E-06 4.9E-06 5.5E-06 6.2E-06 4.5E-06 4.3E-06 1.4E-OG 1.GE-OG 1.7E-OB 1.2E-OB 6.2E-06 6.9E-06 5.0E-06 4.GE-06 6.2E-06 7.0f-06 5.1E-06 4.0E-06 5.5E-06 6.1E-06 4.5E"06 4.3E-06 5.5E-06 6.2E-06 4.5E-06 4i.3E"06 1287.

1287.

'3.6E-06 3.?E-06 5.0E-06 3.2E-06 3.3E-06 4i.4E-06 B.OE-09 7.0E-09 8.2E-09 3.5E-06 3.?E-06 4.9E-06 3.6E-06 3.7E-06 S.OE-06 3.1E"06 3.3E-06 4.4E-06 3.2E-06 3.3E-06 4.4E-06 1287.

1287.

7.5E-06 6.?E-06 1.5E-OB 7.4E-06 7.5E-06 6.6E-06 6.?E-06 1287.

1.1E-05 1.0E-OS 1.7E-OG 1.1E-05 1.1E-OS 1.0E"05 1.0E-05 1287.

2.3E-OS 2.6E-05 2'E-05 2.3E-05 2.1E"08 2.0E-OG 2.2E-05 2.6E-05 2.3E-05 2.6E-OS 2.0E-05 2.3E-05 2.0E-OS 2.3E-05 1287.

1287.

1.7E-OS 6.3E-06 4.4E-06 4.5E-06 4.7f-06 1.5E-OS 5.6E-06 3.9E-06 4.0E-06 4.2E-06 1.1E-OG 5.1E-09 5.7E-09 6.5E-09 9.6E-09 1.7E-OS 6.2E-06 4.4E-06 4.5E-06 4.6E-06 1.7E"05 6.3E-06 4.4E-06 4.5E-06 4.?f-06 1.5E-05 5.5E-06 3.9E-06 4.0E-06 4.1E-06 1.5E-OS 5.6E-06 3.9E-06 4.0E-06 4.2E-06 1287.

1287.

0.9 HILES I1.44i8 KH) 5.4E-06 5.9f-06 4.2E-06 4.GE-06 5.2E-06 3.?E-06 1.2E-OG 1.5E-OG 1.4E-OG 5.4E-06 5.8E-06 4.2E-06 5.4E-06 5.9E-06 4.2E-06 4.7f-06 5.1E-06 3.7E-06 4i.BE-06 5.2E-06 3.7E-06 144i8.

14i4i8.

4.0E-06 3.5E-06 1.0E-OB 3.9E-06 3.9E-06 3.4E-06 3.5E-06 14i48.

2.9E-06 3.0E-06 5.7E-06 6.4E-06 9.4E-06 2.6E-06 2.6E-06 S.OE-06 5.6E-06 8.3E-06 6.4E-09 5.5E-09 9.1E-09 1.2E-OB 1.4E-OG 2.9E-06 3.0E-06 5.6E-06 6.3f-06 9.3E-06 2.9E"06 3.0E-06 5.7E-06 6.4E-06 9.4E-06 2.5E-06 2.6E-06 S.OE-06 5.6E-06 8.2E-06 2.6E-06 2.6E-06 S.OE-06 5.6E-06 8.3E-06 144iG.

14i4iG.

1440.

1448.

1.9E"05 2.3E-05 1.5E-05 5.3E-06 '3.6E-06 1.?E-05 2.1E-05 1.3E-OS 4.7E-06 3.1E-06 1.?E-OB 1.TE-OB 9.2E-09 4.2E-09 4.5E-09 1.9E-05 2 'E-05 1.5E-05 5.2E-06 3.5E-06 1.9E-05 2.3E-05 1.5E-05 5.3E-06 3.6E-06 1.6E-05 2.0E-05 1.3E-05 4.6E-06 3.1E-06 1.7E-05 2.0E-05 1.3E-OS 4.6E-06 3.lf-06 144i8.

1448.

3.9E-06 3.8E-06 3.5E-06 3.3E-06 5.6E-09 7.5E-09 3.9E-06 3.7E-06 3.9E-06 3.7E-06 3.4E-06 3.3E-06 3.4E-06 3.3E-06 1448.

1448.

1.0 HILES I1.609 KIII 4.8E-06 4.9E-06 3.7E-06 3.2E-06 4.2E-06 4.3E-06 3.3E-06 2.GE-06 1.0E-OB 1.2E-OG 1.2E-OB G.OE-09 4.0E-06 4.8E-06 3.7E-06 3.2E-06 4.8E-06 4.9E-06 3.7E-06 3.2E-06 4.2E-06 4.2E-06 3.2E-06 2.8E-06 2.3E-06 2.6E-06 3.9E-06 6.3E-06 2.0E-06 2.2E-06 3.4E-06 5.5E-06 4.9E-09 4.6E-09 6.2E-09 1.2E-OB 2.3E-06 2.SE-06 3.9E-06 6.2E-06 2.3E-06 2.6E-06 3.9E-06 6.3E-06 2.0E-06 2.2E-06 3.4E-06 5.5E-06

7. GE-06 6.9E-06 1.1E-OB 7.7E-06 7.8E-06 6.8E-06 4.2E-06 4.2E-06 3.2E-06 2.8E-06 2:OE-06 2.2E-06 3.4E-06 5.5E-06 6.8E-06 1609.

1609.

1609'609.

1609.

1.6E-05 1.9E-OS 1.4E-OS 1.7E-05 1.4E-OG 1.4E-OG 1.6E-05 1.9E-05 1.6E-05 1.9E-05 1.4E-OS 1.7E-05 1.4E-OS 1.7E-05 1609.

1609.

1.2E 05 4i.2E 06 3.0E 06 3.5E-06 3.1E-06 1.0E-OS 3.7E-06 2.6E-06 3.0E-06 2.7E-06 7.3E-09 3.3E-09 '3.7E-09 4.8E-09 6.1E-09 1.2E-05 4.2E-06 2.9E-06 3.4E-06 3.1E-06 1.2E-OS 4.2E-06 2.9E-06 3.5E-06 3.1E-06 1.0E-05 3.6E-06 2.5E-06 3.0E-06 2.7E-06 1.0E-05 3 'E-06 2.6E-06 3.0E-06 2.7E-06 1609.

1609.

1609'609.

1609.

TOTAL ODS - 2928 TOTAL IIIV ODS -

274 CALIIS LOIIER LEVEL KEYi ENTRY 1 RELATIVE COtICEtlTRATION - XOQ IS/ll>>>>3)

EtlTRY 3 RELATIVE DEPOSITION RATE ll/H>>>>2 I Et)TRY 5 DECAYED XOQ IS/II>>>>3) - I)ALP LIFE 8.00 DAYS Et)TRY 7 DECtDPL XOQ IS/ll>>>>3) - IIALF LIFE 8.00 DAYS

-106.00 ENTRY 2 DEPLETED RELATIVE COWCEtlTRATIOtl IS/H>>>>3)

EIINY 4 DECAYED XOQ IS/II>>>>3) - IIALF LIFE 2.26 DAYS EtlTRY 6 DEC>DPL XOQ IS/tl>>>>3) - IIALF LIFE 2.26 DAYS EtlTRY 8 - DISTANCE IN HETERS

V

AYERAGE t)ETEDRQLDGIcAL RELATIYE coNGENTRATIotl ANALYsIs DATA PERIOD: 09/Ol/82 TO 12/31/82 FIXED At(0 SPECIAL DISTAtlCES DISPERSION ANALYSIS iiii RADIOLOGICAL EFFLUEWT DISPERSION PROGRAM ADSSES iiii FOll SfttlatO)UAL EFFLUE))T AND HASTE DISPOSAL REPORTS 1982 sUsQUEllAtlwA sTEAM ELfcTRIc sTATIotlj LUzER)IE coUNTYi pA Pfttt)SYLVAttla POI'IFR

& LIGIIT CO)tPat)Yi ALLft)TOE)> PA DATE 23-FED-83 AOSSES DEVELOPED DY MODIFICATION OF DEll PROGRAM At)DIFF AFFECTED SECTORS Nttf tlE Etlf E

ESf SE SSE S

SSW SH IISH

)4 ttt)H ttN SITE DOUtlDARY 1.4E-05 4.1E-06 3.9E-06 4.3E-06 7.6E-06 1.2E-05 1.2C-OS 3.6E-06 3.4E-06 3.8E-06 7.0E-06 1.1E-05 3.3E"08 1.0E-03 1.2E-OG 1.1E-OG 1.8E-OG 2.4E-OG 1.3E-05 4.1E-06 3.8E-06 4.2E-06 7.5E-06 1.2E-05 1.3E-05 4.1E-06 3.8E-06 4.2E-06 7.6E"06 1.2E-OS 1.2E-OS 3.5E-06 3.3E-06 3.7E-06 6.9E-06 l,lE-05 1.2E-05 3.6E-06 3.4E-06 3.8E-06 6.9E-06 1.1E-05 737.

1034i.

1553.

1290.

763.

549.

1.6E-OS 2.3E-05 2.6E-05 1.5E-05 2.2E-05 2.4E-05 2.6E-OG 4.9E-OG 4.1E-OG 1.6E-05 2.3E-05 2'E-05 1.6E-OS 2.3E-OS 2.6E-OS 1.5E-05 2.1E 2.4E-05 loSE-05 2.2E-05 2+4E-OS 549.

549.

693.

5.4E-OS 3.3E-05 2.8E-OS 7.6E-06 6.6E-06 4.9E-05 3.0E-OS 2.5E-OS 6.8E"06 6.0E"06 S.OE-OG 2.5E-OG 1.8E-OG 6:2E-09 G.GE-09 5.3E-05 3.3E-OS 2.8E-05 7.5E-06 6.6E-06 5.4E-05 3.3E-05 2.0E-05 7.6E-06 6.6E-06 4.9E-OS 3.0E-05 2.5E-OS 6.7E-06 6.0E-06 4.9f-q5 3.0E-OS 2.5f-05 6.8E-O6 6.0f-06 690.

1070.

978.

111R.

8?5.

1.2E-05 1.1E-OS 1.8E-OG 1.2E-OS 1.2E-05 1.1E-OS 1.1E-05 698.

1.2E-05 1.1E-OS 2.7E-OG 1.2E-05 1.2E-05 1.1E-05 1.1E-05 661.

tlCAREST 4.3E-07 3.2E-07 6.2E-10 4.1E-07 4.2E-07 3.0E-07

3. 1E-07 8045.

DAIRY A!)It)ALS 5.1E-07 9.4E-O? 3.5E-07 5.5E"07 7.9E-07 5.3E-O? 1.3E-06 1.5E-06 3.8E-07 7.5E-07 2.6E-07 4.5E-07 6.4E-07 4.1E"07 1.1E-06 1.2E-06 8.7E-lu 2.4E-09 5.9E-10 9.7E-10 1.2E-09 6.2E-10 2.1E-09.1.6E-09 4.9E-07 9.1E-07 3.3E-07 5.3E-07 7.6E-07 5.0E-07 1.3E-06 1.5E-06 S.OE"07 9.3E-07 3.4E-O? 5.5E-07 7.8E-07 5.2E-07 1.3E-06 1.5E-06 3.6E-07 7.3E-07 2.5E-07 4.3E-O? 6.2E-07 3.9E-07 1.0E"06 1.2E-06 3.?E-07 7.4E-07 2.6E-07 4.4E"07 6.4E-O? 4.)E-07 1.1E"06 1.2E-06 8045.

4344.

7241.

386R.

3379.

5149.

3862.

4827.

