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The Advanced Research Workshop on "Nuclear Submarine Decommissioning and Related Problems" was held at the Russian Academy of Sciences in Moscow, Russia on June 19-22, 1995. On June 17 and 18, 1995 some of the workshop participants visited the Zwezdochka Shipyard at Severodvinsk which is a repair and dismantlement facility for Russian nuclear submarines. Attendance at the workshop was approximately 115 with participants from Russia, United States, France, Norway, Canada, Denmark, Sweden, Estonia, and Germany. The workshop was sponsored by the Disarmament Panel of North Atlantic Treaty Organization (NATO) Science Committee. The sponsorship and the financial support of NATO is gratefully acknowledged. The workshop was organized in Russia by the Nuclear Safety Institute of the Russian Academy of Sciences (IBRAE). The efforts of many individuals from IBRAE in producing both a technically challenging workshop and an almost flawless one are also gratefully acknowledged. In addition, the support of the Russian Academy of Sciences, the State Committee of the Russian Federation on Defense Technologies, the Ministry of the Russian Federation on Atomic Energy, the Navy of the Russian Federation, and the United States Department of Energy is acknowledged. xi CURRENT STATUS OF NUCLEAR SUBMARINE DECOMMISSIONING PROBLEMS OF NUCLEAR SUBMARINE DECOMMISSIONING AND RECYCLING N. I. SHUMKOV State Committee for Defense Industry (Goseomoboronprom) Moscow, Russia 1. General Description of the Problem Undoubtedly, the problem of nuclear submarine decommissioning and recycling has been worrying Russian civil and military specialists involved in development, building and operation of submarines for many years.
A great number of nuclear submarines are due to be decommissioned before 2000. The political decisions surrounding the disposal of nuclear compartments, radioactive wastes and spent fuel differ appreciably between the countries that own the boats. The decision makers involved thus need help in comparing and assessing alternative options for the decommissioning of their nuclear submarine fleets. The present volume offers such assistance, with its discussions of the risks associated with long-term water storage of the boats, radioactive and chemical contamination, spent fuel and waste management, and handling and recycling reactor compartments.
With the end of the Cold War, Russia's submarines were no longer needed to deter or fight Western navies and were very expensive to operate and maintain. Older submarines were taken out of service in large numbers, but without firm plans and infrastructure in place to remove and adequately care for their nuclear components, problems soon developed over the disposition of spent fuel assemblies. Problems arose also of course between Russia and the international community as to the best way to respond to the challenge. This book looks at those problems, first discussing Russia's economy, its environment, and the Russian Navy, and then covering in detail the spent fuel of Russian submarines and related nuclear problems. The engagement of the international community on the issue is then addressed. A theoretical analysis is offered on how Russia's fellow nations can help remedy a troubling environmental problem in a difficult country.
Following the acquisition of the atomic bomb by five states, the United Nations began drafting several treaties to limit nuclear proliferation. These efforts failed, as four more states also acquired nuclear weapons. In a similar vein, an attempt to limit atomic weapons - primarily within the two superpowers - was initiated. While the number of weapons has decreased, the new bombs now being manufactured are more powerful and more precise, negating any reduction in numbers. In the field of civil nuclear use, all nuclear facilities (reactors, factories, etc.) have a limited lifespan. Once a plant is permanently shut down, these facilities must be decommissioned and dismantled. These operations are difficult, time-consuming and costly. In addition, decommissioning generates large volumes of radioactive waste of various categories, including long-lived and high-activity waste. Risks to the environment and to health are not negligible during decommissioning. The International Atomic Energy Agency (IAEA) and the Nuclear Energy Agency (NEA) of the Organisation for Economic Co-operation and Development (OECD) have produced numerous publications with recommendations. Each state has its own decommissioning strategy (immediate or delayed) and final plan for the site - whether it be returning it to greenfield status or obtaining a nuclear site license with centuries-long monitoring.
