@article{oai:repo.qst.go.jp:00048959,
 author = {三善, 悠矢 and 朝倉, 伸幸 and 星野, 一生 and 日渡, 良爾 and 染谷, 洋二 and 高瀬, 治彦 and 坂本, 宜照 and 飛田, 健次 and Special, Design Team for Fusion DEMO Joint and 三善 悠矢 and 朝倉 伸幸 and 星野 一生 and 日渡 良爾 and 染谷 洋二 and 高瀬 治彦 and 坂本 宜照 and 飛田 健次},
 journal = {Fusion Engineering and Design},
 month = {Nov},
 note = {Scrape Off Layer (SOL) plasma circumnavigates the torus along magnetic field lines, and some part of it encounters a leading edge of the first wall (FW). This leads the concentration of the plasma energy in a small area, causing a hot spot.In a DEMO reactor that deals with a few hundreds of MW of plasma energy in the SOL, the leading edge problem is a critical issue in the FW design. For the design purposes in DEMO and power reactors, a new analysis method is introduced, where a flux tube is poloidally divided into the Apple Peel Like Elements (APPLEs) and each APPLE is enclosed by adjacent 4 magnetic field lines. Considering the contact area of the APPLEs on the FW and the radial energy transport between the APPLEs, FW heat load profile can be analyzed. The result of the case that the fusion power is 1.5 GW, and the major radius is 8.2 m, shows that the heat load is peaked to about 1 MW/m2 near the inboard midplane and the baffle plate. This method is expected to be useful for the DEMO design.},
 pages = {267--270},
 title = {New model of plasma heat load on the first wall},
 volume = {124},
 year = {2017}
}