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{{Adams | {{Adams | ||
| number = | | number = ML003739496 | ||
| issue date = | | issue date = 04/30/1975 | ||
| title = | | title = Programs for Monitoring Radioactivity in Environs of Nuclear Power Plants | ||
| author name = | | author name = | ||
| author affiliation = | | author affiliation = NRC/RES | ||
| addressee name = | | addressee name = | ||
| addressee affiliation = | | addressee affiliation = | ||
| Line 10: | Line 10: | ||
| license number = | | license number = | ||
| contact person = | | contact person = | ||
| document report number = RG-4. | | document report number = RG-4.1 Rev 1 | ||
| document type = Regulatory Guide | | document type = Regulatory Guide | ||
| page count = 4 | | page count = 4 | ||
}} | }} | ||
{{#Wiki_filter: | {{#Wiki_filter:U.S. NUCLEAR REGULATORY COMMISSION | ||
REGULATORY | REGULATORY GUIDE | ||
OFFICE OF STANDARDS DEVELOPMENT | |||
OF | REGULATORY GUIDE 4.1 PROGRAMS FOR MONITORING RADIOACTIVITY IN THE ENVIRONS | ||
STANDARDS | |||
REGULATORY | |||
GUIDE 4. | |||
IN THE ENVIRONS | |||
OF NUCLEAR POWER PLANTS | OF NUCLEAR POWER PLANTS | ||
==A. INTRODUCTION== | ==A. INTRODUCTION== | ||
General Design Criterion 64, "Monitoring Radio activity Releases," of Appendix A, "General Design Criteria for Nuclear Power Plants," to 10 CFR Part 50, | |||
"Licensing of Production and Utilization Facilities," | |||
requires that licensees provide means for monitoring the plant environs for radioactivity that may be released from normal operations, including anticipated opera tional occurrences, and from postulated accidents. | |||
Paragraph 20.106(e) of 10 CFR Part 20, "Standards for Protection Against Radiation," provides that the Commission may limit the quantities of radioactive materials released in air or water during a specified period of time to ensure that the daily intake of radioactive materials from air, water, or food by a suitable sample of an exposed population group, averaged over a time period not exceeding one year, would not exceed specified quantities. Section 20.201 of | |||
10 CFR Part 20 further requires that a licensee conduct surveys of levels of radiation or concentrations of radioactive material as necessary to show compliance with Commission regulations. | |||
This guide describes a basis acceptable to the NRC | |||
staff for the design of programs for monitoring levels of radiation and radioactivity in the plant environs. | |||
==B. DISCUSSION== | ==B. DISCUSSION== | ||
Present requirements to keep levels of radioactive material in effluents as low as practicable should | Present requirements to keep levels of radioactive material in effluents as low as practicable (as specified in | ||
10 CFR §50.34a) should ensure that radiation doses to the public resulting from effluent releases will continue to remain minimal. The principles presented in this guide are considered an acceptable basis for establishing preoperational and operational monitoring programs to provide information needed to determine whether ex posures in the environment are within established limits and to ensure that long-term buildup of specific radio nuclides in the environment will not become significant. | |||
The | |||
A preoperational program should be conducted in the environs of each proposed nuclear power plant site to | |||
(1) measure background levels and their variations in environ'mental media in the area surrounding the plant, | |||
(2) evaluate procedures, equipment, and techniques, and | |||
(3) provide experience to personnel. | |||
Years of experience at various Atomic Energy Commission facilities have demonstrated that specific radionuclides behave in known ways under given | |||
"environmental conditions. Therefore, analyses of "indi cator media" can be used to define radionuclide levels in the environment. The "indicator medium" (or organism) | |||
concept of environmental surveillance involves the sampling of organisms and media which are sensitive and reliable measures of the quantities of individual radio nuclides cycling through pathways. For example, where the plant-cow-milk-man food chain is determined to be an important pathway, it may not be necessary to extensively sample and measure grazing plants and fodder to keep track of iodine-131 cycling in the food chain, since sampling and measuring the milk produced by dairy cows in surrounding areas may be adequate. | |||
After the plant is in operation, a program for measuring radiation levels and radioactivity in the plant environs must be maintained on a continuing basis to assist in verifying anticipated radioactivity concentra tions and related public exposures. The initial pre operational and operational monitoring programs should be designed in accordance with the following criteria: | |||
1. They should be based on the analysis of important pathways for the anticipated types and quantities of radionuclides released from the plant into the surround ing environment; | |||
