ML20064A475

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Rev 7 to Environ Manual
ML20064A475
Person / Time
Site: Point Beach  NextEra Energy icon.png
Issue date: 03/31/1990
From:
WISCONSIN ELECTRIC POWER CO.
To:
Shared Package
ML20064A472 List:
References
PROC-900331, NUDOCS 9009100035
Download: ML20064A475 (59)


Text

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t-POINT BEhCl3. NUCLEAR'PIANT

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ENVIRONMENTAL MANUAL o .

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ENVIRONMENTAL MANUAL R3visisn 7 March 1990 TABLE OF CONTENTS P_a.ge, 1.0 RADIOLOGICAL ENVIRONMENTAL PROGRAM ADMINISTRATION 1-1 m

E 1.1 Definition of Radiological Environmental Monitoring 1-1 1.2 Responsibilities for Program Implementetion 1-1 1.2.1 Nuclear Plant Engineering and Regulation Section Functions 1-1 1.2.1.1 Program Scope 1 .1 1.2.1.2 Record Keeping 1-1 1.2.1.3 Data Monitoring 1-2 1.2.1.4 Data Summary 1-2 1.2.1.5 Contractor Communications 1-2 1.2.1.6 Reportable Items 1-3 1.2.2 PBNP Functions 1-4 1.2.2.1 Manual Control and Distribution 1-4

( 1.2.2.2 Program Coordination 1-4 1.3 Quality Assurance / Quality Control 1-5 1.4 Program Revisions 1-6 2.0 RADIOLOGICAL ENVIRONMENTAL MONITORING 2-1 2.1 Program Overview 2-1 2.1.1 Purpose 2-1 2.1.2 Samples 2-1 2.1.3 Monitoring Sensitivity 2-1 2.1.4 Technical Specifications 2-1 2.2 Program Parameters 2-2 2.2.1 Contamination Avoidance 2-2

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2.2.2 Sample Size 2-2 ,

L2.2.3' Lower Limit of Detection- 2-3 .

F 2.2.4 = .Notificction Levels 2-4 2.2.4.1 Regulatory Notification Levels'_

2-4 i.2.4.2 Administrative Notification Levels 2 l

2.2.5 Sampling Locations- 2-5.
  • 2.2.6 Sampling Media and Frequency 2-6 2.2 7 Sample Labeling 2-7 2.2.8' Sample Shipping :2 2,2.9 Sample' Analyses and' Frequency 2-8  ;

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" 2.2.10 , Analytical Laboratory '2-8 g (i' 2.3' ' Assistance to the' State of Wisconsin

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2-8 j t 2.4 . Sampling Procedure 2-9 2.4.1' Vegetation ,

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2.4.2 TLDs1 2 6 2.4.3 Lake Water 2-11 'r 2.4.4 hell Water 2-11,

.2.4.5 Air 2-11 2.4.5.1 Sample Collection 2-11 2.4.5.2 System Description 2-14 2.4.5.3 Calibration '2-14 1 2.4.5.4 Inspection and Maintenance 2-15 2.4.5.5 Repair and Replacement 2-15 q

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2.4.6L Milk '- =2 ,

2.4.7 -Algae, 2-17 2.4.8 ~ Fish.- 2-17.

2.4.9 So'il '2-18' 2.4.10 ' Shoreline Sediment - 2-19 2.5 Milk Survey; 2-19' 3 '. 0 NON-RhDIOLOGICAL MONITORING 3-1~-

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TABLE OF TL*1ES I.ggg gaga 2-1 Sample Site 2-20 2-2 Lower Limit of Detection and Notification Levels 2-21 2-3 Radiological Environmental Sampling Locations 2-23 2-4 PSNP Radiological Environmental Sample Colle*ction Frequency 2-24 2-5 PBNP Radiological' Environmental Sample Analysis and Frequency 2-25 2-6 Samples Collected for the State of Wisconsin 2 TABLE OF FIGURES FIGURE Peg -

2-1 Radiological Environmental sampling Locations 2-28 2-0 Radiological Enviro: mental Sampling checklist 2-30 2-3 Point Beach Environmental Sampling Checklist 2-33 2-4 Air Sampling Data Sheet 2-34 2-5 Environmental sample Label 2-35 2-6 sampling Deviation Reporting Form 2-36

( 2-7 Air Sampler Calibration, Maintenance, and Leak Towt Record 2-37 APPENDICES APPENDIX A haalological Env.io: mental Monitoring Technical spec.fications

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1.0 R&DIOLOGICAL ENVIR000 ENTAL NONITORING PROGRAM ADMINISTRATION  ;

1.1 Definition of Radiological Environmental Monitorino f

Radiological environmental monitoring is the measurement of l radioactivity in samples collected from the atmospheric, aquatic,  ;

at,d terrestrial environment around the Point Beach Nuclear Plant  !

(PRNP). Monitoring radioactivity in effluent streams at or '

prior to the point of discharge to the environment is not part  ;

of the Radiological Environmental Monitoring Program.

  • 1.2 Responsibilities for Procram Implementation ,

i 1.2.1 Nuclear Plant Engineering and Regulation Section Functions l

The General Superintendent and the staff of the Nuclear Plant Engineering and Regulation Section (NPERS) -

provide the Manage' r , PSNP, with technical, regulatory, licensing, and a kinistrative support necessary for the implementation of the program. The NPERS a hinistrative functions relating to the Radiological Environmental.

i c Monitoring Program fall into the six broad areas outlined

  • I below.

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1.2.1.1 Program Scope ,

i The scope of the Radiological Environmental Monitoring Program is determined by NPERS.

L Based on the scope, NPERS prepares the program manual, including sampling procedures, and ,

revises the manual, as necessary to conform .

to changes in progran procedures and scope.

NPERS monitors the program effectiveness and compliance with Radiological Effluent Technical Specifications (RETS). In order to verify i compliance with RETS, NPERS arranges for a program audit at least once every 12 months and an audit of the analytical contractor at least once every 36 months.

1.2.1.2 Record Keeping Monthly results of contractor analyses are sent to both PsNP and NPERS. However, the analytical results maintained by NPERS are regarded as the official results. These ,

records are kept for the lifetime of the plant. '

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EINIRCeBIENTAL MANUAL Revision 7 March 1990 1.2.1.3 Data Monitoring The cognisant NPERS Engineer reviews and inter-prets all program analytical results on a ";

monthly basis as they are reported. Trends, if any, are noted. Any resulting corrections, modifications, and additions to the data are ,

made by the cognisant NPERS Engineer. Incon-  :

u sistencies are investigated by the cognisant 1 NPERS Engineer with the cooperation of PSNP- I and contractor personnel, as required. Unusual  !

results as evidenced by radioactivity levels  ;

( ' exceeding NPERS Administrative Notification -!

Levels are investigated in the sane manner. .  !

Results of the investigation will be conveyed ['

to the Manager, PSNP. NPERS will promptly infons PBNP of any sample exceeding Nuclear .

Regulatory Commission (NRC) Regulatory Notifi- '!

cation Levels and both NPERS and P8NP will-initiate an investigation. A formal report .'

shall be provided to the Manager, PRNP,-by NPERS upon completion of the investigation. ,

p 1.2.1.4 Data Stamsary Results from the Radiological Environmental f Monitoring Program shall be sununarized ,

semiannually for inclusion in the PRNP Semiannual Monitoring Report. This sununary  :

advises the Manager, PRNP, of the radiological

  • status of the. environment in the vicinity of. '

PSNP. The sununary shall include the numbers [

and types of samples as well as the averages, i statistical confidence limits, and the ranges of analytical results. Methods used in  !

summarising data are at the discretion of NPERS.

1.2.1.5 Contractor Communications  !

Communication ',ith the contractor regarding data, analytt:a1 procedures, lower limits of

' detection, notification levels and contractual matters are normally conducted by NPERS.  !

Coeur.aication regarding sample shipment may be-done by either PBNP or NPERS, as appropriate.  ;

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1.2.1.6 Reportable Items i .NPERS shall generate all technically specified reports related to the operation of the Radio-logical Environmental Monitoring Program.

, The following items and occurrences are re-l quired to be reported in the PENP Semiannual' i Nonitoring Reports

a. Summary of monitoring results including number and type of samples, D. Unava1321e, missing, lost saspies, and plans to prevent recurrence,
c. New or relocated sampling locations,
d. LLDs that are higher than specifications, I and factors _ contributing to inability I to achieve specified LLDs. I
e. Notification that the analytical lab-oratory does not participate in an interlaboratory comparison program.

