Activation and transmutation of tungsten boride shields in a spherical tokamak

The FISPACT-II code is used to compute the levels of activation and transmutation of tungsten borides for shielding the central high temperature superconductor core of a spherical tokamak fusion power plant during operations at 200 MW fusion power for 30 years and after shutting down for 10 years. T...

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Veröffentlicht in:	Nuclear fusion 2022-03, Vol.62 (3), p.36009
Hauptverfasser:	Windsor, Colin G., Astbury, Jack O., Morgan, J. Guy, Wilson, Christopher L., Humphry-Baker, Samuel A.
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Sprache:	eng
Schlagworte:	activation fispact-II gamma rays neutrons shielding spherical tokamaks tungsten borides
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container_title	Nuclear fusion
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creator	Windsor, Colin G. Astbury, Jack O. Morgan, J. Guy Wilson, Christopher L. Humphry-Baker, Samuel A.
description	The FISPACT-II code is used to compute the levels of activation and transmutation of tungsten borides for shielding the central high temperature superconductor core of a spherical tokamak fusion power plant during operations at 200 MW fusion power for 30 years and after shutting down for 10 years. The materials considered were W 2 B, WB, W 2 B 5 and WB 4 along with a sintered borocarbide B 0.329 C 0.074 Cr 0.024 Fe 0.274 W 0.299 , monolithic W and WC. Calculations were made within shields composed of each material, for five reactor major radii from 1400 to 2200 mm, and for six 10 B isotope concentrations and at five positions across the shield. The isotopic production and decay in each shield is detailed. The activation of boride materials is lower than for either W or WC and is lowest of all for W 2 B 5 . While isotopes from tungsten largely decay within 3 years of shut-down, those from boron have a much longer decay life. An acceptable 70% of the absorbing 10 B isotope will remain after 30 years of operations behind the first wall for a 1400 mm radius tokamak. Gaseous production is problematic in boride shields, where 4 He in particular is produced in quantities 3 orders of magnitude higher than in W or WC shields. The FISPACT-II displacements per atom (dpa) tend to increase with boron content, although they decrease with increased 10 B isotopic content. The dpa ranges of boride shields tend to lie between those of W and WC. Overall, the results confirm that the favourable fusion reaction shielding properties of W 2 B 5 are not seriously challenged by its irradiation and transmutation properties, although helium gas production could be a challenge to its thermal and mechanical properties.
doi_str_mv	10.1088/1741-4326/ac4866
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Guy ; Wilson, Christopher L. ; Humphry-Baker, Samuel A.</creator><creatorcontrib>Windsor, Colin G. ; Astbury, Jack O. ; Morgan, J. Guy ; Wilson, Christopher L. ; Humphry-Baker, Samuel A.</creatorcontrib><description>The FISPACT-II code is used to compute the levels of activation and transmutation of tungsten borides for shielding the central high temperature superconductor core of a spherical tokamak fusion power plant during operations at 200 MW fusion power for 30 years and after shutting down for 10 years. The materials considered were W 2 B, WB, W 2 B 5 and WB 4 along with a sintered borocarbide B 0.329 C 0.074 Cr 0.024 Fe 0.274 W 0.299 , monolithic W and WC. Calculations were made within shields composed of each material, for five reactor major radii from 1400 to 2200 mm, and for six 10 B isotope concentrations and at five positions across the shield. The isotopic production and decay in each shield is detailed. The activation of boride materials is lower than for either W or WC and is lowest of all for W 2 B 5 . While isotopes from tungsten largely decay within 3 years of shut-down, those from boron have a much longer decay life. An acceptable 70% of the absorbing 10 B isotope will remain after 30 years of operations behind the first wall for a 1400 mm radius tokamak. Gaseous production is problematic in boride shields, where 4 He in particular is produced in quantities 3 orders of magnitude higher than in W or WC shields. The FISPACT-II displacements per atom (dpa) tend to increase with boron content, although they decrease with increased 10 B isotopic content. The dpa ranges of boride shields tend to lie between those of W and WC. 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Guy</creatorcontrib><creatorcontrib>Wilson, Christopher L.</creatorcontrib><creatorcontrib>Humphry-Baker, Samuel A.