2.3E-06 9.3E-06 8.6E-07 3'E"07 3.6E-06 3.?E-07 3.2E-07 1.8E-06 7.7E-06 6.4E-O? 2.6E-07 3.1E-06 2.8E-07 2.4E-07 1.4E-09 6.1E-09 3.lf-10 1.6E-10 4.5E-09 3.5E-10 4.2E-10 2.2E-06 9.0E-06 7.8E-07 3.1E-07 3.5E-06 3.5E-07 3.0E-07 2.3E-06 9.2E-06 8.4E-07 3.4E-07 3.6E-06 3.6E-07 3.2f-07 1.7E-06 7.5E-06 S.GE-07 2.3E-07 3.lf-06 2.6E-07 2.3f-07 1.8E-06 7.7E"06 6.2E"07 2.5E-07 3.1E-06 2.7E-07 2.4E-07 5632.

2735.

8045.

1448.

6758.

8045.

t)EAREST 4.0E-06 4.2E-06 1.0E-OG 4.8E-06 4.0E-06 4i.2E-06 4.2E-06 1609.

tlEAREST 4.GE-06 4.2E-06 1.0E-OG 4.0E-06 4.8E-06 4i.2E-06 4.2E-06 1609.

GARDEtlS -

1.6E-06 1.1E-06 1.0E-05 1 ~ 3E-06 9.6E-06 6.0E-06 4.0E-06 4.6E-06 1.3f-06 G.OE-07 9.1E-06 1.1E-06 8.9E-06 5.4E-06 3.5E-06 3.9E-06 3.4E-09 2.9E-09 2.6E-OG 2.7E"09 1.9E-OG 9.9E-09 7.4E-09 6.0E-09 1.6E-06 1.1E-06 9.9E-06 1.3E-06 9.5E-06 6.0E-06 4.0E"06 4.5E-06 1.6E-06 1.1E-06 9.9E-06 1.3E"06 9.5E-06 6.0E-06 4.0E-06 4.6E-06 1.3E-06 8.5E-07 9.1E-06 1.1E-06 G.GE-06 5.3E-06 3.4E-06 3.8E-06 1.3E-06 0.7E-07 9.lf-06 1.1E-06 G.GE-06 5.4E-06 3.4E-06 3.9E-06 3701.

3062.

805, 2253.

644.

1126.

1931.

2414.

REsIDEtlc Es 1.6E-06 1.3E-06 1.OE-OS 7.1E-06 9.6E-06 6.OE-06 4.3E-06 4.6E-O6 1.3E-06 1.1E-06 9.1E-06 6.5E-O& 8.9E-06 5.4E-06 3.?E-06 3.9E-06 3.4E-09 3.6E-09 2.6E-OG 1.6E-OG 1.9E-OG 9.9E-09 8.0E-09 6.0E-09 1.6E-06 1.3E-06 9.9E-06 7.0E-06 9.5f-06 6.0E-06 4.2E-06 4.5E-06 1.6E-06 1.3E-06 9.9E-06 7.1E-06 9.5E-06 6.0E-06 4.2E-06 4.6E-06 1.3f-06 1.0E-06 9.1E-06 6.4E-06 8.8E-06 5.3E-06 3.6E-06 3.8E-06 1.3E-06 1.0E-06 9.1E-06 6.5E-06 8.8E>>06 5.4E-06 3.7E-06 3.9E-06 3701.

3379.

805.

644.

1126.

1770.

2414.

3.3E-OS 1.5E-OS 7.9E-06 7.3E-06 3.6E-06 3.0E-05 1.3E-05'.7E-06 6.6E-06 3.1E-06 3.1E-08 I.IE-OG 4.6E-09 6.0E-09 4.5E-09 3.3E-05 1.5E-OS 7.7E-06 7.2E-06 3.5E-06 3.3E-OS 1.5E-OS 7.8E-06 7.3E-06 3.6E-06 3.0E-OS 1.3E-OS 6.6E-06 6.5E-06 3.1E-06 3.0E-OS 1.3E-05 6.?E-06 6.5E-06 3.1E-06 965.

1931.

2092.

1126.

1448.

3.3E-05 1.5E-05 1.7E-05 7.3E-06 3.6E-06 3.0E-05 1.3E-05 1.5E-OS 6.6E-06 3.1E-06 3.1E-OG 1.1E-OG 1.1E-OG 6.0E-09 4.5E-09 3.3E-05 1.5E-OS 1.7E-05 7.2E-06 3.5E-06 3,3E 05 1

SE 05 1

7E 05 7,3E 06 3.6E 06 3.0E-05 1 ~ 3E-05 1.5E-05 6.5E-06 3.1E-06 3.0E-05 1.3E-05 1.5E-05 6.5E-06 3.1E-06 965.

1931.

1287.

1126.

1448.

R.1E-06 1.7E-06 2.?E-09 2.0E-06 R.OE-06 1.7E-06 1.?E-06 2253.

6.5E-06 5.9E-06 9.7E-09 6.5E-06 6.5E-06 5.8E-06 5.9E-06 965.

2.7E-07 1.9E-07

3. 3E-10 R.SE-07 2.6E-07 1.8E-07 1.9E-07 9654.

7.0E-06 6.3E-06 1.5E-OG 7.0E-06 7.0E-06 6.3E-06 6.3E-06 965.

TOTAL OGS - R920 TOTAL ItlV ODS -

274 CALt)S LO)lER LEVEL VEY: CWTnV I nELaTIVE CO))Cft)TRATIOtt - Xoq tS/ttxi3) fltrnY 3 nELaTIvf ofvoslTION naTE tl/M~~2)

Et)TRY 5 DECAYED XOQ tS/ttiiii3) - I)ALF LIFE 8.00 DAYS ENTRY 7 DECtDPL XOQ tS/tl<>3) - IIALF LIFE 8.00 DAYS

-106.00 EtlTRY 2 DEPLETED RELATIvf co)left)TRATIott ts/M<<3)

EtlTRY 4 DECAYED XOQ tS/tl>iI3) - IIALF LIFE 2;26 DAYS Et)TRY 6 DECiDPL XOl) lS/tt~x3) - IIALF LIFE 2.26 DAYS EtlTRY 8 - DISTAtlCE Itl tlETERS

AvfRAGE llfTfORO)OGICAL RELATIVE COtlcfNTRATIOtl At)ALYSIS DATA PERIOD: 09/Ol/82 TO 12/31/82 FIXED AtlD SPECIAL DISTAtlCES DISPERSION ANALYSIS wN RADIOLOGICAL EFFLUEtlT DISPERSION PROGRA)4 ADSSES w%

FOR SEIIIAt>>"tUAL EFFLUENT AtlD I)ASTE DISPOSAL REPORTS 1982 SUSQUEIIA)tt)A STEAtl ELECTRIC STATION LUZERtlE COUt)TY PA PEt)NSYLVANIA POllER 2 LIGIIT COI)PAllY) ALLEttTOI&i PA DATE 23-FEB-83 ADSSES DEVELOPED BY HODIFICATION OF Dltt PROGRAll At)DIFF AFFECTED SECTORS Ntlf tlE

EtlE, E

~

ESE SE SSE S

SSll SN HSH N

It)at ttN

))ted N

LOll POPULATIOtl ZOttf RADIUS-8.6E-07 1.1E-06 7.9E-07 6.1E-07 3.8E-07 CI.IE-O? 6.1E-07 8.9E-07 1.5E-06 3.0E-06 O.OE-06 2.1E-06 8.0E-07 5.8E-07 6.4E-O? 7.1E-07 6.8E-07 8.3E-07 6.2E-07 6.0E-O? 3.0E-07 3.2E-O? i>.8E-O? ?.OE-07 1.2E-06 2.4E-06 3.1E-06 1.6E-06 6.3E-07 4.6E-O? 5.0E-07 5.6E-07 l./if-09 2.1E-09 2.0E-09 1.2E-09 6.2E-10 5.7E-10 7.3f-10 1.3E-09 1.6E-09 2.0E-09 2.2E-09 9.3E-10 6.?E-IO 5.5E-10 6.9E-10 1.1E-09 8.3E-07 1.0E-06 7.6E-07 5.8E-07 3.6E-07 3.9E-07 5.8E-07 8.5E-07 1.5E-06 2.9E-06 3.8E-06 2.0E-06 7.6E-07 5.6E-07 6.1E-07 6.8E-07 8.5E-07 1.0E-06 7.8E-07 6.0E-07 3.8E-07 6.0E-O? 6.0E-07 8.8E-07 1.5E-06 3.0E-06 3.9E-06 2.0E-06 7.9E-D? 5.7E-07 6.3E-07 ?.OE-07 6.5E-07 8.1E-07 6.0E-07 4.6E-O? 2.9E-07 3.1E-07 <t.6E-D? 6.7E-07 1.1E-06 2.3E-06 3.0E-06 1.5E-06 6.0E-07 6.AE-O? 6.8E-O? 5.4E-O?

6.7E-07 8.3f-07 6.2E-07 6.?f"07 3.0E-07 3.2E-07 4.?E-O?

6.9E-O? 1.2E-06 2.AE-06 3.lf-06 1.6E-06 6.2E-07 4.5E-O? 5.0f-07 5.5E-07 6827.

4827.

6027.

6827.

4827.

4027.

4827.

6827.

~

6827.

4827.

402?.

TOTAL ODS - 2928 TOTAL ItlV OBS -

274 CAL))S LONER LEVEL -106.00 KEYt ftlTRY 1 RELATIVE CONCEtlTRATION - XOQ (S/ttkw3)

EllTRY 2 DEPLETED RELATIVE COtlCEtlTRATIOtl tS/tt<>3)

EllTRY 3 RELATIVE DEPOSITION RATE tI/tt><2)

EtlTRY 0 DECAYED XOQ lS/tt>I3) - )IALF LIFE 2.26 DAYS ElllftY 5 DECAYED XOQ (S/)1k<3) - IIALF LIFE 8.00 DAYS Et)TRY 6 DECtDPL XOQ tS/llxw3) - llALF LIFE 2.26 DAYS fI)TRY 7 DECtDPL XOQ tS/tt<>3) - IIALF LIFE 8.00 DAYS ENTRY 8 DISTAtlCE Itl llETERS

f II

RECIRCULATION/TE)tttAI)tCORRECTION FACTORS t)It)O HAHE 0.5 HILES l.805 Ktl) 1.5 HII.ES l 2.41 Ktl)

2. 5 tlI LES l4. 02 KH )

3.5 t)ILES l5.63 KH) 4.5 l)ILES l 7.24 KH)

7. 5 t)ILES l 12. 07 I:H )

15.0 llILES (24.1 Kll) 25.0 t)ILES l40.2 Kll) 35.0 l)ILES l56.3 Ktl) 45.0 t)ILES (72.4 KH) 0.4 HILES l0.644 Ktl) 0.6 l)ILES l0.965 Kll)

0. 7 tlILES I 1. 126 Ktl) 0.8 )IILES l1.287 KH) 0.9 t)ILES t1.448 Kll) 1.0 l)ILES l1.609 Kl'l)

SITE OOUtlDA))Y ----

t)EAnEST t)AI))Y At)1))AL tlEABEST GARDEt)S --

t)EA))EST AESIDEHCES-LOH POPULATIOtl ZO))E ttt)E tlE 2.35 2.21 2.42 2.33 2.58 2.50 2.32 2.36 2.31 2.41 2.19 2.38 0.96 1.41 0.32 0.38 0.13 0.15 0.07 0.07 2.13 2.17 2.35 2.27 2.45 2.31 2.35 2.33 R.43 R.33 2.50 2.25 2.26 2.31 2.29 2.41 2.50 2.47 2.50 2.47 2.20 2.40 EHE E

ESE 2.30 2.32 2.50 2.50 2.08 2.24 2.72 2.06 2.00 2.73 1.86 1.78 2.87 1.80 1.50 2.84 1.69 1.10 2.46 1.00 0.68 1.50 0.56 0.42 0.60 0.18 0.09 0.29 0.08 0.03 2.37 2.31 2.71 2.37 2.32 2.50 2,4iR 2.32 2.53 2.53 2.33 2.67 2.50 2.27 2.60 2.57 2.15 2.39 2.53 2.05 2.54i 2.76 2.02 2.02 2.70 2.32 2.27 2.63 2.32 2.58 2.70 2.00 1.90 SE2.43 2.4i4 2.25 1.75 1.41 0.93 0.59 0.17 0.05 0.06

