Highly Enriched Uranium (HEU) Storage and Disposition Program Plan
Author : W. M. Arms
Publisher :
Page : 13 pages
File Size : 46,83 MB
Release : 1995
Category : Hazardous wastes
ISBN :
Reducing the Use of Highly Enriched Uranium in Civilian Research Reactors
Author : National Academies of Sciences, Engineering, and Medicine
Publisher : National Academies Press
Page : 205 pages
File Size : 45,5 MB
Release : 2016-02-12
Category : Science
ISBN : 0309379210
Book Description
The continued presence of highly enriched uranium (HEU) in civilian installations such as research reactors poses a threat to national and international security. Minimization, and ultimately elimination, of HEU in civilian research reactors worldwide has been a goal of U.S. policy and programs since 1978. Today, 74 civilian research reactors around the world, including 8 in the United States, use or are planning to use HEU fuel. Since the last National Academies of Sciences, Engineering, and Medicine report on this topic in 2009, 28 reactors have been either shut down or converted from HEU to low enriched uranium fuel. Despite this progress, the large number of remaining HEU-fueled reactors demonstrates that an HEU minimization program continues to be needed on a worldwide scale. Reducing the Use of Highly Enriched Uranium in Civilian Research Reactors assesses the status of and progress toward eliminating the worldwide use of HEU fuel in civilian research and test reactors.
Highly Enriched Uranium Disposition Plan
Author : United States. Department of Energy. Office of Fissile Materials Disposition
Publisher :
Page : 10 pages
File Size : 50,92 MB
Release : 1996
Category : Nuclear weapons
ISBN :
Book Description
Plutonium and Highly Enriched Uranium, 1996
Author : David Albright
Publisher :
Page : 544 pages
File Size : 35,78 MB
Release : 1997
Category : History
ISBN :
Book Description
Plutonium and highly enriched uranium (HEU) are the basic materials used in nuclear weapons. Plutonium also plays an important part in the generation of nuclear electricity. Knowing how much plutonium and HEU exists, where and in which form is vital for international security and nuclear commerce. This book is a thorough revision of the World Inventory of Plutonium and highly Enriched Uranium, 1992. It provides a rigorous and comprehensive assessment of the amounts of plutonium and HEU in military and civilian programmes, in nuclear and non-nuclear weapon states, and in countries seeking to acquire nuclear weapons. The capibilities that exist for producing these materials around the world are examined in depth, as are the policy issues raised by them. Containing much new information, this book is indispensable to all those concerned with the great contemporary issues in international nuclear relations: arms reductions in the nuclear weapon states, nuclear proliferation, nuclear smuggling, the roles of plutonium and enriched uranium in the nuclear fuel-cycle, and the disposition of surplus weapon material.
Management of High Enriched Uranium for Peaceful Purposes
Author : International Atomic Energy Agency
Publisher :
Page : 68 pages
File Size : 36,94 MB
Release : 2005
Category : Business & Economics
ISBN :
Book Description
Addresses high enriched uranium (HEU) management of declared excesses, non-proliferation programmes and options for the use of HEU stockpiles. Also addressed are the influence of low enriched uranium derived from surplus HEU on the global market for uranium, technical issues associated with utilization and the disposition of HEU.
Molybdenum-99 for Medical Imaging
Author : National Academies of Sciences, Engineering, and Medicine
Publisher : National Academies Press
Page : 264 pages
File Size : 45,72 MB
Release : 2016-11-28
Category : Medical
ISBN : 0309445310
Book Description
The decay product of the medical isotope molybdenum-99 (Mo-99), technetium-99m (Tc-99m), and associated medical isotopes iodine-131 (I-131) and xenon-133 (Xe-133) are used worldwide for medical diagnostic imaging or therapy. The United States consumes about half of the world's supply of Mo-99, but there has been no domestic (i.e., U.S.-based) production of this isotope since the late 1980s. The United States imports Mo-99 for domestic use from Australia, Canada, Europe, and South Africa. Mo-99 and Tc-99m cannot be stockpiled for use because of their short half-lives. Consequently, they must be routinely produced and delivered to medical imaging centers. Almost all Mo-99 for medical use is produced by irradiating highly enriched uranium (HEU) targets in research reactors, several of which are over 50 years old and are approaching the end of their operating lives. Unanticipated and extended shutdowns of some of these old reactors have resulted in severe Mo-99 supply shortages in the United States and other countries. Some of these shortages have disrupted the delivery of medical care. Molybdenum-99 for Medical Imaging examines the production and utilization of Mo-99 and associated medical isotopes, and provides recommendations for medical use.
HIGHLY ENRICHED URANIUM BLEND DOWN PROGRAM AT THE SAVANNAH RIVER SITE PRESENT AND FUTURE.