USNRC REGULATORY GUIDES | |||
Comments should be sent to the Secretary of the Commissio | |||
====n. U S ==== | |||
Nuclear Regulatory Commission. Washington. 0 C. 20656. Attention Docketing and Regulatory Guides are issued to describe and make avareble to the public Service Section methods acceptable to the NRC stall of implementing specificý parts of the Commission's regulations, to delineate techniques used by the staff in evalu The guides are Issued in'the following ten broad divisions. | |||
sting specific problems or postulated accidents, or to provide guidance to appli cants Regulatory Guides are not substitutes tor regulations. and compliance I Power Reactors | |||
6 Products with them is not required Methods and solutions different from those set out in | |||
2 Research and Test Reactors | |||
7 Transportation the guides will be acceptable if they provide a basis for the findings requisite to | |||
3 Fuels and Materials Facilities | |||
8 Occupational Health the issuance or continuance of a permit or license by the Commission | |||
4 Environmental and Siting | |||
9 Antitrust Review Comments arid suggestriiis for improvements in these guides are encouraged | |||
5 Materials and Plant Protection | |||
10 General at all times and guides will be revised as appropriate, to accommodate corn ments and to reflect new inflrtmation or experience However. comments on Copies ot published guides may be obtained by written request indli am 9 the this guide. if received within about mwo rioniths after irs issuance will be par divisions desired to the U S Nuclear Regulatory Commission Washington 0 C | |||
ticularly useful in evaluating the need for ad early revision | |||
206555 Attetion Director Office of Standards Development Revision 1 April 1975 | |||
2. They should consider the possibility of buildup of long-lived radionuclides in the environment and identify physical and biological sites of accunrulation that may contribute to human exposures; | |||
3. They should conside'r the potential radiation ex posure to important plants and animals;1 | |||
4. They should be designed to establish correlations between levels of radiation and radioactivity in the environment and radioactive releases from plant opera tion. (A variety of techniques, including measurements at control locations, preoperational surveys, and com parisons of operating versus shutdown levels of radio activity in the environs may all be useful for this purpose.) Information of this nature will be of consider able help in modifying the initial environmental measurements program. | |||
Data obtained from this program should be used by the licensee to show that environmental levels are consistent with those determined from the effluent radiation monitoring and sampling program. The latter program is used together with dispersion estimates to ensure that plant releases to the environment and radiation doses to the public are maintained within the numerical design objectives determined to be as low as practicable. | |||
The | The Commission's staff has evaluated the types of information needed to provide supporting evidence for assessing the performance of the plant with respect to keeping population exposures as low as practicable and to verify predictions of concentrations of specific radionuclides in the environment based on effluent measurements at the plant. Based on this evaluation and on a review and assessment of existing licensees' | ||
monitoring and reporting programs, the staff has de veloped the regulatory position set forth below. | |||
==C. REGULATORY POSITION== | |||
The program for monitoring radioactivity in the environs of nuclear power plants should provide suitable information from which levels of radiation and radio activity in the environs of each plant can be estimated. | |||
to | 1A species, whether animal or plant, is "important" if a specific causal link can be identified or hypothesized between the nuclear power plant and the species and if one or more of the following criteria applies: (I) the species is commercially or recreationally valuable, (2) the species is threatened or endan gcred, (3j the species affects the well-being of some important species within criteria (1) or (2), or (4) the species is critical to the structure and function of the ecological system or is a biological indicator of radionuclides in the environment. A | ||
threatened or endangered species is any species officially designated as such by the Secretary of the Interior or the Secretary of Commerce. | |||
This information also may provide supporting evidence in evaluating the performance of systems and equipment installed to control releases of radioactive material to the environment. | |||
The basic principles set forth in this guide constitult an acceptable basis for usc in establishing an environ mental monitoring program. These same principles will also be used as bases in developing the licensee's corresponding technical specifications. Guidance mi (tle format, content, and preparation of Appendix B envi ronmental technical specifications for operating licenses is presented in Regulatory Guide 4.8, "Environmental Technical Specifications for Nuclear Power Plants." | |||
