Toward the ultimate goal of tritium self-sufficiency: Technical issues and requirements imposed on ARIES advanced power plants |
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Authors: | Laila A. El-Guebaly Siegfried Malang |
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Affiliation: | a University of Wisconsin - Madison, Fusion Technology Institute, 1500 Engineering Drive - Rm 431, Madison, WI 53706, United States b Fliederweg 3, D 76351 Linkenheim-Hochstetten, Germany |
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Abstract: | Due to the lack of external tritium sources, all fusion power plants must demonstrate a closed tritium fuel cycle. The tritium breeding ratio (TBR) must exceed unity by a certain margin. The key question is: how large is this margin and how high should the calculated TBR be? The TBR requirement is design and breeder-dependent and evolves with time. At present, the ARIES requirement is 1.1 for the calculated overall TBR of LiPb systems. The Net TBR during plant operation could be around 1.01. The difference accounts for deficiencies in the design elements (nuclear data evaluation, neutronics code validation, and 3D modeling tools). Such a low Net TBR of 1.01 is potentially achievable in advanced designs employing advanced physics and technology. A dedicated R&D effort will reduce the difference between the calculated TBR and Net TBR. A generic breeding issue encountered in all fusion designs is whether any fusion design will over-breed or under-breed during plant operation. To achieve the required Net TBR with sufficient precision, an online control of tritium breeding is highly recommended for all fusion designs. This can easily be achieved for liquid breeders through online adjustment of Li enrichment. |
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Keywords: | Tritium self-sufficiency Tritium breeding ratio Fusion power plant ARIES designs Breeding margin Online adjustment of breeding |
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