The following items are required to be re-ported to the NRC within'30 days of occurrence:

a. Confimed environmental radionuclide' concentrations, attributable to PSNP effluents, in excess of notification levels, and a
b. Confirmed results of weighted sua cal- I culations involving radionuclide con- H centrations, attributable to PRNP I effluents, in environmental sag les in l excess of the specified notification i level. 1 1

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1.2.2 PBNP Functions The primary responsibility for the implementation of the j Point Beach Nuclear Plant (PSNP) Radiological Environ- )

mental Monitoring Program and for any actions to be i taken at P8NP based on the results of the program

resides with the Manager, PSNP. The responsibility for ensuring that PRNP portions of the Semiannual Monitoring j Report are correct,. couplete, and transmitted to NPERS j in a timely manner resides with the General Superintendent-Operations.

i 1.2.2.1 Manual Control and Distribution l' The distribution of the PBNP Environmental l Manual is the responsibility of PSNP.

1.2.2.2 Program Coordination j

The daily operation of the program is 1 conducted by PBNP health physics personnel, and other qualified personnel as required,

, under.the superv.4sion of a Specialist - Nuclear l F Health Physics who consults, as needed, with the- 1

'V cognizant NPERS Engineer. The daily akinistrative I functions of the cognizant Specialist - Nuclear Health Physics address those functions required .{

q for the effective operation of the PBNP Radiological Environmental' Monitoring Program. These a k inistrative functions include the following:

a. Ensuring the samples are obtained in 1 accordance with the applicable Technical i specifications following procedures  !

outlined in this manual, l

b. Ensuring adequate sampling supplies and l- calibrated, operable equipment are available l at all times,
c. Ensuring that air sampling pumps are main-l' tained, repaired, and calibrated as required and that an adequate number of back-up pumps are readily available at all times, 1

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d. Formally reporting lost or unavailable j samples as well as other deviations from  !

the technically specified saspling regime to the cognisant NPERS Engineer and logging -i the same at PSNP, 2

e. Assisting the State of Nisconsin in obtaining 1 samples at co-located and other sampling sites j based upon a yearly, renewable agreement, j 1
f. Assisting, as necessary, the cognisant l NPERS engineer with investigations into  !

elevated radioactivity levels in environ-  !

mental samples. j 1.3 Quality Assurance / Quality control l

Quality assurance considerations are an integral part of f Wisconrin Electric's Radiological Environmental Monitoring-Program. The program involves the interaction of the Nuclear Plant Engineering and Regulation Section (NPERS), Point Beach Nuclear Plant (PSNP), Wisconsin Electric's Quality Assurance  ;

Section (QAS), and Teledyne Isotopes Midwest Laboratory (TIML).

The TIML quality assurance and quality control program is i described in the TIML Quality Assurance Program Manual'and the  !

,_ TIML Quality control Procedures Manual. copies of these manuals +

l. are maintained by NPERS and QAS. Amen &nents and revisions of l- these documents are reviewed by responsible NPERS and Q&S l personnel as they are issued. The contractor is audited by _  ;

[ Wisconsin Electric personnel periodically at intervals which do  !

I not exceed three years. The quality assurance portion of the '

audit is performed by Q&S, and the technical portion of the audit is performed by NPERS. As part of its quality control -

program, TIML participates in the environmental crosscheck  :

program operated by the Intercomparison and calibration Section, Quality Assurance Branch, Environmental Monitoring and Support Laboratory, U.S. Environmental Protection Agency, Las Vegas,  ?

Nevada.

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Quality control for the PaNP portion of the radiological  ;

Environmental Monitoring Program is achieved by following the i procedures contained in this manual. Health Physics Technologists (HPTs) collect, package and ship environmental samples under the supervision of Health Physics Supervisors and the Health Physicist. .

They are advised by the Specialist - Nuclear Health Physics who has immediate responsibility for the overall technical operation of the environmental sampling functions. The HPTs receive classroom training as well as on-the-job training in carrying out

- {' these procedures. '

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An' audit of t.he PRNP Radiological Environmental Monitoring Program and its results shall be completed at least once every 12 months as a means of monitoring program effectiveness and assuring compliance with program directives. The audit shall be performed by either NPERS personnel, Q&S, or a qualified consulting firm.

1.4 Program Revisions This manual describes the current scope of the PBNP Radiological Environmental Monitoring Program. The program and the manual are maintained by NPERS consistent with Technical specifica-tion commitments. Program items or procedures periodically may be updated or changed, consistent with good radiological monitoring practices, either to reflect new conditions or to improve program effectiveness. Technical and program features described in this manual may be changed at the discretion of ,

NPERS with the concurrence of the PBNP Manager's Supervisory Staff.

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2.0 RADIOLOGIchL ENVIRONMENTAL MONITORING 2.1 Program overview 2.1.1 Purpose No significant or uneapected radionuclide concentrations of plant origin are espected because-each normal effluent-pathway at PaNP is monitored at or before the release point. However, the Radiological Environmental Monitoring Ptogram is conducted to verify that plant operations produce no significant radiological impact on the environment and to demonstrate compliance with applicable standards.

2.1.2 samples Sasples for the Radiological Environmental Monitoring Program are obtained from the aquatic, terrestrial and-atmospheric environment. The sasple types represent key indicators or critical pathways identified by applying sound radioecological principles to the PBNP environment.

2.1.3 Monitoring sensitivity The effectiveness of the Radiological Environmental l Monitoring Program in fulfilling its purpose depends e upon the ability to accurately determine.the nature and I origins of fluctuations in low levels of environmental -

I radioactivity. This requires a hign degree of sensitivity so that it is possible to correctly discriminate between fluctuations in background radiation levels and levels of radioactivity that may be attributable to the operation of PBNP. Therefore, personnel actively participating in-the monitoring program should make every effort to minimize the possibility of contaminating' environmental samples'and to obtain samples of the appropriate size.

2.1.4 Technical Specifications l I A copy of the P8NP Technical $pecificat Sns applicable to the Radiological Environmental Monitsting Program is

IM ated in Appendix A of this manual. These specifica- ,

l tions are part of the Radiological Effluent Technical '

l- Specifications (RETS).

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I 2.2 Program Parameters f 2.2.1 Contamination Avoidance l 4

contamination prevents the accurate quantification of _!

environmental radioactivity and the correct differen-  !

tiation between fluctuating background radioactivity and levels of radioactivity attributable to the operation of P8NP. Therefore, it is necessary that all personnel -)

associated with collecting and handling radiological 1 environmental samples take the appropriate precautions  !

to minimize the possibility of contaminating the sasples.  ;

some of the precautions that should be taken and which will help to minimize contamination are listed below:  !

a. Equipment which has been on the controlled side, even if released clean, should not be used in , i conjunction with radiological environmental monitoring, I i

b, store 6ampling equipment in radiologically i clean areas only,  !

I j c. Store radiological environmental samples only a

( -in radiologically clean areas.when samples can not be shipped to the contractor on the same day they are collected,

d. Treat each sample as a possible source of contamination for other samples so as to minimize the possibility of cross-contani- i nation, l
e. Radiological environmental monitoring equipment should be repaired in clean-side shops,
f. contamination avoidance for environmental TLDs it covered in Section 2.4.2, and 1
g. Do not enter the controlled zone prior to .!

leaving to collect environmental samples. ,

i 2.2.2 Sample Size  ;

Sample size affects the sensitivity achievable in quan-tifying low levels of environmental radioactivity. ,

Therefore saspling personnel must attempt to attain the quantities of sample specified in Table 2-1. When a 1

( range is given, every effort should be made to obtain '

\- a quantity at the upper part of the range.

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2.2.3 Lower Limit of Detection 1

The sensitivity required for a specific analysis of an environmental sample is defined in terms of the lower limit of detection (LLD). The LLD is the smallest concentration of radioactive material in a sasple that will yield a net count, above system background, i that will be detected with a 95% probability and have only a 5% probability of falsely concluding that'a blank i observation represents a real signal. Mathematically, ')

the LLD is defined by the formula '

4.66 S b

  • E a v x 2.22 x Y a EXP(-Aat) q where LLD = the a priori lower limit of detection in picoeuries per unit volume or mass, as-applicable, S

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= the standard deviation of the background J counting rato or the counting rate of a I

(' blank sample, as appropriate, in counts j per minute,  !

