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Nuclear energy research

To ensure a viable future for nuclear power as a key component of the world s energy mix, nuclear energy research and development is key. [Pg.57]

To fill this gap, we will need to increase our nuclear energy R D to cover the complete spectrum of research needs. . . from power generation. .. to non-proliferation. .. to waste disposal. The Department s Nuclear Energy Research Advisory Committee - NER4C - is currently working on an analysis of nuclear R D needs. We hope that this effort will further inform and focus our nuclear energy R D needs and help us fill our portfolio gaps. [Pg.57]

Angert, N., and Truatmann, C. (1997), in Proc. 7th International Symposium on Advanced Nuclear Energy Research, p. 47, Takasaki, Japan. [Pg.387]

Nuclear energy for propulsion of aircraft (NEPA) program, 17 589-590 Nuclear Energy Institute (NEI), 17 598 Nuclear Energy Research Initiative (NERI), 13 847... [Pg.636]

DOE (Department of Energy), U.S., Nuclear Energy Research Advisory Committee. 2002. A Technology Roadmap for Generation IV Nuclear Energy Systems. GIF-002-00, 91 pp. [Pg.22]

Kim, J. I. 1991. Chemical behaviour of transuranic elements in the natural environment. Proceedings 3rd International Symposium on Advanced Nuclear Energy Research - Global Environment and Nuclear Energy, March 1991, Mito, Japan, 1-13. [Pg.559]

Over a number of years, the photovoltaic cell developers received large financial incentives from the U.S. government, For example, the National Photovoltaics Act of 1978 was passed by the IT.S. Congress, which authorized an expenditure of 1.5 billion for research, development, and demonstration of solar cell systems for converting sunlight into electric power, Also, in connection with the Federal Non-Nuclear Energy Research and Development Act of 1974, which established the concept of net... [Pg.1513]

Nuclear Energy Research Initiative (NERI) Final Report. 2005. Advanced extraction methods for actinide/lanthanide separations. Submitted by University of Florida, PI Scott, M.J., collaborating organization Argonne National Laboratory. PNNL-13221. [Pg.57]

European Commission, 2001b, Future Needs and Challenges for Non-Nuclear Energy Research in the European Union, Discussion Paper European Commission, 2001c, White Paper - European transport policy for 2010 time to decide, COM (2001) 370... [Pg.95]

Support of this research and assistance from Atomic Energy of Canada Limited, Ontario Research Excellence Fund, Argonne National Laboratory (International Nuclear Energy Research Initiative US Department of Energy) and the Natural Sciences and Engineering Research Council of Canada (NSERC) are gratefully acknowledged. [Pg.233]

Advanced Proliferation Resistant, Lower Cost, Uranium-Thorium Dioxide Fuels for Light Water Reactors, Nuclear Energy Research Initiative, Idaho National Engineering and Environmental Laboratory, Idaho Falls, ID, 2000. [Pg.993]

Nuclear Energy Research Advisory Committee and Generation IV International Forum, Generation IV Roadmap - R D Scope Report for Water-Cooled Reactor Systems , GIF -003-00, (December 2002). [Pg.26]

This work was funded in part by the U.S. Department of Energy Nuclear Energy Research... [Pg.152]

Recent studies conducted through the Nuclear Energy Research Initiative (NERI) have identified more than 100 thermochemical water-splitting cycles. A few of the most promising cycles have been selected for further research and development, based on the simplicity- of the cycle, the efficiency of the process, and the ability to separate a pure hydrogen product. Tlie Cu-Cl cycle is one of the promising cycles which can produce hydrogen at a lower temperature (550°C) compare to that of direct themiolysis. [Pg.240]

Because it involves more accelerating structures with multiple RF frequencies and phase relationships, and a high-performance electron gun source to inject the electrons in about one nanosecond, a sub-harmonic pre-buncher adds a lot of cost and complexity of operation ofthe linac facility. Consequently, only a few pre-bunched picosecond linacs were built for pulse radiolysis studies. The first one was installed at Argonne National Laboratory in the 1970s [2] subsequently other picosecond installations were built at the University of Tokyo Nuclear Energy Research Laboratory (NERL) in Tokai-Mura [3,4] and Osaka University [4].Very recently, a new pre-bunched linacfor pulse radiolysis has been built at the Shanghai Institute of Applied Physics. [Pg.24]

The GE IVVT members include individuals transferred from the GENE service department that do not participate in the Lungmen design activities qualified third-party organizations for specific independent V V tasks TPC engineers experts from Institute of Nuclear Energy Research (INER). [Pg.86]

Institute of Nuclear Energy Research PO Box 3-11 Lung Tang, Taiwan... [Pg.169]

JENER (Joint Establishment for Nuclear Energy Research, Norway). [Pg.447]

See other pages where Nuclear energy research is mentioned: [Pg.582]    [Pg.57]    [Pg.64]    [Pg.90]    [Pg.95]    [Pg.110]    [Pg.388]    [Pg.132]    [Pg.83]    [Pg.41]    [Pg.328]    [Pg.35]    [Pg.41]    [Pg.179]    [Pg.278]    [Pg.313]    [Pg.82]    [Pg.233]    [Pg.3935]    [Pg.55]    [Pg.83]    [Pg.75]    [Pg.109]    [Pg.83]    [Pg.757]    [Pg.3934]    [Pg.59]    [Pg.281]    [Pg.169]    [Pg.551]   
See also in sourсe #XX -- [ Pg.95 ]



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