- 2.45 2.44 2.46 R.?0 2.59 2.57 2.37 2.33 2.45 2.45 2.00 SSE S

2.68 2.44 2.44 2.33 2.43 2.20 2.08 1.82 1.63 1.60 1.1R 1.24 0.65 0.40 0.21 0.13 0.07 0.05 0.18 0.13 2.56 2.35 2.71 2.46 2.77 2.50 2.82 2.50 3.83 2.53 3.07 2.91 2.34 2.09 2.19 R.21 2.77 R.41 2.77 2.25 2.30 2.00 SS) t SH 2.27. 1.92 2.41 2.14 2.33 2.06 1.88 1.77 1.61 1.55 1.25 1.27 0.57 0.52 0.19 0.23 0.05 O.ll 0.02 0.06 2.30 1.90 2.36 2.04 2.38 2.14 2.43 2.18 2.39 2.17 2.31 2.16 2.18 1.91 2.11 1.77 2.41 2.04 2.4i1 2.04 2.10 1.90

)ISH H

ltttlt tttl 1.82 2.32 2.56 3.00 2.33 2.10 2.60 3.10 R.40 1.96 2.41 2.95 2.03 1.64 2.13 2.75 1.89 1'1 2.00 2.56 1.60 1.18 1.72 2.28 0.60 0.44 0.84 1.19 0.19 0.10 0.29 0.31 0.06 0.03 0.03 0.06 0.02 0.01 0.01 0.02 1.73 2.29 2.55 3.00 2.05 2.43 2.67 3.06 2.10 2.37 2.58 3.00 2.20 2.29 2.74 3.30 2.38 2.38 2.75 3.18 2.30 2.23 2.57 3.07 2.10 2.39 2.63 2.74 2.40 1.46 1.95 3.18 2.31 2.15 2.58 3.18 2.31 R.g9 2.58 3.18 2.20 1.80 2.30 2.90 HH)l tl R.50 2.15 2.79 2.19 2.75 2.37 R.38 2.11 2.41 2.08 2.31 2.70 1.13 1.04 0.33 0.47 0.18 0.13 0.08 0.05 2.35 2.17 2.53

?.20 2.69 2.15 2.73 2.25 2:83 2.14 2.91 2.08 2.74 2.20 2.40 R.IB 2.81 2.35 2.53 2.20 2.60 2.30

PASO CLASS A

D C

D E

F G

DISTRIDUTION Of CALtlS DY WItlD SECTOR tRtE tlE EtlE E

ESE SE SSE S

SSW SN WSW N

tttttl NW ttN)

N 0.035 0.049 0.043 0.053 0.049 0.054 0.071 0 ~ 090 0.109 0.156 0.133 0.088 0.021 0.016 0.015 0.018 0.081 0.061 0 049 0.054 0.054 0.04i7 0.067 0.103 0.126 0.120 0.057 0.061 0.015 0.027 0.037 0.040 0.067 0.070 0.04i6 0.067 0.033 0.040 0.082 0.088 0.091 0.146 0.079 0.058 0.033 0.030 0.030 0.040 0.065 0.078 0 067 0.063 0.057 0.041 0.057 0.083 0.092 0.107 0.089 0.062 0.036 0.029 0.030 0.044 0.066 0.092 0.133 0.130 0.059 0.036 0.032 0.045 0.060 0.000 0.056 0.055 0.038 0.029 0.033 0.058 0.066 0.112 0.234 0.228 0.060 0.017 0.018 0.026 0.016 0.027 0.022 0.033 0.029 0.034 0.029 0.050 0.047 0.165 0.291 0.253 0.056 0.016 0.016 0.009 0.009 0.009 0.010 0.016 0.016 0.012 0.025 0.049 IIEIGIIT OF VERTICAL HIXING LAYER -" 1050.0 HETERS IIEIGIIT OF COtlTAIthlEtlT STRUCTURE

=

60.4 HETERS TIIRESllOLD OF AtlEHOtlETER -"0.34 HPS tlET DATA FILE USED - HET02 IIEAOER FILES USED FINED

~

FLUID OUTPUT FILES USED -

APP01 1

APP02 TIIERE WERE 5 SPECIAL RECEPTOR RINGS IttCLUDEO Itt TllIS RUN.

USER-SPECIFIEO RfCIRCULATIOW/TERRAIN CORRECTION FACTORS llERE APPLIED TO TIIE HODEL CALCULATIONS.

DEPLETION WAS APPLIED TO TIIE HODEL CALCULATIONS.

DEPOSITIOtl IlAS CALCULATED.

ALL OUTPUT DATA llERE I'lRITTEN TO TIIE GASPAR FORHAT FILE+

SECTION 4 DOSE MEASUREMENTS AND ASSESSMENTS

DOSES FROM GASEOUS EFFLUENTS I

The GASPAR code provides calculated doses from gaseous effluents to selected receptors, the population within 50 miles, and the continental United States.

The calculated doses to the population within a 50-mile radius of the Susquehanna Station for the report period are as follows:

Skin dose:

>8.24E-9 but <7'.85E-1 man-rem Thyroid dose:

>6.22E-5 but <3.99E-1 man-rem Total body dose:

>1.15E-7 but <3.89E-1 man-rem Calculated total collective doses to the U.S. population for the report period are as follows:

Skin dose:

>8.24E-9 but <1.03EO man-rem Thyroid dose:

>6.99E-5 but <5.74E-1 man-rem Total body dose:

>1.29E-7 but <5.63E-1 man-rem The maximum calculated air doses from gaseous effluents are at the west-southwest site boundary, 0.67 miles from the release point.

The maximum calculated air doses for the report period are as follows:

Beta air dose

>0 but <1.60 mrad Gamma air dose

>0 but <2.88 mrad The maximum receptor location for gaseous effluents for the report period was the Stanley Shorts residence, 0.6 miles to the southwest of the release point.

The exposure pathways present at that location, as con-firmed by a land-use survey performed in August,

1982, are t'e plume, ground, vegetation, and inhalation pathways.

The calculated organ doses via these pathways for the report period are as follows:

Total body dose GI-tract dose Bone dose Liver dose Kidney dose Thyroid dose Lung dose Skin dose

>3.46E-8 but <2.06EO mrem

>9.28E-9 but <2.06EO mrem

>2.41E-8 but <1.91EO mrem

>5.67E-8 but <2.06EO mrem

>8.93E-8 but <2.06EO mrem

>1.71E-5 but <2.06EO mrem

>0 but <2.08EO mrem

>0 but <3.74EO mrem 47

o>

II

DOSES FROM LIQUID EFFLUENTS I

The maximum receptor location for liquid effluents from Susquehanna Steam Electric Station is Danville, Pennsylvania, the nearest downriver drinking water supplier.

At Danville, the maximum organ dose is to the teen liver.

The maximum total body dose is received by the adult age group.

For the

.report period, the calculated doses to the maximum receptors at Danville are as follows:

Teen liver dose

>7.22E-3 but <9.04E-3 mrem Adult total body dose

>5.80E-8 but <6.89E-.3 mrem Two pathways of exposure from liquid effluents which are tracked in terms of man-rem doses are the fish consumption and water consumption pathways.

For the report period, the man-rem doses calculated for fish consumption (sport fishing only) and water consumption are as follows:

Fish Consumption Liver dose

>1.77E-2 but <2.21E-2 man-rem Total body dose

>1.21E>>2 but <1.44E-2 man-rem Water Consumption Liver dose Total body dose GI-tract dose

>6.59E-4 but <8.39E>>4 man-rem

>3.98E-4 but <5.64E-4 man-rem

>3.92E-4 but <1.20E-3 man-rem When all pathways are combined, the total are as follows:

body and'thyroid man-rem totals Thyroid man-rem Total body man-rem

>5.62E-4 but <8.31E-4

>1.32E-2 but <1.61E-2 C

W%

1l'

DOSES TO MEMBERS OF THE PUBLIC WITHIN THE SITE BOUNDARY Within the Susquehanna Steam, Electric Station site boundary there are three areas which are open to members of the public (See Figure Q.).

o Susquehanna Riverlands Recreation Area/Energy Information Center.

o Four residences to the Southeast.

o One residence to the East.

Of the residences mentioned, three are owned by PP8L and are rented to members of the public.

In the area comprising the Riverlands recreation

area, which surrounds

'he Energy Information Center, four pathways of radiation exposure can be identified; plume, ground, inhalation, and direct radiation.

There is a vehicle counter at the Riverlands entrance which is used to estimate attendance.

Attendance figures are also maintained for public information programs at the Energy Information Center.

In the report period, there were approximately 20,000 visitors to the Riverlands/information center complex.

In order to facilitate dose calculations, it is assumed that each visitor stays in the area for two hours.

Thermoluminescent dosimeters are positioned near the information center and at another location within the Riverlands.

Readings from the fourth quarter of 1982 indicate,. a direct radiation component of approximately 6.1 mR per standard month (including natural back-ground).

This figure converts to a dose rate of 8.4 PR per hour.

Taking into account the estimated 40,000 person-hours of occu'pancy during the report period, a collective dose of 3.34E-1 man-rem (including natural background radiation) is calculated..'se of the GASPAR code yields calculated doses for the Riverlands I

area for the report period.

These doses are the total doses at the location from gaseous effluents during the report period; i.e.

they assume occupancy for the duration of the data period.

In'order

-to compute doses to members of the public, who stay in the area for short periods of time, these doses are converted to dose rates for the data period.

The calculated dose rates are shown in Table 12.

I

)

49

Susquehanna Riverlands RECREATION AREA I

lI I

I I/II I

I Il l

Rented Houses Site Boundary

+

(/

I I

I 1I I

I/////

Qu ////

r Residential Area FZGUR" 2

AREAS ';/ZTHZif TH" SUSQUEHAif!'fA STEA!i ELECTRZC S

ATZG>f SZ 2 BOUi4DARY OPEH TO IZii~ERS OF THE PUBLZC

Taking into account the estimated 40,000 person-hours of occupancy, the collective (man-rem) doses shown in Table 13 are calculated.

Doses at the Kline residence

(.40 miles SE) are representative of the four residences to the SE. which are.vithin the site'boundary.

The exposure pathways present at the Kline residence are the plume, ground, vegetation, and inhalation pathways.

The doses calculated by GASPAR for the Kline residence for the data period are presented in Table 14.

A thermoluminescent dosimete'r at the Kline residence indicated a direct radiation component of.approximately 6.7 mR/standard month (including natural background) during the fourth quarter of 1982 (See Table 11).

Another residence

'within the site boundary is the klalters residence, which is.5 miles to the east of the release point for gaseous effluents.

The exposure pathways present at the llalters residence are the plume, ground, vegetation, and inhalation pathways, The doses calculated by GASPAR f'r the 4'alters residence are presented in Table 15.

A thermoluminescent dosimeter on the security fence at 0.2 mile to the 'east indicated a direct radiation dose rate at that location of approximately 6.5 mR/standard month (including natural background) at that location. It can safely be assumed that any contrioution to the direct radiation dose from operation of the Susquehanna plant would be no higher at the klalters residence that at the security fence between that residence.

and the plant.