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E = counting efficiency in counts per l disintegration, j V = sample size in units of volume or mass, as applicable, 2.22 = number of disintegrations per minute per picoeurie, Y = the fractional chemical yield as appli- 'j cable, J

A = the radioactive decay constant for the particular radionuclide, At = the elapsed time between sample collec-tion, or the end of the collection period, and the time of counting.

Typical values of E, V, Y, and At are used to calculate the LLD. As defined, the LLD is an a priori limit l representing the capability of a measuring system and i

(. not an a, posteriori limit for a particular measurement. j I

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The required analyses for each environmental sample and l the highest acceptable LLD associated with each analysis  ;

- are listed in Table 2 2. Whenever LLD values lower r l- than those specified in Table 2-2 are reasonably achiev-  !

able, the analytical contractor for the radiological  !

environmental samples will do so. When the LLDs listed  !

in Table 2-2 are not achieved, a d=5cription of the l factors contributing to the higher LLD shall be reported  !

in the next PSNP Semiannual Nonitoring Report. [

2.2.4 Notification Levels  !

. The notificetion level (NL) is that measured quantity i of radioactivity in an environmental sample which, when exceeded, requires a notification of such en occurrence  :

be made to the appropriate party. Regulatory and admin- l 1strative notification levels are listed in Table 2-2. .  ;

2.2.4.1 Regulatory Notification Levels f

The regulatory notification levels listed in [

Table 2-2 represent the concentration levels  ;

at which NRC notification is required by PBNP [

  1. Technical Specification. requirements. If a measured level of radioactivity in any on-- '

vironmental medium exceeds the regulatory notification level listed in Table 2-2, re-  !

sampling and/or reanalysis for confirmation  ;

shall be completed within 30 days of the  :

detemination of the anomalous result. If the confimed measured level of radioactivity '

remains above the notification level, a written report shall be submitted to the NRC. -j If more than one of the radionuclides listed. '

in Table 2-2 are detected in any environs ntal medium, a weighted sua calculation shall be -e performed if the measured concentration of a {

detected radionuclide is greater than 25% of the notification levels. For those radio-nuclides with LLDs in excess of 25% of the ,

notification level, a weighted sua calcula-tion need be performed only if the reported -

value exceeds the LLD. Radionuclide concen- t tration levels, called Weighted Sun &ction  ;

Levels, which trigger a weighted sua calcu-  ;

lation are listed in Table 2-2.  !

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t The weighted sum is calculated as follows:

concentration (1)- concentration (2)

  • notification level (2) ***** weighted notification level (1) sum If the calculated weighted sum is equal to -

or greater than 4, resampling and/or reanalysis for confirmation shall-be completed within 30 ,

days of the determination of the anomalous result. If the confirmed calculated weighted sur remains equal to or greater than 1, a .:

written report shall be submitted to the NRC.

This calculation requirement and report is not * '

required if the measured level of redioactivity was not the restCt of plant effluents.

2.2.4.2 Administrati10 Notification Levels -

The NPERS administrative NLs are the concen-tration levels at which the contracted analyti-  ;

cal laboratory promptly notifies the cognizant ,

NPERS engineer by phone, followed by a fonnal  ;

, written communication. The NPERS a hinistrative  ;

.( NLs are set lower than the NRC regulatory NLs and lower than, or equal to,'the weighted ,

sua action levels so that the nature and origin of the increased level of environ-mental radioactivity may be expeditious 1f .

ascertained and corrective actions.taken if  !

required. l 2.2.5 Sampling Locations  ;

& list of sampling locations and the corresponding ,

location codes appear in Table 2-3. The locations also are shown in Figures 2-la and 2-lb. It is conceivable ,

that samples may become unavailable from specified sample -

locations. If this were to occur, new locations for 1 obtaining replacement samples shall be identified and added l

to the Radiological Environmental Nonitoring Program. If  ;

milk or vegetation samples become unavailable from the specified saspling locations, new sampling locations ,

will be identified within 30 days. The specific locations '

where samples were unavailable may be deleted from the monitoring program. A formal, written reason for the new site and its location shall be transmitted to the cognizant NPERS Engineer who will make the appropriate

- changes to the Environmental Nanual. Any significant ,

(- changes in existing sampling location and the criteria 1

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for the change shall be reported in the semiannual Monitoring Report for the period in which the change occurred. Additional sampling locations may be desig-nated if deemed necessary by cognizant Company personnel.

2.2.6 sampling Media and Frequency The sampling Anquency for the environmental media required by PI@ Technical specifications is found in Table 2-4. In addition to samples required by technical

." specifications, the Radiological Environmental Moni-toring Program also includes the sampling of soil and shoreline sediment. To ensure that all samples are obtained at the appropriate times, two different checklists are used. A yearly checklist provides a month-by-month indication of all samples, encept air, to be obtained at each sampling location (Figure 2-2). .

This checklist also identifies the schedule for the annual milk survey and provides space for recording the date the samples were shipped offsite for analysis. In addition, a separate checklist is provided for each sampling location to identify all samples, including weekly air samples, to be obtained and the collection f ( _. date (Figure 2-3). Because the weekly air samples

\ require additional information, a separate checklist is used for each individual air sampling location as shown in Figure 2-4.

It is recognized that on occasions samples will be lost or that samples cannot be collected at the specified frequency because of hasardous conditions, seasonable unavailability, automatic sampling equipment malfunctions, and other legitimate reasons. Reasonable efforts will-be made to recover lost or missed samples if warranted and appropriate. The reasons or explanations for deviations from the sampling frequency specified in Table 2-4 shall be logged at PENP an$ shall be conveyed formally in writing to the cognizant NPERS Engineer using the appropriate form (Figure 2-6). A description of the reasons for not conducting the saipling as specified and, when appropriate, plans for preventing ti recurrence shall be identified in the next Semiennual Monitoring Report by tia "ognizant NPERS Enginear.

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2.2.7 saspie Labeling All samples must be properly labeled to ensure that the necessary information is conveyed to the analytical contractor and that the results are associated with the correct geographical location. sach label (Figure 2-5) must contain the following:

a. sample typer
b. Sample location including both the location code and location description from Table 2-3;
c. Date and tune. (as appropriate) collected;
d. Air samples must show the total volume in m3 :

volumes for water and milk are in gallons; -

vegetation, sediment, soil, and algae are indicated as < 1000 grams; and fish > 1000 grams;

e. Analyses for routine samples are indicated as "per ::ontract." For special samples,' the Health Physicist or the cognizant specialist - Nuclear

] Health Physics will designate the analyses required

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f. Name of person collecting the sample.

& permanent or indelible ink type felt-tip marker shall be used.

A separate sample label is needed for each sample type and location. Labels are securely attached to each sample container. In addition to sample labels, other identifying markings may be placed on sasple containers as appropriate.

2.2.8 sample. shipping All environmental samples are shipped to a contractor for analysis. The samples shall be packaged and shipped in such a way as to minimize the possibility of cross-contamination, loss, spoilage, and leakage, sach sample shipment shall have a typed cover letter and, when appropriate, a contractor data collection sheet.

Included in the letter shall be the same information required for the sample labels as well as the specific

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._ f anakysesrequired. The original cover letter and data collection sheet shall be sent to the contractor under separate covers one copy of each is to be used as a packing lists and, a copy of each shall be kept in the appropriate PENP file."

2.2.9 Sample analy,ses and Frequency The P8NP Radiological Environmental Monitoring Program samples shall be analyzed for designated parameters at the frequency listed in Table 2-5.

2.2.10 Analytical Laboratory The analyses are performed by a contractor. The current contractor is Teledyne Isotopes Midwest Laboratory 700 Landwehr Road Northbrook, IL 60062-4517 (708) 564-0700.

This laboratory, formerly named Hazleton Environmental Sciences Corporation, perfot1ms i.h5 mrlyges in such a manner as to attain the desired LLDs. The contracted laboratory participates in the interlaboratory comparison-crosscheck program conducted by the U.S. Environmental Protection Agency, Intercomparison and Calibration Section, Quality assurance Branch, Environmental Moni-toring and Support Laboratory, Las Vegas, Nevada.

The contractor is responsible for providing prompt notification to NPERS regarding any 6,mples fmd to exceed the NPERS administrative notification levels es identified in Table 2-2.

