Applicability of alleviated limits of non-metallic impurities in lithium for advanced fusion neutron source

•Alleviation of impurities levels in Li for IFMIF-type neutron source are suggested.•No fatal problems are found by applying the alleviation of impurities levels.•Level of Be-7 in Li under process can be diminished by the alleviation. The alleviated limits of impurities of nitrogen and hydrogen isot...

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Veröffentlicht in:	Fusion engineering and design 2019-09, Vol.146, p.1751-1754
Hauptverfasser:	Oyaidzu, M., Kondo, H., Park, C., Teduka, M., Ochiai, K., Kasugai, A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Beryllium Fusion neutron source Hydrogen isotopes Impurities Liquid lithium loop Lithium Lithium purification Neutrons Radioisotopes
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container_title	Fusion engineering and design
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creator	Oyaidzu, M. Kondo, H. Park, C. Teduka, M. Ochiai, K. Kasugai, A.
description	•Alleviation of impurities levels in Li for IFMIF-type neutron source are suggested.•No fatal problems are found by applying the alleviation of impurities levels.•Level of Be-7 in Li under process can be diminished by the alleviation. The alleviated limits of impurities of nitrogen and hydrogen isotopes in lithium are suggested to be 400wppm and 550appm, respectively for early realization of Advanced Fusion Neutron Source planned in Japan. The applicability of the suggestion is discussed by comparing to that of IFMIF. As the results, not less than 4-year buffer for R&D of nitrogen trap are brought in, which is thought as one of bottle neck. Additionally, the application of this suggestion would diminish the beryllium (a radioactive isotope will generate in A-FNS process) concentration in processing lithium, as well. On the other hand, it is indicated that there would be no fatal problems by application of the present suggestion.
doi_str_mv	10.1016/j.fusengdes.2019.02.140
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The alleviated limits of impurities of nitrogen and hydrogen isotopes in lithium are suggested to be 400wppm and 550appm, respectively for early realization of Advanced Fusion Neutron Source planned in Japan. The applicability of the suggestion is discussed by comparing to that of IFMIF. As the results, not less than 4-year buffer for R&D of nitrogen trap are brought in, which is thought as one of bottle neck. Additionally, the application of this suggestion would diminish the beryllium (a radioactive isotope will generate in A-FNS process) concentration in processing lithium, as well. On the other hand, it is indicated that there would be no fatal problems by application of the present suggestion.</description><identifier>ISSN: 0920-3796</identifier><identifier>EISSN: 1873-7196</identifier><identifier>DOI: 10.1016/j.fusengdes.2019.02.140</identifier><language>eng</language><publisher>Amsterdam: Elsevier B.V</publisher><subject>Beryllium ; Fusion neutron source ; Hydrogen isotopes ; Impurities ; Liquid lithium loop ; Lithium ; Lithium purification ; Neutrons ; Radioisotopes</subject><ispartof>Fusion engineering and design, 2019-09, Vol.146, p.1751-1754</ispartof><rights>2019</rights><rights>Copyright Elsevier Science Ltd. 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The alleviated limits of impurities of nitrogen and hydrogen isotopes in lithium are suggested to be 400wppm and 550appm, respectively for early realization of Advanced Fusion Neutron Source planned in Japan. The applicability of the suggestion is discussed by comparing to that of IFMIF. As the results, not less than 4-year buffer for R&D of nitrogen trap are brought in, which is thought as one of bottle neck. Additionally, the application of this suggestion would diminish the beryllium (a radioactive isotope will generate in A-FNS process) concentration in processing lithium, as well. 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subjects	Beryllium Fusion neutron source Hydrogen isotopes Impurities Liquid lithium loop Lithium Lithium purification Neutrons Radioisotopes
title	Applicability of alleviated limits of non-metallic impurities in lithium for advanced fusion neutron source
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