51

TABLE ll SELECTED DIRECT RADIATION MEASUREMENTS Station Location AVERAGE DOSE (mr/STD Mo.)2 Third Quarter Fourth Quarter 1982 1982 1A1 1S2 2S2 2S3 3S3 3S4 4S1 4S3 5S1 5S4 5S7 6A3 6S4 7A1 7S1 7S3 8S2 9Sl losl llA2 llS2 11S3 12S3 13S2 14S5 15A3 15S3 "15S4 16S1 0.6 Mile 0.2 Mile 0.9 Mile 0.2 Mile 0.5 Mile 0.3 Mile 1.0 Mile 0.2 Mile 0.8 Mile 0.8 Mile 0.2 Mile 0.6 Mile 0.2 Mile 0.4 Mile 0.2 Mile 0.2 Mile 0.2 Mile 0.3 Mile 0.4 Mile 0.6 Mile 0.4 Mile 0.3 Mile 0.4 Mile 0.4 Mile 0.5 Mile 0.9 Mile 0.3 Mile 0.6 Mile 0.3 Mile N,

Thomas Residence N, Security Fence NNE, Energy Information Center NNE, Security Fence NE, Recreation Area NE, Security Fence

ENE, Susquehanna River Flood Plain ENE, Security Fence E, North of Biological Consultants E, West of Biological Consultants E, Security 'Fence ESE, State Police Post Hl ESE, Security Fence SE, Kaine Residence SE, 230 kV Transmission Tower SE, Security Fence SSE, Security Fence S, S'ecurity Fence SSW, Security Fence SW, Shortz Residence SW, Golomb House SW, Security Fence WSW, Security Fence W, Security Fence WNW, Site Boundary NW, Serafin Farm NW, Security Fence NW, Transmission Corridor NNW, Security Fence 5.87 +.26*

6.44 +.38 5.98 +.18 5.96 +.74 5.43 +.17 5.44 +.55 5.34 +.51 6.a8 +.57 5.15 +.29 5.64 +.37 5.90 +.22 6.06 +.19 7.48 +.40 5.61 +.08 5.56 +.62 5.83 +.54 6.10 +.35 5.72 +.13 5.84 +.36 5.'55 +.31 5.85 +.92 6.06 +.40 5'5 +

37 6.10 +.48 6.26 +.90 5.34 +.34 6.13 +.82 5.46 +.32 6.37 +.17 6.29 +

7.04 +

6.16 +

6.41 +

6.02 +

6.85 +

5.81 +

5.28 +

6.34 +

6.48 +

6.6a +

8.00 +

6.77 +

6.57 +

6.36 +

7.05 +

6.55 +

6.03. +.

6.37 +

5.67 +

8.33 +

8.41 +

7'2 +

7.91 +

7.01 +

7'1 +

6.69 +

7.25 +

.90

.70

.98

.86

.76

.48

.26

.45

.58

.84

.97 1.28

.62

.38

.86

.27

.26 1.15

.65

.34 1.37

.78 1.07

.54

.52

.29

.33

.53 1High sensitivity environmental dosimetry using energy thermoluminescent dosimeters.

corrected calcium sulfate (Tm) 2All TLD results have been normalized to a standard month (30.4 days) to eliminate the apparent differences in data caused by variations in length of exposure period.

Presented after each value is the error for that measurement at the 95% confidence level (mr/STD Mo.).

- TLDlost in field.

mp/900007 52

E

I5'A'3 I558 lAl l'l55' l65l IS~

I%Xi le% ~

453 35'f o953 eS57

~ 659

~753 7AI I

I ll53 ~

~ 75(

le

~

'i5 I

)05l 561 558

~

l I

'I I

I l,3+3 I

I I

I Il' I

II l

I I6A>

e qual

-llAL

~'~NDAAQ I,

I I

I II II IIIII/

FiGURE 3 LOCATiONS OF SEL" CTED THERI~IOLUiliikESCE."fT DOSliiETERS.iiEAR,GUSQUEHAiii'iA STEAM.EL=CTRIC STATiON

TABLE 12 CALCULATED DOSE RATES IN THE RIVERLANDS/INFBRMATIONCENTER COMPLEX FROM GASEOUS EFFLUENTS DATA PERIOD: 9/1/82 12/31/82 EXPOSURE PATH)'/AY ORGAN DOSE RATE (mrem/hour) plume" total body, GI-tract,

'one, liver, kidney, 0.0 but <<1.49E-4 thyroid skin

~0.0 but ~ 1.50E-4

~0.0 but <<2.80E-4 ground+

total body, GI-tract;-

bone, liver, kidney, a1. 26E-12 but <<4. 80E-12 thyroid, lung inhalation skin teen total body teen thyroid teen lung teen skin

<<0. 0 0.0 but <<3.46E-6 but ~3. 20E-6

~1.54E-12 but (5. 62E-7

~ 1. 38E-12 but <<3. 21E-6 7.68E-10 but &3.35E-6

~ Doses via these pathways are not age-group dependent.

54

TABLE 13 COLLFCTIVE DOSES TO MEMBERS OF THE PUBLIC MITHIN THE RIVERLANDS/

INFORMATION CENTER COMPLEX DATA PERIOD: 9/1/82 12/31/82 EXPOSURE PATHWAY ORGAN COLLECTIVE DOSE (man-rem) plume+

total body, GI-tract,

<<0.0 but ~5.96E-3 bone, liver, thyroid lung

-0.0 but ~6.00E-3 ground" total body, GI-tract, bone, liver, kidney, thyroid, lung skin 5.04E-11 but ~1.92E-10

~6.16E-11 but ~2.25E-5 inhalation teen total body teen thyroid teen lung teen'skin

~ 5.52E-11 but m1.28E-4

~ 3. 07E-8 but ~1. 34E-4

~0.0 but +1.38E-4

-0. 0 but ~1. 28E-4 "Doses via these pathways are not age-group dependent.

55

TABLE 14 CALCULATED DOSES AT THE RESIDENCES IN THE SOUTHEAST SECTOR WITHIN THE SI TE BOUNDARY DATA PERIOD:

SEPT 1 DEC 31, 1982 EXPOSURE PATHWAY ORGAN DOSE(mrem) plume+

total body, GI-tract, bone, liver, kidney,

~0 but w1.57E-1 thyroid lung skin

<<0 but ~1. 59E-1

-0 but (3. 28E-1 ground+

total body, GI-tract, bone, liver, kidney, thyroid, lung skin m3.50E-9 but w1.34E-3

~4. 25E-9 but m1. 56E-3 vegetation child total body child liver child thyroid child skin

'<<0. 0 but ~3. 24E-2

<< 6.44E-9 but c3.29E-2

~1. 13E-8 but (3. 42E-2

<<3. 75E-6 but ~3.31E-2 inhalation child total body child thyroid teen lung

~ 5.37E-9 but ~1.06E-2

~ 3. 20E-6 but wl. 12E-2

<<0.0 but <1.30E-2

+ Doses via these pathways are not age group dependent.

E 56

TABLE 15 CALCULATED DOSES AT THE NALTERS RESIDENCE DATA PERIOD:

SEPT 1

DEC 31, 1982 EXPOSURE PATH'/AY ORGAN DOSE mrem) plume+

total body, GI-tract, oone, liver, kidney,

-0 but w 1.69E-1 thyroid skin

~ 0 but ~ 1. 71E-1

~0 but~3 '1E-1 ground+

total body, GI-tract, bone, liver, kidney,

~4.79E-9 but <1.83E-3 thyroid, lung skin

~ 5. 82E-9 but (2. 14E-3 vegetation child total body child liver child kidney child thyroid child skin

~0 0 but ~3.38E-2

~8. 82E-9 but ~3. 44E-2 1 '5E-8 but ~3.62E-2

<<2. 55E-8 but ~3. 46E-2

~5. 13E-6 but ~. 47E-2 inhalation I

child total body child thyroid teen lung

~ 5. 57E-9 but M. 10E-2

~3.32E-6 but (1.16E-2

0. 0 but ~1. 35E-2

+ Doses via these pathways are not age group dependent..

57

I l

~

P

TOTAL URANIUM FUEL CYCLE DOSES The Susquehanna Steam Electric Station Technical Specifications 1

contain a requirement that doses to members of the public from releases of radioactivity and radiation from uranium fuel cycle'ources be limited to 25mrem to the total body or any organ and 75 mrem to the thyroid over any 12 consecutive months.

This report must also include "an. assessment of radiation doses to the likely most exposed members of the public from reactor releases and other nearby uranium fuel cycle sources (including doses from primary effluent pathways and direct radiation) for the previous calendar year to show conformance with 40 CFR 190, Environmental Radiation V

Protection Standards for i'Iuclear Power Operation."

INCUR""G-0543, "Ilethods for Demonstrating LNR Compliance eolith the EPA Uranium Fuel Cycle Standard (40 CFR Part 190)," states that "only doses to individuals via airborne pathways and doses resulting from direct radiation need to be considered in determining potential compliance with 40CFR Part 190."

The likely most exposed members of 0he public from the Susquehanna station are at the Shortz resi-

dence, 0.6 miles to the southwest of release point for gaseous effluents.

As shown on page47

, the calculated total body dose at the Shortz residence is ~3.46E-S but <2.06EO mrem for the r'eport period.

The calculated dose to thc thyro'd is -1.71E-5 but ~2.06EO mrem for the report period.

The highest calculated dose to any other organ from gaseous effluents at the Shortz residence for the repo'rt period is ~0 but c.3.74EO mrem to the skin.

A thermoluminescent dosimeter placed at the Shortz residence indicatyd that the direct radiation component averaged approximately 6.4 mR per standard month for the

~ report period,(S'ee Table 11).

(lith n"~ural background radiation in the area being in the area of 100mR per year, it is apparent that contributions from operation of the Susquehanna station to direct radiation doses at the Short>

residence during the report period were not of'ufficient magnitude to bring the total uranium fuel cycle dose anywhere near the EPA Standards of 25 or 75 mrem for 12 calendar months.

58

SECTION 5 CHANGES TO THE OFF-SITE DOSE CALCULATION MANUAL AND THE SOLID WASTE PROCESS CONTROL PROGRAM 59

CHANGES TO THE OFF-SITE DOSE CALCULATION MANUAL There were no changes made to the Off-Site Dose Calculation Manual during 60

CHANGES TO THE SOLID WASTE PROCESS CONTROL PROGRAM Following is documentation of changes made to the solid waste Process Control Program during the report period.

The attached letter indicates the nature of the changes and the reasons for incorporating the changes.

TEW:lec P4-8 61

PP1L FORINT 25 CC o

Susq Ltr File N3 Corresp File N3 DCC File SSES OPS File SSES February 22, 1983 RECE1V E+

FEB' 1983 NUCLEAR SUPio.'Y S.H. Cantone N-4 SUSQUEhQKA STEAN ELEGTRIC STATION PROCESS CONTROL PROGRAM UPDATE FOR SMI-AKIUALRADIOACTIVE RELEASE REPORT ER 100450 FILE 926-68 PLIS-7948 Attached is the latest revision of AD-QA-311, Solid Waste Process Control Program for your inclusion in the semi-annual Radioactive Release Report.

The changes since the last report include:

1.

The ability for the station to utilize an approved vendor for mobil solidification and dewatering.

2.

The ability of the station to perform dewatering.

3.

Increased scope of responsibilities for the Radwaste Supervisor and the Health Physics Radwaste Specialist for solid radwaste and dewatering functions.

These changes did not reduce the overall conzormance of the solidification program as previously accepted, and all changes have been PORC approved.

The changes in the attached procedure are highlighted in the left hand margin.

J.A. Blakeslee, Jr.

Supervisor of Operations JPF/aa Attachment 62 PENNSYLVANIA PQWE R 8 LIGHT CCIMPANY

PROCEDURE COVER SHEET PENNSYLVANIA POWER 6 LIGHT CO.

SUS(UEHANNA STEAM'LECTRIC STATION SQL1D WASTE PROCESS CONTROL PROGRAM AQUA-311 Revision 1

Page 1 of 40 Effective Gate Expiration Date

/

Revised Expiration Date P~gq y

Prepared by Reviewed by PGRC Revi ew Reo '. e Yes +

, No j,')

Da~e i lj Gate Approved by ection Head PORC Meeting Number Oate Date o

>S 82, Superintendent of Plant FORM AQ-QA-.101-1, Rev.

