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SCEJ 52nd Autumn Meeting (Okayama, 2021)

List of received applications (By topics code)


SY) SCEJ Division Symposium

SY-74. [Symposium of Division of Energy Engineering]

Organizer(s): Ryu Junichi (Chiba Univ.), Norinaga Koyo (Nagoya Univ.), Osaka Yugo (Kanazawa Univ.), Fushimi Chihiro (Tokyo Univ. of Agri. and Tech.)

A wide range of presentations will be invited from basic technologies that support future energy systems to practical examples, focusing on carbon-based resource utilization technology and heat utilization technology.

Most recent update: 2022-01-31 16:50:01

The keywords that frequently used
in this topics code.
KeywordsNumber
Phase change material4*
Latent heat storage4*
microcapsule4*
Oxygen Storage Material3*
Ironmaking2
Reduction2
Pressure swing adsorption2
Air Separation2
High temperature heat storage1

ACKN
No.
Title/Author(s)KeywordsStyle
16Relationship between the dehydration reactivity of Mg(OH)2 and the additive properties for chemical heat storage
(Chiba U.) *(Stu)Kurosawa Ryo, (Reg)Ryu Junichi
Dehydration
Additive properties
Screening
O
95Effect of alkali metal salt addition on the dehydration and hydration of lanthanum hydroxide
(Chiba U.) *(Stu)Kono Shunsuke, (Stu)Kurosawa Ryo, (Reg)Ryu Junichi
Thermochemical Energy Storage
Lanthanum Hydroxide
Chemical modification
O
208Development of encapsulated phase change material based on Cu for high temperature heat storage system
(Nagoya U.) *(Stu)Zhou Xin, (Reg)Kita Hideki, (Reg)Yamashita Seiji, (Reg)Kubota Mitsuhiro, (Mino Ceramic) Fujii Mikako, Jia Pengfei, Kawaguti Syun, Yoshimi Yasutaka
Copper based EPCM
High temperature heat storage
O
262Investigation on Oxygen Storage and Release Characteristic of Oxygen Storage Material Ca2Al1-xYxMnO5+δ
(Hokkaido U.) *(Stu)Naya H., (Stu)Omura Y., (Stu)Tanahashi K., Sakaguchi N., Kunisada Y., (Reg)Nomura T.
Oxygen storage material
Pressure swing adsorption
Air separation
O
348Synthetic Model Compound for Asphaltene Aggregation Behavior
(AIST) *(Reg·APCE)Morimoto Masato, (U. Alberta) Scott David, Hamilton Robin, Stryker Jeffery, Tykwinski Rik, Gray Murray
Asphaltene
Model compound
Molecular aggregation
O
367Development of Zn-Al alloy-based micro-encapsulated phase change material for middle temperature heat source
(Hokkaido U.) *(Stu)Kawaguchi T., (Stu)Sakai H., Ade K., (Reg)Nomura T.
Phase change material
Latent heat storage
Microcapsule
O
385Water vapor sorption properties of CaCl2-aluminum composites with different substrate thicknesses
(Kanazawa U.) *(Stu)Chumnanwat Suppanat, Taniguchi Naoko, (Reg)Kodama Akio, (Reg)Takiguchi Noboru, (Reg)Kumita Mikio
Water vapor sorption
Calcium chloride composite
Porous alumina film
O
392[Invited lecture] Approach to the carbon neutrality by energy circulation technology
(Toyota Central R&D Lab.) (Cor)Baba Naoki
Carbon neutral
O
404Fundamental heat transfer analysis of packed bed latent heat storage system for high-temperature thermal energy storage
(Hokkaido U.) *(Stu)Tsukiashi R., (Stu)Sakai H., (Stu)Kawaguchi T., Satou Y., Ade Kurniawan, (Reg)Nomura T.
Phase change material
Latent heat storage
microcapsule
O
405Design of of biomass power plant integrated with thermochemical heat storage using Ca(OH)2/CaO and evaluation of the flexibility of power generation: Dynamic simulation and energy analysis
(TUAT) (Reg·PCE)Uchino T., *(Stu)Yasui T., (Reg)Fushimi C.
