An essential reference for journalists, activists, and students, this book presents scientifically accurate and accessible overviews of twenty-four of the most important issues in the nuclear realm, including: health effects, nuclear safety and engineering, Three Mile Island and Chernobyl, nuclear medicine, food irradiation, transport of nuclear materials, spent fuel, nuclear weapons, and global warming. Each 'brief' is based on interviews with named scientists, engineers, or administrators in a nuclear specialty, and each has been reviewed by a team of independent experts. The objective is not to make a case for or against nuclear-related technologies, but rather to provide definitive background information. (The approach is based on that of ""The Reporter's Environmental Handbook"", published in 1988, which won a special award for journalism from the Sigma Delta Chi Society of professional journalists.) Other features of the book include: a glossary of hundreds of terms; an introduction to risk assessment; environmental and economic impacts, and public perceptions; an article by an experienced reporter with recommendations about how to cover nuclear issues; quick guides to the history of nuclear power in the United States, important federal legislation and regulations, nuclear position statements, and key organizations; and, references for print and electronic resources.

Australia is at a crossroads- do we need to embrace a nuclear future? In Reaction Time, Ian Lowe examines the science and the politics of nuclear power, as well as the feasible alternatives in an era of global warming. Lowe discusses his one-time belief in nuclear power and what led to the faltering of that belief. He engages with the leading environmentalists, like James Lovelock, who advocate going nuclear, as well as with the less savoury aspects of the Australian politicking. He discusses whether other countries might need to use nuclear power, even if Australia doesn't. He offers an authoritative survey of the leading alternatives for Australia - from 'hot rocks' to 'clean coal'. Above all, he explains why taking the nuclear option would be a decisive step in the wrong direction - economically, environmentally, politically and socially.

This title is the first of four 'new-look' books in the Power and Energy series that are aimed at industry professionals rather than academics. Nuclear Power explains in detail how nuclear power works, its costs, its benefits as part of the electricity supply system, and also examines its record. This book covers the debate over the pros and cons of nuclear power. Is it expensive, dangerous and inflexible? Or is nuclear power an opportunity to invest in a long-term, large-scale electricity source that will assist to win the battle against climate change? There will be broad market interest in this book, which has been written for general awareness. Other subjects that will be included in this new range are co-generation, embedded generation, and condition assessment of high voltage insulation in power system equipment.

Questions regarding the advancement of the technology for production and regeneration of nuclear fuel and to the further perfection of the nuclear fuel cycle are very significant when determining the ultimate costs of electrical energy produced at nuclear power stations as well as for safety. The 2nd edition, supplemented and augmented, of this ground-breaking book analyses the role of plasma and high frequency processes.

In the 1950s, Soviet nuclear scientists and leaders imagined a stunning future when giant reactors would generate energy quickly and cheaply, nuclear engines would power cars, ships, and airplanes, and peaceful nuclear explosions would transform the landscape. Driven by the energy of the atom, the dream of communism would become a powerful reality. Thirty years later, that dream died in Chernobyl. What went wrong? Based on exhaustive archival research and interviews, "Red Atom" takes a behind-the-scenes look at the history of the Soviet Union's peaceful use of nuclear power. It explores both the projects and the technocratic and political elite who were dedicated to increasing state power through technology. And it describes the political, economic, and environmental fallout of Chernobyl.

The development and implementation of an appropriate infrastructure to support the successful introduction of nuclear power and its safe, secure, peaceful and sustainable application is an issue of central concern, especially for countries that are considering and planning their first nuclear power plant. In preparing the necessary nuclear infrastructure, there are several activities that need to be completed. These activities can be split into three progressive phases of development. This publication provides a description of the conditions expected to be achieved by the end of each phase to assist with the best use of resources. 'Milestones' refer to the conditions necessary to demonstrate that the phase has been successfully completed.

Nuclear Reactions explores the nuclear consensus that emerged in post-World War II America, characterized by widespread support for a diplomatic and military strategy based on nuclear weapons and a vision of economic growth that welcomed nuclear energy both for the generation of electricity and for other peaceful and industrial uses. Unease about the environmental consequences of nuclear energy and weapons development became apparent by the early 1960s and led to the first challenges to that consensus. The documents in this collection address issues such as the arms race, "mutually assured destruction," the emergence of ecosystems ecology and the environmental movement, nuclear protests, and climate change. They raise questions about how nuclear energy shaped-and continues to shape-the contours of postwar American life. These questions provide a useful lens through which to understand the social, economic, and environmental tradeoffs embedded within American choices about the use and management of nuclear energy.