Author :
Publisher :
Page : pages
File Size : 15,94 MB
Release : 2008
Category :
ISBN :
Book Description
The Department of Energy (DOE) and Tennessee Valley Authority (TVA) entered into an Interagency Agreement to transfer approximately 40 metric tons of highly enriched uranium (HEU) to TVA for conversion to fuel for the Browns Ferry Nuclear Power Plant. Savannah River Site (SRS) inventories included a significant amount of this material, which resulted from processing spent fuel and surplus materials. The HEU is blended with natural uranium (NU) to low enriched uranium (LEU) with a 4.95% 235U isotopic content and shipped as solution to the TVA vendor. The HEU Blend Down Project provided the upgrades needed to achieve the product throughput and purity required and provided loading facilities. The first blending to low enriched uranium (LEU) took place in March 2003 with the initial shipment to the TVA vendor in July 2003. The SRS Shipments have continued on a regular schedule without any major issues for the past 5 years and are due to complete in September 2008. The HEU Blend program is now looking to continue its success by dispositioning an additional approximately 21 MTU of HEU material as part of the SRS Enriched Uranium Disposition Project.
Dismantling the Bomb and Managing the Nuclear Materials
Author : United States. Congress. Office of Technology Assessment
Publisher : DIANE Publishing
Page : 218 pages
File Size : 42,27 MB
Release : 1994
Category : Disarmament
ISBN : 9780788102882
Book Description
Experts have been investigating how to use, control, or dispose of nuclear materials -- plutonium & highly enriched uranium -- that are recovered from dismantled warheads & could pose long-term environmental, safety, & health risks. This report analyzes the current programs & policies & evaluates the prospects for future success. Policy initiatives were presented: a national dismantlement policy; strengthening Dept. of Energy management; nuclear materials storage, & disposition; a new materials management organization; information access; & cooperation with Russia.
Planning, Preparation, and Transport of the High-Enriched Uranium Spent Nuclear Fuel from the Czech Republic to the Russian Federation
Author :
Publisher :
Page : pages
File Size : 31,10 MB
Release : 2007
Category :
ISBN :
Book Description
The United States, Russian Federation, and the International Atomic Energy Agency have been working together on a program called the Russian Research Reactor Fuel Return (RRRFR) Program, which is part of the Global Threat Reduction Initiative. The purpose of this program is to return Soviet or Russian-supplied high-enriched uranium (HEU) fuel, currently stored at Russian-designed research reactors throughout the world, to Russia. In February 2003, the RRRFR Program began discussions with the Nuclear Research Institute (NRI) in Rež, Czech Republic, about returning their HEU spent nuclear fuel to the Russian Federation for reprocessing. In March 2005, the U.S. Department of Energy signed a contract with NRI to perform all activities needed for transporting their HEU spent nuclear fuel to Russia. After 2 years of intense planning, preparations, and coordination at NRI and with three other countries, numerous organizations and agencies, and a Russian facility, this shipment is scheduled for completion before the end of 2007. This paper will provide a summary of activities completed for making this international shipment. This paper contains an introduction and background of the RRRFR Program and the NRI shipment project. It summarizes activities completed in preparation for the shipment, including facility preparations at NRI in Rež and FSUE "Mayak" in Ozyorsk, Russia; a new transportation cask system; regulatory approvals; transportation planning and preparation in the Czech Republic, Slovakia, Ukraine, and the Russian Federation though completion of the Unified Project and Special Ecological Programs. The paper also describes fuel loading and cask preparations at NRI and final preparations/approvals for transporting the shipment across the Czech Republic, Slovakia, Ukraine, and the Russian Federation to FSUE Mayak where the HEU spent nuclear fuel will be processed, the uranium will be downblended and made into low-enriched uranium fuel for commercial reactor use, and the high-level waste from the processing will be stabilized and stored for less than 20 years before being sent back to the Czech Republic for final disposition. Finally, the paper contains a section for the summary and conclusions.
Medical Isotope Production Without Highly Enriched Uranium
Author : National Research Council
Publisher : National Academies Press
Page : 220 pages
File Size : 41,16 MB
Release : 2009-06-27
Category : Medical
ISBN : 0309130395
Book Description
This book is the product of a congressionally mandated study to examine the feasibility of eliminating the use of highly enriched uranium (HEU2) in reactor fuel, reactor targets, and medical isotope production facilities. The book focuses primarily on the use of HEU for the production of the medical isotope molybdenum-99 (Mo-99), whose decay product, technetium-99m3 (Tc-99m), is used in the majority of medical diagnostic imaging procedures in the United States, and secondarily on the use of HEU for research and test reactor fuel. The supply of Mo-99 in the U.S. is likely to be unreliable until newer production sources come online. The reliability of the current supply system is an important medical isotope concern; this book concludes that achieving a cost difference of less than 10 percent in facilities that will need to convert from HEU- to LEU-based Mo-99 production is much less important than is reliability of supply.