i. Preoperational Program A | |||
preoperational monitoring program should be initiated two years prior to operation to provide a sufficient data base for comparison with operational data and to provide experience that will improve the efficiency of the operational program. It may not, be necessary for all media in the preoperational program to be sampled for the entire two-year period; i.e., for those media sampled frequently. a six-month or one-year period is usually sufficient. However, if the sampling period. is not representative, because of abnormal con ditions, the period may require extension until repre sentative samples are obtained. | |||
2. Operational Program Generally, the operational program should be an extension of the preoperational program to ensure that data from the two programs are compatible and that a smooth transition between programs is achieved. | |||
. | |||
a. Sample Media Where practical, a suitable indicator medium or organism in each important pathway should be sampled and analyzed for the plant-contributed radionuclides released to the environment. When sampling organisms, an abundant, readily available species with known habits should be selected. | |||
, | |||
Careful attention should be given to sampling programs to avoid inducing serious stress on populations of important species. Sampling of large numbers of organisms could result in a temporary decline or permanent loss of desirable populations. In such cases, other indigenous but abundant species should be substi tuted as indicator organisms to provide an estimate of the radionuclides available to man through natural food chains. In some instances, properly selected and sampled vegetation may also provide a good measure of the radionuclides in a pathway. | |||
4.1-2 | |||
Where use of a single indicator medium is impracti cal, samples of several media from each pathway should be collected and analyzed. The Commission recognizes that some pathways do not have more than one environmental medium; e.g., external radiation expo sures from clouds of gamma-ray-emitting radionuclides involve only one pathway - the atmosphere. The actual number of media to be sampled in each pathway should be determined on a case-by-case basis for each site. In some cases, field measurements may be preferable to collecting samples for laboratory analysis. | |||
and | The program should include sampling of environ mental media to estimate radionuclide concentrations in important biota (see B.3 above). Radiation exposures (external) and internal doses from short-lived nuclides may be estimated by calculations (using effluent measurements and appropriate dispersion and bioaccu mulation factors) rather than by routine collection of samples of environmental media. In some cases, field measurements at certain locations to establish concentra tions 'of specific radionuclides may be necessary, initially, to confirm predictions. | ||
b. Sampling Frequency When a radionuclide has a short half-life (minutes to days), it may be necessary to evaluate concentrations or radiation exposure by making measurements in the field (e.g., by use of thermoluminescent dosimeters, pressurized ion chambers, or- in situ gamma spectro meters). | |||
When a radionuclide with an intermediate half-life (weeks to months) is released continuously or fre quently, sampling and analysis of environmental media in the associated pathway should generally be carried out at intervals no greater than two or three half-lives of the nuclide. For long-half-life radionuclides (years), | |||
measurements should generally be made at least once per year. Where seasonal or other temporal variations may be evident, the frequency of sampling should be planned to allow resolution of any important effects. | |||
In some cases, sampling on a continuous basis may be necessary (e.g., air sampling and continuous measure ment of cumulative external radiation exposure). | |||
Composites of some selected sample types such as air filters may be appropriate for measurement of long-lived radionuclides. | |||
c. Program Scope During the initial three years of commercial power operation (or other period corresponding to maximum fuel bumup in the initial core cycle), the measurement program should be relatively comprehensive in an attempt to verify any projected correlations between radioactive effluents and levels in environmental media. | |||
The | The extent of measurement of environmental media should be based on the type, quantity, and concentra. | ||
tion of radionuclides expected from the plant as well as the results obtained from previous measurements. | |||
If, after this period, the licensee is able to demonstrate from levels in environmental media or calculations (using measured effluents and appropriate. | |||