2.3 Assistance to the State of Wisconsin As a courtesy and convenience, PRNP personnel obtain certain environmental samples for the Section of Radiation Protection, Department of Health and Social Services of the State of Wisconsin as listed in Table 2-6. A checklist is used as shown in Figure 2-3. In addition, a State of Wisconsin air sampling data sheet is submitted with each sample obtained at Wisconsin air sampling locations serviced by PBNP personnel.

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state of Wisconsin precipitation samples collected twice a month (or as available) require a state sample tag to be placed in a box with the guart cubitainer. state supplied labels for air particulate filters require start and stop time, date, and beginning and ending voluse. Fish sent to the state identify _

only the guarter and the year using a PSNP label (Figure 2-5).

The monthly lake water composite is picked up by state personnel and therefore requires only that the date and location be written on the box for the cubitainer. The state provides a sample tag for the guarterly lake water sagle.

samples obtained for the state of Wisconsin are either given directly to state personnel or shipped as required. The de-partment address is:

I-Radiation Protection Laboratory Room 111 -

! state Laboratory of Hygiene j 465 Henry Mall

j. Madison, Wisconsin $3706 2.4 specification of samplina Procedures 1 ' . (,'

L General radiological environmental sampling procedures follow 1 the directives presented in Sections 2.1 and 2.2. Specific information for handling individual sample types follow.

2.4.1 Vegetation -

Vegetation samples consist of green, growing grasses and weeds and are obtained three times per year, as avail-able, from specified locations. New growth, not dead vegetation, should be used because these samples are indicators of recent atmospheric deposition. Use a scissors or other sharp cutting tool to cut the grasses and weeds off as close to the ground as possible. Do not include plant roots and take care not to contaminate the sample with soil. Total sample collected should exceed 500 grams and ideally should be 1000 grams. l Place entire sample in a plastic bag, tape the bag shut, and label the bag as described in Section 2.2.7.

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. ENVIROISBNT&L MANUAL Revision 7 f March 1990  !

l A' I

. I 2.4.2 Thermoluminescent Dosimeters (TLDs) l 4

TLDs capable of multiple, independent measurements  !

of the same esposure are posted at the twenty-two *

(22) locations specified in Table 2-4 and are i changed quarter 3y. The utmost care in handling is  ;

required to minimise unnecessary esposure during i

. transit, storage, and posting because the TLDs begin i recording all radiation from the moment they are  !

annealed (heated to resero) at the contractor's i laboratory. Packages of TLDs in transit should be  ;

marked "Do NOT X-RAT, CONTAINS DOSINETER$". =

&transportationcontrol(E-TC)shallaccomimnythe new batch in transit from the contractor's laboratory [

to the plant. The control shall accompany the batch ,

during brief storage and subsequent posting. The -

same control shall accompany the "old" or exposed ,

batch on its way back to the contractor. Therefore i each control represents the sum of approximately half  !

the in-transit exposure of the two batches. This control I system is able to identify any unusual in-transit i esposure, j l

' ('

Environmental TLDs should never be brought into l the plant controlled sone or any other area with  !

! elevated radiation, but may be stored for brief i L periods in a shielded enclosure in the Estension ,

l Building or other low background area, such as the ,

! basement of the Enery Information Center or_ the f Site Boundary Control Center. The contractor is to time shipments to coincide as closely as possible 3 with the beginning of a calendar quarter. TLDs I should be shipped back to the contractor immediately or within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> of removal. The contractor is +

instructed to process the samples immediately upon L receipt. The contractor shall report removal date -

and cumulative readings in mR for all locations and "

control, correct for in-transit exposure and empress results in net mR/7 days. Labels of the exposed set '

for shipment to contractor should show both posting and removal dates. 1 l

(

L 2-10

.5NVIROISBNTAL M&NUhL Revision 7 March 1990 h

1 2.4.3 Lake Water Lake water sasples are obtained monthly at specified

-locations. As a special case, the water sasple at the discharge flume is composited weekly for monthly analysis. The contractor is responsible for the compositing for quarterly analyses. Collect approxi-mately 8000 ml of lake water in the required number of cubitainers at each location, and label as directed in Section 2.2.7 Lake water is collected at the request of the State of Wisconsin. These sasples are collected, labeled, and forwarded to the appropriate agency.

2.4.4 Well Water Well water samples are obtained quarterly from the single onsite well, collect approximately 8000 ml of well water using the required number of cubi-tainers. Label as directed in section 2.2.7.

2.4.5 Air

(' 2.4.5.1 Sample collection Air filters are changed weekly at specified locations. Take precautions to avoid loss of collected material and to avoid contamination when handling filters. Washing hands before leaving the plant to change filters is a recommended practice.

Both particulate filters and charcoal cartridges

. are employed at each saspling location.

Particulate filters are analysed for gross  !

beta activity after waiting for at least 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> to allow for the decay of short-lived radon and thoron daughter products. The contractor makes quarterly composites of the weekly particulate samples for gamma isotopic analyses.

A regulated pump (Eberline Model RAS-1 or equivalent) is used at each air sampling location. Because of the automatic flow regulation, rotameter readings at the beginning and ending of the sampling period should be

-( nearly identical. Substantial differences in readings usually require some investigation 2-11

.. o. a ENVIR068 ENTAL NhWUAL Revision 7 )'

March 1990'

' f(_

to determine the cause. The rotameters l attached to the. pumps are calibrated in liters i per minute. When new filters are installed,. I flow rate should be about 28-30 lys. Flow )

rates less than 26 1pm or greater than 32 1pm i require that the pump regulator be readjusted. i The correct flow rate is detemined by multi-plying the rotemeter reading by the correction factor indicated on the calibration sticker afflued to the rotameter, j The pumps are equipped with an elapsed time meter which reads in hours._ Elapsed time in j hours for the sample is obtained by subtracting  !

the meter reading at start time from the l reading at the end of the sampling period. The i fom shown in Figure 2-4 is used for recording .

j pertinent air sampling data for each lot.ation. i At a normal filter change, the following i procedure will apply:

a. Record "date off" on the air sampling- I

, data sheet. i

{ b. Record rotameter reading for end of I period (R2)*

c. Turn off pump and record hour meter )

reading for end of period (t 2)* l

d. Calculate total volume for 3period  !

and enter on data sheet (m ).  :

e. Before removing the filter, label the '

envelope as directed in section 2.2.7.  ;

Also enter any other pertinent information ,

at this time. Always write data on the  ;

envelope before the particulate filter is in the envelope.  ;

f. RePove particulate filter being eareful to handle filter only by edges, place in envelope. ,
g. Removu charcoal cartridge, place in ,

plastic bag, and label as directed in Section 2.2.7.

i 2-12

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BfFIR000ert&L NMRI&L Revision 7 i March 1990  !

i

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. j

h. Install new charcoal cartridge and  !

particulate filter being sure to check  !

the charcoal cartridge for breaks and holes in filter surface. Discard  ;

cartridges with holes and breaks.  ;

i. Record adate on" on a new line of the  !

data sheet. l 4

j. Record hour meter reading for beginning- .(

of period (t y).

j

k. ' Turn pump on. f i
1. Record rotameter reading for beginning  !

of period (Ry).

m. Record correction factor as indicated on .}

calibration sticker affixed to rotameter  !

(C). l t

n. Observe that the starting rotameter  !

reading (R3 ) is close to the previous i g ending rea81ng (Rs). A substantial  !

difference indicates need for further i investigation because the regulator i will generally maintain constant flow- j regardless of filter' loading

o. Any unusual conditions or observations should be referenced under (*) and  ;

recorded under "* NOTES" at the bottom of ,

the data sheet. [

Air samples are collected for the State of Wisconsin at three locations, one of which is ,

co-located with a PSNP air sampling site. They l are handled in a manner similar to PBNP samples except that no charcoal cartridges are involved.

However, State samplers are equipped with volume integrating meters. Therefore, clock time must [

be recorded in addition to the ending and beginning  ;

volumes. Label and forward samples to the state. i i

7 2-13 i

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EBnr19000BNT&L MMRIAL Revision 7 March 1990 2.4.5.2 Air Sampling System Description

'The air monitoring equipment for the P8HP air sampling program consists of a regulated rate control system. The regulated rate control system is used at PaNP because of its simplicity and reliability. It is designed to minimise both calibration difficulties and the potential for leaks. The regulated rate control. system includes a pump,- a flow regulator, an electrical hour meter, the appropriate filter holders and a minimum of tubing. In this system, the total volume sampled can be calculated slaply and accurately from the elapsed time indicated on the hour meter and the. flow rate which is kept constant by the regulator regardless of filter loading.

