Advances in Light Water Reactor TechnologiesTakehiko Saito, Junichi Yamashita, Yuki Ishiwatari, Yoshiaki Oka Springer Science & Business Media, 21 дек. 2010 г. - Всего страниц: 295 Advances in Light Water Reactor Technologies focuses on the design and analysis of advanced nuclear power reactors. This volume provides readers with thorough descriptions of the general characteristics of various advanced light water reactors currently being developed worldwide. Safety, design, development and maintenance of these reactors is the main focus, with key technologies like full MOX core design, next-generation digital I&C systems and seismic design and evaluation described at length. This book is ideal for researchers and engineers working in nuclear power that are interested in learning the fundamentals of advanced light water plants. |
Содержание
1 | |
The Advanced Accumulator A New Passive ECCS Component of the APWR | 31 |
Severe Accident Mitigation Features of APR1400 | 85 |
Development and Design of the EPR Core Catcher | 119 |
Nuclear Power Development and Severe Accident Research in China | 143 |
Full MOX Core Design of the Ohma ABWR Nuclear Power Plant | 177 |
CFD Analysis Applications in BWR Reactor System Design | 199 |
Next Generation Technologies in the Digital IandC Systems for Nuclear Power Plants | 223 |
Advanced 3DCAD and Its Application to StateoftheArt Construction Technologies in ABWR Plant Projects | 251 |
Progress in Seismic Design and Evaluation of Nuclear Power Plants | 265 |
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Другие издания - Просмотреть все
Advances in Light Water Reactor Technologies Takehiko Saito,Junichi Yamashita,Yuki Ishiwatari,Yoshiaki Oka Недоступно для просмотра - 2011 |
Advances in Light Water Reactor Technologies Takehiko Saito,Junichi Yamashita,Yuki Ishiwatari,Yoshiaki Oka Недоступно для просмотра - 2010 |
Advances in Light Water Reactor Technologies Takehiko Saito,Junichi Yamashita,Yuki Ishiwatari,Yoshiaki Oka Недоступно для просмотра - 2014 |
Часто встречающиеся слова и выражения
ABWR active actual addition Advanced Accumulator analysis application branch building calculated capacity cavity characteristics components concrete configuration connected considered construction containment conventional cooling core cross distribution earthquake ECCS effect elements Energy engineering enhance equipment errors evaluation example facility failure Figure flow damper flow injection flow rate FPGA frequency fuel function heat hydrogen important improved increase initial integrity internal issues Japan loads located logic loss lower measures melt method mitigation module MOX fuel nozzle nuclear power operation performance phase pipe plant pressure prevent pumps reactor reduce region reliability requirements safety seismic severe accident shown in Fig shows small flow specific stability standpipe steam structure Table Taken tank temperature thermal transient units various vessel vortex chamber wall water level