SCEJ 85th Annual Meeting (2020): List of the applications (topics)

`SCEJ 85th Annual Meeting (2020) / / IChES 2020`

List of received applications (By topics code)

5) Chemical reaction engineering

5-a. Catalytic reaction engineering

Most recent update: 2020-09-26 15:59:01

The keywords that frequently used in this topics code.	Keywords	Number
	Zeolite	4
	catalyst	3
	catalytic cracking	2
	Hydrogenation	2
	naphtha	1

ACKN No.	Title/Author(s)	Keywords	Style
14	Selective hydrogenation of 2-chloropropene over Pd catalyst (Tokushima U.) *(Stu·PCEF)Endo S., (Stu)Moroyama T., (Reg)Shimoda N., (Reg)Katoh M., (Reg)Sugiyama S.	Pd catalyst 2-chloropropene hydrogenation	P
56	Low temperature catalytic oxidation of toluene over Ag-CeO₂/Cu-Foam catalysts synthesized by a novel electrodeposition method (Hirosaki U.) *(Stu)Wang Jing, (Stu)Wang Peifen, Yu Tao, (Reg)Yoshida Akihiro, (Aomori Pref. Ind. Tech. Res. Center) Kasai Yutaka, (Hirosaki U.) (Reg)Abudula Abuliti, (Reg)Guan Guoqing	VOC removal Ag-CeO2/Cu-foam catalyst oxidation of toluene	P
88	Direct partial oxidation of methane to C1 oxygenates over zeolite supported metal catalysts (U. Tokyo) *(Stu)Tominaga Naoto, (Reg)Moteki Takahiko, (Reg)Ogura Masaru	Direct partial oxidation of methane zeolite precious metal	P
129	Partial oxidation of methane over perovskite-type LaM_0.95Rh_0.05O₃ (M : Cr, Co, Fe) catalysts (U. Tokyo) *(Reg)Tada Shohei, Ono Takamasa, (Reg)Kikuchi Ryuji	Partial oxidation Perovskite oxide Regeneration	O
145	Direct conversion of methane to methanol over Copper-Exchanged Zeolite under mild conditions (Niigata U.) *(Stu)Zeng Ren, (Reg)Li Liu yun, Shimizu Tadaaki, Kim Hee Joon	methane to methanol copper-exchanged zeolite reaction process	P
260	The effect of mesopores on diffusion in the washcoat layer (Nagoya U.) *(Stu)Kawamata Yoshihiro, (Reg)Yamada Hiroshi, (Toyota Motor) (Cor)Kinoshita Yohei, (Cor)Muramoto Kei	Automobile catalyst mesopores Effective diffusivity	P
293	Methane conversion to C1/C2 oxygenates over zeolite supported Rh catalyst with the help of CO (U. Tokyo) *(Reg)Moteki Takahiko, (Stu)Tominaga Naoto, (Reg)Ogura Masaru	methane partial oxidation zeolite Rh catalyst	O
299	Germanium Incorporated SSZ-13 Chabazite Type Zeolite (Osaka U.) *(Stu)Al Jabri Hasna, (Shizuoka U.) (Reg)Miyake Koji, (Osaka U.) (Reg)Hirota Yuichiro, (Reg)Uchida Yoshiaki, (Reg)Nishiyama Norikazu	Germanium SSZ-13 Zeolite	O
300	Optimization of Rh-supported ZSM-5 catalyst structure for low temperature naphtha catalytic cracking (Tokyo Tech) *(Stu)Yamaji Mai, (Reg)Fujitsuka Hiroyasu, (Reg)Tago Teruoki	naphtha catalytic cracking light olefins	P
390	Cold Start for Ammonia Oxidative Decomposition for Rapid Start of Hydrogen Production (Kyoto U.) *(Reg)Sato Katsutoshi, (Oita U.) Matsunaga Takahiro, (Nagoya U.) Nagaoka Katsutoshi	hydrogen energy carrier renewable energy	O
