Regulatory Guide 1.26: Difference between revisions

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{{Adams
{{Adams
| number = ML003739964
| number = ML13038A086
| issue date = 02/29/1976
| issue date = 09/30/1974
| title = for Comment, Quality Group Classifications & Standards for Water-,Steam & Radioactive-Waste-Containing Components of Nuclear Power Plants
| title = Quality Group Classifications and Standards for Water-, Steam-, and Radioactive-Waste-Containing Components of Nuclear Power Plants
| author name =  
| author name =  
| author affiliation = NRC/RES
| author affiliation = US Atomic Energy Commission (AEC)
| addressee name =  
| addressee name =  
| addressee affiliation =  
| addressee affiliation =  
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| license number =  
| license number =  
| contact person =  
| contact person =  
| document report number = RG-1.06, Rev 3
| document report number = RG-1.026, Rev. 1
| document type = Regulatory Guide
| document type = Regulatory Guide
| page count = 3
| page count = 3
}}
}}
{{#Wiki_filter:U.S. NUCLEAR REGULATORY
{{#Wiki_filter:iVgGY C0 Revision 1.U.S. ATOMIC ENERGY COMMISSION
COMMISSION
September
REGULATORY  
1974 REGULATORY  
GUIDE OFFICE OF STANDARDS  
GUIDE qrrs "i DIRECTORATE
DEVELOPMENT
OF R EGULATORY
REGULATORY  
STANDARDS REGULATORY  
GUIDE 1.26 QUALITY GROUP CLASSIFICATIONS  
GUIDE 1.26 QUALITY GROUP CLASSIFICATIONS  
AND STANDARDS  
AND STANDARDS  
FOR WATER-, STEAM-, AND RADIOACTIVE-WASTE-CONTAINING
FOR WATER-, STEAM-, AND RADIOACTIVE-WASTE-CONTAIN
COMPONENTS  
ING COMPONENTS  
OF NUCLEAR POWER PLANTS  
OF NUCLEAR POWER PLANTS  


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1, "Quality Standards and Records," of Appendix A, "General Design Criteria for Nuclear Power Plants," to 10 CFR Part 50, "Licensing of Production and Utilization Facilities," requires that structures, systems, and components important to safety be designed, fabricated, erected, and tested to quality standards commensurate with the importance of the safety functions to be performed.
1, "Quality Standards and Records," of Appendix A, "General Design Criteria for Nuclear Power Plants," to 10 CFR Part 50, "Licensing of Production and Utilization Facilities," requires that structures, systems, and components important to safety be designed, fabricated, erected, and tested to quality standards commensurate with the importance of the safety functions to be performed.


Section 50.55a, "Codes and Standards," of 10 CFR Part 50 requires that components of the reactor coolant pressure boundary be designed, fabricated, erected, and tested in accordance with the requirements for Class 11 components of Section III of the ASME Boiler and Pressure Vessel or equivalent quality standards.
Section 50.55a,"Codes and Standards," of 10 CFR Part 50 requires that components of the reactor coolant pressure boundary be designed, fabricated, erected, and tested in accordance with the requirements for Class 1 components of Section III of the ASME Boiler and Pressure Vessel Code or equivalent quality standards.


This guide desc a quality classification system related to specified na alU standards that may be used to det r er standards acceptable to the NRC staff satisnmg General Design Criterion  
This guide describes a quality classification system related to specified national standards that may be used to determine quality standards acceptable to the Regulatory staff for satis-fying General Design Criterion I for other safety-related components containing  
1 for other )ety-r ed components containing water, steam, or tive material in light-water-cooled nuclear power plan B. DISd After reviewing r pplications for con struction permits v glicenses and after dis cussions with r" tativ of professional societies and industr fe lO has developed a quality classification for safety-related components con taining water, or radioactive material in water cooled nuc po r plants. The system consists of four 'Editions prior to 1971 of the ASME Boiler and Pressure Vessel Code, Section III, "Nuclear Power Plant Components," use the term Class A in lieu of Class 1.Revision 3 February 1976 USNRC REGULATORY
'radioactive material, water, or steam in water-cooled nuclear power plants.
GUIDES Comments should be sent to the Secretary of the Commission.