1 Page 1.'"of 1

63

~

AO-gA"311 Revision 1

Page 2 of 40 1.0 PURPOSE 2.0 SCOPE

3.0 REFERENCES

4. 0 RESPONSIBILITIES

4. 1 Shf Ft Supervision 4.2 Radwaste Supervisor TABLE OF CONTENTS PAGE 4.3 Chemistry Group 4.4 Health Physics Rachraste Spe&alist

4. 5 g'ual fty Control 4.6 Auxfllfary System Operator S.O DEFINITIONS 6.0 PROCEDURE 6.1

.IPIaste Types 6.2 Solidifi cation Product Control 6.3 Solidification Agent Control 6.4 Equipment Calibrations 6.5 Solidification Record Sheet

6. 6 So 1 fdfficatf on Processing 6.7 Radfoac fve.Spent Resin Oewaterfng 6.8 Changes to the Solid Process Control 7.0 RECORDS 15 16 17 18 64

AQUA-311 Revision 1

Page 3 of 40 ATTACHMENT ATTACHMENTS PAGE A

SolicHftcation Record Sheet 8

Dewatering. Record Sh et 19 34 65

AQ-gA-311 Revision 1

Page.4 of 40 1.0 PURPOSE Provfde Admi@i strati'v'e control and gufdance for the so Tfdfffcatfon and dewaterfng of appTfczble. forms of Radwaste for ultimate disposal.

Z.O SCOPE This procedure is applicable to SSES installed:ystems and temporary systems and equipment provfded by vendors for solidification and dewatering of applicable waste forms.

3.0 REFERENCES

3,1 49 CFR 3.2 10 CFR 3.3'EES Technical Specifications Section 3.'1.3,

4. 11.3.1 and 4. 11.3.2.

3.4 3.5 Standard review plan 11.4 HNOC "Liner Oewaterfng Test Report" Report No.

I-. 843-3.

3.6'NQC report on 0'ewatering of Bead Eon Exchange Resin and Activated Carbon, report No. Std+-03-001 dated 12-3-81.

3.7 HNQC Process Contro1 Program for Oewatering Eon~mchange Resin and A'ctivated Charcoal fflter media to 1/2 drainable liquid, Report No.

Std. -P-04"002, dated '12-3.-81.

3.8 3.9 HNOC Report on Oewaterfng of Bead Ion Exchanoe Resin and ac.ivated Carbon in Hfttman Radlok 100 High Integrity containers, Report No.

Std -R-03<02, dated 4>>30-82.

HNQC Report on Oewaterfg Hfttman Radlok 100 containers with Rigid Underdrains to less than 1% Orainable Liquid, Report No. Std."P"03-005, dated 4-28-82.

~ 3. 10 HNOC Report on Oewatering Hittman Radlok 100 containers with Flexible Underdrains to less than 1

Orainable Liquid, Report No. Std.-P-03-005, dated 4"28-82.

3.11 HNQC Radioactive Maste Container General Specification, HNQC-S;1001.

3.12 South Carolina Oepa~ent of Health and Environmental Control Bureau of Radiological Health Certifica e of Compliance No.

OHLC"HEC-PL"'005 HNOC Radlok 100 container.

GS

~ wt,,

~

AO-gA-31L Revision I Page 5 oi 40 3.13 8urial Site Criteria. for Barnwell,S.C.,

dated 1-14-82.

3;14 8urfal Site Cri'terfa for Richland, Washington as fndicated in the sfte.

license Amendments 13 and l4.

3.15 ADQA-765 "Solid Radwaste Program" 3.16 AQUA-605 Calibration of Installed Plant Instrumentatfon 4.0 RESPGNSZBILITIES 4.1 Shift Supervision shall assume the responsibility of he Radwaste Supervisor in his/her absense.

4.2 Radwaste Supervisor fs responsible for:

4;2. 1 Ensure 'procedures are adequate to provide d'or proper salfdfffcatfon and dewaterfng.

Test data shall be available to justify applicable functions anC dewatering.

4. 2'.2 4.2.3 4.2.4 4.2.5 Ensure SolfdfAcation Equipment fs operated in accordance with approved 'operating procedures including vendor supplied equipment.

Ensure the appropriate waste solid',fication and dewatering records are generated and initiated.

Interface with s.ation support groups to ensure proper fmplemen'tatfon of process controls programs.

Interface wfth contractor personnel involved in solid waste processing actfvfties of Solidification and dewatering.

a.

Ensur that test data fs available to justify specfffc functions.

b.

Applicable vnedor procedures may be used ff approved by PGRC.

4.2.6 Ensures Solfdfffcatfon and Qewatering operations are carried out in an ALARA manner.

4.2.7 4.2.8 Interf'ace with H. P.

Radwaste Specialist on liner and cask selection for solid waste s'hipping activities.

Ensures proper marking of containers prior to Tilling.

67

AORTA-311 Revision 1

Page 6 of 40 4.3 Cnemi stry Group fs responsible for:

4.3.1 Sampl fng, as requfred.

4.3.3 4.3.2 Performing. required analysis fn accordance with approved chemistry procedures.

Performing test solfdification ff required.

4.3.4 Providing the Isotopic mfx.and concentration of isotopes detected in the material sampled for solidification.

4.3.6 4.3,.5 Providing mTx ratfos to the Radwaste Supervisor if analysis results indicate the waste type is out of the normal envelope for S'olfdffication.

Completing Chemistry portion of the Solidification'ecord Sneet.

(Attachment. B) and Oewatering Record Sheet.

(Attachment C).

4.4 Health Physics Radwaste Specialist fs responsible for:

4.4.1 Provide the Radwaste Supervisor wfth the type and specfficatfoa of the liner to be used for solidification or dew-terfng.

4.4. Z 4.4.3-4.4.4 4.4.5 4.4.6 "4.4'. 7

'.4.8 k

Oetermfnfng the type and specification of Casks which may be reqLf red..

Ccmplettng applicable portions of the Solidification or Oewatering Record Sheet.

Retention of the Solfdfffcatfon and Oewatering Record Sheet.

Storage of packaged solidified and dewatered material.

For determining curie content of solidi,fed and dewatered materi al.

I Final dfsposftfon of solidified and dewatered ma erial.

Ensures SSES is a registered user of applicalbe High Tntegrfty containers.

68

I

~ '

AO-gA-311 Revision 1

Page 7 of 40 4..5 gualfty Gmtrol fs responsible fur:

Qevelap a program to verify the folTowfng:

a..

Errsurfng process controTs are adhered to b..

Revfew of Solfdfffcatfoh and Oewaterfng record sheet.

c..

Check af container markfng..

d.

Lrrspectfon of Liners and High integrity Contafners as required by appl'icable procedures.

e.

Checking ccrrtainers for free stancLfng water through applicable procedural methods.

f.

VeriAcatfon of product. acceptability when containers are checked through ap'pTfcalbe procedural methods.

4.6 I8C Supervisor

'.6.1 Ensure that periodic calibrations and fnspectfons are perfarmed as required.

4.7 Auxflf'ary Systems Operator is responsible for:

4.7.1 Operating the. solidification and dewatering equipment fn

. accordance with approved operatfrrg procedures as directed by the Radwaste Supervfsor.

4..7.2.

Completing applicable portions of the Solidification and Oewatering Record Sheet.

g.

Recefpt,inspection of cement and. Sodium Silicate including vendor supplied material.

4.8 Vendors provfdfng Solidification and/or Oewatering services.

4.8.2 Vendors providing solidification and/or dewaterfng service shall provide test data to demons rate that their services and equipment meet the applicable regulatory and burial site limitations or the functfon they are providing.

Vendors shall provide training documentation to demonstrate

'that the personnel being provided, to conduct the applicable

service, are in/act trained and knowl dgable in the apoiicable functions.

69

AO-gA-311 Revision 1

Page 8 of 40 4.8..3 Vemfors shal1 provide procedure that are or can be. placed frrto. tha SSES'rocedure format for the functions being p,rev idad; Vendors shall have an acceptable gull fty Assurance Program that. covers the services being provided.

The vendor shall work wftHn the SSES QuaIfty Assurarrce Program when applicable.

5'.0 DEFINITIONS 5.1 Satch The total voI'uma of waste contained fn a waste mixing tank that has been prepared. for solidif cation.

5'.2 Solidi ffcztfon A conversion of radioactive materials from liquid and soli'd~stems to a monolithic immobilized solid with chffrrfte volume and shape, bounded by a stable surfa<

of dfrtinc outline on all sides (free standing), with a free water content of less than

.55 by,voIume.

5.3 Waste Type I's th specific content of the WASTE mixing tank to be solfcHffed arrd may be Evaporator Concentrates, filte.

ITemfrreral fzar Media, Oewatared Ff Iter Sludges, Oewatered Sead resfns or

a. combina:ion of each.

5.4 Waste Pre"Condf tfonfng The physical or chemical adjustment of'he.

waste to bring ft within an established envelope to assure solidification.

5.5 Curirrg Time The tfma 'allowed for the solidified product t set prior

-to. ~pping the liner.

5.6 Mfxfng Ratfo-The amounts of waste, cement and sodium silicate required for satisfactory solidiff<cation.

5.7 Test Solidifica..ion-The mixing of wa'ste and solfdffica fon agents irr the. Iabratory to support selection o<

mixing ratios.

5.8 Oewatared-The removal of water from solid material to a point where less han L~ or 0.5,O by volume remains as applicable to containers used and bur'fal sita limits.

5.9 Liner -

The physical container fn which the solidif'cation product is deposited.

70

AO-gA-311 Revfsfoa I Page 9 of 40 R.10 High integrity Container - An approved container for burial that has an expected 1 ffe of 3GQ years..

b.0 PROCEDURES 6'. 1 Maste 6.1.1

6. 1.2 Ty.pcs Evaparator Caacentrat'es a.

Normally Evaporator.

Concentrates will be ir. the range of 15-25 weight ~ sodium sulfate waste.

b..

Concentrates are the product of Condensate Demineralizer Regeaeratfon OR From. processing-of Chem'.cal Waste Tank which may have low concentrations of the following:

(1)

Tri Sodium Phophaste (2)

Sod.fum sul fate N

(3) -Minute amounts of other chemicals use 'for chemfstry anal ysf s (4)

Qecontamf aatf oa Soluti ons Ff'lter/Demiaerali.z r Media a.

FiTter/Oemiaeralfzer media will consist of one or more of the following:

(1)

Gfatomac ous Earth (2)

Powdex Resin (3)

Various solids, dirt and corrosion produc s in small concentrations b.

Filter/Oemineralizer media fs normally dried to approximately SO weight,~ moisture by air drying after'emoval of gross water volumes by draining.

I I

1 I

AORTA-311 Revfsfon I Page 10 of 40 c..

Filter/Oemineralizer media fs discharged to the was e

mixing tanks after drying at the end of the filter run on a batch basis resulting fn"a minimum addition of 175 gal to the Waste Mixing Tank.

d.

Filter/Demineralfzer med'.a may also be pumped to appropriate container aad dewatered.

Oewatered Ffl,ter Sludges for Solfdfffcatfoa and Oewaterfng a.

RMCU Filter sludges are Oewatered in the LRM Filter/Oemineralizer from the R'ACU Phase Separator where they are collected and allowed to decay.

(1)

RMCU Phase Separator Sludges are Oewatered in volumes of approximately 20 cubic feet resulting in

~

approxfmatgly 150 gallons of Oewatered waste to the

.Was.e Hfxfng Tanks.

(2) it is estfmated that 7 to 10 Filter/Oemineralizer batches will be required to process the RMCU Phase separator sludge..

b.

Fuel Pool Filter sludges and condensate demineralfzer sludges are dewatered fn the LRM Filter/Oemineralfzer from the Haste Sludge Phase Separator where they are col'lected.