403	Continuous-Flow Fine Synthesis with Macroporous Monolith immobilizing Phosphine Ligand (Kyushu U.) *(Stu·PCEF)Matsumoto Hikaru, (Reg)Hoshino Yu, (Reg)Miura Yoshiko, (Hokkaido U.) Iwai Tomohiro, Sawamura Masaya	Continuous-Flow Synthesis Supported phosphine Palladium catalyst	O
444	Theoretical exploration of binary oxide catalysts for lithium-air battery cathodes (Kogakuin U.) *(Stu)Ando Kei, Soeno Masahiro, (Reg)Takaba Hiromitsu	binary oxide catalysts lithium-air battery density functional theory	P
451	Steam reforming of toluene over plate-type Ni/Al₂O₃ structured catalyst : Effect of co-feeding oxygen (Shizuoka U.) *(Stu)Tanabe Takuya, (Stu)Fushimi Yuya, (Reg)Watanabe Ryo, Kohno Yoshiumi, (Reg)Fukuhara Choji	Structured catalyst Autothermal steam reforming Toluene	P
466	Development of Detailed Chemical Kinetic Model of Water Gas Shift Reaction over Several Solid Catalysts (Nagoya U.) *(Stu)Hirano Yudai, (Stu)Kuroyanagi Humiya, (Int)Zhang Wei, (Reg)Machida Hiroshi, (Reg)Norinaga Koyo	catalyst WGS simulation	P
487	Selective isomerization of C6 hydrocarbons by core-shell structured MFI-type zeolite (Gifu U.) *(Stu)Kido Naoki, (Reg)Miyamoto Manabu, (Reg)Oumi Yasunori, (Reg)Uemiya Shigeyuki	Isomerization Zeolite Core-shell structure	P
491	Reaction analysis of chemical looping methane reforming process using CeO₂ nanoparticles (Tohoku U.) *(Stu·PCEF)Kuroda Yusuke, (Tohoku U. NICHe) (Reg)Seong Gimyeong, (Tohoku U. WPI-AIMR) (Reg)Yoko Akira, (Tohoku U. IMRAM) (Reg)Tomai Takaaki, (Tohoku U. WPI-AIMR/Tohoku U. IMRAM/Tohoku U. NICHe) (Reg)Adschiri Tadafumi	methane reforming CeO2 nanoparticles Reaction analysis	P
496	Selective conversion of glycerol into glyceric acid by liquid phase oxidation using Au catalyst (Tohoku U.) *(Stu·PCEF)Chida Tsutomu, (Reg·PCEF)Hiromori Kousuke, (Reg)Shibasaki-Kitakawa Naomi, (AIST) (Reg)Mimura Naoki, (Reg)Yamaguchi Aritomo, (Tohoku U.) (Reg)Takahashi Atsushi	Au catalyst glycerol liquid phase selective oxidation mechanism	P
509	In-situ XAFS analysis for the electronic state of active metal species under three way catalytic reaction (Oita U.) *(Stu)Motoyama Yuto, (Kyoto U.) (Reg)Sato Katsutoshi, (Nagoya U.) Nishida Yoshihide, (Oita U.) Wada Yuichiro, (Nagoya U.) Nagaoka Katsutoshi	three way catalyst In-situ XAFS Pt	P
519	Reaction selectivity control for synthesis of sucrose ester with different fatty acid chain length (Tohoku U.) *(Stu·PCEF)Sasayama Tomone, (Reg·PCEF)Hiromori Kousuke, (Reg)Takahashi Atsushi, (Reg)Shibasaki-Kitakawa Naomi	sucrose fatty acid ester medium chain fatty acid porous resin catalyst	O
575	Lattice Boltzmann simulation of catalyst structure-performance relationship in dry reforming of methane (Nagoya U.) *(Stu)Lin Yixiong, (Reg)Machida Hiroshi, (Reg)Norinaga Koyo	Catalyst Structure-performance relationship porous pellet	P