U.S. Nuclear ReglaorReguletorv Commission, Washington.
==B. DISCUSSION==
After reviewing a number of applications for con-struction permits and operating licenses and after dis-cussions with representatives of professional societies and industry, the AEC Regulatory staff has developed a quality classification system for safety-related com-ponents containing radioactive material, water, or steam in water-cooled nuclear power plants. The system consists of four quality groups, A through D, methods Editions prior to 1971 of the ASME Boiler and Pressure Vessel Code, Section III, "Nuclear Power Plant Components," use the term Class A in lieu of Class 1.for assigning components to these quality groups, and the specific quality standards applicable to each quality group. The initial, portion of this system is described in§50.55a of 10 CFR Part 50, which requires that components of the reactor coolant pressure boundyry be designed, fabricated, erected, and tested to the highest available national standards;
this corresponds to the quality standard required for quality Group A of the AEC system. This guide describes a method for deter-mining acceptable quality standards for the remaining safety-related components containing radioactive material, water, or steam, i.e., quality Group B, C, and D components.


D.C. 05 Attention:
Other systems not covered by this guide, such as instrument and service air, diesel engine and its generators and auxiliary support systems, diesel fuel, emergency and normal ventilation, fuel handling, and fire protection systems using other than water, should be designed, fabricated, erected, and tested to quality standards commensurate with the safety function to be performed.
Docketing and Regulatory Guides are issued to describe and make available to the public segulato c0 methods acceptable to the NRC staff of implementing specific parts of the ice Section.


Commission's regulations, to delineate techniques used by the staff in evalu. The guideseare issued inthe following ten broad divisions:
C. REGULATORY
eting 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.
POSITION I. The group B quality standards given in Table I of this guide should be applied to water- and steam-containing pressure vessels, heat exchangers (other than turbines and condensers), storage tanks, piping, pumps, and valves that are either part of the reactor coolant pressure boundary defined in §50.2(v) but excluded from the requirements of §50.55a 2 pursuant to footnote 2 of that section or not part of the reactor coolant pressure boundary but part of: 2 Group A quality standards that are required for pressure-containing components of the reactor coolant pressure bound-ary are specified in Section 50.55a of 10 CFR Part 5


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
===0. USAEC REGULATORY ===
8. Occupational Health the issuance or continuance of a permit or license by the Commission  
GUIDES Regulatory Guides are issued to describe and make available to the public methods acceptable to the AEC Regulatory staff of implementing specific parts of the Commission's regulations, to delineate techniques
4ý Environmental and Siting 9. Antitrust Review Comments and suggestions for improvements in these iuides are encouraged
.~ed by the staff in evaluating specific problems or postulated accidents, or to provide guidance to Sapplicants.
5. Materials and Plant Protection
10 General at all times, and guides will be revised, as appropriate, to accommodate com ments and to reflect new information or experience.


However. comments on Copies of published guides may be obtained by written request indicating the this guide. if received within about two months after its issuance, will be per- divisions desired to the U.S. Nuclear Regulatory Commission.
Regulatory Guides are not substitutes for regulations and compliance with them is not required.


Washington.
Methods and solutions different from those set out in the guides will be acceptable if they provide a basis for the findings requisite to the issuance or continuance of a permit or license by the Commission.


D.C.  ticularly useful in evaluating the need for an early revision 20655. Attention:
Published guides will be revised periodically, as appropriate, to accommodate comments and to reflect new information or experience.
Director.


Office of Standards Development.
Copies of published guides may be obtained by request indicating the divisions desired to the US. Atomic Energy Commission, Washington.


quality groups, A throu me s for assigning components to these alit oups, d the specific quality standards app* quality group. The initial portion of t sy is cribed in §50.55a of 10 CFR Part 50. "cre s that components of the reactor coolant e undary be designed, fabri cated, ere an d to the highest available national st M s corresponds to the quality stan d g r quality Group A of the NRC system_ .e describes a method for determining tab onty standards for the remaining safety r colonents containing radioactive material, a steam, i.e., quality Group B, C, and D Shnents. Other systems not covered by this guide, ch as instrument and service air, diesel engine and its erators and auxiliary support systems, diesel fuel, emergency and normal ventilation, fuel handling, and radioactive waste management systems, 2 should be designed, fabricated, erected, and tested to quality standards commensurate with the safety function to be performed.
D.C. 20545, Attention:
Director of Regulatory Standards.