Umbilical cord blood, previously discarded, has emerged as a new source of stem cells for hematologic reconstitution, bone marrow failures and other hematologic deficiencies. It has become increasingly clear that umbilical cord tissue contains unique stem cells of great potential for regenerative medicine. Importantly, umbilical cord blood is abundant, can be banked and transported with ease, and thus has an indisputable potential for future regenerative therapies. Driven by a massive interest for regenerative medicine and ethically acceptable stem cell sources, the scientific literature on umbilical cord stem cells has exploded.This book provides a consolidated overview of basic, translational as well as clinical research in academic institutions and industry, on hematopoietic and mesenchymal stem cells contained within umbilical cord tissue, as well as other more recently discovered stem and precursor cells of not yet fully elucidated potential. Although not discussed here, umbilical cord cells have been successfully reprogrammed into pluripotent stem cells (iPS), opening the door for a vast array of applications with this abundant human material likely catapulting cord-derived stem cells to the forefront of cell-based regenerative medicine.Suitable as a primer and reference book for medical fellows and researchers, this book can also be used by students (undergraduate and graduate) as a starting point into the vast literature on stem cells and their potential.
Until the late 1970s, most commercial power plant operators outside the United States adopted a spent fuel management policy of immediate reprocessing and recycling of recovered products. In response to rising reprocessing prices, decreasing values of re covered products, concerns over proliferation risks, and a belief in the favorable eco nomics of direct disposal, many utilities have since opted to store spent fuel on an in terim basis pending the availability of direct disposal facilities or a change in the eco nomic and/or political climate for reprocessing and recycling uranium and plutonium. Spent fuel has traditionally been stored in water-filled pools located in the reactor building or fuel handling buildings, on reactor sites, or as part of large centralized fa cilities (e.g. Sellafield, La Hague, CLAB). Because the economics of pool storage are dependent on the size of the facility, the construction of additional separate pools on reactor sites has only been pursued in a few countries, such as Finland and Bulgaria.
In this book, Magnus Nordenman explores the emerging competition between the United States and its NATO allies and the resurgent Russian navy in the North Atlantic. This maritime region played a key role in the two world wars and the Cold War, serving as the strategic link between the United States and Europe that enabled the flow of reinforcements and supplies to the European Allies. Nordenman shows that while a conflict in Europe has never been won in the North Atlantic, it surely could have been lost there. With Vladimir Putin’s Russia threatening the peace in Europe following the annexation of Crimea in 2014, the North Atlantic and other maritime domains around Europe are once again vitally important. But this battle will in many ways be different, Nordenman demonstrates, due to an overstretched U.S. Navy, the rise of disruptive technologies, a beleaguered NATO that woke up to the Russian challenge unprepared for high-end warfighting in the maritime domain, and a Russia commanding a smaller, but more sophisticated, navy equipped with long-range cruise missiles. Nordenman also provides a set of recommendations for what the United States and NATO must do now in order to secure the North Atlantic in this new age of great power competition.
Smuggling Armageddon looks at one of the most troubling international concerns of the 1990s and beyond: the illegal trade in nuclear materials that has erupted in the Newly-Independent States (NIS) and Europe since the collapse of the former Soviet Union. Rensselaer Lee raises the seldom-asked question of whether such traffic poses a threat of consequence to international security and stability while showing readers a Russia beset with a variety of criminal proliferation channels, increasingly sophisticated smuggling operations, and nuclear stockpiles with breached security. Smuggling Armageddon is sure to provoke controversy and raise the specter of nuclear destruction once again.
Drawing on previously unpublished Russian archival materials, this book is the first detailed history and current analysis of the North Korean nuclear program. The contributors discuss Soviet-North Korean nuclear relations, economic and military aspects of the nuclear program, the nuclear energy sector, North Korea's negotiations with the Korean Peninsula Energy Development Organization, cooperative security, and U.S. policy. Unique in its focus on North Korean attitudes and perspectives, The North Korean Nuclear Program also includes Russian interviews with North Korean officials.