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GB 15146.8-2008: Nuclear criticality safety for fissile materials outside reactors -- Part 8: Criticality safety criteria for the handling, storage, and transportation of LWR fuel outside reactors
Status: Valid GB 15146.8: Evolution and historical versions
| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| GB 15146.8-2008 | English | 189 |
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Nuclear criticality safety for fissile materials outside reactors -- Part 8: Criticality safety criteria for the handling, storage, and transportation of LWR fuel outside reactors
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GB 15146.8-2008
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| GB 15146.8-1994 | English | 279 |
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Nuclear criticality safety for fissile materials outside reactors-Criticality safety criteria for the handling, storage and transportation of LWR fuel unit outside reactors
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GB 15146.8-1994
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PDF similar to GB 15146.8-2008
Basic data | Standard ID | GB 15146.8-2008 (GB15146.8-2008) | | Description (Translated English) | Nuclear criticality safety for fissile materials outside reactors -- Part 8: Criticality safety criteria for the handling, storage, and transportation of LWR fuel outside reactors | | Sector / Industry | National Standard | | Classification of Chinese Standard | F09 | | Classification of International Standard | 27.120 | | Word Count Estimation | 8,844 | | Date of Issue | 2008-09-19 | | Date of Implementation | 2009-08-01 | | Older Standard (superseded by this standard) | GB 15146.8-1994 | | Quoted Standard | GB 15146.1; GB 15146.2; GB 15146.7; GB 15146.9; GB 15146.10 | | Regulation (derived from) | Announcement of Newly Approved National Standards No. 16 of 2008 (No. 129 overall) | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This Chinese standard provides heap outside operations, storage and transportation of LWR fuel rods and fuel elements for nuclear criticality safety guidelines. This standard applies to LWR fuel rods and the fuel cell stack outside the handling, storage and transport. | GB 15146.8-2008: Nuclear criticality safety for fissile materials outside reactors -- Part 8: Criticality safety criteria for the handling, storage, and transportation of LWR fuel outside reactors
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Nuclear criticality safety for fissile materials outside reactors.Part 8. Criticality safety criteria for the handling, storage, and transportation of LWR fuel outside reactors
ICS 27.120
F09
National Standards of People's Republic of China
Replacing GB 15146.8-1994
Nuclear criticality safety for fissile materials outside reactors
Part 8. heap outside the handling, storage and transportation of LWR
Nuclear criticality safety criteria for fuel
Posted 2008-09-19
2009-08-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Foreword
All technical content in this section is mandatory.
GB 15146 "Nuclear criticality safety for fissile materials outside reactor" has so far released the following 11 sections.
--- GB 15146.1 Part 1. Nuclear Criticality Safety Administration regulations (instead of GB 15146.1-1994)
--- GB 15146.2 - Part 2. Operation fissile material, processing and handling of basic technical rules and subcritical limits (instead of
GB 15146.2-1994)
--- GB 15146.3 Part 3. storage of fissile material for nuclear criticality safety requirements (instead of GB 15146.3-1994)
--- Aqueous solutions of fissile material for nuclear criticality safety criteria for steel - pipe intersections containing GB 15146.4
--- GB 15146.5 plutonium - natural uranium nuclear criticality control criteria and subcritical limits for mixtures
--- GB/T 15146.6 borosilicate glass Raschig rings and its application criteria
--- GB 15146.7 subcritical neutron multiplication measurements in situ
--- GB 15146.8 Part 8. heap outside the handling, storage and transport of nuclear criticality safety criteria for LWR fuel (instead of
GB 15146.8-1994)
--- GB 15146.9 performance and testing requirements for nuclear criticality detection and alarm systems
--- GB 15146.10 Safety requirements for fixed neutron absorber
--- GB/T 15146.11 based nuclear criticality safety limits and controls moderator
GB 15146 fissile materials outside the reactor operation, processing, handling, storage and transport of nuclear criticality safety requirements and recommendations made.
This section GB of Section 815 146.
This Part replaces GB 15146.8-1994 "for fissile materials outside reactor - Nuclear criticality safety-pile handling, storage and transportation of LWR
Nuclear criticality safety guidelines "of the fuel cell.
This section compared with GB 15146.8-1994 major changes.
--- Increased the preamble;
--- Increased LWR fuel rods in the range;
--- Subcritical method was established in line with the guidelines of the statistical concepts;
--- Deleted the relevant administrative measures (Chapter 5 1994 version);
--- Auxiliary verb "must" to "shall", "should" or "may."
The revision of the vast majority of editorial changes, in addition to deleted some without some chapters, but also added some new content, such as
Critical times in line with the guidelines established method of statistical concepts.
In the current version, with the auxiliary verb "shall" indicates requirements, "should" indicates recommendations; and the auxiliary verb "can" represented by the previous version of the same, not to
Demand is not recommended that only a license. Asked to use "shall" is mandatory representation; for suggested "should" indicates, if not executed,
It shall state the reasons by documented proof.