Evaluation to establish the quality group classification of these other systems should include consideration of the guidance provided in regulatory positions C.1 and C.2 of this guide. C. REGULATORY
'Comments and suggestions for improvements in these guides are encouraged and should be sent to the Secretary of the Commission, U.S. Atomic Energy Commission, Washington, D.C. 20545, Attention:
POSITION 1. The Group B quality standards given in Table 1 of this guide should be applied to water- and steam containing pressure vessels, heat exchangers (other than turbines and condensers), storage tanks, piping, pumps, and valves that are either part of the reactor coolant pressure boundary defined in §50.2(v) but excluded 'Specific guidance on the quality group classification of radio- I active waste management systems is under development.
Docketing and Service Section The guides are issued in the following ten broad divisions:
1. Power Reactors 6. Products 2. Research and Test Reactors


*Lines indicate substantive changes from previous issue.
===7. Transportation===
3. Fuels and Materials Facilities
8. Occupational Health 4. Environmental and Siting 9. Antitrust Review 5. Materials and Plant Protection
10. General a. Systems or portions of systems 3 important to safety that are designed for (1) emergency core cooling,`.2) postaccident containment heat removal, or (3) post-:cident fission product removal.b. Systems or portions of systems 3 important to safety that are designed for (1) reactor shutdown or (2) residual heat removal.c. Those portions of the steam systems of boiling water reactors extending from the outermost contain-ment isolation valve up to but not including the turbine stop valves and connected piping up to and including the first valve that is either normally closed or capable of automatic closure during all modes of normal reactor operation.


from the requirements of §50.55a 3 pursuant to foot note 2 of that section or not part of the reactor coolant pressure boundary but part of: a. Systems or portions of systems4 important to safety that are designed for (1) emergency core cooling, (2) postaccident containment heat removal, or (3) post accident fission product removal.
Alternatively, for boiling water reactors con-taining a shutoff valve (in addition to the two contain-ment isolation valves) in the main steam line and in the main feedwater line, Group B quality standards should be applied to those portions of the steam and feedwater systems extending from the outermost containment isolation valves up to and including the first valve that is either normally closed or capable of automatic closure during all modes of normal reactor operation.


b. Systems or portions of systems4 important to safety that are designed for (1) reactor shutdown or (2) residual heat removal.
d. Those portions of the steam and feedwater sys-tems of pressurized water reactors extending from and including the secondary side of steam generators up to and including the outermost containmenrt isolation valves and connected piping up to and including the first valve (including a safety or relief valve) that is either yormally closed or capable of automatic closure during\ modes of normal reactor operation.


c. Those portions of the steam systems of boiling water reactors extending from the outermost contain ment isolation valve up to but not including the turbine stop and bypass valvess and connected piping up to and including the first valve that is either normally closed or capable of automatic closure during all modes of normal reactor operation.
e. Systems or portions of systems 3 that are connected to the reactor coolant pressure boundary and are not capable of being isolated from the boundary during all modes of normal reactor operation by two valves, each of which is either normally closed or capable of automatic closure.2. The group C quality standards given in Table 1 of this guide should be applied to water-, steam-, and radioactive-waste-containing pressure vessels, heat ex-changers (other than turbines and condensers), storage tanks, piping, pumps, and valves not part of the reactor coolant pressure boundary or included in quality Group B but part of: a. Cooling water and auxiliary feedwater systems or portions of these systems 3 important to safety that are'The system boundary includes those portions of the system required to accomplish the specified safety function and connected piping up to and including the first valve (including a safety or relief valve) that is either normally closed or capable.of automatic closure when the safety function is required.'Components in influent lines may be classified as Group D provided they are capable of being isolated from the reactor coolant pressure boundary by an additional valve which has high leak-tight integrity.


