SCEJ 82nd Annual Meeting (Tokyo, 2017): List of the applications (topics)

`SCEJ 82nd Annual Meeting (Tokyo, 2017)`

List of received applications (By topics code)

9) Energy engineering

9-e. New energies & energy systems

Most recent update: 2017-05-20 20:59:01

The keywords that frequently used in this topics code.	Keywords	Number
	Solid oxide fuel cell	6
	SOFC	3
	Proton conductor	3
	modeling	3
	Electrolyte	2
	direct ethanol fuel cell	2
	Polymer electrolyte fuel cell	2
	TiO2	1

ACKN No.	Title/Author(s)	Keywords	Style
79	Modeling of reversible solid oxide fuel cell / water electrolysis (RSOFC/EC) systems for energy storage (Tokyo Tech) *(Stu)Lee H.・ (Stu)Yanagawa D.・ (Stu)Shimamura R.・ (Ful)Hasegawa K.・ (Ful)Ihara M.	Power to Gas Solid oxide fuel cell Water electrolysis	P
81	Metal-free solid oxide fuel cell with direct synthesis of carbon nanotube (Tokyo Tech) *(Stu)Hosoda M.・ (Stu)Iida Y.・ (Stu)Shimamura R.・ (Ful)Hasegawa K.・ (Ful)Ihara M.	Solid oxide fuel cell Carbon nanotube direct synthesis	P
88	Development of proton conductive solid oxide fuel cell focusing on a chemical and geometric structure of the interface of the electrolyte (Tokyo Tech) *(Stu)Kameda K.・ (Stu)Shimamura R.・ (Stu)Kurahashi Y.・ (Ful)Hasegawa K.・ (Ful)Ihara M.	proton conductor solid oxide fuel cell electrolyte	P
130	Energy system using hydrogen energy storage based on the real data on smart energy system "Ene-Swallow" in Tokyo institute of technology (Tokyo Tech) *(Stu)Yanagawa D.・ (Ful)Shimizu T.・ (Stu)Lee H.・ (Ful)Hasegawa K.・ (Ful)Ihara M.	Energy system Hydrogen Ene-Swallow	P
170	Relationship between proton conductivity and effects of amounts of oxygen vacancy, structural symmetry of layered perovskite oxide (Tokyo Tech) *(Stu)Matsuhira T.・ (Stu)Kurahashi Y.・ (Ful)Hasegawa K.・ (Ful)Ihara M.	Solid oxide fuel cell Electrolyte perovskite	P
232	Investigation of the reduction condition for electrochemical reduction of the CO₂ using supported Sn catalyst (Kanazawa U.) *(Stu)Mukae Y.・ (Kanazawa U./JST-PRESTO) (Ful)Tsujiguchi T.・ (Kanazawa U.) (Ful)Osaka Y.・ (Ful)Kodama A.	Electrochemical reduction of CO2 Faradaic efficiency Energy career	P
239	Process modeling of PEFC catalyst layer and the structural analyses (Panasonic) *(Ful)Ishikawa Hiroshi・ Sugawara Yasushi	Catalyst layer coating process modeling	O
246	Fabrication of Si-Cu Self-Supporting Films by Rapid Vapor Deposition and Their Application to Lithium Secondary Battery Anodes (Waseda U.) *(Stu)Hashizume Yuta・ (Stu)Aoi Shigeki・ (Ful)Sugime Hisashi・ (Ful)Osawa Toshio・ (Ful)Noda Suguru	lithium secondary batteries silicon anodes rapid vapor deposition	P
260	Closed Cycle EDR using non aqueous solvent (OIT) *(Stu)Iseda Takayuki・ (Stu)Kaga Daiki・ (Stu)Kamikyuu Keisuke・ (Ful)Miyamoto Hitoshi	Electro dialysis Reversal Membrane Potential Cell Resistance	P
264	Low-carbon power generation of methane-fueled SOFCs by using methane decomposition (Tokyo Gas) *(Ful)Matsuzaki Yoshio・ (Kyushu U.) (Ful)Tachikawa Yuya・ (Tokyo Gas) (Cor)Kawabata Yasuharu・ (Cor)Somekawa Takaaki・ (Cor)Sato Koki・ (Kyushu U.) (Ful)Taniguchi Shunsuke・ (Ful)Sasaki Kazunari	SOFC Methane Decomposition CO2 emission coefficient	O
325	Improvement of resistance to toluene of solid oxide fuel cell by promoting internal reforming (U. Tsukuba) *(Stu)Tanaka Shota・ (AIST) (Ful)Kuramoto Koji・ (U. Tsukuba) (Ful)Hanada Nobuko・ Ishida Masayoshi	Solid Oxide Fuel Cell Toluene Catalyst	P
