Estimation of tritium permeation rate to cooling water in fusion DEMO condition

Kazunari Katayama; Youji Someya; Kenji Tobita; Hirofumi Nakamura; Hisashi Tanigawa; Makoto Nakamura; Nobuyuki Asakura; Kazuo Hoshino; Takumi Chikada; Yuji Hatano; Satoshi Fukada

doi:10.1080/15361055.2017.1288423

Estimation of tritium permeation rate to cooling water in fusion DEMO condition

Kazunari Katayama, Youji Someya, Kenji Tobita, Hirofumi Nakamura, Hisashi Tanigawa, Makoto Nakamura, Nobuyuki Asakura, Kazuo Hoshino, Takumi Chikada, Yuji Hatano, Satoshi Fukada

Engineering Science for Advanced energy system

Research output: Contribution to journal › Article › peer-review

19 Citations (Scopus)

Abstract

The approximate estimation of tritium permeation rate under the acceptable assumption from a safety point of view is surely useful to progress the design activities for a fusion DEMO reactor. Tritium permeation rates in the blanket and the divertor were estimated by the simplified evaluation model under the recent DEMO conditions in the water-cooled blanket with solid breeder as a first step. Plasma driven permeation rates in tungsten wall were calculated by applying Doyle & Brice model and gas driven permeation rates in F82H were calculated for hydrogen-tritium twocomponent system. In the representative recent DEMO condition, the following tritium permeation\ rates were obtained, 1.8 g/day in the blanket first wall, 2.3 g/day in the blanket tritium breeding region and 1.6 g/day in the divertor. Total tritium permeation rate into the cooling water was estimated to be 5.7 g/day.

Original language	English
Pages (from-to)	261-267
Number of pages	7
Journal	Fusion Science and Technology
Volume	71
Issue number	3
DOIs	https://doi.org/10.1080/15361055.2017.1288423
Publication status	Published - Apr 2017

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering
Nuclear and High Energy Physics
Nuclear Energy and Engineering
Materials Science(all)
Mechanical Engineering

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10.1080/15361055.2017.1288423

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title = "Estimation of tritium permeation rate to cooling water in fusion DEMO condition",

abstract = "The approximate estimation of tritium permeation rate under the acceptable assumption from a safety point of view is surely useful to progress the design activities for a fusion DEMO reactor. Tritium permeation rates in the blanket and the divertor were estimated by the simplified evaluation model under the recent DEMO conditions in the water-cooled blanket with solid breeder as a first step. Plasma driven permeation rates in tungsten wall were calculated by applying Doyle & Brice model and gas driven permeation rates in F82H were calculated for hydrogen-tritium twocomponent system. In the representative recent DEMO condition, the following tritium permeation\ rates were obtained, 1.8 g/day in the blanket first wall, 2.3 g/day in the blanket tritium breeding region and 1.6 g/day in the divertor. Total tritium permeation rate into the cooling water was estimated to be 5.7 g/day.",

author = "Kazunari Katayama and Youji Someya and Kenji Tobita and Hirofumi Nakamura and Hisashi Tanigawa and Makoto Nakamura and Nobuyuki Asakura and Kazuo Hoshino and Takumi Chikada and Yuji Hatano and Satoshi Fukada",

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T1 - Estimation of tritium permeation rate to cooling water in fusion DEMO condition

AU - Katayama, Kazunari

AU - Someya, Youji

AU - Tobita, Kenji

AU - Nakamura, Hirofumi

AU - Tanigawa, Hisashi

AU - Nakamura, Makoto

AU - Asakura, Nobuyuki

AU - Hoshino, Kazuo

AU - Chikada, Takumi

AU - Hatano, Yuji

AU - Fukada, Satoshi

PY - 2017/4

Y1 - 2017/4

N2 - The approximate estimation of tritium permeation rate under the acceptable assumption from a safety point of view is surely useful to progress the design activities for a fusion DEMO reactor. Tritium permeation rates in the blanket and the divertor were estimated by the simplified evaluation model under the recent DEMO conditions in the water-cooled blanket with solid breeder as a first step. Plasma driven permeation rates in tungsten wall were calculated by applying Doyle & Brice model and gas driven permeation rates in F82H were calculated for hydrogen-tritium twocomponent system. In the representative recent DEMO condition, the following tritium permeation\ rates were obtained, 1.8 g/day in the blanket first wall, 2.3 g/day in the blanket tritium breeding region and 1.6 g/day in the divertor. Total tritium permeation rate into the cooling water was estimated to be 5.7 g/day.

AB - The approximate estimation of tritium permeation rate under the acceptable assumption from a safety point of view is surely useful to progress the design activities for a fusion DEMO reactor. Tritium permeation rates in the blanket and the divertor were estimated by the simplified evaluation model under the recent DEMO conditions in the water-cooled blanket with solid breeder as a first step. Plasma driven permeation rates in tungsten wall were calculated by applying Doyle & Brice model and gas driven permeation rates in F82H were calculated for hydrogen-tritium twocomponent system. In the representative recent DEMO condition, the following tritium permeation\ rates were obtained, 1.8 g/day in the blanket first wall, 2.3 g/day in the blanket tritium breeding region and 1.6 g/day in the divertor. Total tritium permeation rate into the cooling water was estimated to be 5.7 g/day.

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Estimation of tritium permeation rate to cooling water in fusion DEMO condition

Abstract

All Science Journal Classification (ASJC) codes

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