Alternatively, for boiling water re actors containing a shutoff valve (in addition to the two containment isolation valves) in the main steam line and in the main feedwater line, Group B quality standards should be applied to those portions of the steam and feedwater systems extending from the outermost con tainmen/t isolation valves up to and including the shutoff valve or the first valve that is either normally closed or capable of automatic closure during all modes of normal reactor operation.
designed for (1) emergency core cooling, (2) post-accident containment heat removal, (3) postaccident containment atmosphere cle,.up, or (4) residual heat removal from the reactor and from the spent fuel storage pool (including primary and secondary cooling systems).Portions of these systems that are required for their safety functions and that either do not operate during any mode of normal reactor operation or cannot be tested adequately should be classified as Group B.b. Cooling water and seal water, systems or portions of these systems3 important to safety that are designed for functioning of components and systems important to safety, such as reactor coolant pumps, diesels, and control room.c. Systems or portions of systems 3 that are connected to the reactor coolant pressure boundary and are capable of being isolated from that boundary during all modes of normal reactor operation by two valves, each of which is either normally closed or capable of automatic closure.4 d. Radioactive waste treatment, handling, and dis-posal systems, except those portions of these systems whose postulated failure would not result in conserva-tively calculated potential offsite doses that exceed 0.5 rem to the whole body or its equivalent to any part of the body. For those systems located in Seismic Category I structures, only single component failures need be assumed. (However, no credit for automatic isolation from other components in the system or for treatment of released material should be taken unless the isolation or treatment capability is designed to the appropriate seismic and quality group standards and can withstand loss of offsite power and a single failure of an active component.)
 
Parts of these systems beyond the pro-cessing steps (such as monitoring tanks) may be classi-fied as Group D if the plant Technical Specifications limit inventories to levels which, if released, would not result in conservatively calculated potential offsite doses that exceed 0.5 rem to the whole body or its equivalent to any part of the body.e. Other systems, not covered by items 2.a. through 2.d. above, that contain or may contain radioactive material and whose postulated failure would result in conservatively, calculated potential offsite doses that exceed 0.5 rem to the whole body or its equivalent to any part of the body. For those systems located in Seismic Category I structures, only single component failures need be assumed. (However, no credit for automatic isolation from other components in the system or for treatment of released material should be taken unless the isolation or treatment capability is designed to the appropriate seismic and quality group standards and can withstand loss of offsite power and a single failure of an active component,)
d. Those portions of the steam and feedwater systems of pressurized water reactors extending from and including the secondary side of steam generators up to and including the outermost containment isolation valves and connected piping up to and including the first valve (including a safety or relief valve) that is either normally closed or capable of automatic closure during all modes of normal reactor operation.
@4 4.1.26-2  
 
3. The Group D quality standards given in Table 1 of this guide should be applied to water- and steam-containing components not part of the reactor coolant pressure boundary or included in quality Groups B or C but part of systems or portions of systems that contain or may contain radioactive material.
e. Systems or portions of systems 4 that are connected to the reactor coolant pressure boundary and are not capable of' being isolated from the boundary during all modes of normal reactor operation by two valves, each of which is either normally closed or capable of automatic closure.
 
2. The Group C quality standards given in Table 1 of this guide should be applied to water-, steam-, and 3Group A quality standards that are required for pressure containing components of the reactor coolant pressure bound ary are specified in Section 50.55a of 10 CFR Part 50.  " 4 The system boundary includes those portions of the system required to accomplish the specified safety function and connected piping up to and including the first valve (including a safety or relief valve) that is either normally closed or capable of aitomatic closure when the safety function is required.
 
