Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.

Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.

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Superior document:Safety Reports Series ; v.103
:
IAEA.
Place / Publishing House:Havertown : : International Atomic Energy Agency,, 2020.
Ã2020.
Year of Publication:2020
Edition:1st ed.
Language:English
Series:Safety Reports Series
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Physical Description:1 online resource (116 pages)
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(OCoLC)1319225301
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spelling IAEA.
Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.
1st ed.
Havertown : International Atomic Energy Agency, 2020.
Ã2020.
1 online resource (116 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Safety Reports Series ; v.103
Intro -- 1. INTRODUCTION -- 1.1. Background -- 1.2. Objective -- 1.3. Scope -- 1.4. Structure -- 2. FORMULATION OF THE PROGRAMME FOR SEISMIC SAFETY EVALUATION OF EXISTING Nuclear INSTALLATIONS -- 2.1. Perspective -- 2.1.1. Existing nuclear installations -- 2.1.2. Reasons to perform seismic safety evaluations -- 2.1.3. Margins beyond the design basis for new nuclear installations -- 2.1.4. Margins beyond the design basis for existing nuclear installations -- 2.2. Selection of methodology -- 2.2.1. Seismic probabilistic safety assessment -- 2.2.2. Methodology for seismic margin assessment -- 2.2.3. Design basis re-constitution -- 2.2.4. Selection considerations -- 3. DATA COLLECTION AND INVESTIGATIONs -- 3.1. General -- 3.2. Hazard classification of installations and structures, systems and components -- 3.3. Seismic design basis data -- 3.4. Data collection and documents -- 3.4.1. Site data -- 3.4.2. Assumptions and methods of analysis of existing structures, systems and components -- 3.4.3. Standards and procedures -- 3.4.4. Nuclear installation documentation -- 3.4.5. Data for structures, systems and components -- 3.4.6. Upgrades and nuclear installation modifications -- 3.4.7. Results of other safety evaluations -- 4. ASSESSMENT OF SEISMIC HAZARDS -- 4.1. Probabilistic seismic hazard analysis -- 4.2. Review level earthquake -- 4.2.1. General characteristics of the review level earthquake -- 4.3. Bases for development of the review level earthquake -- 4.3.1. Probabilistic seismic hazard analysis -- 4.3.2. Absence of probabilistic seismic hazard analysis -- 4.3.3. Regulatory specified -- 4.3.4. New nuclear power plants -- 5. SEISMIC SAFETY ASSESSMENT -- 5.1. Seismic margin assessment -- 5.1.1. General -- 5.1.2. Elements of the seismic margin assessment -- 5.1.3. Enhancements -- 5.1.4. Documentation -- 5.2. Seismic probabilistic safety analysis.
5.2.1. General -- 5.2.2. Elements of the seismic probabilistic safety assessment -- 5.2.3. Special issues -- 5.3. PSA based seismic safety assessment -- 5.3.1. System and accident sequence analysis -- 5.3.2. Fragility analysis -- 5.4. Off-site seismic induced effects -- 6. MODERATE AND LOW HAZARD INSTALLATIONS -- 6.1. Categorization -- 6.2. Selection of methodology -- 6.3. Review level earthquake -- 6.4. Selection of SSCs to be evaluated -- 6.5. SSC evaluation and walkdown -- 6.6. Seismic margin assessment -- 6.7. Seismic instrumentation -- 7. CONSIDERATIONS FOR UPGRADING -- 7.1. Structure and substructure upgrades -- 7.2. Mechanical and electrical distribution systems and mechanical components upgrades -- 7.2.1. Pressure retaining mechanical distribution systems and components -- 7.2.2. Other mechanical components -- 7.3. Electrical and instrumentation and control components -- 8. MANAGEMENT SYSTEM FOR SEISMIC SAFETY EVALUATION -- 8.1. General -- 8.2. Peer review -- 8.3. Configuration control -- 8.4. Quality assurance -- Appendix I EXAMPLES OF SEISMIC DESIGN CATEGORIES AND SITE FOUNDATION CLASSIFICATION -- Appendix II SUGGESTED DAMPING VALUES AND INELASTIC ENERGY ABSORPTION FACTORS -- Appendix III BACKGROUND AND TERMINOLOGY FOR THE INELASTIC ENERGY ABSORPTION FACTORS -- Appendix IV HYBRID METHOD FOR FRAGILITY CALCULATIONS -- Appendix V TYPICAL WALKDOWN FORMS -- REFERENCES -- DEFINITIONS -- ABBREVIATIONS -- CONTRIBUTORS TO DRAFTING AND REVIEW.
Description based on publisher supplied metadata and other sources.