367	Evaluation of steam electrolysis with solid oxide fuel cells using a coupled analysis. (U. Tokyo) *(Stu)Okamura Shintarou・ (Ful)Otomo Junichiro	SOFC steam electrolysis coupled analysis	P
370	Enhancing rate performance of lithium titanate by hybridizing with carbon nanotubes (Waseda U.) *(Stu)Honda Yoichiro・ (Stu)Yamagata Go・ (Ful)Noda Suguru	lithium ion batteries lithium titanate carbon nanotubes	P
382	Study on burning performance of[Cu(CN₄H₂)]/BCN (Fukuoka U.) *(Stu)Kai Mariko・ (Ful)Masamoto Hiroshi・ (Ful)Shigematsu Mikiji・ (Ful)Kowhakul Wasana	tetrazole complex burning performance	P
425	Fabrication of large grain polycrystalline Si films for solar cells by rapid vapor deposition on and mechanical detachment from heat-resistant substrates (Waseda U.) *(Stu)Ishijima Naoya・ (Stu)Fujita Makoto・ (Ful)Osawa Toshio・ (Ful)Sugime Hisashi・ (Ful)Noda Suguru	poly-crystalline silicon films crystal growth solar cells	P
436	Microstructural control and Reaction analysis of Cathodes for Electrochemical Synthesis of Ammonia (U. Tokyo) *(Stu)Nakamura Takehisa・ (Ful)Kosaka Fumihiko・ (Ful)Otomo Junichiro	Ammonia electrosynthesis Proton conductor Microstructure of cathode	P
447	Flow analysis in electrode layer of the redox flow battery (Gunma U.) *(Stu·PCEF)Saito Jin・ (Ful)Ishitobi Hirokazu・ (Ful)Nakagawa Nobuyoshi	Redox flow battery Mass transport analysis Modeling	P
485	Activity enhancement of the ethanol electrooxidation by nano-composite catalysts (Gunma U.) *(Ful)Ishitobi Hirokazu・ (Stu·PCEF)Ino Yurina・ (Ful)Nakagawa Nobuyoshi	Direct ethanol fuel cell electrocatalyst nano-composite	O
498	Development of piezoelectric energy harvesting technology by using resonance from feeble flow field (Nagoya U.) *(Stu)Taguchi Hiroya・ Takagi Kentaro・ Inoue Tsuyoshi・ (Fuji Ceramics) Nozoe Takashi・ Saito Seigo・ Sano Takahiko・ (LIXIL) (Ful)Isu Norihumi・ (Nagoya U.) (Ful)Deguchi Seiichi	piezoeloctric power generator energy harvesting technology resonance	P
499	Design of proton conducting solid oxide fuel cells based on transport properties of lanthanum tungstate (U. Tokyo) *(Stu)Tsukimura Reina・ (Stu)Kojo Gen・ (Tokyo Gas) (Ful)Matsuzaki Yoshio・ (U. Tokyo) (Ful)Otomo Junichiro	Proton conductor Solid oxide fuel cell Lanthanum tungstate	P
517	Separation of over voltage and analysis of unsteady anode reaction on pulse jet-rechargeable direct carbon fuel cell (Tokyo Tech) *(Stu)Iida Yuta・ (Stu)Shimamura Ryota・ (Ful)Hasegawa Kei・ (Ful)Ihara Manabu	SOFC liquid fuel anode reaction analysis	P
553	Investigation of fuel cell catalysts by a chemisorption/desorption method (Gunma U.) *(Stu·PCEF)Yamaguchi Ryo・ (Ful)Nakagawa Nobuyoshi・ (Ful)Ishitobi Hirokazu	fuel cell catalyst chemisorption methanol oxidation	P
582	Development of a TiO₂ modified composite catalyst for methanol electro-oxidation (Gunma U.) *(Stu·PCEF)Yagi S.・ (Ful)Ishitobi H.・ (Ful)Nakagawa N.	Direct methanol fuel cell TiO2 Carbon	P
597	Explication of mechanism of amino acid decomposition in subcritical water using carbon (TUAT) *(Stu)Usami R.・ (Ful)Fushimi C.	glycine subcritical water	P
630	Evaluation of Nanosurface Control and Ultra High Speed Deposition on Double Porous Si Substrate for Fabricating Monocrystalline Thin Film Si Solar Cell (Tokyo Tech) *(Stu)Matsuura Akira・ (Stu)Takazawa Chiaki・ (Waseda U.) (Stu)Fujita Makoto・ (Ful)Hasegawa Kei・ (Ful)Noda Suguru・ (Tokyo Tech) (Ful)Ihara Manabu	Solar cell Mono crystal Thin film	P
