@article{oai:miyazaki-u.repo.nii.ac.jp:00006401,
 author = {邵, 子陽 and 長瀬, 慶紀 and Nagase, Yoshinori and 長瀬, 慶記 and Tomomatsu, Shigeki and 友松, 重樹 and Kimura, Masatoshi and 木村, 正寿 and 橋本, 直季 and Hashimoto, Naoki and Shao, Ziyang and 橋本, 直季 and Hashimoto, Naoki},
 journal = {宮崎大学工学部紀要, Memoirs of Faculty of Engineering, University of Miyazaki},
 month = {Sep},
 note = {In solar power generation of this study, stroage particles heated by a solar receiver are put into a heat exchanger and directly contacted with the working fluid to exchange heat and drive a heat engine. It is difficult to continuously supply storage particles to a solar receiver and exchange heat because it is a batch type heat storage device up to now. In order to drive a heat engine and generate electricity while heating by solar heat, it is necessary to develop a system that continuously exchanges heat with the working fluid and heat storage particles. However, there is a pressure difference between the receiver and the heat exchanger, and the working fluid of the heat engine leaks when the heat storage particles flow. Therefore, the purpose of this study is to transport the heat storage particles to the heat exchanger from the solar receiver without leakage of the working fluid. Two valve mechanisms were used to prevent leakage of the working fluid.},
 pages = {41--46},
 title = {蓄熱粒子流動型熱交換器のための粒子供給装置の開発},
 volume = {50},
 year = {2021},
 yomi = {ナガセ, ヨシノリ and トモマツ, シゲキ and キムラ, マサトシ and ハシモト, ナオキ and ハシモト, ナオキ}
}