The air samplers are Eberline b oel R&S-1 (or equivalent) and have built in totameters which read in liters per minute. The systems also include a 1000-hr elapsed time meter, an Eberline WPH-1 (or equivalent) weatherproof

{ housing, and an iodine cartridge holder and mounting kit. Currently, all metallic and rigid plastic tubing and rigid fittings are used in lieu of tygon tubing and quick dis-con-nects. Glass fiber, 47 an diameter, particulate-filters capable of collecting 95% of 1 micron diameter particles and iodine tapregnated char-coal cartridges (Scott or equivalent) constitute the filter media.

2.4.5.3 Calibration .

Calibrate the pump rotameter at initial installa-tion and at yearly intervals thereafter by con-necting a laboratory-quality reference flow meter with NBS traceable calibration to the filter face with the particulate filter and charcoal cartridge

, in position. Upon completion, a calibration sticker indicating the correction factor is affixed to, or near, the built-in rotameter. The results are recorded on the form shown in Figure 2-7.

2-14 j

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. ENVIRogg5BrfAL MhBRi&L Revision 7 March 1990

.k:-

2.4.5.4 Inspection and Maintenance

. Initially, and M quarterly intervals, not to escoed 16 weeks, thereafter, the assembled system should be checked for leaks by attaching the reference flow meter across the face of the filter holder with the filters in position. ~ Leakage in this configuration is-indicated by'a higher read-ing on the built-in rotameter than on the refer-ence flow meter. Because leakage is-indicaced by; disagreement between the two flow measuring de-vices, remember to apply the calibration.correc-tion factor to the built-in rotameter reading.-

Leak tests are to be recorded on the form shown in Figure 2-7.

For normal operation, the regulators should be -

adjusted to maintain a true flow rate of 28-30 liters per minute. Adjustments are made by turning the screw marked FLOW ADJUST. located on the side of the regulator body: counterclx k-wise increases flow, clockwise decreases flow. Flow rates should be observed at all

. (- filter changes. Flow rates less than 26 3pm

\ or more than 321pm require readjustment of the regulator. Particular attentiota should be paid to flow rate readings with the,"old",

loaded filter and with new, unused filters in position. Because of the regulator, the difference in flow should be barely perceptible, perhaps no more than one lpa. Significant differences in flow rates require further investigation to determine the cause.

Preventive maintenance shall be performed on all environmental air samplers and the results recorded on the form shown in Figure 2-7.

2.4.5.5 Pump Repair and Replacement The pumps can operate for long periods of time with minimal or no maintenance. The vane assembly of the pump is most susceptible to failure, indicated by excessive noise or inability to maintain sufficient flow across loaded filters. At least one standby pump should be available for temporary service 2-15 k

s 4 ENVER000EENTAL MANUAL Bevision 7  !

y March 1990 f; r i

i during the repair period. In the event of i motor failures due to causes other than '

defective connections, complete replacement of the unit may be necessary. All pump repairs should be done in a clean-side shop with clean tools.

2.4.6 Milk Because of iodine decay and protein binding of iodine  ;

in aging milk samples, speed is imperative in processing and samples must be kept cool to avoid degradation and spoilage of the samples. Milk samples are obtained monthly in conjunction with the state of Wisconsin milk sampling program from three-  !

individual dairy farmers located ndrth; south, and west .!

-of the site. Because two of the three sites are ,

co-located, the PBNP pickup is coordinated to coincide i with the state arranged schedule. .The pickup'usually will be the first Wednesday of the month. j l- The following sequence should be followed:

( a. After verifying the State milk pickup date with

\ the Manitowoc Public Health Department (Mr.

  • Alan Troullier, phone number'683-4454) notify ,

Mr. Leon Strutz (755-2060) of the pickup date.

This must be done because the strutz farm (PBNP-sampling location E-21) is not a State of Wisconsin sampling site. -

p. Because the milk must be kept cool, but not I frozen, fill enough cubitainers with water and L

freeze to be able to put one in each shipping container. Fill the cubitainers with water '

and freeze the day preceding the pickup.

c. The milk from the Strutz farm (E-21) must be picked up before 0900 because that is the time '

the-Strutz milk is shipped. A late arrival ,

may mean a missed sample. Milk from sites  !

E-11 and E-19 may be picked up any time after the Strutz pickup.

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f Elnf1R00BIENTAL MANUAL Revision 7 i l , March 1990  ;

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d. Identify yourself and the nature of your '

business at each milk pickup site. collect  ;

two one-gallon samples from each site, using a '

funnel if necessary. Place each gallon in a '

one-gallon box liner for shipment. If l shipment cannot occur on the collection day, i store the milk in a clean-side refrigerator overnight. DO NOT FREEZE. t

e. Complete a PSNP sample tag according to Section 2.2.7 for each gallon sasple and place in the box with the sample. Do not seal the box. Place the samples in insulated containers (found on the Ready Stores  :

receiving dock) and.take them to Ready Stores. ,

Make sure that the cover letter and, as appropriate, the contractor data collection sheets are sent according to Section 2.2.8 of this manual. .

{

2.4.7 Algae i Filamentous algae are collected from pilings or rocks three times per year, as available, from two locations. .

The long, grassy, dark green algae can nomally be cut

( vith scissors. The shorter, light green algae

\ normally must be scraped from rocks or pilings. When ,

scraping algae, be careful not to include pieces of -

rock in the sample. The sample can be lightly rinsed in the same medium in which it is growing. -This  ;

rinse will help rid the sample of pieces of rock and r gravel that may have been inadvertently collected ,

with the sample. Because rocks and sediment contain naturally occurring radioactive materials, their '

inclusion may give false sample resulte. Collect between 100 and 1000 p of' algae. A sample greater l than 500 p is preferred. Place the algae in a 1000 al cubitainer and label the container as directed in Section 2.2.7. The algae must be kept cool to prevent spoilage.

2.4.8 Fish Fish are obtained three times per year (March, August, and December) as available either from the traveling ,

screens as washed into the fish basket or by other methods as required. For any given sampling period, three fish or a sufficient number to yield at least 1000 gm of fillets should be provided.

2-17 ,

ENVIRCISEENyE MDRIAL Ravision 7 March 1990

(' .

Place fish in plastic bags and tape and/or tie tightly closed. Fish are stored briefly in a radiologically clean freezer. It may be desirable in wam weather to coordinate milk and fish saspling, thereby allowing simultaneous shipment in insulated containers. Pack ffsh samples with ice if needed. Label bags as directed in section 2.2.7, being sure to indicate fish species when possible. Following packaging of fish, remove and discard any fish left in the freezer. This avoids sending fish that are not representative of the sampling period.

V

< , Fish are obtained four times per year (March, June, September, and December) for the state of Wisconsin.

Fish sampling performed for the state is performed in the same manner as that for the plant. Approximately four fish should be sent to the state at each sampling .

period.

In March and December split samples are sent to Teledyne and the State of Wisconsin. Each fish is

-birected with one half going to Teledyne and.the other half-to-the state.

2.4.9 soil.

Soil integrates atmospheric deposition and acts as a reservoir for long-lived radionuclides. Although soil sampling is a poor technique for assessing small incre-mental releases and for monitoring routine releases,-it does provide a means of monitoring long-tem trends in atmospheric deposition in the vicinity of PBNP. There-fore soil samples are obtained two times per year from-specified locations.

~

Clear the vegetation from a 6a x 6" area, being careful to leave the top layer of soil relatively intact. Remove root bound soil by shaking the soil onto the cleared area or into the sample container before discarding the roots. When necessary, it is preferable to leave some roots in the soil rather than to lose the top layer of soil.

Remove the soil to a depth of 3 inches. If necessary, expand the area, instead of digging deeper, to obtain the required amount of sample. If an area larger than 6"m6" is used, notify the cognizant NPERS Engineer of the area used. The minimum acceptable quantity is 500 grams. Place the entire soil sample

(_. in a 1000 ml plastic bag and seal the bag with tape.

Label the sample as directed in Section 2.2.7.