$The turbine stop valve and the turbine bypass valve, although not included in quality group B, should be subjected to a quality assurance program at a level generally equivalent to quality group B.radioactive-waste-containing pressure vessels, heat ex changers (other than turbines and condensers), storage tanks, piping, pumps, and valves not part of the reactor coolant pressure boundary or included in quality Group B but part of: a. Cooling water and auxiliary feedwater systems or portions of these systems4 important to safety that are designed for (1) emergency core cooling, (2) post accident containment heat removal, (3) postaccident containment atmosphere cleanup, or (4) residual heat removal from the reactor and from the spent fuel storage pool (including primary and secondary cooling systems).
Portions of these systems that are required for their safety functions and that (1) do not operate during any mode of normal reactor operation and (2) cannot be tested adequately should be classified as Group B. b. Cooling water and seal water systems or por tions of these systems 4 important to safety that are designed for functioning of components and systems important to safety, such as reactor coolant pumps, diesels, and control room. c. Systems or portions of systems 4 that are connected to the reactor coolant pressure boundary and are capable of being isolated from that boundary during all modes of normal reactor operation by two valves, each of which is either normally closed or capable of automatic closure.6 d. Systems, other than radioactive waste manage ment systems, 2 not covered by items 2.a. through 2.c. above that contain or may contain radioactive material and whose postulated failure would result in conserva tively calculated potential offsite doses (using meteorol ogy as recommended by Regulatory Guide 1.3, "Assumptions Used for Evaluating the Potential Radio logical Consequences of a Loss of Coolant Accident for Boiling Water Reactors," and Regulatory Guide 1.4, "Assumptions Used for Evaluating the Potential Radio logical Consequences of a Loss of Coolant Accident for Pressurized Water Reactors")
that exceed 0.5 rem to the whole body or its equivalent to any part of the body. For those systems located in Seismic Category I struc tures, only single component failures need be assumed. (However, no credit for automatic isolation from other components in the system or for treatment of released material should be taken unless the isolation or treat ment capability is designed to the appropriate seismic and quality group standards and can withstand loss of offsite power and a single failure of an active compo nent.) 4Components in influent lines may be classified as Group D provided they are capable of being isolated from the reactor coolant pressure boundary by an additional valve which has high leaktight integrity.
 
1.26-2  
3. The Group D quality standards given in Table I of this guide should be applied to water- and steam containing components not part of the reactor coolant pressure boundary or included in quality Groups B or C but part of systems or portions of systems that contain S-or may contain radioactive material.


==D. IMPLEMENTATION==
==D. IMPLEMENTATION==
The purpose of this section is to provide information to applicants regarding the NRC staff's plans for using this regulatory guide.This guide reflects current NRC staff practice.
The purpose of this section is to provide guidance to applicants regarding implementation of the quality group classifications and standards described in Section C of this guide.1. The quality group classifications and standards described in Section C of this guide for quality Groups B, C, and D' should be applied to the appropriate systems and components of all plants for which the docket date of the application for construction permit is subsequent to January 1, 1975.2. The quality group ,classifications and standards described in Section C of this guide may be applied, at the designer's option, to systems and components of plants for which the docket date of the application is prior to January 1, 1975.3. Other methods for determining acceptable quality standards for systems and components not in quality Group A may be proposed to the Commission by applicants and may be determined to be acceptable if they provide a comparable level of safety.sAcceptable standards for quality Group A components are described in §50.55a of 10 CFR Part 50.TABLE 1 QUALITY STANDARDS Components Quality B Quality C Quality D Pressure Vessels ASME Boiler and Pressure ASME Boiler and Pressure ASME Boiler and Pressure Vessel Code, Section II I, Vessel CodeSection II I, Vessel Code, Section VIII"Nuclear Power Plant Com- "Nuclear Power Plant Coin- Division 1 ponents," a, b, c Class 2 ponents," a, b, c Class 3 Piping As above As above ANSI B 31.1.0 Power Piping I Pumps As above As above Manufacturers standards Valves As above As above ANSI B31.1.0 Atmospheric As above As above AP1-650, AWWA D 100, or Storage Tanks ANSI B 96.1 0-15 psig As above As above API-620 Storage Tanks aSee Section 50.55a for guidance with regard to the Code and Addenda to be applied.bASME Code N- symbol need not be applied.CThe specific applicability of code cases will be covered separately in other regulatory guides or in Commission regulations, where appro-priate. Applicants proposing the use of code cases not covered by guides or regulations should demonstrate that an acceptable level of quality and safety would be achieved.1.26-3}}
 