(1)

Maste Sl.udge Phase Separator Sludges are Oewatered fn batches of approximately 20 cubic.feet per batch resulting fn approximately 150 gallons per batch of Oewatered waste to the IIIasta Hfxfng Tank.

(2)

Zt is estimated 'that 10-14 Filter/Oemineralfzer batches will be requ.'red to process the Waste Slucfge Phase Separator.

Ii 4

c.

Filter sludges may also be pumped direc ly to appropriate containers and dewatered.

Oewatered Bead Resin for Solidification a 0 b.

Bead Resins from the Condensate Oemineralizers and the Liquid Radwaste Oemineralizer are collected in the Spent Resin Tank.

Speat Resin Tank coateqts are Qewatered in the LRM Filter/Oemineralfzer.

ii 72

AORTA-311'evision 1

Page 11 of 40 d.

Sperm Resin" Tank is Oewatered in batches of approximately.

20 cubic feet per batch.

Resulting in approxT'matley 150 gallons pe'r batch of resi'n addition to the. Vaste Mixing Tank.

rt is estimated that, approximately 21 batches will be required to process the Spent Resin Tank assuming that it contai.ns 1 Condensate Oemineralizer and 1

LRW Oenrfneralizer.

6.1.5 Bead Resin For Oewatering Bead resins from Condensate Oeminer alizers and the Liquid Radwaste Oemineralizer are collected in the Spent

'. Resin Tank.

6.2 Solidification Spent Resin Task contents my be dewatered in an approved Oewatering Liner in accordance with approved procedures.

and. Oewa.ering Product Control 6.2. 1 Samp I ing Samples shall be obtained, and analyzed, prior to each solidification operation.

b.

c-Oeviations from the sampling requirement shall be approved by the Chemistry Superviso~.

The was"e. mixing tank.to be sampled shall be recirculated for a minimum of 1/2 hour prio'r to sampl ing.

The waste mixing tank to be sampled shall remain fn

.recirculation until the solidification process. is started.

The Chemistry Group shall obtain the required samples after the specified recircul ati on time i s complete.

Material to be solidified may also be processed by temporary so 1 idfficati on equi pment.

6.2.2 Waste Preconditioning a.

Waste preconditioning wi 11 be determined by chemistry analysis during ba ch sampling.

73

N

AO-gA-311 Revision 1

Page 12 of 40 b.

Pracand~oning.

of waste will be performed if.required prior to determintng mix ratios.

Waste: preconditioning is required when any of the folTowing is not met.

(1)

A high or low pH condition, out of the acceptable band. of 4 to 10, exisw in the Batch..

(2)

Liquid. conten of the batch is too low to too high out of the acceptable envelope

.or solidification.

(3)

Solids content of the batch is too low or too high aLt. of we. acceptable avevelope for solidification.

Waste precond1tioning will be performed fn accordance-vtth approved procedures as recommended by Chemis.ry Graup.

Upon completion of Waste Precondftfoning Chemistry Group will obtain additional samples to determine mixing ratf as.

Oeterarination of Hixing Ratios Oetwrmination of mixing ratios shall be performed for each waste batch to be processed.

Oeviation from the. requirement for determining mixing mttos shall be approved by the Chemistry Supervisor.

c;.

Chemistry Group determines the-waste type, in accordance with approved procedures, Waste Type is determined by checking:

(I)

Oensity of the liquid (2)

Specific density from Sodium Sulfate (3)

Yolumetric content of solids (4)

Type of solids contain'ed in the waste.

d; e.

Chemistry Group shall perform tes solidification of waste as required in section 6.2.4.

Chemistry Group determines mixing ratios to ensure proper solidification.

74

AQUA-311 Revision 1

Page 13 of 40 f.

Chemfstry Group shall provide an ISOTOPIC Analysis which wf-Tl be attached to &e: Solidi ffcatfon Record Shee..

Chemtstry G'oup'hail provide the projected total curie'oncentration ta the Health Physics Specialist Radwaste.

/

h.

Chemistry Group shall. provide variation of the mixirg ratios if the projected liner dose rates will exc ed the required maximum levels.

/

Test. Sol idffica.ion a..

Test solidiffcat'.on shall be performed

.o support waste mixing ratios as follows:

(1)

Every tenth (10.th) 8a.tch.

(Z)'hen sample analysis fall outside the normal envelope establfshed indicating a change in the waste type.

(3)'t is bel,ieved that some other contaminant may be.

present.

(4)

When requested by the Chemistry Supervisor or Radwaste. Supervisor.

b.'pon failure of a. test solidification additforal samples wiTl be obtained and tes ing will continue until three'3) consecutive successful test solidffications have beerr completed at the mfx',ng ratios for solidification.

c.

gualfty Control shall verify test solidfffcatfon acceptabf 1 fty.

Curing Time

~

a.

A minimum of 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> will be allowed for curing prior to capping the container.

Oeviations from the minimum required curing time shall be approved by he Radwaste Supervisor and justifications documen ed in the remarks sec.fon of Solidification Oata She t. (Attachment 8).

olfdification Product equality

AORTA-311 Revision 1

Page 14 of 40 z.

Solidification. product quality i-s assured by use of the predetermined mixing ratios of was e, cement and sodium stlicate.

b..

Mfxing. ratios are based on labratory testing non-radioactive waste materia.ls.-

c.

Hixing patios are remnforced bv the following:

(1)

Test sol fdifications performed periodically as stated fn 5.2.4.

(2)

Visually and ohysically checking every fifth (5th) container.

d.

Cantai'ner checks shall consist of:

('I)

A vfsual check of the solidified product for water on the. surface of the product.

(2)

PhysicaTly poking the surface of the solidified product with a rfdgid unyielding device prior to capping (Honrfnal penetration is.acceptable).

e.

guality Control shaIT verify acceptability of the solictffied product when containers are checked.

f.

0'eviation from the container checkirg requirement shall be approved by the Radwaste Supervisor.

Handirrg of Unacceptable Solidified Waste Containers.

a If the reason for unacceptability is free standing wa.ter:

(1)

The free standing water will be removed or (2)

Extra cement/sodium silicate will be added to solidify the free water.

b.

If portions or all of the product did not solidify:'1)

The was e container will be capped and placed in a storage location in the.Radwaste facili+y and'eriodically checked until such a time that the product is acceptable or (2)

Additional solidification agents will be added until satisfactory solidification is achieved.

7Q

AQUA-311 Revision 1

Page 15 of 40'pecfffc off rrormal procedures shall be established for handling unacceptable Solidfffed Waste Contafner.

gualfty. Control shall verify acceptability of the solidified product.

(1)

Less than 0.5Ã free standing water.

(2)

The s'olfdffied product aopears to be able to hold fts. shape if it were remaved from the liner.

6.3 Solfdffication Agent Control 6.3.1 Portland Type ZE Cement c

PortIand Cement ASTM C.-150 Type EI shall be med. for the soTfdfffcatfon process.

C'ertt teat%on of the type of cement received shall be'rovided by the vendor and signed by a responsible gresentatfve of that vendor.

quality Control shall verify receipt of the proper cement upon deIfvery.

Any deviation fn the type of cement used for solidification purposes shall be approved by the Chemistry Supervfsor.

6'.3..2 Sodium Silicate So',fdum S'f1fcate from Philadelphia quartz Company Type N., or equivalent shall meet the following:

(1)

Weight Ratio Sf02/NaZO (2)

Percent NaZO (3)

- Percent Si02.

(4)

Oegrees 8aume (5)

Oensity, Ib/gaI (6)

Vfscosfty

3. 20 8.90 28.70 41.00 11.60

'180.00 b.

Cer.iffcatfon of the sodium sflfcate received shall be provided by the vendor and signed by a responsible representative of that vendor.

77

AORTA-311 Revision 1'age 16 of -40 6:.3.3 c..

qua.lfty Coatrol shall verify receipt of the prrrper sodf.um si'lf.cate upon delfvery.

d Any. devfatfon af the type of sodium sfllcate shall be approved.

by. the Chemistry Suoervisor.

0'ther SoTfdfffcation Agents may be used only after acceptable testfag. of'he agent has been completed that demonstrates acceptable solfdification.

6.4 Equfpment Cal fbratfons shall be fn acco. dance with AO-gA-605 Calibration of Installed Plant Eastrumentatioa.

6..5 Solidi f'icatioa Record Sheet 6.5.1 A Solfdfffca i'on Record. Sheet. shall be completed for e-ch If'olled with solidification.products.

6'.&.Z Cufdes for completing the SoIfdfffcatfon Record Sheet are attached to each part of the form.

Parts of the form shall ba campTet&'y he foTI'owfng respoasfble individuals or groups'-.

The Radwaste Supervisor is responsible for faftf.atfag this form.

Part I Sampling aad Pre-Solidification Analysis shall be comp;I eted. by. Chenrrstry Group.

c.

Pari'. II Contaf ner sel ec ion shal I'e completed by the Hp Radwaste Specialist and the Radwast Super visor.

d.

Part ZXZ System Preparation and. Proc ssing shall be compTeted by the Auxf1fary System operato~.

Par. IIla shall be used with vendor supplied equipment.

e.

Part IV Solidified Lfner Oata shall be completed by the HP Technician, HP Radwaste Specialist and the Radwaste Supervisor.

~

'(

6.5.3 gualfty ControI snail provide verification as required, in tne Sol'fdfffcatfoa. Record Sneet.

6.6 Solfdffication Processing 6.6. I Solfdificatfoa processing shall be conduc.ed by qualified SSeS or vendor persoanel in accordance wi.h AO-gh-304.

78

I I

AQUA"311 Pevision 1

Page 17 or 40 6.6.2 6.6."

3'he. solfdiffcatfon process shall

.be operated in accordance wtth approved. operating procedures.

(}uaTfty Control personnel shall verify nroper. system variable settings and. material additions to the solidification caetaf rrer.,

6.T Radioactive Spent Res',n 0'ewaterfng

'I 6.7.1 Qewaterfng of Radioactive Spent Resin either bead or powdered shall be performed by qualified SSES or vendor personnel.

6.7.2.

6.7.3 6.7.4.

Qewaterf'ng af Racboactfve Spent resins shal'I be performed in accordance. with approved operating proce'dures.

Qewaterfng procedur~

shall be based on documented test data that: has demorrstrat d the ability to achieve drainable water Tf'ttrits as specified by applicable regulatory agencies.-

A.Oewaterfng Record Sheet (Attachment 8) shall be completed fox each container filled rrfth dewatered resins.

Guides for completing the Oewat'ering Record Sheet are attached to each part of the form.

Parts of the form shal'.

be completed by the fallowing. responsible i'ndividuals or goups.

The Radwaste Supervisor is responsible for initiating this form.

b..

Part L Sampling. and pre dewatering analysis shall be completed:

by. the Chemistry Group c.

P'art ZT container selec fon shall be completed by the HP Radwaste Speci a I f st. and. 'Radwaste.

Supervi sor.

d.

Part IEI. Oewatering operation documentation shall be completed by the qualified person. completing the various

operatf ons.

e.

Part Dt Oewatered container data shall be completed by the HP technicians, HP Radwaste Specialist and the Radwaste Supervisor as applicable.

f..

tlualfty Control personnel shall provide verification as required by the Oewatering Record Sheet.

1

AQUA-311 Revision 1

Page'18 of 40 6.T.S A gualf~ Control Program sha.ll be established that inspects the container to be used for solidification and dewatering.

a,.

Thf.s. program shaT1 assure and document that the condftfons of the Certificate of Compliance for High Errtegrfty containers have been met.

b.

The program. shall assure that pr',or to use, the

~~fner s to be used. for dewatering are capable of heirrg. dewatered to applicable limits as established by prior documented test data and the containers are intact and. free of any visua.l damage that would prevent the dewaterirrg o r'equired limits.

