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Sorenson, Ken B.,Hanson, Brady Korean Nuclear Society 2013 Nuclear Engineering and Technology Vol.45 No.4
The need for extended storage of used nuclear fuel is increasing globally as disposition schedules for used fuel are pushed further into the future. This is creating a situation where dry storage of used fuel may need to be extended beyond normal regulatory licensing periods. While it is generally accepted that used fuel in dry storage will remain in a safe condition, there is little data that demonstrate used fuel performance in dry storage environments for long periods of time. This is especially true for high burnup used fuel. This paper discusses a technical approach that defines a process that develops the technical basis for demonstrating the safety of used fuel over extended periods of time.
The U.S.Beef Industry and Trade Policy
Vernin L. Sorenson 건국대학교 동물자원연구센터 1992 국제 심포지움 Vol.- No.3
Increased internationalization of agricultural markets has important economic and policy consequences. Policy needs to be viewed as a composite of domestic and international actions and must be judged in terms of its impact on society as a whole. During the post World War II Period much progress has been made under U.S. leadership to liberalize industrial trade but limited progress has occurred in agriculture despite major efforts in the Tokyo and the current Uraguay Rounds. For the future this poses the question of how agricultural trade policy can he developed to reduce market distortions and lower the costs of policies by individual countries to protect their domestic markets. This paper suggests the need for improved analysis of the political economy of agricultural trade to support future policy development.
KEN B. SORENSON,BRADY HANSON 한국원자력학회 2013 Nuclear Engineering and Technology Vol.45 No.4
The need for extended storage of used nuclear fuel is increasing globally as disposition schedules for used fuel are pushed further into the future. This is creating a situation where dry storage of used fuel may need to be extended beyond normal regulatory licensing periods. While it is generally accepted that used fuel in dry storage will remain in a safe condition, there is little data that demonstrate used fuel performance in dry storage environments for long periods of time. This is especially true for high burnup used fuel. This paper discusses a technical approach that defines a process that develops the technical basis for demonstrating the safety of used fuel over extended periods of time.
Trade and Structural Policy Issues for Korean Agricultural Development
Ryu, Byung-Seo,Sorenson, Vern L. 成均館大學校 科學技術硏究所 1989 論文集 Vol.40 No.1
농산물교역자유화에 따른 농업부문의 득실과 경제개방화에 따라 발생할 수 있는 사회적 비용을 최소화하는 방안을 분석했다. 한편 비농업부문과 균형을 이루면서 농업을 산업으로 육성시킬 수 있는 구조정책대안을 제시했다. 구조 조정 방향은 농업내부에 있어서 비교우위 원칙에 따라 농업생산을 전문화하고 농업생산 기술진보를 통해 생산성을 증대시키고 농산물의 질은 향상시키도록 해야한다. 또한 경영규모를 확대해 생산비를 절감시켜 저염한 농산물을 생산해야 할 것으로 분석되었다.
EXTENDED DRY STORAGE OF USED NUCLEAR FUEL: TECHNICAL ISSUES: A USA PERSPECTIVE
Mcconnell, Paul,Hanson, Brady,Lee, Moo,Sorenson, Ken Korean Nuclear Society 2011 Nuclear Engineering and Technology Vol.43 No.5
Used nuclear fuel will likely be stored dry for extended periods of time in the USA. Until a final disposition pathway is chosen, the storage periods will almost definitely be longer than were originally intended. The ability of the important-tosafety structures, systems, and components (SSCs) to continue to meet storage and transport safety functions over extended times must be determined. It must be assured that there is no significant degradation of the fuel or dry cask storage systems. Also, it is projected that the maximum discharge burnups of the used nuclear fuel will increase. Thus, it is necessary to obtain data on high burnup fuel to demonstrate that the used nuclear fuel remains intact after extended storage. An evaluation was performed to determine the conditions that may lead to failure of dry storage SSCs. This paper documents the initial technical gap analysis performed to identify data and modeling needs to develop the desired technical bases to ensure the safety functions of dry stored fuel.
EXTENDED DRY STORAGE OF USED NUCLEAR FUEL: TECHNICAL ISSUES: A USA PERSPECTIVE
PAUL MCCONNELL,BRADY HANSON,MOO LEE,KEN SORENSON 한국원자력학회 2011 Nuclear Engineering and Technology Vol.43 No.5
Used nuclear fuel will likely be stored dry for extended periods of time in the USA. Until a final disposition pathway is chosen, the storage periods will almost definitely be longer than were originally intended. The ability of the important-tosafety structures, systems, and components (SSCs) to continue to meet storage and transport safety functions over extended times must be determined. It must be assured that there is no significant degradation of the fuel or dry cask storage systems. Also, it is projected that the maximum discharge burnups of the used nuclear fuel will increase. Thus, it is necessary to obtain data on high burnup fuel to demonstrate that the used nuclear fuel remains intact after extended storage. An evaluation was performed to determine the conditions that may lead to failure of dry storage SSCs. This paper documents the initial technical gap analysis performed to identify data and modeling needs to develop the desired technical bases to ensure the safety functions of dry stored fuel.
CURRENT STATUS OF NUCLEAR WASTE MANAGEMENT (AND DISPOSAL) IN THE UNITED STATES
Kevin McMahon,Peter Swift,Mark Nutt,Jens Birkholzer,William Boyle,Timothy Gunter,Ned Larson,Robert MacKinnon,Ken Sorenson 한국방사성폐기물학회 2013 방사성폐기물학회지 Vol.1 No.1
The United States Department of Energy (US DOE) is conducting research and development (R&D) activities under the Used Fuel Disposition Campaign (UFDC) to support storage, transportation, and disposal of used nuclear fuel (UNF) and wastes generated by existing and future nuclear fuel cycles. R&D activities are ongoing at nine national laboratories, and are divided into storage, transportation and disposal. Storage R&D focuses on closing technical gaps related to extended storage of UNF. Transportation R&D focuses on ensuring transportability of UNF following extended storage, and addressing data gaps regarding nuclear fuel integrity, retrievability,and demonstration of subcriticality. Disposal R&D focuses on identifying geologic disposal options and addressing technical challenges for generic disposal concepts in mined repositories in salt, clay/shale, and granitic rocks, and deep borehole disposal. UFDC R&D goals include increasing confidence in the robustness of generic disposal concepts, reducing generic sources of uncertainty that may impact the viability of disposal concepts,and developing science and engineering tools to support the selection, characterization, and licensing of a repository. The US DOE has also initiated activities in the Nuclear Fuel Storage and Transportation (NFST) Planning Project to facilitate the development of an interim storage facility and to support transportation infrastructure in the near term.