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Japan’s Efforts to Develop the Concept of JA DEMO During the Past Decade

Authors :: Kenji Tobita
Ryoji Hiwatari
Yoshiteru Sakamoto
Youji Someya
Nobuyuki Asakura
Hiroyasu Utoh
Yuya Miyoshi
Shinsuke Tokunaga
Yuki Homma
Satoshi Kakudate
Noriyoshi Nakajima
the Joint Special Design Team for Fusion DEMO
Source :: Fusion Science and Technology, Kenji Tobita, Ryoji Hiwatari, Yoshiteru Sakamoto, Youji Someya, Nobuyuki Asakura, Hiroyasu Utoh, Yuya Miyoshi, Shinsuke Tokunaga, Yuki Homma, Satoshi Kakudate, Noriyoshi Nakajima & the Joint Special Design Team for Fusion DEMO (2019) Japan’s Efforts to Develop the Concept of JA DEMO During the Past Decade, Fusion Science and Technology, 75:5, 372-383, DOI: 10.1080/15361055.2019.1600931
Abstract: This paper summarizes the evolution of Japanese DEMO design studies in a retrospective manner by highlighting efforts to resolve critical design issues on DEMO. Japan is currently working on the conceptual study of a steady-state DEMO (JA DEMO) with a major radius Rp of 8.5 m and fusion power Pfus of 1.5 to 2 GW based on water-cooled solid breeding blanket with pressurized water reactor water condition (290ºC to 325ºC, 15.5 MPa). Such a lower Pfus allows to find realistic design solutions for divertor heat removal. Recognizing that divertor heat removal is one of the most challenging issues on DEMO, the divertor design has been carried out in different approaches, including numerical divertor plasma simulation, magnetic configurations, heat sink design, etc. It is noteworthy that the latest divertor simulation led to a design window allowing divertor heat removal of the peak heat flux of