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Neutronics and burnup analysis of an accelerator-based tru-nitride fuel transmutation system with the ATRAS code |
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| Authors: | T Sasa T Nishida T Takizuka O Sato and N Yoshizawa |
| Affiliation: | a Transmutation System Laboratory, Department of Reactor Engineering, Japan Atomic Energy Research Institute Tokai-mura, Naka-gun, Ibaraki-ken, 319-11, Japan Tel: +81-29-282-6436 Fax: +81-29-282-6438 b :Research Center for Safety Science Mitsubishi Research Institute 3-6, Otemachi 2-chome, Chiyoda-ku, Tokyo, 100, Japan Tel : +81-3-3277-0772 Fax : +81-3-3277-3480 |
| Abstract: | The neutronics and burnup analyses of an accelerator-based transmutation system with tungsten target and TRU-nitride fuel were performed with a newly developed code system named ATRAS (Accelerator-based Transmutation Reactor Analysis System). The ATRAS code is an integrated code system which can perform the hadronic cascade process above 20 MeV and neutron transport and core burnup process below 20 MeV with the spallation neutron source. The specifications of the transmutation system are investigated. The core consists of the central spallation target region and the surrounding TRU-mononitride fuel region. The core is driven by protons at an energy of 1.0 GeV. This system was also proposed as a benchmark problem in the “OECD NEA/NSC Benchmark on Physics aspects of Different Transmutation Concepts”. According to the calculation results by the ATRAS code, higher power density and transmutation rate were achieved with nitride fuel, and the neutron spectrum was slightly harder than that of the metallic fuel system. The burnup calculation for thermal power 800 MW was also performed with the ATRAS code. It is shown that about 300 kg of TRU are transmuted annually. |
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