There fore, except in those cases in which the applicant proposes an acceptable alternative method for comply ing with specified portions of the Commission's regula tions, the method described herein is being and will continue to be used in the evaluation of submittals for operating license or construction permit applications until this guide is revised as a result of suggestions from the public or additional staff review.TABLE 1 QUALITY STANDARDS  
components QuAlity B Quality C Quality D Pressure Vessels ASME Boiler and Pressure ASME Boiler and Pressure ASME Boiler and Pressure Vessel Code, Section III, Vessel Code, Section III, Vessel Code, Section VIII, "Nuclear Power Plant Com- "Nuclear Power Plant Corn- Division 1 ponents," a, b, c Class 2 ponents,,a, b, c Class 3 Piping As above As above ANSI B31.1.0 Power Piping Pumps As above As above Manufacturers standards Valves As above As above ANSI B31.1.0 Atmospheric As above As above API-650, AWWA D 100, or Storage Tanks ANSI B 96.1 0-15 psig As above As above API -620 Storage Tanks aSee Section 50.55a for guidance with regard to the Code and Addenda to be applied.
 
bASME Code N-symbol need not be applied.
 
cThe specific applicability of code cases will be covered separately in other regulatory guides or in Commission regulations, where appropriate.
 
Applicants proposing the use of code cases not covered by guides or regulations should demonstrate that an acceptable level of quality and safety would be achieved.}}


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Revision as of 08:45, 15 July 2019

Quality Group Classifications and Standards for Water-, Steam-, and Radioactive-Waste-Containing Components of Nuclear Power Plants
ML13038A086
Person / Time
Issue date: 09/30/1974
From:
US Atomic Energy Commission (AEC)
To:
References
RG-1.026, Rev. 1
Download: ML13038A086 (3)
v  d  e


iVgGY C0 Revision 1.U.S. ATOMIC ENERGY COMMISSION

September

1974 REGULATORY

GUIDE qrrs "i DIRECTORATE

OF R EGULATORY

STANDARDS REGULATORY

GUIDE 1.26 QUALITY GROUP CLASSIFICATIONS

AND STANDARDS

FOR WATER-, STEAM-, AND RADIOACTIVE-WASTE-CONTAIN

ING COMPONENTS

OF NUCLEAR POWER PLANTS

A. INTRODUCTION

General Design Criterion 1, "Quality Standards and Records," of Appendix A, "General Design Criteria for Nuclear Power Plants," to 10 CFR Part 50, "Licensing of Production and Utilization Facilities," requires that structures, systems, and components important to safety be designed, fabricated, erected, and tested to quality standards commensurate with the importance of the safety functions to be performed.

Section 50.55a,"Codes and Standards," of 10 CFR Part 50 requires that components of the reactor coolant pressure boundary be designed, fabricated, erected, and tested in accordance with the requirements for Class 1 components of Section III of the ASME Boiler and Pressure Vessel Code or equivalent quality standards.

This guide describes a quality classification system related to specified national standards that may be used to determine quality standards acceptable to the Regulatory staff for satis-fying General Design Criterion I for other safety-related components containing

'radioactive material, water, or steam in water-cooled nuclear power plants.

B. DISCUSSION

After reviewing a number of applications for con-struction permits and operating licenses and after dis-cussions with representatives of professional societies and industry, the AEC Regulatory staff has developed a quality classification system for safety-related com-ponents containing radioactive material, water, or steam in water-cooled nuclear power plants. The system consists of four quality groups, A through D, methods Editions prior to 1971 of the ASME Boiler and Pressure Vessel Code,Section III, "Nuclear Power Plant Components," use the term Class A in lieu of Class 1.for assigning components to these quality groups, and the specific quality standards applicable to each quality group. The initial, portion of this system is described in§50.55a of 10 CFR Part 50, which requires that components of the reactor coolant pressure boundyry be designed, fabricated, erected, and tested to the highest available national standards;

this corresponds to the quality standard required for quality Group A of the AEC system. This guide describes a method for deter-mining acceptable quality standards for the remaining safety-related components containing radioactive material, water, or steam, i.e., quality Group B, C, and D components.