( | |||
the | dispersion and bioaccumulation factors) that the doses and concentrations associated with a particular pathway are sufficiently small, the number of media sampled in the pathway and the frequency of sampling may be reduced. An adequate program with emphasis on indi cator organisms and selected media should still be continued in order to confirm that the levels of radioactivity in environmental media remain small. | ||
Results from all individual measurements should be retained by the licensee along with information on sampling location and date, sample size (e.g., wet/dry weight), sampling and analytical procedures, units of data presentation, and precision and accuracy associated with individual measurements. Explanations of anoma lous measurements should be provided. | |||
d. Analyses Samples should be analyzed for plant-contributed radionuclides released to the environment. Gross radio activity measurements alone are generally not adequate for radiological monitoring. However, gross radioactivity measurements may be useful to indicate the concentra tion of a specific radionuclide when such measurements are shown to be truly indicative of the actual quantity or concentration of that radionuclide. | |||
e. Quality Control Control checks and tests should be applied to the analytical process by the use of blind duplicate analyses of selected samples and by cross-check analysis of selected samples with an independent laboratory. | |||
Quality controls should also be applied to the entire sample-collection procedure to ensure that representa tive samples are obtained and that samples are not changed, cross-contaminated, or otherwise affected prior to their analysis because of handling or because of their storage environment. | |||
3. Detection Capabilities The detection capabilities associated with measuring and analyzing radioactivity levels should be established primarily on the basis of potential human dose. These detection capabilities will vary depending on the instru | |||
. | ,mentation and analytical techniques used. Because of the need for a preoperational monitoring program, | ||
4.1-3 | |||
detection capabilities for a particular program should be determined during an early stage of licensing. Every reasonable effort should be made to achieve detection capabilities that will detect radiation levels or radio activity concentrations in pathways that could result in radiation doses corresponding to a few percent of the Federal Radiation Council's radiation protection guides (i.e., a few percent of 170 mrem/yr for whole body dose to a suitable sample of the exposed population).2 Similarly, the detection capability, of environmental measurements should be the most sensitive that is practicably achievable for measuring plant-contributed radionucides in the environment. | |||
'Federal Radiation Council Report No. 1, Background Material for the Development of Radiation Protection Standards, May | |||
13, 1960. | |||
UNITED STATES | |||
NUCLEAR REGULATORY COMMISSION | |||
WASHINGTON, D. C. | |||
20M65 OFFICIAL BUSINESS | |||
PENALTY FOR PRIVATE USE, $300 | |||
==D. IMPLEMENTATION== | |||
The purpose of this section is to provide information to applicants and licensees regarding the NRC staff's plans for utilizing this regulatory guide. | |||
This guide reflects current regulatory practice. There fore, except in those cases in which the applicant proposes an alternative method for complying with specified portions of the Commission's regulations, the method described herein will be used in the evaluation of submittals for operating license or construction permit applications docketed after the date of issue of this guide. | |||
If an applicant wishes to use this regulatory guide in developing submittals for applications docketed on or prior to the date of issue of this guide, the pertinent portions of the application will be evaluated on the basis of this guide. | |||
POSTAGE AND FEES PAID | |||
UNITEO | |||
STATeS NUCtEAR | |||
REGU.A ORY COMMISSION | |||
4.1-4}} | |||
{{RG-Nav}} | {{RG-Nav}} | ||
Latest revision as of 02:09, 17 January 2025
| ML003739496 | |
| Person / Time | |
|---|---|
| Issue date: | 04/30/1975 |
| From: | Office of Nuclear Regulatory Research |
| To: | |
| References | |
| RG-4.1 Rev 1 | |
| Download: ML003739496 (4) | |
U.S. NUCLEAR REGULATORY COMMISSION
REGULATORY GUIDE
OFFICE OF STANDARDS DEVELOPMENT
REGULATORY GUIDE 4.1 PROGRAMS FOR MONITORING RADIOACTIVITY IN THE ENVIRONS
OF NUCLEAR POWER PLANTS
A. INTRODUCTION
General Design Criterion 64, "Monitoring Radio activity Releases," of Appendix A, "General Design Criteria for Nuclear Power Plants," to 10 CFR Part 50,
"Licensing of Production and Utilization Facilities,"
requires that licensees provide means for monitoring the plant environs for radioactivity that may be released from normal operations, including anticipated opera tional occurrences, and from postulated accidents.
