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{{Adams | {{Adams | ||
| number = | | number = ML003740237 | ||
| issue date = | | issue date = 09/30/1987 | ||
| title = Use of Borosilicate-Glass | | title = (Task CE 602-4), Use of Borosilicate-Glass Rashig Rings as a Neutron Absorber in Solutions of Fissile Material. Label as Withdrawn 08/98 | ||
| author name = | | author name = | ||
| author affiliation = NRC/RES | | author affiliation = NRC/RES | ||
| Line 10: | Line 10: | ||
| license number = | | license number = | ||
| contact person = | | contact person = | ||
| document report number = RG-3.001, Rev. | | document report number = RG-3.001, Rev. 2 | ||
| document type = Regulatory Guide | | document type = Regulatory Guide | ||
| page count = | | page count = 4 | ||
}} | }} | ||
{{#Wiki_filter:U.S. NUCLEAR REGULATORY | {{#Wiki_filter:Revision 2 September 1987 U.S. NUCLEAR REGULATORY COMMISSION | ||
COMMISSION | REGULATORY GUIDE | ||
OFFICE OF NUCLEAR REGULATORY RESEARCH | |||
REGULATORY GUIDE 3.1 (Task CE 602-4) | |||
USE OF BOROSILICATE-GLASS RASCHIG RINGS AS A NEUTRON | |||
GUIDE 3.1 (Task | ABSORBER IN SOLUTIONS OF FISSILE MATERIAL | ||
RASCHIG RINGS AS A NEUTRON ABSORBER IN SOLUTIONS | |||
OF FISSILE MATERIAL | |||
==A. INTRODUCTION== | ==A. INTRODUCTION== | ||
Section 70.22, "Contents of Applications," of 10 CFR Part 70, "Domestic Licensing of Special Nuclear Material," requires that applications for a specific license to own, acquire, deliver, receive, possess, use, or transfer special nuclear material contain proposed procedures to avoid accidental conditions of criticality. | Section 70.22, "Contents of Applications," of 10 CFR | ||
Part 70, "Domestic Licensing of Special Nuclear Material," | |||
requires that applications for a specific license to own, acquire, deliver, receive, possess, use, or transfer special nuclear material contain proposed procedures to avoid accidental conditions of criticality. Procedures for this purpose include incorporating neutron-absorbing material such as boron in process equipment. This regulatory guide provides guidance for complying with this portion of the Commission's regulations by describing procedures accept able to the NRC staff for the prevention of criticality accidents by use of borosilicate-glass raschig rings as a neutron absorber in solutions of fissile material. | |||
Any information collection activities mentioned in this regulatory guide are contained as requirements in 10 CFR | |||
Part 70, which provides the regulatory basis for this guide. | |||
The information collection requirements in 10 CFR Part 70 | |||
have been cleared under OMB Clearance No. 3150-0009. | |||
==B. DISCUSSION== | ==B. DISCUSSION== | ||
ANSI/ANS 8.5- | ANSI/ANS-8.5-1986, "Use of Borosilicate-Glass Raschig Rings as a Neutron Absorber in Solutions of Fissile Mate rial," 1 is a revision of ANSI/ANS-8.5-1979 and was pre pared by Subcommittee 8, Fissionable Materials Outside Reactors, of the Standards Committee of the American Nuclear Society. ANSI/ANS-8.5-1986 was approved by the American National Standards Committee N16, Nuclear Criticality Safety, in 1985 and by the American National Standards Institute (ANSI) on January 3, 1986. | ||
8, Fissionable Materials Outside Reactors, of the Standards Committee of the American Nuclear Society.ANSI/ANS 8.5- | |||
ICopies may be obtained from the American Nuclear Society, | |||
555 North Kensington Avenue, La Grange Park, Illinois 60525. | |||
ANSI/ANS-8.5-1986 provides guidance on the use of borosilicate-glass raschig rings as a neutron absorber in solutions of fissile material. The standard applies to the use of borosilicate-glass raschig rings for primary and for secondary criticality control in solutions containing 235u, | |||
2 3 9Pu, and 2 3 3 U. The chemical and physical environment, properties of the rings and packed vessels, maintenance inspection procedures, and criticality operating limits are specified in the standard. | |||
Maximum permissible concentrations of homogeneous solutions of plutonium or of uranium in vessels of unlimited size packed with borosilicate-glass raschig rings are specified in the standard. The concentration of these solutions is expressed as the mass of plutonium or of uranium per unit volume. The density of hydrogen in any solution cannot be less than 75 g/liter nor greater than 115 g/liter. | |||
