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Provides a detailed introduction to nuclear reactors, describing the four commercial types and discussing uranium resources, fuel cycles, advanced reactor systems, and issues and problems concerning the use of nuclear power
Interest in using nuclear energy for producing potable water has been growing around the world over the past ten years. This book provides guidance for decision makers on introducing nuclear desalination, and describes the steps involved in project implementation. The purpose is to facilitate the introduction of this technology and the sharing of resources amongst interested Member States.
Handbook of Generation IV Nuclear Reactors, Second Edition is a fully revised and updated comprehensive resource on the latest research and advances in generation IV nuclear reactor concepts. Editor Igor Pioro and his team of expert contributors have updated every chapter to reflect advances in the field since the first edition published in 2016. The book teaches the reader about available technologies, future prospects and the feasibility of each concept presented, equipping them users with a strong skillset which they can apply to their own work and research. - Provides a fully updated, revised and comprehensive handbook dedicated entirely to generation IV nuclear reactors - Includes new trends and developments since the first publication, as well as brand new case studies and appendices - Covers the latest research, developments and design information surrounding generation IV nuclear reactors
Originally perceived as a cheap and plentiful source of power, the commercial use of nuclear energy has been controversial for decades. Worries about the dangers that nuclear plants and their radioactive waste posed to nearby communities grew over time, and plant construction in the United States virtually died after the early 1980s. The 1986 disaster at Chernobyl only reinforced nuclear power's negative image. Yet in the decade prior to the Japanese nuclear crisis of 2011, sentiment about nuclear power underwent a marked change. The alarming acceleration of global warming due to the burning of fossil fuels and concern about dependence on foreign fuel has led policymakers, climate scientists, and energy experts to look once again at nuclear power as a source of energy. In this accessible overview, Charles D. Ferguson provides an authoritative account of the key facts about nuclear energy. What is the origin of nuclear energy? What countries use commercial nuclear power, and how much electricity do they obtain from it? How can future nuclear power plants be made safer? What can countries do to protect their nuclear facilities from military attacks? How hazardous is radioactive waste? Is nuclear energy a renewable energy source? Featuring a discussion of the recent nuclear crisis in Japan and its ramifications, Ferguson addresses these questions and more in Nuclear Energy: What Everyone Needs to Know®, a book that is essential for anyone looking to learn more about this important issue. What Everyone Needs to Know® is a registered trademark of Oxford University Press.
Sustainable Nuclear Power provides non-nuclear engineers, scientists and energy planners with the necessary information to understand and utilize the major advances in the field. The book demonstrates that nuclear fission technology has the abundance and attainability to provide centuries of safe power with minimal greenhouse gas generation. It also addresses the safety and disposal issues that have plagued the development of the nuclear power industry and scared planners and policy makers as well as the general public for more than two decades. In addition, the authors provide a Companion website, http://books.elsevier.com/companions, which gives access to government reports and case studies *No need for a background in nuclear science! This book guides engineers, scientists and energy professionals through a concise and easy-to-understand overview of key safety and sustainability issues affecting their work. *Details the very latest information about today's safest and most energy-efficient reactor designs and reprocessing procedures. *Brings to light the fears and hesitation of using nuclear energy and explains that technologies and procedures for safe production and processing are available today.
Nuclear power is not clean, cheap, or safe. With Three Mile Island, Chernobyl, and Fukushima, the nuclear industry's record of catastrophic failures now averages one major disaster every decade. After three US-designed plants exploded in Japan, many countries moved to abandon reactors for renewables. In the United States, however, powerful corporations and a compliant government still defend nuclear power-while promising billion-dollar bailouts to operators. Each new disaster demonstrates that the nuclear industry and governments lie to "avoid panic," to preserve the myth of "safe, clean" nuclear power, and to sustain government subsidies. Tokyo and Washington both covered up Fukushima's radiation risks and-when confronted with damning evidence-simply raised the levels of "acceptable" risk to match the greater levels of exposure. Nuclear Roulette dismantles the core arguments behind the nuclear-industrial complex's "Nuclear Renaissance." While some critiques are familiar-nuclear power is too costly, too dangerous, and too unstable-others are surprising: Nuclear Roulette exposes historic links to nuclear weapons, impacts on Indigenous lands and lives, and the ways in which the Nuclear Regulatory Commission too often takes its lead from industry, rewriting rules to keep failing plants in compliance. Nuclear Roulette cites NRC records showing how corporations routinely defer maintenance and lists resulting "near-misses" in the US, which average more than one per month. Nuclear Roulette chronicles the problems of aging reactors, uncovers the costly challenge of decommissioning, explores the industry's greatest seismic risks-not on California's quake-prone coast but in the Midwest and Southeast-and explains how solar flares could black out power grids, causing the world's 400-plus reactors to self-destruct. This powerful exposé concludes with a roundup of proven and potential energy solutions that can replace nuclear technology with a "Renewable Renaissance," combined with conservation programs that can cleanse the air, and cool the planet.
Covering both fundamental and advanced aspects in an accessible way, this textbook begins with an overview of nuclear reactor systems, helping readers to familiarize themselves with the varied designs. Then the readers are introduced to different possibilities for materials applications in the various sections of nuclear energy systems. Materials selection and life prediction methodologies for nuclear reactors are also presented in relation to creep, corrosion and other degradation mechanisms. An appendix compiles useful property data relevant for nuclear reactor applications. Throughout the book, there is a thorough coverage of various materials science principles, such as physical and mechanical metallurgy, defects and diffusion and radiation effects on materials, with serious efforts made to establish structure-property correlations wherever possible. With its emphasis on the latest developments and outstanding problems in the field, this is both a valuable introduction and a ready reference for beginners and experienced practitioners alike.
Covers all aspects of electrical systems for nuclear power plants written by an authority in the field Based on author Omar Mazzoni's notes for a graduate level course he taught in Electrical Engineering, this book discusses all aspects of electrical systems for nuclear power plants, making reference to IEEE nuclear standards and regulatory documents. It covers such important topics as the requirements for equipment qualification, acceptance testing, periodic surveillance, and operational issues. It also provides excellent guidance for students in understanding the basis of nuclear plant electrical systems, the industry standards that are applicable, and the Nuclear Regulatory Commission's rules for designing and operating nuclear plants. Electrical Systems for Nuclear Power Plants offers in-depth chapters covering: elements of a power system; special regulations and requirements; unique requirements of a Class 1E power system; nuclear plants containment electrical penetration assemblies; on-site emergency AC sources; on-site emergency DC sources; protective relaying; interface of the nuclear plant with the grid; station blackout (SBO) issues and regulations; review of electric power calculations; equipment aging and decommissioning; and electrical and control systems inspections. This valuable resource: Evaluates industry standards and their relationship to federal regulations Discusses Class 1E equipment, emergency generation, the single failure criterion, plant life, and plant inspection Includes exercise problems for each chapter Electrical Systems for Nuclear Power Plants is an ideal text for instructors and students in electrical power courses, as well as for engineers active in operating nuclear power plants.