Appendix A of this section is an informative annex.
This part of the National Standardization Technical Committee proposed nuclear energy.
This part of the National Standardization Technical Committee centralized nuclear energy.
This section drafted by. China Nuclear Power Engineering Co., Ltd.
The main drafters of this section. Leung, Huo Xiaodong.
This section was first released in 1994.
Nuclear criticality safety for fissile materials outside reactors
Part 8. heap outside the handling, storage and transportation of LWR
Nuclear criticality safety criteria for fuel
1 Scope
This section provides guidelines for nuclear criticality safety-pile handling, storage and transportation of LWR fuel rods and the fuel element.
This section applies to operations outside reactors LWR fuel rods and fuel cells, storage and transport.
2 Normative references
The following documents contain provisions which, through reference in this text, constitute provisions of this part. For dated references, subsequent
Amendments (not including errata content) or revisions do not apply to this section, however, encourage the parties to this part of the research agreement
Whether the latest versions of these documents. For undated reference documents, the latest versions apply to this section.
GB 15146.1 fissile materials outside reactor - Nuclear criticality safety - Part 1. Nuclear Criticality Safety Administration regulations
GB 15146.2 outside reactors Nuclear criticality safety for fissile materials - Part 2. The operation of fissile material, processing, handling basic
Technical guidelines and subcritical limits
GB 15146.7 outside reactors Yi Nuclear criticality safety subcritical neutron multiplication of fissile material for measurements in situ
Performance and testing GB 15146.9 fissile materials outside reactor - Nuclear criticality safety for nuclear criticality detection and alarm systems
Claim
GB 15146.10 Safety requirements outside reactor nuclear criticality safety for fissile material fixed neutron absorber
3 Terms and Definitions
The following terms and definitions apply to this section.
3.1
Limiting parameters within a predetermined range.
3.2
Containing fissile material nuclides elongated cylinder, usually enclosed in a metal sleeve.
3.3
Handling, storage and transport of the basic unit of time. For example, the fuel assembly, packed in together or spent fuel rods tank.
3.4
By a qualified examiner other than the original author of the nuclear criticality safety evaluation performed by the former carried out in order to ensure that the assessment
The price is right. Author and reviewers can belong to the same unit.
4 General safety guidelines
4.1 Nuclear criticality safety for the general administrative requirements and technical requirements see GB 15146.1, GB 15146.2.
4.2 The method used to calculate the effective multiplication factor shall be confirmed in accordance with the GB 15146.2.
4.3 shall determine the necessity of setting threshold alarm systems and their use in accordance with the rules specified in GB 15146.9.
4.4 For any operation involving fuel or fuel cells, storage, operating systems, or transportation, or the first time in the job system early
Prior-use, or they implement the change should be in accordance with the guidelines specified in chapter 5 for all normal operating conditions, credible abnormal working conditions
Evaluated in order to determine such jobs or subcritical system (see Appendix A).
4.5 Nuclear criticality safety evaluation shall be determined and made clear that the controlled parameter criticality safety depends, and its design operating limits. These controlled
Effect of changes in parameters or conditions arising shall be documented.
4.6 Nuclear criticality safety assessment should form files that you want detailed, well organized, can not be vague, in order to facilitate independent review and
Ensure the accuracy of the results.
4.7 Prior to the implementation of the job, it should be an independent review to ensure that the evaluation requirements of 4.4 is appropriate.
4.8 Prior to the implementation of the job, you should verify the configuration and working condition in time to meet the 4.5 operating limits specified in the design and requirements.
4.9 can be used in a solution consisting of one of the fuel itself, structures, equipment or structures, devices, such as added gadolinium, boron neutron
Absorbent methods to ensure nuclear criticality safety. However, when dependent neutron absorber ensure criticality safety, you should use control measures to ensure their protection
Holding a predetermined arrangement, distribution and concentration. When using absorbent solution should be careful and should comply with the relevant safety standards. Fuel element
You should be careful when containing burnable poison, looking for the most reactive state. Fixation should be used in accordance with the provisions of GB 15146.10
Sub-absorbent.
4.10 during the nuclear criticality safety evaluation, should select those characteristics of the fuel reactivity (such as material composition within the range of values credible,
Geometry or temperature), the evaluation system in order to obtain the maximum neutron multiplication factor. You can identify one of the largest fuel cell reaction
Sex, and to ensure that any fuel element reactivity values greater than the reactive strategies to consider since the burnup reactivity caused by drop
low. Through the following measures to ensure that any fuel element reactivity does not exceed the maximum value of the reaction.
a) associated with the measurement of the reaction;
b) analyzing and verifying each irradiation history of the fuel element.
Also, consider the fuel element in the axial burnup distribution.
4.11 pairs of the fuel rods and the fuel cell operation, storage, transportation, should allow sufficient safety factor to ensure that at least occur together
Two improbabilities independent when conditions change another possible cause of the criticality accident occurred.