6.7.6

'he'Radwasm Supevisor shall assure that SSV fs a registered user of High I'ntegrity Containers (HIC) used at SSES for the purpose of Radwaste-disposal prior to he use of a specific type HZC.

6.8 Charrges to the Solid Was e Process Control Program.

6.8. I 6.8.2 7'.0 RECORDS Any changes to the Solid Waste Process Control Program shall be provided'in the semiannual Radioactive Effluent Release Repo.rt. filed wfth the. HRC.

Any changes. to the Solid Waste Process Control Program shall be approved by the Plant Gperations Review Committee (PORC).

7'.1 The S'olfdfffcatfon and. Qewateriag Record She t and the attached Esotopfc. Analysfs shal'e forwarded to the HP Radwas e Specialist for retention until such time as the Liner.identified on the Record Sheet fs: shipped for ffnal dfsposftfon.

7.2 When the identf fied liner fs shipped he Solidification and Oewatering Record Shee and other documents concerning the Shipment shall be forwarded to the OCC for retentfon.

8G

Attachment A

AGA-311 Revision 1

Page 19 of 40 SoltdiPlcation Record Sheet Part; I'ampliag and Pre-SoltcHfication Analysis Instructions a

Step 1 - identify which mixing tank A or B or other tank that, is to be processed by a check mark or identify.

. b Step 2 check that the pH of the sample taken from the tank to be processed.

is within a ra'nge acceptable for solidification.

c Step 3 - fill in the wet. weight percent settled solids and the weight percent sodium sulfate of the sample.

d.;

- Step 4 Fill in the density of the sample taken

,rom th tarrk.

Be sure. to use the. density of the whole sample not. jus of the li.quid phase.

Step 5 - Check off the-quantity of oil in the sample by mrttng either "none" or less than one percent, "5 lo".

f.

Step 6 - Check.-that a copy of the radionuclide analysis f.s aMached.

g.

Step 7 - Based on the isotopic analysis attached enter the total curie concentrati'on.

h; Step 8 determine whether a test solidification needs to be performecl and checked "yes" or "no"..

t-.

Step 9 If a test solidification is required check here; after an acceptable test'olidification has been performed.

If no tes solidification is required mark NR.

Step, 10 Identify here the type of cement used (i.e,,

Type I, Type II', ect.)

k.

Step Ila - For the process feed pump (OP"304) provide the pump flow rate to be used for the solidification process.

If a Vendor Supplied sys-em is provided enter waste volume.

Form AORTA-311-1, Rev.

1, Page 1 of 15

I I

I

Attachment A

AO-QA-311 Revision 1

Page ZO of 40 Part I cont'd.

Errstructi on s T.

Step 11b For the

cement, feed system (OS-305) provide the cement feed. rata to be used for the solidification process.

If vendor supplied System is provided, enter Cement Volume:

m;.

Step 11c - For the liquid sodium silicate'feed pump (OP-309) provide the pump feed rata to be used in the solfd~ficatfon process.

Ef Sodium Silicate or other agent ts used with vendor provided sys

ems, enter ve'Tume

~

Step.

22: -'hemistry Supervision shall sign with the data ard; time'signed that the waste fn the identified tank has been samp.led and analyzed frr accordance with approved procedures and is acceptable for solidification at the indicated mixing ratfos.

82 Form AO-QA-311-1, Rev.

1, Page P. cr 15

Attachment A

AORTA-311 Revision 1

Page 21 of 40 Soli'dfftcatfon Record Sheet Fart, ZI C'onta.incr Selec-ion Enstructfons Step 1 Based on the isotopic analysis of the waste to be: solfdfffed provide the estimated dose rates for the bare liner on contact and at a distance from the surface o.f: 2 meters.

b'tep Z - Enter the projected curie concentration of the solfdffied waste.

c.

Step 3 - Zdentffy the type of Tiner to be used.

d.

Step 4" Enter the appropriate cask desigrration to be used for shipmerrt.

More than one designation may 'be error ad a

Step 5 Enter the PAL liner identiffcatfon number.

Step 6 - The H.P.

Radwast Specialist and Radwaste Supervfsforr shall sfgn, with da'e and tfm'e, that the cask(s) and cask liner identified above are appropriate for the waste to be solfdfÃed.

Farm AO-gA-311-1, Rev.

1, Page 3 of 1'5

Attachment A

AORTA-311 Revision 1

Page 22 of 40 Scrlfdf'ffcztfon Record Sheet Part ZIZ System Preparation and pi oceans f rrg. Zrrsr~rctf ons Step 1 Enter the serial rrumber of the liner to be used c

d.

k.

l.

Step Z - ate.r the PP&L identification number on the lfrrer.

(This must be the same as the number fn Part EI step 5')

S'tep 3 - Verify that the liner is properly loaded on the correct trarrNer cart.

k Step 4 - Aft'he car fs moved to the fill position verify that. the liner fs properly positfoned under the fill port.

Step 5 - Check that the mating surface between the fill flarrge and the Ifrrer is proper and will not leak.

Step 6a - Brter the process speed control setting for the. approprfa.

e. was e feed pump (OP-304 A or 8).

(A' determined..by the Radwaste Supervisor)

Step 6b &ter the process speed control setting for the cement feed system, (OS"305).

(As determined by the Radwaste Supervisor)

Step 6c - Enter the process speed control setting For the. sodium silicate

pump, (OP-309).

(As determined by the Radwaste Supervisor)

Step 6d - Verify that the Process i4lfx Pump (OP-307) process speed control setting fs on 10.

Step 7." Shift Supervisor/RM Supervfsor shall sfgn, with date and tfme, that the process control speed settings are proper and consis ent with Section 6.5.2.

Step 8 - Verify that sufficient cement fs available for solfdfffcatfon of the tank contents.

Step 9 - Verify that 'sufficient liquid sodium silicate fs available for solidification of the tank contents.

Form AD-gA-311-1, Rev, 1,

Page 4 of 15

'J

Attachment A

AORTA-311 Revision 1

Page Z3 of 40 Fart ZZI cont.'d Zmtructi on s Step IO - Enter the quanitity of waste in the Was e

Nxlng, Tank to be processed.

Step 11 - Shift Supervision shall verify and sign, with da~ and time, that all requirements of the Process Control Program have been met and that the authorization.

to proceed with he solidification process is granted.

o.

Skep IZ - Enter the time and soTidification process is irrrtiated.

p.

Step 13' Enter the. time the solidification process is stopped.

q; S~ I4 Enter cement level in. silo at comple~ion. of so Tidif ication process.

Step

-IS - Enter liquid solium silicate tank level at completion of Solidification process.

s Step 16

. Enter final Waste Mixing Tank level.

Step D' Enter estimated weight of the liner with the so.l idified mate."ia.l.

u.

Step I8 The Radwaste Operator shall sign, with date and time., that the process has been completed.

v.

Step 19 gC verification of fifth (Sth) filled liner check.

Step ZO' Yerify, with time and date, that the liner is properly capped and sealed.

x.

Step H - Enter the curing time between Steps 13.and 19.

y.

Step 22 - Verify that the liner has been moved to the washdown area.

Step 23 Shift Supervision shall sign, with date and time, that the -solidification process has been accomplished according to the requirements of t:his procedure and that Health Physics has been notified.

Form AQUA-311-1, Rev.

1, Page 5 of 15 85

Attachment A

AORTA-311 Revision 1

Page 24-of 40 h.

Solidification Record She~t

~

Part. ZIIa. System Preparation and Processing Znstructio'n (Vendor or a:ltemate system)

Step 1 - Enter the saria~l number of liner to he used.

Step

2. Pter the PPQ ident',fication number on the line>>.

be the same as the number in Part ZE step 5).

(This must c.,

Step 3 - Verify that the liner is properly positioned and ALARA consideration has been made for spills and expec"ed dose rates.

'I d

Step 4 - Eitsure applicable: connections.

have been made to the liner Tol waste and cement.

e.

Step'5' Ensure applicable mixing connection have been made.

f.

Step: 6 Ensure applimhle amnectiorrs have been made to the lner for dewier if 'happ:I'icabTe.

g.

Step 7 - Enter process parameters in-appropriate units.

h.

Step 8 - Shift Supervisiar au&orize start of processing.

Step 9'

Enter processing start time.

Step 10 '- E~ proc ssing. stop time k.

Step 11 " gC verifi~on for hardness/solidification by manual penetration tests visual observations for water fn the liner and a

dewatering. of the liner if'qufped with underdrains.

I.

Step: 1Z Curing:

ime should be. entered if applicable and the actual curing. Ctme p.rior to. capping m;

Step I2 Enter date and time liner capped n.

0

~

Step 14 - Enter actual Tiner weight from direct measurement.

Step 15 - Ensure liner was decontaminated and checked for surface contamination.

Step 16 " Supervisor review and release line~ to Heal h Physics.

Form AO-gA-311-1, Rev.

1, Page'6 of 15

I

'H

~ < *, a Attachment A

AO-QA-311 Revision 1

Page 25 of 40 Solidi.fication Record Sheet Part. D FfI'Ied Liner Oata

.Zrrs'truetf on s Step Ia The contact rad8atfon levels on the top and bottom ef the-liner and at four pofnts, 90{. apart, around the centerline of the liner shall be recorded.

b.

S'tep 1b Enter 'the level of external contamination on

'he liner as dhtermT'ned by an analysis of a swipe smear.

S~

Zc Based on the data entered in 6.5.5.b

o. this procedure determine whether or not

a. liner washdown is tcr. be. pe&armed.

Ef a washdown is required signify by aeter,ncF "yes", if a:. washdown is not required signify by entering "NR".

Step lcL Enter the level af externaI contaminatfon on the. Ifner as determined by an analysis of a swipe smear.

Zf a. second, or subsequerrt, swip'e smear fs not, required enter "NR" Step 1e - Heal'th Physics shall verify and sign, with data and time, that the-l.incr is ready for transfer ta stcrrage or for transfer directly ta a shipping cask for transportatfo'n to a licensed burial site.

Ktep. 2. - Verffy that the racLfonuclfde transpor.

groups ancL fncLividual curie cantent of the lf~er have been iderrtffied. and properly documented.

Step 3 - Enter the storage location liner fs transfered ta the Radwas a Supervisor and Health Physics shall sign attesting that. the proper storaae location has'been entered.

Enter "NA" if the liner is nat stared prior ta shipment.

h.

Step 4 - Enter the 'transportation shipment number'.

Step 5 - Enter the rrame of the burial site -he liner is being shipped to Health Physfcs and QC.shall sfgn, with date and time, that his procedure has been properly followed'.

Form AORTA-311-1, Rev; 1,

Page 7 of 15

l I

I 4

f

Attachment A

AORTA"311 Revision 1

Page 26 of 40 SQUGIFIC'ATION REL.'ORO SHEEi Part IampTfng arrd Pre SoTfdtftcztton Analysis 1.

Waste Mfxfng Tank Sampled 2.

Waste Stre-m pH 5-10 Check.

3.

Type of Was.-e.

ae Wet WT. ~ settled. solids b.

WT'. ~ Podium Sulfate tank place on recfc.

0'a.te/Time:

Other Oate/Time 4;

Was.e sample density

'I Gf T Content ('heck one) gm/ml b.

'ess L

6'.

?satanic Analysf s Attached Check 9.

10

~mated.

Tata.1 Curf e. Concentratf on FfnaT product densfty gm/cc Test 5'oT(d1ftasafarr Required Yes Na Type of cement ta be.usmc'cf

/cc Form AO-QA-311-1, Rev.

1, Page 8 of 15

Attachment A

AORTA"311 Revision 1

Page 27 of 40

11..Mixirrg Rxttos:

SSES ENPLANT SYSTBl Erritia.l a..

%haste (OP-3Q4) b., 'ement (QS'-305) c.

