Îïèñàíèå: Probabilistic fault displacement hazard analysis (PFDHA) is a relatively new methodology, and actual examples of applications are quite limited. The current publication provides an introduction to probabilistic approaches to fault displacement hazard assessment with reference to relevant IAEA safety standards. It delineates the most important aspects of PFDHA (including up to date practices, open problems, and challenging issues) within a coherent framework. The information provided will be valuable not only for Member States when applying PFDHA to the site safety assessment of existing installations, but also for nuclear power plant operating organizations, regulatory bodies, vendors, technical support organizations and researchers working in the area of seismic hazard assessmen
Îïèñàíèå: The response of a nuclear installation's structure during an earthquake depends on the characteristics of the ground motion, the surrounding soil and the structure itself. Soil– structure interaction (SSI) analysis is used to evaluate the effects of seismic ground motion on an installation's structure, system and components, to ensure it is designed to withstand the effects of earthquakes, without loss of safety functions. This publication presents SSI phenomena and current practices in SSI modelling, simulation methodology and analysis methods for the design and assessment of nuclear installations. It complements IAEA Safety Standards Series No. SSG-67, Seismic Design for Nuclear Installations, and No. NS-G-2.13, Evaluation of Seismic Safety for Existing Nuclear Installations.
Îïèñàíèå: Provides recommendations on the design of nuclear installations for protection against the effects of external events (excluding earthquakes), meeting the applicable safety requirements established in relation to the design aspects of nuclear installations subjected to external events.
Îïèñàíèå: Takes account of recently gained knowledge and practices developed by Member States related to seismic hazards, especially lessons from the Fukushima Daiichi accident. The guide also addresses concomitant events associated with earthquakes, such as tsunamis.
Àâòîð: A.A. Paton; P. Benwell; T.F. Irwin; I. Hunter Íàçâàíèå: Civil Engineering Design for Decommissioning of Nuclear Installations ISBN: 0860106144 ISBN-13(EAN): 9780860106142 Èçäàòåëüñòâî: Springer Ðåéòèíã: Öåíà: 14365.00 ð. Íàëè÷èå íà ñêëàäå: Åñòü ó ïîñòàâùèêà Ïîñòàâêà ïîä çàêàç.
Îïèñàíèå: 35 9.2 TYpical PWR Station Layout 36 9.3 Regions of Highest Radiological Hazard 38 9.4 Decommissioning Scenarios 40 9.5 Existing Structural Features of a PWR which may aid Decommissioning 42 9.6 Structural Features that might be introduced into Future PWR Stations to aid Decommissioning 43 10.
Íàçâàíèå: Seismic Design for Nuclear Installations ISBN: 9201174217 ISBN-13(EAN): 9789201174215 Èçäàòåëüñòâî: Mare Nostrum (Eurospan) Ðåéòèíã: Öåíà: 4640.00 ð. Íàëè÷èå íà ñêëàäå: Íåò â íàëè÷èè.
Îïèñàíèå: This Safety Guide provides recommendations on how to meet the applicable safety requirements in relation to the design aspects of new nuclear installations subjected to seismic hazard. These recommendations focus on the consistent application of methods and procedures, in accordance with best practice, for seismic analysis, design, testing and qualification of structures, systems and components. New recommendations include applications of seismic isolation systems, the seismic margin to be achieved by the design and application of the graded approach. This Safety Guide is intended for use by organizations involved in the seismic design of nuclear installations, in analysis, verification and review, and in the provision of technical support, as well as by regulatory bodies.
Îïèñàíèå: This publication addresses the basics of the application of a graded approach in the regulatory oversight of nuclear installations, describes the approaches currently implemented by several regulatory bodies around the world and, based on these examples, proposes a generic methodology for application of a graded approach to regulation of nuclear installations. The publication provides practical examples and information on developing and implementing strategies and processes for all regulatory functions.
Îïèñàíèå: Experience shows that an assessment of the seismic capacity of an existing operating facility can be required for a number of reasons, for example identification of potential seismic vulnerabilities based on operating experience events or the periodic safety review programme. This publication covers the seismic safety evaluation programmes to be performed on existing nuclear installations in order to ensure that the required fundamental safety functions are available, with particular application to the safe shutdown of reactors. It includes lessons learned based on the IAEA Action Plan for Strengthening Nuclear Safety, following the Fukushima accident, and updated methodologies for seismic safety evaluation of nuclear installations.
Îïèñàíèå: Presents practical information on occupational radiation protection and examples with good practices from the nuclear industry on how to comply with the requirements established in IAEA Safety Standards Series No. GSR Part 3, Radiation Protection and Safety of Radiation Sources: International Basic Safety Standards.
Àâòîð: International Atomic Energy Agency Íàçâàíèå: Risk aggregation for nuclear installations ISBN: 9201354215 ISBN-13(EAN): 9789201354211 Èçäàòåëüñòâî: Mare Nostrum (Eurospan) Ðåéòèíã: Öåíà: 2495.00 ð. Íàëè÷èå íà ñêëàäå: Íåò â íàëè÷èè.
Îïèñàíèå: Describes the practices and challenges related to risk aggregation for various hazards, various operational states, and considering all sources of potential radioactive releases at a nuclear installation site.
