TY - BOOK ID - 77886932 TI - Proliferation risk in nuclear fuel cycles AU - Case, Sarah C AU - National Research Council (U.S.). PY - 2011 SN - 1280123338 9786613527196 0309220505 9780309220507 9781280123337 9780309220491 0309220491 661352719X PB - Washington, D.C. DB - UniCat KW - Nuclear fuels. KW - Atomic fuel KW - Fission fuel KW - Nuclear reactors KW - Reactor fuels KW - Fuel KW - Radioactive substances UR - https://www.unicat.be/uniCat?func=search&query=sysid:77886932 AB - The worldwide expansion of nuclear energy has been accompanied by concerns about nuclear weapons proliferation. If sited in states that do not possess nuclear weapons technology, some civilian nuclear technologies could provide a route for states or other organizations to acquire nuclear weapons. Metrics for assessing the resistance of a nuclear technology to diversion for non-peaceful uses-proliferation resistance-have been developed, but at present there is no clear consensus on whether and how these metrics are useful to policy decision makers. In 2011, the U.S. Department of Energy asked the National Academies to convene a public workshop addressing the capability of current and potential methodologies for assessing host state proliferation risk and resistance to meet the needs of decision makers. Proliferation risk in nuclear fuel cycles is a summary of presentations and discussions that transpired at the workshop-held on August 1-2, 2011-prepared by a designated rapporteur following the workshop. It does not provide findings and recommendations or represent a consensus reached by the symposium participants or the workshop planning committee. However, several themes emerged through the workshop: nonproliferation and new technologies, separate policy and technical cultures, value of proliferation resistance analysis, usefulness of social science approaches. The workshop was organized as part of a larger project undertaken by the NRC, the next phase of which (following the workshop) will be a consensus study on improving the assessment of proliferation risks associated with nuclear fuel cycles. This study will culminate in a report prepared by a committee of experts with expertise in risk assessment and communication, proliferation metrics and research, nuclear fuel cycle facility design and engineering, international nuclear nonproliferation and national security policy, and nuclear weapons design. This report is planned for completion in the spring of 2013. ER -