2-18

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ENVIRONNENTAL MhNUAL Revision 7 l L March 1990 )

. l

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, I c This nrocedure assumes that the samples are obtained  ;

I from undisturbed land, land that has not been plowed

l. within, approximately, the last 25 years. _If the. {

L land has been plowsd, the soil should be sampled to  !

the plow depth which typically is 8' inches. Place  ;

the soil in a clean bucket or appropriate size  !

plastic bag, homogenise the soil, and place 1000 1 grams of the well mixed soil sample in a plastic l j bag and label as described above. j 2.4.10 shoreline sediment )

Shoreline sediment consisting of sand and smaller l grain size material.is sampled 2 times per year I i

from specified locations. The 1000 gram sample is I collected, from beach areas near the water ridge. l At each location collect representative samples of -

'l sediment types rou'hly g in proportion to their I occurrence. For example, at E-06 avoid collecting a sample which consists exclusively of the dark-brown to black sediments which occur in layers up to ]

several inches thick. Package the sample in a 1000 ml i cubitainer and label as described in section 2.2.7. l 1(L 1 2.5 Milk Survey.

1 i

l ll In accordance with PBNP Technical Specifications, the milk j sampling program is reviewed annually, including a visual verification of animal grazing in the vicinity of the site i boundary, to ensure that sampling locations remain as l conservative as practicable. The verifh:ation is conducted' each summer by cognizant PBNP personne*.. Because it is i already assumed that milk animals may graze up to the site I

boundary, it is only necessary to ,e-ify that these' animals have not moved onto the site. W alinal census is required.

Upon completion of the visual check, PBNP personnel will ]

notify NPERS in writing. To ensure performance of the annual verification, anilk review" is identified on the sampling checklist, Figure 2-2.

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-.(.. - - . . .. -..

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ENVIR000tDff&L M&NUhL Revision 7 I

- March 1990 ,

j Li l

\~  !

.i T&BLE 2-1 l

RECOMMDIDED MINIMUM S&MPLE SIZE Sample Type She j 1

Vegetation 100-1000 gm. -

Lake Water 8litgrs  ;

Air Filters 250 m Well Water 8 liters Milk 8 liters Algae .

100-1000 gm Fish (edible portions) 1000 gm Soil 500-1000 gm .

Shoreline Sediment 500-1000 gn-1 1- ,

1

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2-20

7, ..

ENVIR0000 ENTAL MANUAL Revision 7 3 March 1990 l

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(. ,

T&BLE 2 SAMPLE TYPES AND ASSOCIATED LOWER LEVEL OF DETECTION (LLD) AND

~

NOTIFIC& TION LEVEL VALUES i

SANPLE TYPE REPORTING PAR & METER LLD(a) NOTIFICATION LEVELS WEIGHTED SUM UNIT NRC NPERS(b) ACTION LEVEL i (Regulatory) (&dmin.) .

vegetation pCi/g wet Gross Beta (c) 0.25 -

60 .

Cs-137 0.08 2 0.40 0.50 i Cs-134 0.06 1 0.20 .

0.25 ,

I-131 0.06 0.1 0.06 0.06 i 0.25 2.0 Other(d) - -

I T

Shoreline pci/g dry Gross Beta 2.0 -

100 -

Sediment and Cs-137 0.15 - 20 -

Soil (e) Other(d) 0.15 -

20 -

Algae pCi/g wet Gross Beta 0.25 -

12 -

i Cs-137 0.25 10 1 12 . 5 Cs-134 0.25 10 1 2.5  ;

Co-58 0.25 10 1 2.5 i co-60 0.25 10 1 2.5 L Other(d) 0.25 -

1 -

i Fish- pC1/g wet Gross Beta (c) 0.5 -

125 -

Cs-137 0.15 2 0.40 ' O.50 Cs-134 0.13 1 0.20 0.25 Co-58 0.13 30 3 7.5 i Co-60 0.13 10 1 2.5-Mn-54 0.13 30 3 7.5 Fe-59 0.26 10 1 2.5 En-65 0.26 20 2 5.0 other(d) 0.5 - 6 -

TLDs mR/7 days Gamma Exposure inR/TLD - 5 mR/7 days -

L(

2-21

  • I _- ___--e -----_ _ _ _ _ _ _ - . _ _ _ _ . _ _ - - _ - _ _ _ _ . _ * - er-
  • wed-"' *-ev 's- u=*e-r9-v-- em r-

ENVIRONMDITAL MhWUAL Rsvisicn 7 L -March 1990

(.-

TABLE 2-2 (Continued)

SAMPLE TYPE RFSORTING PARAMETER LLD(a) NOTIFICATION LEVELS WEIGHTE, SUI UNIT NRC NPERS(b). ACTION LEVEL-(Regulatory) (Admin.)

Lakewater'and_: pCi/l'-T.S.(f) Gross Beta 4 -

100- --

  • Well Water Cs-134 15 30 15 15 Cs-137 18 50 18- 18 Fe-59 30 400 40 100 En-65 30 300 30- 75 Zr-Nb '35- 15 400 40 100 Ba-La-140 15 200. 20 50 Co-58 15 1000 100 350-Co-60 15 300 30_ 75 Mn-54 15 1000 100 250 I-131(c) 2 - 2 -

Other(c) 30 -

-100 -

H 3,000 30,000 -3000 7500 Sr-89(c) 10 - '50 -

Sr-90(c) 2 - 20 --

Milk- pCi/l Sr-89(c) 5 - 100 -

Sr-90(c) 1 -

100 -

I-131 0.5 3 0.5 0.75

.Cs-134 15 60 15 15 Cs-137 18 70 18 18 Ba-La-140 15 -300 30 75 other(d) 15 -

30 -

3 Air Filter.* pCi/m Gross Beta 0.01 -

1.0 -

I-131 0.07 0.9 0.09 0.2

-Cs-137 'O.06 20 2.0 5.0 Cs-134 0.05 10 1.0 2.5 other(d) 0.1- -

1.0 -

(a). The LLDs in this column are the maximum acceptable values.

(b)' The values in this column are not technical specifications.

(c) This parameter and associated LLD and Notification Level are not Technical Specifications items.

.(d)~ other refers to non-tech spec identifiable gamma emitters.

(e) These sample types and associated values are not required by the technical

. - specifications.

(f) T.S. = total solids.

2-22 3

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e ENVIRONMENTAL MANUAL; <

Revision 7- i N ' March 1990' e ,

l TABLE 2-3 I RADIOLOGICAL ENVIRONMENTAL SAMPLING LOCATIONS J E

, Location Code. Location Description E-01 Meteorological. Tower E-02~ . Site Boundary Control Center .- E side of building E-03 ~Tapawingo Road, about.0.4 miles W of Lakeshore Road'

'* E-04 North Boundary

!-- c E-05 Two Creeks Park

-E-06 Point Beach State Park - Coast Guard Station L

E-07 WPSC Substation on County Rt. V about 0.5 miles

'W of Hwy 42

. E-08 G. J. Francar property, at the SE corner of I the intersection of Hwy-163 and Zander Rd. . I

'E-09 Nature Conservancy E-10 PBNP Site Well E-11 Dairy Farm (W. Funk), about-3.75 Miles West of. Site E-12 Discharge Flume / Pier'.

L E-13 Pumphouse I

E-14 - South Roundary about 0.2 miles I of Site Boundary-Control Center '

3. E-15 Southwest Corner of Site L, E-16 WSW, Hwy. 42, Bishop Residence about 0.25 miles N of Nuclear Road E-17 North of Mishicot, Hwy.163 and Assman Road, NE Corner of Intersection  !

E-18 Northwest of Two Creeks at Zander and Tannery Roads l: E-19 -

Local Dairy Farm about 2.7' Miles North of Site (R. Lehrmann) 3 l:" E-20 Reference Location, 17 miles SW, at Silver Lake College-

) E-21 Local Dairy Fara Just South of Site (L. Strutz) I L on Lakeshore and Irish Roads E-22 W side of Hwy, 42,'about 0.25 miles N of Johanek Road 4 E323 Greenfield Lane, about 413 Miles South'of Site, 0.5 Miles-

, East of Hwy.L42 E-24 N side of County Rt. V near' intersection of Saxonburg Road E-25 S side of County Rt. BB about 0.5 miles W of Norman Road E-26 804 Tapawingo Road, about 0.4 miles E of Hwy 163 q f N side of road B E-27 Intersection of Saxonburg and Nuclear Roads, SW Corner, about 4 Miles WSW E-TC Transportation Control; Reserved for TLDs (I

2-23

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

[fh s'* I * - 5 g ,

ENVIRONMENTAL ~ MANUAL R;visitn 7i -!

