Acoustical environment of gas-cooled nuclear reactors
In: Progress in nuclear energy: the international review journal covering all aspects of nuclear energy, Band 17, Heft 2, S. 175-202
ISSN: 0149-1970
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In: Progress in nuclear energy: the international review journal covering all aspects of nuclear energy, Band 17, Heft 2, S. 175-202
ISSN: 0149-1970
In: Progress in nuclear energy: the international review journal covering all aspects of nuclear energy, Band 4, Heft 1, S. 25-49
ISSN: 0149-1970
In: The current digest of the post-Soviet press, Band 45, Heft 13, S. 20-21
ISSN: 1067-7542
In: International Conference on Structural Safety and Reliability, S. 323-334
In: Progress in nuclear energy: the international review journal covering all aspects of nuclear energy, Band 90, S. 140-150
ISSN: 0149-1970
In: Progress in nuclear energy: the international review journal covering all aspects of nuclear energy, Band 51, Heft 3, S. 526-542
ISSN: 0149-1970
The Nuclear Power Plants (NPP) constructed in the XX century, also called generation II reactors, are still in operation, most of them Light Water Reactors, but are being decommissioned. These reactors have a low burn up (~30 MWD/kg U) and utilize UO2 as nuclear fuel and are operating in a Once Through Cycle (OTC); they use a very low energy content of the natural resources (~0,5%). To overcome economic and political and partly safety issues, since the end of last century, and beginning of this century, the nuclear industry launched a new generation of evolutionary reactors, called Generation III, such as the Westinghouse AP 1000, and AREVA EPR. These reactors still use uranium as primary source but have an increased burn up (~60 MWD/Kg U), which although increasing the utilization of the natural resources (up to 1%), still are not significant to be considered sustainable: if only uranium is used in an OTC, uranium will be exhausted in this century. To increase the utilization of natural resources, recycling of uranium and plutonium is already in use in many countries and used as Mixed Oxide of U-Pu fuel (MOX) in the same thermal reactors. To turn nuclear energy sustainable, a long-term deployment of innovative reactors is underway. These reactors and their associated fuel cycle are old concepts with technological improvements and generically denominated as Generation IV, are in development and, in some cases, they are breeders, HLW burners, and efficient concepts. Another concept that although not new is constitute by the Small Modular Reactors (SMR), with power less than 300 MWe, which nowadays are deserving a lot of attention by the nuclear industry. Another option is to utilize thorium as a primary source of energy. Although not fissile at thermal energy, it produces 233U, which is one of best fissile nuclide (number of neutrons produced per neutron absorbed). Also, it is three times more abundant than uranium in the earth crust and has thermal physics properties when used as (U-Th) O2 better than UO2. Several Th/U fuel cycles, using thermal and fast reactors were proposed and are still under investigation. Although, the first reactors to utilize thorium were PWR, using (U-Th)O2, such as the Indian Point, and Shipping Port, thorium has been proposed as fuel for the molten salt reactor, the advanced heavy water reactor, High Temperature Reactors, Pebble Bed reactor, fast breeder reactors, and more recently, for the innovative accelerator driven system in a double strata fuel cycle and for the Generation IV, such as the LFTR - Liquid Fluoride Thorium Reactor, which is a self-sustainable Molten Salt Reactor, promising to turn nuclear energy by fission in a sustainable source, with a utilization of the natural resources of 100%. This paper, besides an introduction of the present time uranium fuel cycles, will give an over view of the thorium utilization in nuclear reactors and fuel cycles, with an emphasis in Advanced PWR.
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In: Research memorandum RM-5227-1-PR/ISA
In: Rand collection
In: International legal materials: ILM, Band 3, Heft 5, S. 815-820
ISSN: 1930-6571
In: Progress in nuclear energy: the international review journal covering all aspects of nuclear energy, Band 32, Heft 3-4, S. 713-720
ISSN: 0149-1970
In: FCN Working Paper No. 10/2012
SSRN
Working paper
In: Security Index: A Russian Journal on International Security, Band 14, Heft 2, S. 73-80
ISSN: 2151-7495
In: Arms control today, Band 31, Heft 8, S. 8-12
ISSN: 0196-125X
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