Paragraph 20.106(e) of 10 CFR Part 20, "Standards for Protection Against Radiation," provides that the Commission may limit the quantities of radioactive materials released in air or water during a specified period of time to ensure that the daily intake of radioactive materials from air, water, or food by a suitable sample of an exposed population group, averaged over a time period not exceeding one year, would not exceed specified quantities. Section 20.201 of
10 CFR Part 20 further requires that a licensee conduct surveys of levels of radiation or concentrations of radioactive material as necessary to show compliance with Commission regulations.
This guide describes a basis acceptable to the NRC
staff for the design of programs for monitoring levels of radiation and radioactivity in the plant environs.
B. DISCUSSION
Present requirements to keep levels of radioactive material in effluents as low as practicable (as specified in
10 CFR §50.34a) should ensure that radiation doses to the public resulting from effluent releases will continue to remain minimal. The principles presented in this guide are considered an acceptable basis for establishing preoperational and operational monitoring programs to provide information needed to determine whether ex posures in the environment are within established limits and to ensure that long-term buildup of specific radio nuclides in the environment will not become significant.
A preoperational program should be conducted in the environs of each proposed nuclear power plant site to
(1) measure background levels and their variations in environ'mental media in the area surrounding the plant,
(2) evaluate procedures, equipment, and techniques, and
(3) provide experience to personnel.
Years of experience at various Atomic Energy Commission facilities have demonstrated that specific radionuclides behave in known ways under given
"environmental conditions. Therefore, analyses of "indi cator media" can be used to define radionuclide levels in the environment. The "indicator medium" (or organism)
concept of environmental surveillance involves the sampling of organisms and media which are sensitive and reliable measures of the quantities of individual radio nuclides cycling through pathways. For example, where the plant-cow-milk-man food chain is determined to be an important pathway, it may not be necessary to extensively sample and measure grazing plants and fodder to keep track of iodine-131 cycling in the food chain, since sampling and measuring the milk produced by dairy cows in surrounding areas may be adequate.
After the plant is in operation, a program for measuring radiation levels and radioactivity in the plant environs must be maintained on a continuing basis to assist in verifying anticipated radioactivity concentra tions and related public exposures. The initial pre operational and operational monitoring programs should be designed in accordance with the following criteria:
1. They should be based on the analysis of important pathways for the anticipated types and quantities of radionuclides released from the plant into the surround ing environment;
USNRC REGULATORY GUIDES
Comments should be sent to the Secretary of the Commissio
n. U S
Nuclear Regulatory Commission. Washington. 0 C. 20656. Attention Docketing and Regulatory Guides are issued to describe and make avareble to the public Service Section methods acceptable to the NRC stall of implementing specificý parts of the Commission's regulations, to delineate techniques used by the staff in evalu The guides are Issued in'the following ten broad divisions.
sting specific problems or postulated accidents, or to provide guidance to appli cants Regulatory Guides are not substitutes tor regulations. and compliance I Power Reactors
6 Products with them is not required Methods and solutions different from those set out in
2 Research and Test Reactors
7 Transportation the guides will be acceptable if they provide a basis for the findings requisite to
3 Fuels and Materials Facilities
8 Occupational Health the issuance or continuance of a permit or license by the Commission
4 Environmental and Siting
9 Antitrust Review Comments arid suggestriiis for improvements in these guides are encouraged
5 Materials and Plant Protection
10 General at all times and guides will be revised as appropriate, to accommodate corn ments and to reflect new inflrtmation or experience However. comments on Copies ot published guides may be obtained by written request indli am 9 the this guide. if received within about mwo rioniths after irs issuance will be par divisions desired to the U S Nuclear Regulatory Commission Washington 0 C
ticularly useful in evaluating the need for ad early revision
206555 Attetion Director Office of Standards Development Revision 1 April 1975
2. They should consider the possibility of buildup of long-lived radionuclides in the environment and identify physical and biological sites of accunrulation that may contribute to human exposures;
3. They should conside'r the potential radiation ex posure to important plants and animals;1
4. They should be designed to establish correlations between levels of radiation and radioactivity in the environment and radioactive releases from plant opera tion. (A variety of techniques, including measurements at control locations, preoperational surveys, and com parisons of operating versus shutdown levels of radio activity in the environs may all be useful for this purpose.) Information of this nature will be of consider able help in modifying the initial environmental measurements program.