March 1990: i s )

,1 f 1 F  !

TABLE 2-4  ;

o  ;

L PBNP RADIOLOGICAL ENVIRONMENTAL ~ SAMPLE COLLECTION FREQUENCY  !

\; 1 L ,

C .j u

t L- SAMPLE TYPE: SAMPLE CODES- COLLECTION FREQUENCY  :

} a

-i l:.. .

Environmental radiation Quarterly.

E-01,-02,-03,-04,-05,  :

O exposure.

~

-06,-07,-08,-09,-12, l ,

-14,-15,-16,-17,-18, I

-20,-22,-23,-24,-25, j

-26,-27  ;

Vegetation E-01,-02',-03,-04,-06, 3x/yr as available *

-08,-09,-20 Algae E-05,-12 3x/yr as available  ;

g Fish E 3x/yr as available f:

Well water E-10 Quarterlyf Lakewater E-01,-05,-06,-09,-12 E-12 collected weekly for monthly composite.

Others collected'  :

, monthly,  :

Milk-E-11,-19,-21 Monthly-i . Air' filters' E-01,-02,-03,-04,-08, Weekly. particulate filters an6 charcoal

, canisters by contin - '

uous air sampler.

Soil. E-01,-02,-03,-04,-06, 2x/yi- i

-08,-09,-20 Shoreline sediment E-01,-05,-06,-09,-12 2x/yr i

i Kq l 2-24 l

_ ' _ _ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ . _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ m

p ap: >

' INVIR008tENTAL MANUAL Rovision 7 March 1990 S

TABLE 2-5 PBNP RADIOLOGICAL ENVIRONMENTAL S&MPLE ANALYSIS AND FREQUENCY S&MPLE TfPE S&MPLE CODES ANALYSES FREQUENCY.-

Environmental radiation. E-01,-02,-03,-04,-05, TLD .

Quarterly exposure -06,-05,-08,-09,-12,

-14, '. ,,-16,-17,-18,-

'-20,-22,-23,-24,-25,

-26,-27,-TC Vegetation E-01,-02,-03,-04,-06, Gross beta 3x/yr as availault

-08,-09,-20 Gamma isotopic analysis

-Algae. E-05, Gross beta 1 3X/yr as'available Gamma isotopic analysis k:' Fish E-13 Gross beta 3x/yr as availableL

' Gamma isotopic.

analysis (analysis of edible por-tions only)

Nell water E-10 Gross beta, H-3 Quarterly Sr-89,90, 1-131 Gamma isotopic analysis

. (on total solids)

Lakewater' E-01,-05,-06,-09,-12 Gross beta Monthly-H-3, Sr-89,90 Quarterly composite of monthly collec-tions I-131 Monthly

. Gamsa isotopic Monthly analysis (on total solids)

Milt E-11,-19,-21 Sr-89,90 Monthly I-131 Gamma isotopic

]'- analysis 2-25 i

ENVIR008tENTAL DENUAL Ravisian 7 March 1990.

. T&BLE 2 (Continued)

S&MPLE TYPE -SAMPLE CODES ANALYSES FREQUENCY Air filters E-01,-02,-03,-04,-08, Gross beta. Weekly (particulate)

-20 1-131 Weekly (charcoal).

Gamma isotopic Quarterly (on-analysis- ' composite par.-

ticulate filters)

Soil E-01,-02,-03,-04,-06, Gross be'.a .

2x/yr

-08,-09,-20 Ganna isotopic analysis-Shoreline sediment E-01,-05,-06,-09,-12 Gross beta __

2x/yr Gamma isotopic analysis-e 4

2-26

X ENVIRONMENTAL ~ MANUAL R:;visiin 7 -

March 1990 '

j.?: TABLE 2-6 SAMPLES COLLECTED FOR STATE OF WISCONSIN Sam le Type Location Frecuency l'. Lake Water E-12 Weekly, Composited Monthly

-E-05 Quarterly

2. ' Air Filters E-07 Weekly I n, ..

E-08 .

Buechert Residence j l' ;j

3. Fish. E-13 Quarterly -l As Available ,

)

4. Precipitation -E-01 Twice a month,:

E-04 As Available E-07 E-08 )

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2-27

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ENVIRONMENTAL MANUAL R;visitn 7

+ March 1990 I

-I.

t ,

3.0l.NON-RADIOLOGICALlbNITORING The measurement of meteorological data -is the only non-radiological environmental monitoring currently required by P8NP Technical

' Specifications. -In accordance with Amen &ient Nos. 69 and 74 to Facility Operating Licenses DPR-24 and DPR-27, respectively, dated .,

March 11, 1983, all other non-radiological environmental monitoring: ';

hos been deleted. The meteorological data are.kept on site for review by the NRC upon request.  !

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.) , 15.7.7 OPERATIONAL ENVIRONMENTA1, MONITORING PROGRAM

-)

1 1

7 Applicability l 1

, ' This section applies to operational environmental radioactivity monitoring _

and sampling. 1 l

-l

[

L Obhectise 1 L I s

(

q, To verify that-plant operations have no significant radiological effects-on the environment.

l 1

Specifications , l 1

f. . - Environmental Monitorina Program
1. Environmental monitoring scaples shall be taken at locations specified in the PBNP Environmental-Manual according to the h sampling and collection frequencies given in Table 15.7.7-l'.
2. Deviations from the required sampling schedule as specified in Table 15.7.7-1, are permitted if hazardous conditions, seasonal--

unavailability, automatic sampling equipment' malfunctions, and l other legitimate reasons make the sample unobtainable.. If'the radiological environmental monitoring program is not being con--

l ducted as specified in Table 15.7.7-1, a description of the reasons- j for not conducting the program and the plans for preventing a recurrence will be submitted with the next Semiannual Monitoring Report.

3. 'If milk or vegetation samples become-unavailable from one or more

- of the sample locations specified in the PBNP Environmental Manual, ,

identify locations for obtaining replacement samples and add 'l 1

them to the radiological environs. ental monitoring program within j

.30 days. The specific locations from which samples were unavail- ) .

able may then be deleted from the monitoring program. The cause _

l of the unavailability of camples and replacement samples shall-be l

l l

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TABLE 15.7.7-3 RADIOLOGICAL ENVIRomENTAL MONITORING ANALYSIS ..,

  • liOTIFICATION LEVELS . _

l - Well Water &-

(

Milit Lake Water- Algae- Fish Vegetation (pci/a wet) Airbory)

(pci/m (pC1/1)  : (pC1/1)-T.S. (pci/a wet) (pC1/a wet) . 9 _

Analysis

~ 30,000 ,

H-3  : ._

I-131 0.1 0.9 3 70 50 10 2-Cs-137 2 20 60 30 10 1 Cs-134 1 10 1,000  : 10 ' 30 Co-58 300- 10 10 Co-60 300 -200 Ba-La-140

(

1 400 j Zr-Nb-95 i 400 -10 l Fe-59 -i 300 20 Zn-65 1,000 30 Mn-54 m

w- e e mm, , - -  %:_.i -

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.t.$e+ny , ng e 9-e j 14-sWy gWg* .mir'a siqr se-9 e p 4- is-

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NOTES FOR TABLE 15.7.7-2

1. For gamma isotopic amelysis of environmental. samples,.the spe<.trum is' scanned over the energybe attri range of 80"to 2048 kev for gamma ray emitting radionuclides which mayThe analysis specifically i Nuclear Plant effluents.  :.

Co-58,-Co-60, Er-Nb-95, Ra-103 Re-106, I-131, Ba-La-140, Co-134 Cs-137, Ce-141, and Co-144. .

2. The environmental T1hs'have an LLD of 1 ares / chip.

~

3. No drinking water
4. T.S. = total solids 4

9 4

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WellWaterg v

Milk  : Lake Water. Algae .

.'Fieb .

vegetation Airbory) . (pC1/1) '(pci/1)-T.S.4 (pci/g wet) -(pci/g wet) ;-

(pC1/a wet)_ (pCi/a _

Analysis _

4 0.25 -

0.01 Cross Beta e 3.000 H-3 Camma Scan 0.06 0.07 0.5 I-131 18 O.25 0.15 0.06 18 Cs-137 0.08 15 0.25 0.13 0.05 15 Cs-134 0.06 15 0.25 0.13 Co-58 15 0.25" 0.13 Co-60 15 15-

.Ba-La-140 15 Zr-Nb-95 30 0.26-Fe-59 .