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
Electronic books.
Print version: IAEA Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations Havertown : International Atomic Energy Agency,c2020
ProQuest (Firm)
Safety Reports Series
https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=6985970 Click to View
language English
format eBook
author IAEA.
spellingShingle IAEA.
Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.
Safety Reports Series ;
Intro -- 1. INTRODUCTION -- 1.1. Background -- 1.2. Objective -- 1.3. Scope -- 1.4. Structure -- 2. FORMULATION OF THE PROGRAMME FOR SEISMIC SAFETY EVALUATION OF EXISTING Nuclear INSTALLATIONS -- 2.1. Perspective -- 2.1.1. Existing nuclear installations -- 2.1.2. Reasons to perform seismic safety evaluations -- 2.1.3. Margins beyond the design basis for new nuclear installations -- 2.1.4. Margins beyond the design basis for existing nuclear installations -- 2.2. Selection of methodology -- 2.2.1. Seismic probabilistic safety assessment -- 2.2.2. Methodology for seismic margin assessment -- 2.2.3. Design basis re-constitution -- 2.2.4. Selection considerations -- 3. DATA COLLECTION AND INVESTIGATIONs -- 3.1. General -- 3.2. Hazard classification of installations and structures, systems and components -- 3.3. Seismic design basis data -- 3.4. Data collection and documents -- 3.4.1. Site data -- 3.4.2. Assumptions and methods of analysis of existing structures, systems and components -- 3.4.3. Standards and procedures -- 3.4.4. Nuclear installation documentation -- 3.4.5. Data for structures, systems and components -- 3.4.6. Upgrades and nuclear installation modifications -- 3.4.7. Results of other safety evaluations -- 4. ASSESSMENT OF SEISMIC HAZARDS -- 4.1. Probabilistic seismic hazard analysis -- 4.2. Review level earthquake -- 4.2.1. General characteristics of the review level earthquake -- 4.3. Bases for development of the review level earthquake -- 4.3.1. Probabilistic seismic hazard analysis -- 4.3.2. Absence of probabilistic seismic hazard analysis -- 4.3.3. Regulatory specified -- 4.3.4. New nuclear power plants -- 5. SEISMIC SAFETY ASSESSMENT -- 5.1. Seismic margin assessment -- 5.1.1. General -- 5.1.2. Elements of the seismic margin assessment -- 5.1.3. Enhancements -- 5.1.4. Documentation -- 5.2. Seismic probabilistic safety analysis.
5.2.1. General -- 5.2.2. Elements of the seismic probabilistic safety assessment -- 5.2.3. Special issues -- 5.3. PSA based seismic safety assessment -- 5.3.1. System and accident sequence analysis -- 5.3.2. Fragility analysis -- 5.4. Off-site seismic induced effects -- 6. MODERATE AND LOW HAZARD INSTALLATIONS -- 6.1. Categorization -- 6.2. Selection of methodology -- 6.3. Review level earthquake -- 6.4. Selection of SSCs to be evaluated -- 6.5. SSC evaluation and walkdown -- 6.6. Seismic margin assessment -- 6.7. Seismic instrumentation -- 7. CONSIDERATIONS FOR UPGRADING -- 7.1. Structure and substructure upgrades -- 7.2. Mechanical and electrical distribution systems and mechanical components upgrades -- 7.2.1. Pressure retaining mechanical distribution systems and components -- 7.2.2. Other mechanical components -- 7.3. Electrical and instrumentation and control components -- 8. MANAGEMENT SYSTEM FOR SEISMIC SAFETY EVALUATION -- 8.1. General -- 8.2. Peer review -- 8.3. Configuration control -- 8.4. Quality assurance -- Appendix I EXAMPLES OF SEISMIC DESIGN CATEGORIES AND SITE FOUNDATION CLASSIFICATION -- Appendix II SUGGESTED DAMPING VALUES AND INELASTIC ENERGY ABSORPTION FACTORS -- Appendix III BACKGROUND AND TERMINOLOGY FOR THE INELASTIC ENERGY ABSORPTION FACTORS -- Appendix IV HYBRID METHOD FOR FRAGILITY CALCULATIONS -- Appendix V TYPICAL WALKDOWN FORMS -- REFERENCES -- DEFINITIONS -- ABBREVIATIONS -- CONTRIBUTORS TO DRAFTING AND REVIEW.
author_facet IAEA.
author_variant i
author_sort IAEA.
title Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.
title_full Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.
title_fullStr Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.
title_full_unstemmed Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.
title_auth Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.
title_new Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.
title_sort methodologies for seismic safety evaluation of existing nuclear installations.