The Nuclear Fuel Cycle Simulation System (NFCSS) is a scenario based computer simulation tool that can model various nuclear fuel cycle options in various types of nuclear reactors. It is very efficient and accurate in answering questions such as: the nuclear mineral resources and technical infrastructure needed for the front end of the nuclear fuel cycle; the amounts of used fuel, actinide nuclides and high level waste generated for a given reactor fleet size; and the impact of introducing recycling of used fuel on mineral resource savings and waste minimization. Since the first publication on the NFCSS as IAEA-TECDOC-1535 in 2007, there have been significant improvements in the implementation of the NFCSS, including a new extension to thorium fuel cycles, methods to calculate decay heat and radiotoxicity, and demonstration applications to innovative reactors.

This publication addresses inspection basics, concepts and methods on how to plan inspection activities, perform inspections of safety related structures, systems and components, evaluate the safety significance of inspection findings, and document the results. It presents high level considerations for the inspection of selected programmatic areas including plant operations, radiation protection, fire protection and maintenance activities at nuclear power plants (NPPs). The publication focuses on the regulatory inspection of operating NPPs and, when applicable, describes how the same inspection techniques can be applied to facilities undergoing construction, preoperational testing, and decommissioning. The general techniques described may be also used in the inspection of other types of nuclear facilities.

The transport of radioactive material is an essential activity worldwide. Both safety and security during transport are matters of national and international importance. This publication is the latest edition of the IAEA Safety Requirements for the safe transport of radioactive material. It is supported by six IAEA Safety Guides which provide explanation and guidance for the SSR-6 requirements to facilitate harmonized implementation. The SSR-6 Regulations apply to the transport of radioactive material by all modes on land, water, or in the air, including transport that is incidental to the use of the radioactive material. Transport comprises all operations and conditions associated with, and involved in, the movement of radioactive material; these include the design, manufacture, maintenance and repair of packaging, and the preparation, consigning, loading, carriage including in-transit storage, unloading and receipt at the final destination of loads of radioactive material and packages. These requirements form an integral part of regulations worldwide, therefore SSR-6 and its associated guidance documents are a requisite source of guidance information for governments, regulators, and all individuals involved in the aforementioned activities of transport of radioactive material.

The purpose of this publication is to assist Member States in developing comprehensive contingency plans for computer security incidents with the potential to impact nuclear security and/or nuclear safety. It provides an outline and recommendations for establishing a computer security incident response capability as part of a computer security programme, and considers the roles and responsibilities of the system owner, operator, competent authority, and national technical authority in responding to a computer security incident with possible nuclear security repercussions.

This publication provides guidance on implementing the principle of confidentiality and on the broader aspects of information security (i.e. integrity and availability). It assists States in bridging the gap between existing government and industry standards on information security, the particular concepts and considerations that apply to nuclear security and the special provisions and conditions that exist when dealing with nuclear material and other radioactive material. Specifically it seeks to assist States in the identification, classification, and assignment of appropriate security controls to information that could adversely impact nuclear security if compromised.

The issue of nuclear power has become a polarizing one, especially in light of the increasing need for sustainable energy sources, and events like the 2011 nuclear disaster in Japan. The public has been largely wary and even fearful of a reliance on nuclear power, pointing to the reactor meltdown in Chernobyl or the Three-Mile Island accident as evidence that nuclear power is an unfeasible and dangerous source of energy. However, with these fears come misconceptions about the science behind nuclear power, and many arguments made against it lack the scientific grounding needed to contribute to the debate. At the same time, clean-energy sources like wind and solar have failed to prove that they can be used on a large enough scale to be relied upon. In Why We Need Nuclear Power: The Environmental Case, experienced radiation biologist Michael H. Fox replaces the misconceptions about nuclear power with real science, and argues that it may be the best source of energy both for large-scale use and slowing the effects of global warming. Fox relies on thirty-five years of experience studying the biological effects of radiation to explore the issues surrounding nuclear power, addressing which of the public's concerns on the issue are valid, and which are unsupported by science. He shows that nuclear power has crucial strategic importance in reducing the large amounts of carbon dioxide released into the atmosphere by burning fossil fuels. This is the first book to lay out clearly what we know about the biological effects of radiation, and what science we use to know it. Why We Need Nuclear Power is a critical resource for anyone looking to understand the facts of the nuclear power issue, and what role nuclear power could play in reducing the environmental impact of the world's energy consumption.

Britain was the first country to exploit atomic energy on a large scale, and at its peak in the mid-1960s, it had generated more electricity from nuclear power than the rest of the world combined. The civil atomic energy programme grew out of the military programme which produced plutonium for atomic weapons. In 1956, Calder Hall power station was opened by the Queen. The very next year, one of the early Windscale reactors caught fire and the world's first major nuclear accident occurred. The civil programme ran into further difficulty in the mid-1960s and as a consequence of procrastination in the decision-making process, the programme lost momentum and effectively died. No nuclear power stations have been built since Sizewell B in the late 1980s. This book presents a study of Government papers that have recently become available in the public domain. For the first time in history, the research reactor programme is presented in detail, along with a study of the decision-making by the Government, the Atomic Energy Authority (AEA), and the Central Electricity Board (CEGB).This book is aimed at both specialists in nuclear power and the interested public as a technical history on the development and ultimate failure of the British atomic energy programme.