5 criteria to determine subcritical
5.1 When using the method of analysis to predict neutron added factor, according to equation (1) to calculate the neutron factor k p value should be equal to or less than the determined
License neutron multiplication factors, namely.
P≤ c-Δ k k k k p-Δ c-Δ k m (1)
Where.
K p --- under all normal operating conditions or credible abnormal conditions or circumstances of the incident, the proliferation of neutron evaluation system factor calculated value k eff.
K c --- k eff to calculate the average number of critical benchmark experiments with a specific calculation method. K c reference for calculating the critical experiment
Physical components, configurations and nuclear properties (including a reflective layer), etc. should be similar to the system being evaluated. If you are parameters evaluation system
Beyond the scope of the applicable benchmark critical experimentally determined, you can scope based k c with the trend of the parameter extrapolation
Too. When larger extrapolation range, using the trend extrapolation approach should be used to supplement other computational methods. About applicable
Within the scope and extrapolated to issues beyond the scope of application, see GB 15146.2.
Δ k p --- to the following aspects aside deduction amount.
--- Calculate statistical uncertainty or convergence uncertainty when k p, or their sum;
--- Material and manufacturing tolerances;
--- Geometry or material uncertainty caused by the approximation calculation method.
Δ k c k c --- to uncertainty aside margin, including the amount of deductions the following aspects.
--- Critical experimental uncertainty;
--- Calculate statistical uncertainty or convergence uncertainty when k c, or their sum;
--- When uncertainty is k c is outside the scope of the experimental data, pushed by the outer caused;
--- Geometry or material uncertainty caused by the approximation calculation method.
Δ k k p m --- To ensure a subcritical value added margin.
According to statistical theory, when different uncertainty are independent, you can combine them together, the above inequality variable
Of the formula (2).
K k p≤ c- (Δ k 2p + Δ k 2c) 1/2-Δ k m (2)
5.2 k eff can not be obtained when those methods directly, but its effectiveness has been confirmed in accordance with the provisions of GB 15146.2 it can also be used to determine
Paul subcritical.
5.3 suitable experimental data or data derived from the experiment, only to set aside enough to ensure subcritical deduction amount, you can directly use.
5.4 in accordance with the provisions of GB 15146.7 situ measurements performed, can also be used to ensure subcritical.
Appendix A
(Informative)
Nuclear criticality safety considerations when handling, storage and transportation of the fuel element to be considered
A. 1 Overview
During nuclear criticality safety assessment, taking into account the design parameters of the fuel, storage arrangement of various sizes, fuel rules, moderator and anti
Shooting conditions, etc., to ensure that the state is considered the most reactive credible state. 4.4 requires consideration of normal operating parameters associated with the controlled
Status and credible abnormal conditions, and to consider uncertainty associated with controlled parameters, including tolerance design. Typical parameters and conditions
Members as follows.
A. 2 fuel parameters
Fuel parameters include.
--- Content of fissile material, shape, density, distribution, and nuclear properties;
--- Burnable poison content, density and distribution (note. the reaction of burnable poison containing irradiated fuel may exceed the non-irradiated fuel
Reactive materials);
--- Fuel rod geometry including cladding material and thickness;
Greater influence on the reaction of the fuel rods within --- other materials, as well as their distribution.
A. 3 fuel units
The fuel element composition comprising.
The number of fuel rods and the fuel element within the position ---;
--- Size of the fuel cell;
--- Absorber rods number and location, water channels, and other materials may be present.
A. 4 of the fuel cell arrangement
Arrangement of fuel element comprising.
--- Number and spacing of the fuel element;
--- Between the fuel element fixed neutron absorber;
--- To maintain the fuel element configuration structural material (nuclear properties, number, location and size);
--- Arranged the fuel element change during loading and unloading operations.
A. 5 slow conditions
Plastic shims or other moderating material when dry storage of the fuel element. within the fuel element and credible conditions of moderation between the fuel element, for example,
Material (fog, snow, staff, etc.); underwater storage of the fuel element when the density of water, temperature, including cavitation caused by the boiling.
A. 6 reflective layer and coupling conditions
Reflective layer and coupling conditions include.
--- Reflective layer composition, configuration and location;
--- Coupling with other fissile material;
--- Consider fuel element handling process variations.
A. 7 abnormal conditions and accident conditions
Abnormal conditions and accident conditions include.
--- Consequences caused by earthquakes, hydrogen explosion or fire;
--- Abnormal position of the fuel element (eg, in the wrong place to put the wrong fuel element enrichment);
Fall accident --- or fuel containers, grids or transport grid when the fuel pouring and other accidents caused by the geometric distortion;
--- For the loss of poison or slow, geometry, reflections and other conditions caused by changes in credible accident;
When outside plant --- transport, should be considered GB 11806 "Safe Transport of Radioactive Material Regulations" provides anomalies and accident conditions.
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