Data obtained from this program should be used by the licensee to show that environmental levels are consistent with those determined from the effluent radiation monitoring and sampling program. The latter program is used together with dispersion estimates to ensure that plant releases to the environment and radiation doses to the public are maintained within the numerical design objectives determined to be as low as practicable.
The Commission's staff has evaluated the types of information needed to provide supporting evidence for assessing the performance of the plant with respect to keeping population exposures as low as practicable and to verify predictions of concentrations of specific radionuclides in the environment based on effluent measurements at the plant. Based on this evaluation and on a review and assessment of existing licensees'
monitoring and reporting programs, the staff has de veloped the regulatory position set forth below.
C. REGULATORY POSITION
The program for monitoring radioactivity in the environs of nuclear power plants should provide suitable information from which levels of radiation and radio activity in the environs of each plant can be estimated.
1A species, whether animal or plant, is "important" if a specific causal link can be identified or hypothesized between the nuclear power plant and the species and if one or more of the following criteria applies: (I) the species is commercially or recreationally valuable, (2) the species is threatened or endan gcred, (3j the species affects the well-being of some important species within criteria (1) or (2), or (4) the species is critical to the structure and function of the ecological system or is a biological indicator of radionuclides in the environment. A
threatened or endangered species is any species officially designated as such by the Secretary of the Interior or the Secretary of Commerce.
This information also may provide supporting evidence in evaluating the performance of systems and equipment installed to control releases of radioactive material to the environment.
The basic principles set forth in this guide constitult an acceptable basis for usc in establishing an environ mental monitoring program. These same principles will also be used as bases in developing the licensee's corresponding technical specifications. Guidance mi (tle format, content, and preparation of Appendix B envi ronmental technical specifications for operating licenses is presented in Regulatory Guide 4.8, "Environmental Technical Specifications for Nuclear Power Plants."
i. Preoperational Program A
preoperational monitoring program should be initiated two years prior to operation to provide a sufficient data base for comparison with operational data and to provide experience that will improve the efficiency of the operational program. It may not, be necessary for all media in the preoperational program to be sampled for the entire two-year period; i.e., for those media sampled frequently. a six-month or one-year period is usually sufficient. However, if the sampling period. is not representative, because of abnormal con ditions, the period may require extension until repre sentative samples are obtained.
2. Operational Program Generally, the operational program should be an extension of the preoperational program to ensure that data from the two programs are compatible and that a smooth transition between programs is achieved.
a. Sample Media Where practical, a suitable indicator medium or organism in each important pathway should be sampled and analyzed for the plant-contributed radionuclides released to the environment. When sampling organisms, an abundant, readily available species with known habits should be selected.
Careful attention should be given to sampling programs to avoid inducing serious stress on populations of important species. Sampling of large numbers of organisms could result in a temporary decline or permanent loss of desirable populations. In such cases, other indigenous but abundant species should be substi tuted as indicator organisms to provide an estimate of the radionuclides available to man through natural food chains. In some instances, properly selected and sampled vegetation may also provide a good measure of the radionuclides in a pathway.
4.1-2
Where use of a single indicator medium is impracti cal, samples of several media from each pathway should be collected and analyzed. The Commission recognizes that some pathways do not have more than one environmental medium; e.g., external radiation expo sures from clouds of gamma-ray-emitting radionuclides involve only one pathway - the atmosphere. The actual number of media to be sampled in each pathway should be determined on a case-by-case basis for each site. In some cases, field measurements may be preferable to collecting samples for laboratory analysis.
The program should include sampling of environ mental media to estimate radionuclide concentrations in important biota (see B.3 above). Radiation exposures (external) and internal doses from short-lived nuclides may be estimated by calculations (using effluent measurements and appropriate dispersion and bioaccu mulation factors) rather than by routine collection of samples of environmental media. In some cases, field measurements at certain locations to establish concentra tions 'of specific radionuclides may be necessary, initially, to confirm predictions.
b. Sampling Frequency When a radionuclide has a short half-life (minutes to days), it may be necessary to evaluate concentrations or radiation exposure by making measurements in the field (e.g., by use of thermoluminescent dosimeters, pressurized ion chambers, or- in situ gamma spectro meters).