Limitations on the relative abundance of the various isotopes of plutonium are imposed in the specifications applicable to plutonium solutions.. The concentrations specified for uranium enriched in 23sU apply regardless of the 23 5 U enrichment content but with a limitation on the | |||
2 3 3 U content. For solutions of uranium containing up to | |||
5.0 wt-% 2 3 5 U and up to 0.01 wt-% 2 3 3 U (see Table 12 on page 8 of the standard), the maximum permissible solution concentration is unrestricted. The concentrations specified for solutions of 2 3 3 U also apply to mixtures of 2 3 3U and other uranium isotopes. | |||
The | ==C. REGULATORY POSITION== | ||
The guidance contained in ANSI/ANS-8.5-1986 for the use of borosilicate-glass raschig rings as a neutron absorber in solutions of fissile material provides a procedure | |||
241 22Note that in Týpje 1 ( 3 t4a4 on page & of the standard, ' | |||
4 1 Pu > | |||
lPu should read Pu > | |||
Pu. | |||
== | USNRC REGULATORY GUIDES | ||
The guides are Issued In the following ten broad divisions: | |||
Regulatory Guides are Issued to describe and make available to the pubiic methods acceptable to the NRC staff of implementing | |||
===1. Power Reactors === | |||
6. Products specific parts of the Commission's regulations, to delineate tech- | |||
2. Research and Test Reactors | |||
7. Transportation niques used by the staff in evaluating specific problems or postu- | |||
3. Fuels and Materials Facilities | |||
8. Occupational Health lated accidents, or to provide guidance to applicant | |||
====s. Regulatory ==== | |||
4. | |||
Environmental and Siting | |||
9. Antitrust and Financial Review Guides are not substitutes for regulations, and compliance with | |||
5. Materials and Plant Protection 10. General 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 Copies of issued guides may be purchased from the Government license by the Commission. | |||
Printing Office at the current GPO price. Information on current GPO prices may be obtained by contacting the Superintendent of This guide was issued after consideration of comments received from Documents, U.S. Government Printing Office, Post Office Box the public. Comments and suggestions for improvements in these | |||
37082, Washington, DC 20013-7082, telephone (202)275-2060 or guides are encouraged at all times, and guides will be revised, as | |||
(202)275-2171. | |||
appropriate, to accommodate comments and to reflect new informa tion or experience. | |||
Issued guides may also be purchased from the National Technical Written comments may be submitted to the Rules and Procedures Information Service on a standing order basis. Details on this Branch, DRR, | |||
ADM, | |||
U.S. | |||
Regulatory | Nuclear Regulatory Commission, service may be obtained by writing NTIS, 5285 Port Royal Road, Washlngton, DC 20555. | ||
Springfield, VA 22161. | |||
generally acceptable to the NRC staff for the prevention of accidental conditions of criticality. | |||
Section 8.0 of ANSI/ANS-8.5-1986 lists additional docu ments referred to in the standard. The specific applicability or acceptability of these listed documents will be covered separately in other regulatory guides, where appropriate. | |||
== | ==D. IMPLEMENTATION== | ||
The purpose of this section is to provide information to applicants regarding the NRC staff's plan for using this regulatory guide. | |||
The methods described in this guide were applied in a number of specific cases during reviews and selected licensing actions. These methods reflect the latest general NRC approach to criticality safety | The methods described in this guide were applied in a number of specific cases during reviews and selected licensing actions. These methods reflect the latest general NRC approach to criticality safety in operations involving use of borosilicate-glass raschig rings as a neutron absorber in solutions of fissile material. Therefore, except in those cases in which the applicant proposes an acceptable alter native method for complying with specified portions of the Commission's regulations, the methods described in this guide will be used in the evaluation of submittals in connection with license applications submitted under | ||
