Radioactive Waste Management and Contaminated Site Clean-Up: Processes, Technologies and International Experience

William E Lee · Michael I. Ojovan · Carol M Jantzen

okt. 2013 · Elsevier

Rafbók

912

Síður

Gjaldgeng

Um þessa rafbók

Radioactive waste management and contaminated site clean-up reviews radioactive waste management processes, technologies, and international experiences. Part one explores the fundamentals of radioactive waste including sources, characterisation, and processing strategies. International safety standards, risk assessment of radioactive wastes and remediation of contaminated sites and irradiated nuclear fuel management are also reviewed. Part two highlights the current international situation across Africa, Asia, Europe, and North America. The experience in Japan, with a specific chapter on Fukushima, is also covered. Finally, part three explores the clean-up of sites contaminated by weapons programmes including the USA and former USSR.Radioactive waste management and contaminated site clean-up is a comprehensive resource for professionals, researchers, scientists and academics in radioactive waste management, governmental and other regulatory bodies and the nuclear power industry. - Explores the fundamentals of radioactive waste including sources, characterisation, and processing strategies - Reviews international safety standards, risk assessment of radioactive wastes and remediation of contaminated sites and irradiated nuclear fuel management - Highlights the current international situation across Africa, Asia, Europe, and North America specifically including a chapter on the experience in Fukushima, Japan

Um höfundinn

Professor William E. Lee FREng is Deputy Chair of the Government advisory Committee on Radioactive Waste Management (CoRWM), and Director of the Centre for Nuclear Engineering at Imperial College London, UK.

Michael I. Ojovan has been Nuclear Engineer of International Atomic Energy Agency (IAEA), visiting Professor of Imperial College London, Associate Reader in Materials Science and Waste Immobilisation of the University of Sheffield, UK, and Leading Scientist of Radiochemistry Department of Lomonosov Moscow State University. M. Ojovan is Editorial Board Member of scientific journals: “Materials Degradation (Nature Partner Journal), “International Journal of Corrosion, “Science and Technology of Nuclear Installations, “Journal of Nuclear Materials, and Associate Editor of journal “Innovations in Corrosion and Materials Science. He has published 12 monographs including the “Handbook of Advanced Radioactive Waste Conditioning Technologies by Woodhead and three editions of “An Introduction to Nuclear Waste Immobilisation by Elsevier – 2005, 2013 and 2019. He has founded and led the IAEA International Predisposal Network (IPN) and the IAEA International Project on Irradiated Graphite Processing (GRAPA). M. Ojovan is known for the connectivity-percolation theory of glass transition, Sheffield model (two-exponential equation) of viscosity of glasses and melts, condensed Rydberg matter, metallic and glass-composite materials for nuclear waste immobilisation, and self-sinking capsules to investigate Earth’ deep interior.

Dr Carol Jantzen is a Consulting Scientist at Savannah River National Laboratory, USA.

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