thermochemical heat storage
renewable energy
power generation
O
427Investigation of the Reaction Mechanism of Iron Ore Reduction using Municipal Solid Waste
(Hokkaido U.) *(Stu)Hasegawa Hiroki, (Stu)Iwamoto Itsuki, Ade Kurniawan, (Reg)Nomura Takahiro, (Kyoto U.) Kashiwaya Yoshiaki
Municipal Solid Waste
Ironmaking
Reduction
O
451Surface morphology control of Al-Si alloy-based micro-encapsulated phase change material for high temperature application
(Hokkaido U.) *(Stu)Ajito D., (Stu)Kawaguchi T., (Stu)Sakai H., Dong K., Ade Kurniawan, (Reg)Nomura T.
Phase change material
Latent heat storage
Microcapsule
O
473Investigation of Phases During Reduction of High Combined Water Contained Iron Ore by Ammonia
(Hokkaido U.) *(Stu)Iwamoto I., (Stu)Hasegawa H., Ade K., (Reg)Nomura T.
Ammonia
Ironmaking
Reduction
O
501Development of a core-shell type microencapsulated Sn phase change material by dry impact blending preparation method
(Hokkaido U.) *(Stu)Ishida R., (Stu)Sakai H., (Stu)Kawaguchi T., Ade K., (Reg)Nomura T.
Phase change material
Latent heat storage
microcapsule
O
502Redox behaviors of Ce(1-x)MnxO2 for thermochemical heat storage
(Nagoya U.) *(Stu)Wu Rongjun, (Reg)Kobayashi Noriyuki, (Reg)Kubota Mitsuhiro
heat storage
redox reaction
Pechini method
O
508Effect of operation conditions on the hydrogen recovery ratio on the methane decomposition process
(Kyoto U.) (Reg)Nakagawa Hiroyuki
Methane decomposition
Hydrogen recovery ratio
Process effeciency
O
543Optimization of Sr-doping amount in oxygen storage material Ca2-xSrxAlMnO5+δ for energy-saving air separation process
(Hokkaido U.) *(Stu)Tanahashi K., (Stu)Omura Y., (Stu)Naya H., (Nagoya U.) Saito G., (Hokkaido U.) Ade Kurniawan, Kunisada Y., Sakaguchi N., (Reg)Nomura T.
Oxygen storage material
Oxygen separation
Pressure swing adsorption
O
645Investigation of Reaction and Thermal Behavior of Oxygen Adsorbed Material in Pressure Swing Type Air Separation process
(Hokkaido U.) *(Stu)Omura Y., (Stu)Tanahashi K., (Stu)Naya H., Ade K., (Reg)Nomura T.
Oxygen Storage Material
Thermal control
Air Separation
O
650Increasing transportation heat and reducing pressure loss in erythritol/silicon-oil mixture as heat exchange medium
(Chiba U.) *(Stu)Watanabe Kurumi, Hirano Yuka, (Reg)Hirose Yuji, (Reg)Ogura Hironao
Heat Transportation
Latent Heat
O
731Performance Evaluation of Heat Pipes under Gamma Ray Irradiation
(TEPCO HD) *(Reg)Harada Masaru, Fukaya Yuichi, (U. Tokyo) Morimoto Kyota, Kawashima Akihito, Zhang Yao, Suzuki Shunichi
Heat pipe
Water radiolysis
O
784Development of latent heat storage material with NaCl/Al2O3 composite structure
(Nagoya U.) *(Reg)Yamashita Seiji, Liao Shenghao, (Reg)Kubota Mitsuhiro, (Reg)Kita Hideki
Inorganic salt
PCM
shape retention
O
844Development of a novel method for increasing the low-molecular-weight components of low-grade coals under mild conditions combining oxygen oxidation and formic acid reduction reaction
(Kyoto U.) *(Stu)Ren Jie, (Reg)Ashida Ryuichi, (Reg)Kawase Motoaki, (KOBELCO) (Cor)Sakai Kouji, (Cor)Okuyama Noriyuki
Low grade coal
Formic acid
low-molecular-weight components
O

List of received applications (By topics code)

List of received applications
SCEJ 52nd Autumn Meeting (Okayama, 2021)

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Most recent update: 2022-01-31 16:50:01
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