640	Modeling of hydrogen absorption and desorption in Magnesium (Kyoto U.) *(Stu·PCEF)Kitagawa Yuta・ (Ful)Tanabe Katsuaki	hydrogen storage magnesium modeling	P
650	Application of proton-conductive electrode catalyst to polymer electrolyte fuel cells (Tokyo City U.) *(Stu)Ichiki Shuma・ Oyama Tomoya・ (Ful)Take Tetsuo	Proton-conductive electrode catalyst Polymer electrolyte fuel cells Proton conductive network	P
651	Effect of flow state on the overpotential of the redox flow battery (Gunma U.) *(Stu·PCEF)Sugawara Satoshi・ (Ful)Ishitobi Hirokazu・ (Ful)Nakagawa Nobuyoshi	Vanadium redox flow battery Carbon paper Electrode structure	P
655	Enhancement of ethanol electro-oxidation activity by intermetallic PtPb anode catalyst for a DEFC (Gunma U.) *(PCEF)Tomaru Hiroyuki・ (Ful)Ishitobi Hirokazu・ (Ful)Nakagawa Nobuyoshi	direct ethanol fuel cell intermetallic PtPb catalytic activity	P
727	Stabilization and power density improvement of stack-type thermoelectric power generating module by using various flexible materials (Nagoya U.) *(Stu)Ishihara Yuya・ (Stu)Taguchi Hiroya・ (Toshima Manufucturing) Sakai Kenzi・ Kimoto Kentarou・ (LIXIL) (Ful)Isu Norihumi・ (Nagoya U.) (Ful)Deguchi Seiichi	thermoelectric generation low-temperature waste heat flexible materials	P
741	Impact of convection in the cathode catalyst layer on cell performance of polymer electrolyte fuel cell (Kyoto U.) *(Ful)Kageyama M.・ (Ful)Yamaguchi K.・ (Stu)Iijima Y.・ (Ful)Kawase M.	polymer electrolyte fuel cell convection oxygen reduction reaction	O
751	Evaluation of membrane and fuel cell performance using highly cross-linked aromatic anion conducting membranes (Tokyo Tech) *(Stu)Hattori Kengo・ (Tokyo Tech/JST-CREST) (Ful)Miyanishi Shoji・ (Ful)Oshiba Yuhei・ (Ful)Yamaguchi Takeo	Solid alkaline fuel cell Anion conducting membrane Cross-linking	P
762	Effect of alloying metals on oxygen reduction activity of connected Pt-alloy nanoparticles for PEFCs (Tokyo Tech) *(Stu)Kubota Daichi・ (KAST/Tokyo Tech) (Ful)Kuroki Hidenori・ (Tokyo Tech/KAST) (Ful)Tamaki Takanori・ (Ful)Yamaguchi Takeo	Polymer electrolyte fuel cell Connected platinum-alloy nanoparticles Carbon-free electrocatalyst	P
802	Efficient location allocation of hydrogen stations (Kyushu U.) *(Ful)Itaoka Kenshi・ (The Matsushita Inst.) (Ful)Kimura Seiichiro・ (Kyushu U.) Hirose Katsuhiko・ Honda Kouki・ Kikuchi Yudai・ Shimokawa Keisuke	hydrogen station p-median flow capturing	O
804	Preparation and thermoelectric properties of PEDOT/Bi₂Te₃ nanoplate thin films by combining method of electropolymerization and printing process (Tokai U.) *(Stu)Deguchi Toshiaki・ Wada Koudai・ Hosokawa Yuichi・ Takahashi Momoko・ Tomita Koji・ Takashiri Masayuki	Bi2Te3 nanoplate PEDOT thermoelectric	P
805	Effect of acid solutions on thermoelectric properties of electrodeposited Bi-Te thin films (Tokai U.) *(Stu)Okuhata Mitsuaki・ Takashiri Masayuki	electrodeposition thermoelectoric bismuth telluride	P

List of received applications (By topics code)

List of received applications
SCEJ 82nd Annual Meeting (Tokyo, 2017)

(C) 2017 The Society of Chemical Engineers, Japan. . All rights reserved.
Most recent update: 2017-05-20 20:59:01
For more information contact Organizing Committee, SCEJ 82nd Annual Meeting (Tokyo, 2017)
E-mail: inquiry-82a

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