On the banks of the Pacific Northwest's greatest river lies the Hanford nuclear reservation, an industrial site that appears to be at odds with the surrounding vineyards and desert. The 586-square mile compound on the Columbia in eastern Washington is known both for its origins as part of the Manhattan Project, which made the first atomic bombs, and for the monumental effort now under way to clean up forty-five years' of waste from manufacturing plutonium for the U.S. nuclear weapons complex. Hanford routinely makes the news, as scientists, litigants, administrators, and politicians argue over its past and its future.

It is easy to think about Hanford as an expression of federal power, a place apart from humanity and nature, but that view is a distortion of its history. "Atomic Frontier Days" looks through a wider lens, telling a complex story of production, community-building, politics, and environmental sensibilities. In brilliantly structured parallel stories, the authors bridge the divisions that accompany Hanford's headlines and offer perspective on today's controversies. Influenced as much by regional culture, economics, and politics as by war, diplomacy, and environmentalism, the story of Hanford and the Tri-Cities of Richland, Pasco, and Kennewick illuminates the history of the modern American West.

John M. Findlay is professor of history at the University of Washington. His focus is social and urban history. Bruce Hevly is associate professor of history at the University of Washington. His focus is history of science and technology.

""Atomic Frontier Days" captures one of the most interesting and controversial places in the American West in all its surprising particularity. Technologically sophisticated, shrewd, at once analytically unflinching and generous, it belongs on the short list of books necessary to understand the West and its complicated relation to the nation." -Richard White, author of "The Organic Machine"

"This richly detailed study takes us beyond big government programs and corporate contracts to show people coping with the intricate dance of science and technology, warfare and welfare, the mess of making bombs and the business of cleaning up." -Virginia Scharff, Center for the Southwest, University of New Mexico

The Manhattan Project-the World War II race to produce an atomic bomb-transformed the entire country in myriad ways, but it did not affect each region equally. Acting on an enduring perception of the American West as an "empty" place, the U.S. government located a disproportionate number of nuclear facilities-particularly the ones most likely to spread pollution-in western states. The Manhattan Project manufactured plutonium at Hanford, Washington; designed and assembled bombs at Los Alamos, New Mexico; and detonated the world's first atomic bomb at Alamagordo, New Mexico, on June 16, 1945. In the years that followed the war, the U.S. Atomic Energy Commission selected additional western sites for its work. Many westerners initially welcomed the atom. Like federal officials, they, too, regarded their region as "empty," or underdeveloped. Facilities to make, test, and base atomic weapons, sites to store nuclear waste, and even nuclear power plants were regarded as assets. By the 1960s and 1970s, however, regional attitudes began to change. At a variety of locales, ranging from Eskimo Alaska to Mormon Utah, westerners devoted themselves to resisting the atom and its effects on their environments and communities. Just as the atomic age had dawned in the American West, so its artificial sun began to set there. The Atomic West brings together contributions from several disciplines to explore the impact on the West of the development of atomic power from wartime secrecy and initial postwar enthusiasm to public doubts and protest in the 1970s and 1980s. An impressive example of the benefits of interdisciplinary studies on complex topics, The Atomic West advances our understanding of both regional history and the history of science, and does so with human communities as a significant focal point. The book will be of special interest to students and experts on the American West, environmental history, and the history of science and technology.

Closed Nuclear Fuel Cycle with Fast Reactors: Handbook of Russian Nuclear Power provides unique insights into research and practical activities from leading Russian experts. It presents readers with unprecedented insight and essential knowledge surrounding nuclear fast reactor technologies, as well as novel methods to close the nuclear fuel cycle to achieve cleaner, more environmentally friendly, and more efficient nuclear power. Using the Proryv Project as a framework, the book's contributors provide detailed descriptions of technologies in development in Russia, allowing readers from around the globe to gain a thorough understanding which they can then apply to their own research and practice. Nuclear engineers and technologists of fast reactors, advanced reactors and fuel cycles will use this book as a guide to inform new technology development. They will be able to use the experiences from the Proryv Project to drive fast reactor development with closed fuel cycles for the future.

The promise and peril of nuclear power have been a preoccupation of the modern age. Though the nuclear industry has witnessed periods of expansion and retrenchment, there are now more than one hundred nuclear reactors providing America with almost a quarter of its electrical power.

Robert Duffy now examines the politics of nuclear power over the last fifty years, relating broad trends in American politics to changes in the regulation of the nuclear industry to show how federal policies in this area have been made, implemented, and altered. He weaves a discussion of institutional change in all three branches of government into a study of agenda-setting, regulatory reform, and "subgovernment" politics, demonstrating how these forces combined to create policy change in this important area of public policy.