Sodium Si 1 icate (OP-309)

@pm lb/min VENnOR Sesame Waste ft'ementft'rritia 1 gpm Sedium Silicate liters;gallons Other additive 'liters/ga'liens IZ.

The above, waste mixing tank has been analyzed and is acceptable for solidi'fira.tion a.t the indica.ted a',xing ratios.

Chemi~ Supervi sion Form AQUA-311-1, Rev.

1, Paoe 9 of 15

I I

Attachment, A

AQUA-311 Revision 1

Page 28 of 40 PART ZI.

CONTAINER S~TZON Estianuted. Lhrer Dose rates mr/hr contact mr/hr 2 meters 2

Projected Curie Loading 3.

Lfner >pe used.

uci/gm 4.

Type ca"k to be used

'YPF PPQ Liner Zdarrti'fici'a~i on Number 6.

The above.specffi'ed Lirre~ and. cask have been determined appropriate fcn-the sol:fdiffed waste: basecF on projected curie loading and dose rates HP Rzdwaste Special'i s 04te Radwas e Supervi sar Oate Time Form AO-gA-311-1, Rev.

1, Page 10 of 15 90 I

p/

~

.k

~ ~

fI

Attachment A

AORTA-311 Revision 1

Page 29 of 40 PART ZZZ SYSTEH PREPARAliON ANO PROCESSING (Use Part ZZZ*if vendor. supplied system is used) 1.

Lfner Serial Number 7.

PPQ Lirrer Zdentffication Number orr liner.

3.

Liner Properly Loaded on Trarrsfer Cart Check 4.

Lirrer.Properly Positioned Under Fill P'ort.

5.

Fill'lznge-Properly Hated To Lirrer Check 6.

Process Speed.'S~wl. S~.ng (obtained: farm Radwaste Supervisor) a.

Meter Feed'OP-304.)

A 8

C~~ ~ (OS-m)

A 8

a.

Sad%en S1Tfaata (QP'-309) 8 d

Process Nx Pump (OP-307) 10 A

10 8

7.

Process speed control seMings veri fied Shf ft. Superv i sion/RW Supervi sor Gate qC VeHfi'cation 8..

Sufficient Cement Ava.ilable Check 9.

Suffici.ent Sodium Silicate Check

'10.

Haste gxing Tank Level Oate Form AQUA-311-1, Rev.

1, Page 11 of 1S 91

Z

Attachment A

AQUA-311 Revfsfon 1

Page 30 of 40 11.

Authorization to Commence.

Process Srrft Superv.i sf on IZ.

Time proces.s started:

U..

Tfme Prccess-Stopped:

Tfma.

Ttme 14.

Cemerrt SiTo Level I5.

Sod%urn Sil feats Tank. Level

16. M~ Mf'xf,ng Tank. Level 17.

Liner Mefght:

IS.

Procesz comp leted Operator.

19.

Lfner Check (5th liner) complete Oate Time (6.2.6.d) 29.

Liner CappecL IJai:a Time qC Verification Zl.

Curing time a.l,l.owed. prior to capping 2Z.

Liner Trarrsfered to wash down. statfan Check 23.

Supervisory review and Health Physics notification Shift. Supervision Form AO-QA-311-1, Rev.

1, Page 12 of 15 92

Attachment A

AQUA-311 Revision 1

Page 31 of 40 Part. ZEZa; System: Preparation and Processing

(.Vendor or a:1 terna:te system)

Lfner Serf al Number Check Z.

PP&L LTner 1dentf.ffcation. Number on 1 buaer Check e

3.

Lfrrer properly po:sftfoned end: ALARA. co@sf derztf.on made Check 4:.

Applicable connections made to Tfner for transferrfng waste and cement to liner 5.

Applfmhl'e comrectf:ons. mde: to 1'frrer for mfxfng contents ff applicable Check 6.

I'f dewaterT'ng operations will be required, applicable connections made to Lfqufd'adwaste co17e~on. tanks, a fIaw path available to. tanks and space avai labTe for dewatered.

1'iquid Check 7.

Process.

parameters Waste to be added to I[nor actual Cement to be added. to.liner actual Sodium Q Yicata to. bm added to 1 incr..

actua1 Other addft1ve to ba added to I<nor actual Tank form wMch waste

$ s to be transferred Lfrrer mfDng. speed. ff applfcahle.

RPM a.c ual RPM QG. Ver ificat.ion 8.

Authorizatfon to commence processing Date.

Time Shift Supervision g.

Time processing star ed 10.

Time processfng stopped Date Form AD+A-311"1, Rev.

1, Page 13 or 15 93

Attachment A

AQUA-311 Revision 1

Page 32 of 40 11.

Liner check Ocr compTete solidtficatfon and visible water or drainable r.

P~e~~o~ ~k (e.Z.6.d.).

QC Verification b.

Visfhle: wham- (6:.2..6'.d)

. QG Verification c.

Bra:irrab1e water if applicable (undardrai ns avai labl e)

IZ.

Cuing. itme squired Ltaa" capped:

Date.

QG Verification actual L4.

Liner Hei.ght 15.

Liner O'econtamirrated 1'bs..

16.

Supervt'sary review and Heath Physics rrotification.

Sift Super v,ision Time Form AORTA-311-1, Rev.

1, Page 14 of 15

Wl

-v ~

e y

~

,I Attachment A

AQUA-311 Revlsiofl 1

Page 33 of 40 PART ZV RTl ed. Lirrer Qata;.

3..

FfTTed Ltner. Radta-tton Levels Top Bedlam'-

guzdramts mr/hr mr/hr mr/hr 2

mr/br 3'

mr/hr b..

SmaxrabTe A'c iv)ty dpm/100cm c

Utter mshdowrr // clean. Performed Yes/HR Shnnarahlm acnfv1ay amer waahdnwrr/dacnn dam/MOcm urer ready for tmrrsf'er to. storage e;

HP Tech.

Oate Time 2'.

Transport Groups and curie corttents identified and documented Check 3.

Shnraaa Lncat[ nn Radwaste Supervi sor 4.

Shipment. 0

5. Qestination'P Raciwaste Spec.

HP Radwaste Spec.

Gate qC Review of Attachment 8

Oate Time Form AO-"A"311"1, Rev.

1, Page 15 of 15 95

Attachment 8

AO-QA-311 Revi sion, 1

'age 34 of 40 0$lATERZNG RECQRO SH~a Part I Sampling: and. P~ewatertng Analysts Waste Nxtap. Teak ZampIed.

A 2..

Other tank. samp1ed 3.

PH of liquid. contained. within Resin if

a. Carbon S.tee.l liner is. used 8

PH 4.

Oi T Canter':

Ma L Lsatxqxtc: A'errTysts. zttached.

6.

Trarisurarrlc. and: Beta. Activity determined Check T.

The above tank contzirrfng. resin has been sampled and found. to contain the isotopes.

and specific activities as indicated on the attached'ata sheets.

Chemistry Supervisor Oate Time AORTA-3'11-2, Rev.

1, Page 1 of 7 96

Attachment 8

AO-gA-311 Revision 1

Page 35 of 40 Part. ZZ Cantainer S'eTectian K

Es.&ma~ Lfnar Qo:se Rates Mr/hr contact 2

Pre@ected Curie Lcrading 3.

Liner ty.pe used.

4..

Type cask to be used Ty.pe Typ.e Mr/hr 2 meters UCi/gm

~5.

PAL Liner I'denWPi:czti On Humber 6'..

Thm abave speakfied: caetafner and: cask have-been

~8pfN'ned chpppc$~a~ foal the ~tered'. 'H~B based on projected curie loading and dose rates:

HP Speci a.l fs Rzchvaste Gate ime Radwaste Supervi sar Oate Time AORTA-311-2, Rev.

1, Page 2 of 7 97

Attachment B

AQUA-311 Revision 1

Page

36. of 40 Pa'rt ZZZ Qewetertng Operandi ons. Oocumentati an Attach the.- compl'etc spectffc operattrrg procedure check aff sheet. for the specrfic dewatering contairrer being. used Check 7.

Oewzterirrg. ctreck off sheet; review and (Vse specific, check sheet for lirrer beirrg used) trarrsferrea to HP Specialist Rad Waste Shi ft. Supervi si an Gate.

iiare Part N De~tered: Carr.ta.incr Da.ta C'antai rrer RaNa&en-.

I gael;s a.

Tap S'ot"om Mr/hr Mr/hr 4-quadrants.

3.

F

~3'r/hr Mr/hr'

/hr Mr/hr b.

Smezrable Ac~ivity c

Contairrer washdown/decon performed dpm/100cm-Yes/No

'd.

Smearable a~vity after washdown/decon dpar/100cm~

attach ra&ologlcal survey form) e.

Liner ready for transfer to storage HP Tech Date Time Trarrsport Groups and curie contents identified.

and documented Check

'QUA-311-2, Rev.

1, Page 3 of 7

Attachment 8

AQ"gA-311 Revision 1

Page 37 of 40 Part ZY (~'d )

3'.

S'tata 1'ocxti on.

R'adwaste. Supervisor 4

Shipment to 5.

Oesttnation HP'pecialist Radwaste HP S.peci a.Ti s-Ractwaste.

Time.

quaTits Ca~l'GYitEWE Time AORTA-311-Z, Rev,. ~,

Page 4 of 7 99

Attachment 8

AORTA-311 Revision 1

Page 38 of 40 INSTRUCiiQNS FOR ATTACHMENT 8

'art I':.

S:tep 1.

Samp.le the appropriate. tarrk after a recfrc period of 1/2 hour o-,

1 tank vot.ume as a minimum.

b.

'S'tep. 2 S'arne c.

Step 3'.

d..

Step 4;

CoTI:ect a Tiquid sampie from the material to be dewatered to msure. the Ti'qutd'i1'T not be corrosive to a carbon steel liner.

BetertrPne the. oii content of the material to be dewatered.

Candu'an.

tso.topf t" zns:Igs.i s; ef the materi al ta be dewate'red....

Estimad'e-. the: Treasamni.c; arrd. 8eta Ac.tivtty AORTA-311-2, Rev.

1, Page 5 of 7 100

Attachment 8

AQUA-311 Revision I Page 39 of 40 Part EZ Container Se1'ection ao b.

Step 1 - Baseci on the isotopic ana1ysis of the materia1 to be dewatered provide the estimEtecL dose rates for the bare container on contact and at a

distance of 2 meters from the. surface.

Step 2 Enter the prospected curie concentration of the dewatered waste.

Step 3 - Iderrtffy the type ef container to be used.

Step 4 - Brter the appropriate cask designation to be. used for the container if required.

e.

Step 5 Enter ihe PRU. 1iner identification number.

f.

Step 6 - The.

HP Specta1ist Radwzste and the Radwaste Supervisor sha11

sign, with date and time:, that the cask(s) and container identified above are zppropria~e for the waste to be dewatered.

AORTA-311"2, Rev.

1, Page 6 of 7 101

++P

- Attachment 8

~ AORTA-3ll Revf sfon 1

Page 40 of 40 Pa;rt EIl'.

Step EPZ,'.

The. specfffc operatfng procedure for the contafner wfll be used, to document: tha. appl fcable dawatarfng functfons.

Part EY a.

Step l h

Step 2:.

Step 3;

Geczunmrt: the conta:faer radfologfca.l data oa a blank survey form

@mt attach. the; form to the Oewatering Record. Sheet..

Ese HP~WGQ to assfst fe datermfnfng the trwport groups and curf.'e: contan< of matarf a.l-bef ng dawatarad.

The storage Ioca&o'n shall be assfgned by the HP Specfal f st

- KBdÃastp Step:

4..

The: shfpment. 0 and. dastfnatf on. sha11 be desf gnated by the.

HP Specf:a.I fst Radwasta.

AO-gA-311-2, Rev.

1, Page 7 of 7 r

102 1

p l/

t l

J I

I I/

I 4

ML17139B403

Text

3.0 REFERENCES

3.0 REFERENCES

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