30 0.26' Zn-65 15- 0.13-Mn-54 S

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' TABLE:15.7.7-1L(Continued)

COLLECTION'- - ANALYSIS TYPE '-

8P3nr2 & LOCATION OF

~

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LSAMPLES PREQUENCY AND PREQU DCY L SAMPLE TYPE 1 - Onsite well quarterly H-3 quarterly with gasma isotopic ,J Well water analysis performed quarterly lon total solids ..

Discharge flume Monthly Monthly gross beta and gauma' isotopic-Lake water (discharge analysis-of total. solids. H-3 analysis 2 - N of discharge 0.5 to 5 flume is -quarterly on composite miles from PBNP- collected weekly and 2 - S of discharge 0.5 to 5 composited miles from PBNP for monthly analysis) 1 - Reference location as de-- Weekly by Radiciodine weekly on charcoal cenisters. -

Air filters scribed above continuous Gross beta weekly on particulate filters air sampler- after at-least 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> decay. Gamme?

4 - In the general ~ area of the- , isotopic analysis quarterly on particulate site boundary filter composites.,

1 - About 6 miles W of'FBNP 3 - Dairy farms about 2-6 miles N. Monthly Monthly.gamme isotopic analysis and Milk radioidine analysis

.W. and 5 of PBNP 1 - Travelling screens 3x/yr as =Osame isotopic analysis 3x/yr as avail-Fish able. Analysis of edible portions only available' 2 -- Along shore within 5 miles 3x/yr ss Cross beta and.ga m isotopic ana1

~

_7 sis Algae N and S'of discharge _

available- 3x/yr as'available:

~

_ . __ _ _ _ _ . _ _ _ . - - . _ - .  : . ---- J

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.0PERATIONAL' RADIOLOGICAL ENVIRONMENTA1 PROGRAM _

COLLECT 10N ANALYSIS TYPE NUMBER & LOCATION OF-SAMPLES FREQUENCY: AND FREQUENCY SAh?LE TYPE .

Gasms dose quarterly

~

23 TLDs are distributed as fol1ows: Quarterly Direct environmental '

(Esch TLD contains 2 chips) ~

9 - In the general-area of the-site _

' boundary in'the nine meteor-logical sectors around'the Point Beach Nuclear Plant o

1 - On the Lake Michigan side of PBNP 11 - In a ring around PENP ct a

  • distance of'3 to 6 miles from the plant 1 - Background reference in a low -

D/q area greater than 16 miles t

irom PENP 1 - Transport control 8 samples of vegetation obtained as 3x/yr as Radiciodine and gamma isotopic analysis Vegetation available performed 3x/yr as samples are available follows:

1 Background reference as de-

! scribed above 4 - In the general area of the

i site boundary = ,

3 - At locations'N,,W'and 5 of PSNP' 1

at 3-6 miles from the plant; _

- .- . .._.___-__c ;_--__________-_-_________-_ . _. - _ - _ _ =_ _--... -~- ..

_-_z.-- - .~:-.

l '

"i.-

Th3 icnd'in th) oron of Pcint'Besch Nuclocr Plent is used primarily;for' .

h' g7 o ffarming and dai'y r operations.- Therefore, radiological' environmental sampl-ing of; vegetation is conducted.to detect changes in radiological conditions f( ' ~

st the base of the food' chain ~. ,Sanipling of area produced milk is carried ~

out because dairy farming is a major industry in the area.

' Water, periphyton, and fish are analysed to monitor radionuclide levels in- ,

a

' Lake Michigan in the vicinity of PBNP. Periphyton',. attached algae, concen- -j trate radionuclides from the surrounding lake water.. Therefore, algae- .i

~ samples, along with lakewater samples, provide a means of detecting changes which may hava a potential impact on the.radionuclide concentrations in Lake'

~

L . Michigan. fish. Because:of the migratory behavior of fish, fish' sampling is.

of minimal value for determining radiological impact specifica11y'related to-the, operation of the; Point Beach Nuclear Plant. However, fish'sempling is l- carried out as a conservative measure with' emphasis on species which are of y

} intermediate trophic level and which exhibit minimal migratica in order to monitor the status of radioactivity in-fish.

' Vegetation, adgae, and fish sampling frequencies are qualified on an "as '

L_"_ available" basis recognizing that certain biolog1 cal samples may occasionally n '

H -be unavailable due to environmental conditions.

J l

1 e

T

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15.7.7-4

  • d 4 _m_-____ i._.___

m

<7 g" a

  1. (
the, confirmed calculated' weighted sum rema~ ins equal to or' greater j [ tha6*'1,'a written report shall be submitted to the NRC in accor-E dance with Section 15.7;8.4.8 within thirty _(30) days"of the' con-

- firmation. LThis calculation requirement and report'is not required if the measured-level of radioactivity was not the result'of plant-

$1 effluents.

3. .All detected radionuclides shall be reported-in the Semiannual-Monitoring Reports.-_. Naturally' occurring nuclides such as Be-7,=

K-40, and the U-238 and Th-232 decay series radionuclides shall 9 'not be included in-this requirement.- d 7 D.. Land Use Census A '1. The~ milk sampling program shall be reviewed annually.. including. i a~

a visual' verification of animals- grazing in the vicinity of the site boundary, to ensure that sampling locations remain as con-' '

servative as practicable. -

E. _Interlaboratory Comparison Program

1. The environmental sampling analyses shall be performed by a laboratory participating in an interlaboratory Comparison
a -Program.. 1

\? 2. If the analytical laboratory is not participating in the' Inter-laboratory Comparison Program, a description of the corrective actions to be-taken to preclude a recurrence shall be submitted in-the Semiannual Monitoring Report.  !

q Basis The operational radiological environmental monitoring program as outlined.in~-

o . .

2 Ro Table'J5.7.7-1 provides suf ficient sample types and locations to detect and i

to evaluate changes in environmental radioactivity.. Although radioactivity _ i in plant offluents.is continuously monitored and releases are well below' 15 levels which are considered safe upper limits, radiological environmental--

monitoring is a conservative measure undertaken to determine whether the operation of the Point Beach Nuclear Plant produces any significant radio-l? logical change in the surrounding environment.

L Radioactivity is released in liquid and gaseous affluents. Air particulate fu

'L samples and thermoluminescent dosimeters placed at various locations provide .

means of detecting changes in environmental radioactivity as a result of plant

  • eleases to the atmosphere. .

i 15.7.7-3 m ,

p.p 9., '4 .

]

w ,.

identified in the next-Semiannual Monitoring Report. Figures and

'tableis'in;the Environmental Manual are to be revised reflecting the new sample locations.

B.' Detection Capabilities

1. -Environmental samples shall be analyzed as specified in Table 15.7.7-2.
2. The required detection capabilities for environmental sample analyses are tabulated in terms of the lower limits of detection

' (LLDs)'. -

3. If circumstances render the stated LLDs in Table 15.7.7-2'unachiev-  ;

able, the contributing factors shall be identified and described-

.l f

1 t~ in next Semiannual Monitoring Report. 1 1 C. Notification Levels 1.. If a measured level of radioactivity in any environmental medium:

exceeds the notification level listed in Table 15.7.7-3, resampling. 3

-and/or reanalysis for confirmation shall be completed within 30 >

n 1 days'of the determination of the anasolous result. If the con-  !

t

. firmed seasured level of radioactivity' remains above the notift- a s

cation. level,'s-written report shall-be su'aitted b to the NRClin -r

- *b, accordance with Section 15.7.8.4.B within thirty days of the. j confirmation. This report is not required if the measured level of radioactivity was not the result of plant. effluents. .

.2. 'If more than one of the radionuclides listed in Table 15.7.7-3 j are detected in any environmental medium,-a-w.ighted sua calcula- d tion shall be performed if the measured-concentration of's detec s

.. ted radionuclide is greater than 25% of the notification levels. l

- o r

[ -. For nose radionuclides.with LLDs in excess of-25% of the notifi-cation level, a weighted sua calculation need only be performed if the reported value exceeds the-LLD. a

~

The weighted aus is calculated as follows:

  1. concentration (1) concentration (2)

, +... = weighted notification level (1) notification level (2) sum If the calculated weighted sua is equal to or greater than 1,

. .b resampling and/or reanalysis for confirmation shall be completed within 30 days of the determination of the anamalous result. If b

15.7.7-2