When a radionuclide with an intermediate half-life (weeks to months) is released continuously or fre quently, sampling and analysis of environmental media in the associated pathway should generally be carried out at intervals no greater than two or three half-lives of the nuclide. For long-half-life radionuclides (years),
measurements should generally be made at least once per year. Where seasonal or other temporal variations may be evident, the frequency of sampling should be planned to allow resolution of any important effects.
In some cases, sampling on a continuous basis may be necessary (e.g., air sampling and continuous measure ment of cumulative external radiation exposure).
Composites of some selected sample types such as air filters may be appropriate for measurement of long-lived radionuclides.
c. Program Scope During the initial three years of commercial power operation (or other period corresponding to maximum fuel bumup in the initial core cycle), the measurement program should be relatively comprehensive in an attempt to verify any projected correlations between radioactive effluents and levels in environmental media.
The extent of measurement of environmental media should be based on the type, quantity, and concentra.
tion of radionuclides expected from the plant as well as the results obtained from previous measurements.
If, after this period, the licensee is able to demonstrate from levels in environmental media or calculations (using measured effluents and appropriate.
dispersion and bioaccumulation factors) that the doses and concentrations associated with a particular pathway are sufficiently small, the number of media sampled in the pathway and the frequency of sampling may be reduced. An adequate program with emphasis on indi cator organisms and selected media should still be continued in order to confirm that the levels of radioactivity in environmental media remain small.
Results from all individual measurements should be retained by the licensee along with information on sampling location and date, sample size (e.g., wet/dry weight), sampling and analytical procedures, units of data presentation, and precision and accuracy associated with individual measurements. Explanations of anoma lous measurements should be provided.
d. Analyses Samples should be analyzed for plant-contributed radionuclides released to the environment. Gross radio activity measurements alone are generally not adequate for radiological monitoring. However, gross radioactivity measurements may be useful to indicate the concentra tion of a specific radionuclide when such measurements are shown to be truly indicative of the actual quantity or concentration of that radionuclide.
e. Quality Control Control checks and tests should be applied to the analytical process by the use of blind duplicate analyses of selected samples and by cross-check analysis of selected samples with an independent laboratory.
Quality controls should also be applied to the entire sample-collection procedure to ensure that representa tive samples are obtained and that samples are not changed, cross-contaminated, or otherwise affected prior to their analysis because of handling or because of their storage environment.
3. Detection Capabilities The detection capabilities associated with measuring and analyzing radioactivity levels should be established primarily on the basis of potential human dose. These detection capabilities will vary depending on the instru
,mentation and analytical techniques used. Because of the need for a preoperational monitoring program,
4.1-3
detection capabilities for a particular program should be determined during an early stage of licensing. Every reasonable effort should be made to achieve detection capabilities that will detect radiation levels or radio activity concentrations in pathways that could result in radiation doses corresponding to a few percent of the Federal Radiation Council's radiation protection guides (i.e., a few percent of 170 mrem/yr for whole body dose to a suitable sample of the exposed population).2 Similarly, the detection capability, of environmental measurements should be the most sensitive that is practicably achievable for measuring plant-contributed radionucides in the environment.
'Federal Radiation Council Report No. 1, Background Material for the Development of Radiation Protection Standards, May
13, 1960.
UNITED STATES
NUCLEAR REGULATORY COMMISSION
WASHINGTON, D. C.
20M65 OFFICIAL BUSINESS
PENALTY FOR PRIVATE USE, $300
D. IMPLEMENTATION
The purpose of this section is to provide information to applicants and licensees regarding the NRC staff's plans for utilizing this regulatory guide.
This guide reflects current regulatory practice. There fore, except in those cases in which the applicant proposes an alternative method for complying with specified portions of the Commission's regulations, the method described herein will be used in the evaluation of submittals for operating license or construction permit applications docketed after the date of issue of this guide.
If an applicant wishes to use this regulatory guide in developing submittals for applications docketed on or prior to the date of issue of this guide, the pertinent portions of the application will be evaluated on the basis of this guide.
POSTAGE AND FEES PAID
UNITEO
STATeS NUCtEAR
REGU.A ORY COMMISSION
4.1-4