series Safety Reports Series ;
series2 Safety Reports Series ;
publisher International Atomic Energy Agency,
publishDate 2020
physical 1 online resource (116 pages)
edition 1st ed.
contents Intro -- 1. INTRODUCTION -- 1.1. Background -- 1.2. Objective -- 1.3. Scope -- 1.4. Structure -- 2. FORMULATION OF THE PROGRAMME FOR SEISMIC SAFETY EVALUATION OF EXISTING Nuclear INSTALLATIONS -- 2.1. Perspective -- 2.1.1. Existing nuclear installations -- 2.1.2. Reasons to perform seismic safety evaluations -- 2.1.3. Margins beyond the design basis for new nuclear installations -- 2.1.4. Margins beyond the design basis for existing nuclear installations -- 2.2. Selection of methodology -- 2.2.1. Seismic probabilistic safety assessment -- 2.2.2. Methodology for seismic margin assessment -- 2.2.3. Design basis re-constitution -- 2.2.4. Selection considerations -- 3. DATA COLLECTION AND INVESTIGATIONs -- 3.1. General -- 3.2. Hazard classification of installations and structures, systems and components -- 3.3. Seismic design basis data -- 3.4. Data collection and documents -- 3.4.1. Site data -- 3.4.2. Assumptions and methods of analysis of existing structures, systems and components -- 3.4.3. Standards and procedures -- 3.4.4. Nuclear installation documentation -- 3.4.5. Data for structures, systems and components -- 3.4.6. Upgrades and nuclear installation modifications -- 3.4.7. Results of other safety evaluations -- 4. ASSESSMENT OF SEISMIC HAZARDS -- 4.1. Probabilistic seismic hazard analysis -- 4.2. Review level earthquake -- 4.2.1. General characteristics of the review level earthquake -- 4.3. Bases for development of the review level earthquake -- 4.3.1. Probabilistic seismic hazard analysis -- 4.3.2. Absence of probabilistic seismic hazard analysis -- 4.3.3. Regulatory specified -- 4.3.4. New nuclear power plants -- 5. SEISMIC SAFETY ASSESSMENT -- 5.1. Seismic margin assessment -- 5.1.1. General -- 5.1.2. Elements of the seismic margin assessment -- 5.1.3. Enhancements -- 5.1.4. Documentation -- 5.2. Seismic probabilistic safety analysis.
5.2.1. General -- 5.2.2. Elements of the seismic probabilistic safety assessment -- 5.2.3. Special issues -- 5.3. PSA based seismic safety assessment -- 5.3.1. System and accident sequence analysis -- 5.3.2. Fragility analysis -- 5.4. Off-site seismic induced effects -- 6. MODERATE AND LOW HAZARD INSTALLATIONS -- 6.1. Categorization -- 6.2. Selection of methodology -- 6.3. Review level earthquake -- 6.4. Selection of SSCs to be evaluated -- 6.5. SSC evaluation and walkdown -- 6.6. Seismic margin assessment -- 6.7. Seismic instrumentation -- 7. CONSIDERATIONS FOR UPGRADING -- 7.1. Structure and substructure upgrades -- 7.2. Mechanical and electrical distribution systems and mechanical components upgrades -- 7.2.1. Pressure retaining mechanical distribution systems and components -- 7.2.2. Other mechanical components -- 7.3. Electrical and instrumentation and control components -- 8. MANAGEMENT SYSTEM FOR SEISMIC SAFETY EVALUATION -- 8.1. General -- 8.2. Peer review -- 8.3. Configuration control -- 8.4. Quality assurance -- Appendix I EXAMPLES OF SEISMIC DESIGN CATEGORIES AND SITE FOUNDATION CLASSIFICATION -- Appendix II SUGGESTED DAMPING VALUES AND INELASTIC ENERGY ABSORPTION FACTORS -- Appendix III BACKGROUND AND TERMINOLOGY FOR THE INELASTIC ENERGY ABSORPTION FACTORS -- Appendix IV HYBRID METHOD FOR FRAGILITY CALCULATIONS -- Appendix V TYPICAL WALKDOWN FORMS -- REFERENCES -- DEFINITIONS -- ABBREVIATIONS -- CONTRIBUTORS TO DRAFTING AND REVIEW.
isbn 9789201060228
genre Electronic books.
genre_facet Electronic books.
url https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=6985970
illustrated Not Illustrated
oclc_num 1319225301
work_keys_str_mv AT iaea methodologiesforseismicsafetyevaluationofexistingnuclearinstallations
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is_hierarchy_title Methodologies for Seismic Safety Evaluation of Existing Nuclear Installations.
container_title Safety Reports Series ; v.103
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