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During the next several years, decisions are expected to be made in several countries on the further development and implementation of the geological disposition option. The Board on Radioactive Waste Management (BRWM) of the U.S. National Academies believes that informed and reasoned discussion of relevant scientific, engineering and social issues can-and should-play a constructive role in the decision process by providing information to decision makers on relevant technical and policy issues. A BRWM-initiated project including a workshop at Irvine, California on November 4-5, 1999, and subsequent National Academies' report to be published in spring, 2000, are intended to provide such information to national policy makers both in the U.S. and abroad. To inform national policies, it is essential that experts from the physical, geological, and engineering sciences, and experts from the policy and social science communities work together. Some national programs have involved social science and policy experts from the beginning, while other programs have only recently recognized the importance of this collaboration. An important goal of the November workshop is to facilitate dialogue between these communities, as well as to encourage the sharing of experiences from many national programs. The workshop steering committee has prepared this discussion for participants at the workshop. It should elicit critical comments and help identify topics requiring in-depth discussion at the workshop. It is not intended as a statement of findings, conclusions, or recommendations. It is rather intended as a vehicle for stimulating dialogue among the workshop participants. Out of that dialogue will emerge the findings, conclusions, and recommendations of the National Academies' report.
The annual conferences on energy, which were begun in 1977, continued to 1992 and resumed again in 1994. The theme of the 1994 conference was "Global Energy Demand in Transition: The New Role ofElectricity. " Global energy production, distribution, and utilization is in astate of transition toward an increased and more diversified use of electricity, which is the safest, most versatile, and cleanest form of secondary energy. Electricity is easy to generate, transmit, and distribute, making its use practically universal. These facts make it urgent to explore the technological prospects and long term availability of environmentally benign energy sources for generating electricity. It is expected that the conference will be useful to the governments in formulating their energy policies and to the public utilities for their long term planning. The conference has: 1) assessed the increase and diversification in the use of electricity; 2) assessed the technological prospects for clean energy sources that still require more research and development, i. e. solar, hydrogen, nuclear (fission and fusion), etc. ; 3) assessed the roles of non-market factors and possible improved decision processes on energy and environmental issues; 4) made concrete recommendations regarding research and development policies and regulations to expedite the transition to a dependable, safer, and benign electricity-based energy complex; 5) studied the cost impact: price, environment, safety, and international security; 6) provided an analysis of an expected transition from the fossil fuel transportation to electrical transportation (e. g.
One of the greatest challenges for nuclear energy is how to properly manage the highly radioactive waste generated during irradiation in nuclear reactors. Accelerator Driven Systems (ADSs) may offer new prospects and advantages for the transmutation of such high level nuclear waste. ADS or accelerator driven transmutation of waste (ATW) consists of a high power proton accelerator, a heavy metal spallation target that produces neutrons when bombarded by the high power beam, and a sub-critical core that is neutronically coupled to the spallation target. This publication provides a comprehensive state of the art of the ADS technology by representing the different ADS concepts proposed worldwide in the last 15 years, as well as the related R&D activities and demonstration initiatives carried out at national international level.
"Written by some of the world's foremost experts, the articles in this book show how plasma science can be applied to environmental problems, including atmospheric sensing and modification, energy conservation, reduction of air pollution, and processing of ordinary and radioactive wastes. Atmospheric CFC's might be zapped with big lasers. Urban air pollution could be removed by large convection towers built in or near cities. And weapons-grade plutonium can be destroyed with specially designed particle accelerators. Some of the technologies described here are in use already, while others are in the prototype stage, or are speculative approaches deserving of further study." "Contents" Written by some of the world's foremost experts, the articles in this book show how plasma science can be applied to environmental problems, including atmospheric sensing and modification, energy conservation, reduction of air pollution, and processing of ordinary and radioactive wastes. Atmospheric CFC's might be zapped with big lasers. Urban air pollution could be removed by large convection towers built in or near cities. And weapons-grade plutonium can be destroyed with specially designed particle accelerators. Some of the technologies described here are in use already, while others are in the prototype stage, or are speculative approaches deserving of further study.
Focused attention by world leaders is needed to address the substantial challenges posed by disposal of spent nuclear fuel from reactors and high-level radioactive waste from processing such fuel. The biggest challenges in achieving safe and secure storage and permanent waste disposal are societal, although technical challenges remain. Disposition of radioactive wastes in a deep geological repository is a sound approach as long as it progresses through a stepwise decision-making process that takes advantage of technical advances, public participation, and international cooperation. Written for concerned citizens as well as policymakers, this book was sponsored by the U.S. Department of Energy, U.S. Nuclear Regulatory Commission, and waste management organizations in eight other countries.
Innovation has been a driving force in the successful deployment of nuclear energy and remains essential today for its sustainable future. This report provides an overview of the state of the art in nuclear innovation systems, including their driving forces, main actors, institutional and legal frameworks, and infrastructure for knowledge and programme management. It also offers policy recommendations based on country reports and case studies supplied by participating member countries.
This book provides a concise but rigorous appraisal about the future of nuclear power and the presumed nuclear renaissance. It does so by assessing the technical, economic, environmental, political, and social risks related to all aspects of the nuclear fuel cycle, from uranium mills and mines to nuclear reactors and spent fuel storage facilities. In each case, the book argues that the costs of nuclear power significantly outweigh its benefits. It concludes by calling for investments in renewable energy and energy efficiency as a better path towards an affordable, secure, and socially acceptable future.The prospect of a global nuclear renaissance could change the way that energy is produced and used the world over. Sovacool takes a hard look at who would benefit — mostly energy companies and manufacturers — and who would suffer — mostly taxpayers, those living near nuclear facilities, and electricity customers. This book is a must-read for anyone even remotely concerned about a sustainable energy future, and also for those with a specific interest in modern nuclear power plants.