10 CFR Part 70. | |||
3.1-2 | |||
VALUE/IMPACT STATEMENT | |||
A draft value/impact statement was published with the oposed Revision 2 to Regulatory Guide 3.1 (Task CE | |||
602-4) when the draft guide was published for public comment in March 1987. No changes were necessary, so a separate value/impact statement for the final guide has not been prepared. A copy of the draft value/impact statement is available for inspection and copying for a fee at the Commission's Public Document Room at 1717 H Street NW., Washington, DC, under Task CE 602-4. | |||
-S. G.P.O. 1987-181-682:60212 | |||
3.1-3 | |||
D. C. 20555 OFFICIAL BUSINESS PENALTY FOR PRIVATE USE, $300 | UNITED STATES | ||
NUCLEAR REGULATORY COMMISSION | |||
WASHINGTON, D.C. 20555 FIRST CLASS MAIL | |||
POSTAGE & FEES PAID | |||
USNRC | |||
PERMIT No. G-67 OFFICIAL BUSINESS | |||
PENALTY FOR PRIVATE USE, $300}} | |||
{{RG-Nav}} | {{RG-Nav}} | ||
Latest revision as of 02:06, 17 January 2025
| ML003740237 | |
| Person / Time | |
|---|---|
| Issue date: | 09/30/1987 |
| From: | Office of Nuclear Regulatory Research |
| To: | |
| References | |
| RG-3.001, Rev. 2 | |
| Download: ML003740237 (4) | |
Revision 2 September 1987 U.S. NUCLEAR REGULATORY COMMISSION
REGULATORY GUIDE
OFFICE OF NUCLEAR REGULATORY RESEARCH
REGULATORY GUIDE 3.1 (Task CE 602-4)
USE OF BOROSILICATE-GLASS RASCHIG RINGS AS A NEUTRON
ABSORBER IN SOLUTIONS OF FISSILE MATERIAL
A. INTRODUCTION
Section 70.22, "Contents of Applications," of 10 CFR
Part 70, "Domestic Licensing of Special Nuclear Material,"
requires that applications for a specific license to own, acquire, deliver, receive, possess, use, or transfer special nuclear material contain proposed procedures to avoid accidental conditions of criticality. Procedures for this purpose include incorporating neutron-absorbing material such as boron in process equipment. This regulatory guide provides guidance for complying with this portion of the Commission's regulations by describing procedures accept able to the NRC staff for the prevention of criticality accidents by use of borosilicate-glass raschig rings as a neutron absorber in solutions of fissile material.
Any information collection activities mentioned in this regulatory guide are contained as requirements in 10 CFR
Part 70, which provides the regulatory basis for this guide.
The information collection requirements in 10 CFR Part 70
have been cleared under OMB Clearance No. 3150-0009.
B. DISCUSSION
ANSI/ANS-8.5-1986, "Use of Borosilicate-Glass Raschig Rings as a Neutron Absorber in Solutions of Fissile Mate rial," 1 is a revision of ANSI/ANS-8.5-1979 and was pre pared by Subcommittee 8, Fissionable Materials Outside Reactors, of the Standards Committee of the American Nuclear Society. ANSI/ANS-8.5-1986 was approved by the American National Standards Committee N16, Nuclear Criticality Safety, in 1985 and by the American National Standards Institute (ANSI) on January 3, 1986.
ICopies may be obtained from the American Nuclear Society,
555 North Kensington Avenue, La Grange Park, Illinois 60525.
ANSI/ANS-8.5-1986 provides guidance on the use of borosilicate-glass raschig rings as a neutron absorber in solutions of fissile material. The standard applies to the use of borosilicate-glass raschig rings for primary and for secondary criticality control in solutions containing 235u,
2 3 9Pu, and 2 3 3 U. The chemical and physical environment, properties of the rings and packed vessels, maintenance inspection procedures, and criticality operating limits are specified in the standard.
Maximum permissible concentrations of homogeneous solutions of plutonium or of uranium in vessels of unlimited size packed with borosilicate-glass raschig rings are specified in the standard. The concentration of these solutions is expressed as the mass of plutonium or of uranium per unit volume. The density of hydrogen in any solution cannot be less than 75 g/liter nor greater than 115 g/liter.