Other systems not covered by this guide, such as instrument and service air, diesel engine and its generators and auxiliary support systems, diesel fuel, emergency and normal ventilation, fuel handling, and fire protection systems using other than water, should be designed, fabricated, erected, and tested to quality standards commensurate with the safety function to be performed.

C. REGULATORY

POSITION I. The group B quality standards given in Table I of this guide should be applied to water- and steam-containing pressure vessels, heat exchangers (other than turbines and condensers), storage tanks, piping, pumps, and valves that are either part of the reactor coolant pressure boundary defined in §50.2(v) but excluded from the requirements of §50.55a 2 pursuant to footnote 2 of that section or not part of the reactor coolant pressure boundary but part of: 2 Group A quality standards that are required for pressure-containing components of the reactor coolant pressure bound-ary are specified in Section 50.55a of 10 CFR Part 5

0. USAEC REGULATORY

GUIDES Regulatory Guides are issued to describe and make available to the public methods acceptable to the AEC Regulatory staff of implementing specific parts of the Commission's regulations, to delineate techniques

.~ed by the staff in evaluating specific problems or postulated accidents, or to provide guidance to Sapplicants.

Regulatory Guides are not substitutes for regulations and compliance with them is not required.

Methods and solutions different from those set out in the guides will be acceptable if they provide a basis for the findings requisite to the issuance or continuance of a permit or license by the Commission.

Published guides will be revised periodically, as appropriate, to accommodate comments and to reflect new information or experience.

Copies of published guides may be obtained by request indicating the divisions desired to the US. Atomic Energy Commission, Washington.

D.C. 20545, Attention:

Director of Regulatory Standards.

'Comments and suggestions for improvements in these guides are encouraged and should be sent to the Secretary of the Commission, U.S. Atomic Energy Commission, Washington, D.C. 20545, Attention:

Docketing and Service Section The guides are issued in the following ten broad divisions:

1. Power Reactors 6. Products 2. Research and Test Reactors

7. Transportation

3. Fuels and Materials Facilities

8. Occupational Health 4. Environmental and Siting 9. Antitrust Review 5. Materials and Plant Protection

10. General a. Systems or portions of systems 3 important to safety that are designed for (1) emergency core cooling,`.2) postaccident containment heat removal, or (3) post-:cident fission product removal.b. Systems or portions of systems 3 important to safety that are designed for (1) reactor shutdown or (2) residual heat removal.c. Those portions of the steam systems of boiling water reactors extending from the outermost contain-ment isolation valve up to but not including the turbine stop valves and connected piping up to and including the first valve that is either normally closed or capable of automatic closure during all modes of normal reactor operation.

Alternatively, for boiling water reactors con-taining a shutoff valve (in addition to the two contain-ment isolation valves) in the main steam line and in the main feedwater line, Group B quality standards should be applied to those portions of the steam and feedwater systems extending from the outermost containment isolation valves up to and including the first valve that is either normally closed or capable of automatic closure during all modes of normal reactor operation.

d. Those portions of the steam and feedwater sys-tems of pressurized water reactors extending from and including the secondary side of steam generators up to and including the outermost containmenrt isolation valves and connected piping up to and including the first valve (including a safety or relief valve) that is either yormally closed or capable of automatic closure during\ modes of normal reactor operation.

e. Systems or portions of systems 3 that are connected to the reactor coolant pressure boundary and are not capable of being isolated from the boundary during all modes of normal reactor operation by two valves, each of which is either normally closed or capable of automatic closure.2. The group C quality standards given in Table 1 of this guide should be applied to water-, steam-, and radioactive-waste-containing pressure vessels, heat ex-changers (other than turbines and condensers), storage tanks, piping, pumps, and valves not part of the reactor coolant pressure boundary or included in quality Group B but part of: a. Cooling water and auxiliary feedwater systems or portions of these systems 3 important to safety that are'The system boundary includes those portions of the system required to accomplish the specified safety function and connected piping up to and including the first valve (including a safety or relief valve) that is either normally closed or capable.of automatic closure when the safety function is required.'Components in influent lines may be classified as Group D provided they are capable of being isolated from the reactor coolant pressure boundary by an additional valve which has high leak-tight integrity.