</creatorcontrib><title>Activation and transmutation of tungsten boride shields in a spherical tokamak</title><title>Nuclear fusion</title><addtitle>NF</addtitle><addtitle>Nucl. Fusion</addtitle><description>The FISPACT-II code is used to compute the levels of activation and transmutation of tungsten borides for shielding the central high temperature superconductor core of a spherical tokamak fusion power plant during operations at 200 MW fusion power for 30 years and after shutting down for 10 years. The materials considered were W 2 B, WB, W 2 B 5 and WB 4 along with a sintered borocarbide B 0.329 C 0.074 Cr 0.024 Fe 0.274 W 0.299 , monolithic W and WC. Calculations were made within shields composed of each material, for five reactor major radii from 1400 to 2200 mm, and for six 10 B isotope concentrations and at five positions across the shield. The isotopic production and decay in each shield is detailed. The activation of boride materials is lower than for either W or WC and is lowest of all for W 2 B 5 . While isotopes from tungsten largely decay within 3 years of shut-down, those from boron have a much longer decay life. An acceptable 70% of the absorbing 10 B isotope will remain after 30 years of operations behind the first wall for a 1400 mm radius tokamak. Gaseous production is problematic in boride shields, where 4 He in particular is produced in quantities 3 orders of magnitude higher than in W or WC shields. The FISPACT-II displacements per atom (dpa) tend to increase with boron content, although they decrease with increased 10 B isotopic content. The dpa ranges of boride shields tend to lie between those of W and WC. Overall, the results confirm that the favourable fusion reaction shielding properties of W 2 B 5 are not seriously challenged by its irradiation and transmutation properties, although helium gas production could be a challenge to its thermal and mechanical properties.</description><subject>activation</subject><subject>fispact-II</subject><subject>gamma rays</subject><subject>neutrons</subject><subject>shielding</subject><subject>spherical tokamaks</subject><subject>tungsten borides</subject><issn>0029-5515</issn><issn>1741-4326</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><sourceid>O3W</sourceid><recordid>eNp9kEtLxDAUhYMoOI7uXWblyjo3TZO2y2HwBYNudB3SPJzMIylJKvjv7VBxJa4unPudyz0HoWsCdwSaZkHqihQVLflCqqrh_ATNfqVTNAMo24Ixws7RRUpbAFIRSmfoZamy-5TZBY-l1zhH6dNhyJMSLM6D_0jZeNyF6LTBaePMXifsRh6nfmOiU3KPc9jJg9xdojMr98lc_cw5en-4f1s9FevXx-fVcl0oymguOKNtbbrWGmoaWdFOarDacE64ga5mppVW2VLRcc90w4nWFhTUltclaaqWzhFMd1UMKUVjRR_dQcYvQUAc-xDH8OIYXkx9jJbbyeJCL7ZhiH588D_85g_cW8FLQQVQDtCKXlv6DccNb1s</recordid><startdate>20220301</startdate><enddate>20220301</enddate><creator>Windsor, Colin G.</creator><creator>Astbury, Jack O.</creator><creator>Morgan, J. 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Guy ; Wilson, Christopher L. ; Humphry-Baker, Samuel A.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c353t-65397eb9fe3e8a43bad0fde6616e0b75e9afcf2c3e3e5d861ddf0c07f67218493</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2022</creationdate><topic>activation</topic><topic>fispact-II</topic><topic>gamma rays</topic><topic>neutrons</topic><topic>shielding</topic><topic>spherical tokamaks</topic><topic>tungsten borides</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Windsor, Colin G.</creatorcontrib><creatorcontrib>Astbury, Jack O.</creatorcontrib><creatorcontrib>Morgan, J. Guy</creatorcontrib><creatorcontrib>Wilson, Christopher L.</creatorcontrib><creatorcontrib>Humphry-Baker, Samuel A.</creatorcontrib><collection>IOP Publishing Free Content</collection><collection>IOPscience (Open Access)</collection><collection>CrossRef</collection><jtitle>Nuclear fusion</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Windsor, Colin G.</au><au>Astbury, Jack O.</au><au>Morgan, J. Guy</au><au>Wilson, Christopher L.</au><au>Humphry-Baker, Samuel A.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Activation and transmutation of tungsten boride shields in a spherical tokamak</atitle><jtitle>Nuclear fusion</jtitle><stitle>NF</stitle><addtitle>Nucl. Fusion</addtitle><date>2022-03-01</date><risdate>2022</risdate><volume>62</volume><issue>3</issue><spage>36009</spage><pages>36009-</pages><issn>0029-5515</issn><eissn>1741-4326</eissn><coden>NUFUAU</coden><abstract>The FISPACT-II code is used to compute the levels of activation and transmutation of tungsten borides for shielding the central high temperature superconductor core of a spherical tokamak fusion power plant during operations at 200 MW fusion power for 30 years and after shutting down for 10 years. The materials considered were W 2 B, WB, W 2 B 5 and WB 4 along with a sintered borocarbide B 0.329 C 0.074 Cr 0.024 Fe 0.274 W 0.299 , monolithic W and WC. Calculations were made within shields composed of each material, for five reactor major radii from 1400 to 2200 mm, and for six 10 B isotope concentrations and at five positions across the shield. The isotopic production and decay in each shield is detailed. The activation of boride materials is lower than for either W or WC and is lowest of all for W 2 B 5 . While isotopes from tungsten largely decay within 3 years of shut-down, those from boron have a much longer decay life. An acceptable 70% of the absorbing 10 B isotope will remain after 30 years of operations behind the first wall for a 1400 mm radius tokamak. Gaseous production is problematic in boride shields, where 4 He in particular is produced in quantities 3 orders of magnitude higher than in W or WC shields. The FISPACT-II displacements per atom (dpa) tend to increase with boron content, although they decrease with increased 10 B isotopic content. The dpa ranges of boride shields tend to lie between those of W and WC. 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subjects	activation fispact-II gamma rays neutrons shielding spherical tokamaks tungsten borides
title	Activation and transmutation of tungsten boride shields in a spherical tokamak
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