Limitations on the relative abundance of the various isotopes of plutonium are imposed in the specifications applicable to plutonium solutions.. The concentrations specified for uranium enriched in 23sU apply regardless of the 23 5 U enrichment content but with a limitation on the
2 3 3 U content. For solutions of uranium containing up to
5.0 wt-% 2 3 5 U and up to 0.01 wt-% 2 3 3 U (see Table 12 on page 8 of the standard), the maximum permissible solution concentration is unrestricted. The concentrations specified for solutions of 2 3 3 U also apply to mixtures of 2 3 3U and other uranium isotopes.
C. REGULATORY POSITION
The guidance contained in ANSI/ANS-8.5-1986 for the use of borosilicate-glass raschig rings as a neutron absorber in solutions of fissile material provides a procedure
241 22Note that in Týpje 1 ( 3 t4a4 on page & of the standard, '
4 1 Pu >
lPu should read Pu >
Pu.
USNRC REGULATORY GUIDES
The guides are Issued In the following ten broad divisions:
Regulatory Guides are Issued to describe and make available to the pubiic methods acceptable to the NRC staff of implementing
1. Power Reactors
6. Products specific parts of the Commission's regulations, to delineate tech-
2. Research and Test Reactors
7. Transportation niques used by the staff in evaluating specific problems or postu-
3. Fuels and Materials Facilities
8. Occupational Health lated accidents, or to provide guidance to applicant
s. Regulatory
4.
Environmental and Siting
9. Antitrust and Financial Review Guides are not substitutes for regulations, and compliance with
5. Materials and Plant Protection 10. General 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 Copies of issued guides may be purchased from the Government license by the Commission.
Printing Office at the current GPO price. Information on current GPO prices may be obtained by contacting the Superintendent of This guide was issued after consideration of comments received from Documents, U.S. Government Printing Office, Post Office Box the public. Comments and suggestions for improvements in these
37082, Washington, DC 20013-7082, telephone (202)275-2060 or guides are encouraged at all times, and guides will be revised, as
(202)275-2171.
appropriate, to accommodate comments and to reflect new informa tion or experience.
Issued guides may also be purchased from the National Technical Written comments may be submitted to the Rules and Procedures Information Service on a standing order basis. Details on this Branch, DRR,
ADM,
U.S.
Nuclear Regulatory Commission, service may be obtained by writing NTIS, 5285 Port Royal Road, Washlngton, DC 20555.
Springfield, VA 22161.
generally acceptable to the NRC staff for the prevention of accidental conditions of criticality.
Section 8.0 of ANSI/ANS-8.5-1986 lists additional docu ments referred to in the standard. The specific applicability or acceptability of these listed documents will be covered separately in other regulatory guides, where appropriate.
D. IMPLEMENTATION
The purpose of this section is to provide information to applicants regarding the NRC staff's plan for using this regulatory guide.
The methods described in this guide were applied in a number of specific cases during reviews and selected licensing actions. These methods reflect the latest general NRC approach to criticality safety in operations involving use of borosilicate-glass raschig rings as a neutron absorber in solutions of fissile material. Therefore, except in those cases in which the applicant proposes an acceptable alter native method for complying with specified portions of the Commission's regulations, the methods described in this guide will be used in the evaluation of submittals in connection with license applications submitted under
3.1-2
VALUE/IMPACT STATEMENT
A draft value/impact statement was published with the oposed Revision 2 to Regulatory Guide 3.1 (Task CE
602-4) when the draft guide was published for public comment in March 1987. No changes were necessary, so a separate value/impact statement for the final guide has not been prepared. A copy of the draft value/impact statement is available for inspection and copying for a fee at the Commission's Public Document Room at 1717 H Street NW., Washington, DC, under Task CE 602-4.
-S. G.P.O. 1987-181-682:60212
3.1-3
UNITED STATES
NUCLEAR REGULATORY COMMISSION
WASHINGTON, D.C. 20555 FIRST CLASS MAIL
POSTAGE & FEES PAID
PERMIT No. G-67 OFFICIAL BUSINESS
PENALTY FOR PRIVATE USE, $300