designed for (1) emergency core cooling, (2) post-accident containment heat removal, (3) postaccident containment atmosphere cle,.up, or (4) residual heat removal from the reactor and from the spent fuel storage pool (including primary and secondary cooling systems).Portions of these systems that are required for their safety functions and that either do not operate during any mode of normal reactor operation or cannot be tested adequately should be classified as Group B.b. Cooling water and seal water, systems or portions of these systems3 important to safety that are designed for functioning of components and systems important to safety, such as reactor coolant pumps, diesels, and control room.c. Systems or portions of systems 3 that are connected to the reactor coolant pressure boundary and are capable of being isolated from that boundary during all modes of normal reactor operation by two valves, each of which is either normally closed or capable of automatic closure.4 d. Radioactive waste treatment, handling, and dis-posal systems, except those portions of these systems whose postulated failure would not result in conserva-tively calculated potential offsite doses that exceed 0.5 rem to the whole body or its equivalent to any part of the body. For those systems located in Seismic Category I structures, only single component failures need be assumed. (However, no credit for automatic isolation from other components in the system or for treatment of released material should be taken unless the isolation or treatment capability is designed to the appropriate seismic and quality group standards and can withstand loss of offsite power and a single failure of an active component.)

Parts of these systems beyond the pro-cessing steps (such as monitoring tanks) may be classi-fied as Group D if the plant Technical Specifications limit inventories to levels which, if released, would not result in conservatively calculated potential offsite doses that exceed 0.5 rem to the whole body or its equivalent to any part of the body.e. Other systems, not covered by items 2.a. through 2.d. above, that contain or may contain radioactive material and whose postulated failure would result in conservatively, calculated potential offsite doses that exceed 0.5 rem to the whole body or its equivalent to any part of the body. For those systems located in Seismic Category I structures, only single component failures need be assumed. (However, no credit for automatic isolation from other components in the system or for treatment of released material should be taken unless the isolation or treatment capability is designed to the appropriate seismic and quality group standards and can withstand loss of offsite power and a single failure of an active component,)

@4 4.1.26-2

3. The Group D quality standards given in Table 1 of this guide should be applied to water- and steam-containing components not part of the reactor coolant pressure boundary or included in quality Groups B or C but part of systems or portions of systems that contain or may contain radioactive material.

D. IMPLEMENTATION

The purpose of this section is to provide guidance to applicants regarding implementation of the quality group classifications and standards described in Section C of this guide.1. The quality group classifications and standards described in Section C of this guide for quality Groups B, C, and D' should be applied to the appropriate systems and components of all plants for which the docket date of the application for construction permit is subsequent to January 1, 1975.2. The quality group ,classifications and standards described in Section C of this guide may be applied, at the designer's option, to systems and components of plants for which the docket date of the application is prior to January 1, 1975.3. Other methods for determining acceptable quality standards for systems and components not in quality Group A may be proposed to the Commission by applicants and may be determined to be acceptable if they provide a comparable level of safety.sAcceptable standards for quality Group A components are described in §50.55a of 10 CFR Part 50.TABLE 1 QUALITY STANDARDS Components Quality B Quality C Quality D Pressure Vessels ASME Boiler and Pressure ASME Boiler and Pressure ASME Boiler and Pressure Vessel Code,Section II I, Vessel CodeSection II I, Vessel Code,Section VIII"Nuclear Power Plant Com- "Nuclear Power Plant Coin- Division 1 ponents," a, b, c Class 2 ponents," a, b, c Class 3 Piping As above As above ANSI B 31.1.0 Power Piping I Pumps As above As above Manufacturers standards Valves As above As above ANSI B31.1.0 Atmospheric As above As above AP1-650, AWWA D 100, or Storage Tanks ANSI B 96.1 0-15 psig As above As above API-620 Storage Tanks aSee Section 50.55a for guidance with regard to the Code and Addenda to be applied.bASME Code N- symbol need not be applied.CThe specific applicability of code cases will be covered separately in other regulatory guides or in Commission regulations, where appro-priate. Applicants proposing the use of code cases not covered by guides or regulations should demonstrate that an acceptable level of quality and safety would be achieved.1.26-3


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