@article{oai:repo.qst.go.jp:00079356,
 author = {魏啓為 and 佐野史典 and 秋元圭吾 and 日渡, 良爾 and 飛田, 健次 and Ryoji, Hiwatari and Kenji, Tobita},
 issue = {5},
 journal = {エネルギー・資源学会論文誌},
 month = {May},
 note = {his paper analyzed Japan’s fusion energy development scenarios by using a global energy systems model considering a combination of uncertainties of future socioeconomic development, CO2 emission pathways corresponding to the long-term target of the Paris Agreement and future fusion power plants. Fusion power plants will be installed in Japan and could contribute about 20% on average in power sector in the latter half of the century because of the limited-potentials of affordable renewable energies and carbon capture and storage in Japan. The benefit of fusion introduction in Japan is estimated to be about 10 billion US$/yr on average in 2050-2100. Its value increases with reduction of the capital costs of future fusion power plants, lower penetration of fission power plants and deeper decarbonization pathways. When considering unique characteristics of fusion energy development, i.e., long-term and large-scale projects and DEMO as a single step between ITER and a first commercial plant, demonstration and prospect of economic viability under DEMO projects becomes critically important. This systems analysis also suggests that an alternative option of fusion energy which directly produces hydrogen by high-temperature steam electrolysis could become economically attractive.},
 pages = {170--179},
 title = {核融合開発ロードマップを反映した世界エネルギーシステムモデルによる日本の長期エネルギーシステム分析},
 volume = {40},
 year = {2019}
}