Duffy's work traces nuclear politics from the creation of a powerful subgovernment through the public lobby reforms of the late 1960s and early 1970s and the deregulatory backlash of the Reagan years. He demonstrates that while policies did change in the 1970s, they did not change as much as other accounts have suggested, and that the industry continued to receive considerable federal support. The book is particularly significant for extending the discussion of nuclear policy through the Bush and Clinton years, including the controversy over waste disposal, new licensing procedures enacted in the 1992 Amendments to the Atomic Energy Act, and the effects of deregulation of electric utilities.

By providing both a description of the transformation of this policy community and an analysis of how regulatory change occurs, Nuclear Politics in America offers a new and important view of policymaking in America.

Tritium Technologies for Thermonuclear Fusion Reactors summarizes the most recent research and practice in tritium technologies for the processing of hydrogen isotopes in fuel cycles. Authors Dr. Perevezentsev and Professor Rozenkevich combine their wealth of first-hand experience to present this comprehensive guide which promotes the best radiation protection practices and a more sustainable way to produce power in a thermonuclear reactor plant. Applicable to both magnetic and inertial confinements of plasma, this book covers tritium processing systems, tritium recovery from the plasma chamber, and various safety systems devoted to lessening the impact on the public and environment. The readers are also led through various modeling techniques, such as the separation of hydrogen isotopes, and the detritiation of liquid and gaseous streams in dynamic and steady state operation modes. This book is a practical guide which includes various case studies and examples which will help solidify the reader's learning. It combines the latest research of tritium technologies with applications for fusion nuclear reactors, and includes solutions and directions for the resolution of various common challenges faced. Engineers, researchers, and students of tritium technologies, fusion energy, and nuclear power generation will gain a detailed and integrated understanding of how tritium can be used within a nuclear setting, for cleaner and more efficient power generation.

Advanced Security and Safeguarding in the Nuclear Power Industry: State of the art and future challenges presents an overview of a wide ranging scientific, engineering, policy, regulatory, and legal issues facing the nuclear power industry. Editor Victor Nian and his team of contributors deliver a much needed review of the latest developments in safety, security and safeguards ("Three S's") as well as other related and important subject matters within and beyond the nuclear power industry. This book is particularly insightful to countries with an interest in developing a nuclear power industry as well as countries where education to improve society's opinion on nuclear energy is crucial to its future success. Advanced Security and Safeguarding in the Nuclear Power Industry covers the foundations of nuclear power production as well as the benefits and impacts of radiation to human society, international conventions, treaties, and standards on the "Three S's", emergency preparedness and response, and civil liability in the event of a nuclear accident.

Accident Tolerant Materials for Light Water Reactor Fuels provides a description of what an accident tolerant fuel is and the benefits and detriments of each concept. The book begins with an introduction to nuclear power as a renewable energy source and the current materials being utilized in light water reactors. It then moves on to discuss the recent advancements being made in accident tolerant fuels, reviewing the specific materials, their fabrication and implementation, environmental resistance, irradiation behavior, and licensing requirements. The book concludes with a look to the future of new power generation technologies. It is written for scientists and engineers working in the nuclear power industry and is the first comprehensive work on this topic.

The development and implementation of an appropriate infrastructure to support the successful introduction of nuclear power and its safe, secure, peaceful and sustainable application is an issue of central concern, especially for countries that are considering and planning their first nuclear power plant. In preparing the necessary nuclear infrastructure, there are several activities that need to be completed. These activities can be split into three progressive phases of development. This publication provides a description of the conditions expected to be achieved by the end of each phase to assist with the best use of resources. 'Milestones' refer to the conditions necessary to demonstrate that the phase has been successfully completed.

Japan's Quest for Nuclear Energy and the Price it has Paid: Accidents, Consequences, and Lessons Learned for the Global Nuclear Industry identifies major accidents in Japan that have happened at different stages of the nuclear fuel cycle in Japan, assesses the underlying causes of nuclear accidents, and identifies other systemic problems in the nuclear industry. It provides recommendations on how government, industry and academic institutions can work together toward achieving a zero-accident safety culture.

Storage and Hybridization of Nuclear Energy: Techno-economic Integration of Renewable and Nuclear Energy provides a unique analysis of the storage and hybridization of nuclear and renewable energy. Editor Bindra and his team of expert contributors present various global methodologies to obtain the techno-economic feasibility of the integration of storage or hybrid cycles in nuclear power plants. Aimed at those studying, researching and working in the nuclear engineering field, this book offers nuclear reactor technology vendors, nuclear utilities workers and regulatory commissioners a very unique resource on how to access reliable, flexible and clean energy from variable-generation.