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Sato, Hiroyuki
no journal, ,
The lecture covers safety requirements and design considerations for coupling heat applications to HTGR and helium gas turbine power conversion system technologies.
Fukaya, Yuji
no journal, ,
How to solve the waste problem by optimizing the HTGR nuclear fuel cycle is explained. Generally, it is said that transmutation by multi-recycling can be performed only by the fast reactor system. However, considering the role of each partitioning and transmutation technology and the transmutation characteristics of the HTGR, which is a thermal neutron reactor. I explain that it is possible to establish a sustainable nuclear fuel cycle, which is possible to reduce the toxicity and waste volume even in the thermal neutron reactor of HTGR.
Tanaka, Nobuyuki
no journal, ,
R&D of the thermochemical water-splitting hydrogen production method, iodine-sulfur (IS) process is explained in 3rd Seminar on Development of HTGR Technology for Cogeneration and Heat Applications. So far, the continuous hydrogen production test apparatus, which is made of the industrial materials, was completed to be constructed. And then, the continuous operation test with 30 L/h during 150 h was succeeded by using the apparatus. In addition, the membrane technologies are developed to improve the thermal efficiency of the IS process.
Sasaki, Koei
no journal, ,
"Design of high burnup fuel for HTGR" was instructed for "3rd Seminar on Development of HTGR Technology for Cogeneration and Heat Applications" as a part of "Implementing Agreement between the Japan Atomic Energy Agency and National Centre for Nuclear Research in the Republic of Poland for cooperation in research and development in the field of high temperature gas-cooled reactor technologies".