594	Design of tandem-reaction system on lipid membranes for jasminaldehyde (Okayama U.) *(Stu)Sasadou Yuuki, (Reg)Shimanouchi Toshinori, (Reg)Kimura Yukitaka	liposome tandem reaction jasminaldehyde	P
601	Synergistic Effect of 3D Hierarchical Microsphere TiO₂ by Carbon Doping for The Photocatalytic Antibiotic Degradation (U. Tsukuba) *(Stu)Sun Xiang, (Shandong U.) Xu Shiping, (U. Tsukuba) (Stu)Liu Na, Qi Ruilin, (Reg)Yang Yingnan	3D hierarchical TiO2 microsphere structure Carbon doping Antibiotic degradation	P
620	Application of machine learning to catalytic cracking of polycyclic aromatic hydrocarbons (Shinshu U.) *(Reg)Shimada Iori, (Reg)Osada Mitsumasa, (Reg)Fukunaga Hiroshi, (Shinshu U./NIMS) (Reg)Koyama Michihisa	machine learning feature engineering catalytic cracking	O
625	Oxidation / Reduction of toxic metal ions over supported noble metal catalysts in aqueous solution (Kyushu U.) *(Reg)Kishida Masahiro, Itoh Kyogo, Urata Takayuki, (Reg)Yamamoto Tsuyoshi	Arcenite oxidation Selenate reduction Supported noble metal catalysts	O
627	Development of High Performance Graphene oxide Modified Bi₂WO₆ Based Photocatalyst for Wastewater Treatment (U. Tsukuba) *(Stu)Ma Qiansu, Ming Jie, (Stu)Liu Na, (Stu)Zhang Cheng, (Reg)Yang Yingnan	Graphene oxide Modification of Bi2WO6 Photocatalytic activity	P
695	Structural insights into the performance of MoO₃-WO₃ a mixed oxide supported on ZrO₂ for butanolysis of furfuryl alcohol (Nagoya U.) *(Stu)Thuppati Upender Rao, (Reg)Norinaga Koyo	MoO3-WO3-ZrO2 EISA method Butyl levulinate	P
696	Observation of N₂ adsorption in ammonia electrosynthesis using in situ FTIR spectroscopy (U. Tokyo) *(Stu)Imata Kana, (Reg)Matsuo Hiroki, (Reg)Otomo Junichiro	Ammonia electrolysis Protonic ceramic fuel cell Adsorbed N2	P
720	Effect of Sn/Pt atomic ratio in SnPt bimetallic nanoparticle catalysts for hydrogenation of acetic acid (Kobe U.) *(Reg)Taniya Keita, Takado Hiromu, (Reg)Horie Takafumi, (Reg)Ichihashi Yuichi, (Reg)Nishiyama Satoru	SnPt bimetallic nanoparticles Hydrogenation Acetic acid	O
723	Dehydrogenation of lower alkanes (C2-C4) using lattice sulfide of iron-based catalyst: promotion effect of H₂S gas (Shizuoka U.) *(Reg)Watanabe Ryo, Yoda Yuta, Hirata Nozomu, Kohno Yoshiumi, (Reg)Fukuhara Choji	Hydrogen sulfide Dehydrogenation Fe	O
725	Theoretical analysis of ammonia electrosynthesis on barium cerate supported ruthenium catalysts (U. Tokyo) *(Stu)Murase Fumiya, (NIMS) Ishikawa Atsushi, Tateyama Yoshitaka, (U. Tokyo) (Reg)Otomo Junichiro	Ammonia synthesis Electrochemical promotion of catalysis First principle calculation	P
808	Kinetic analysis of CO₂ methanation over a highly active catalyst in a packed bed reactor (Nagoya U.) *(Int)Choi Cheolyong, (Stu)Yasuda Shoya, (Int)Zhang Wei, (Reg)Machida Hiroshi, (Reg)Norinaga Koyo	CO2 methanation catalyst kinetic analysis	O

List of received applications (By topics code)

List of received applications
SCEJ 85th Annual Meeting (2020)
IChES 2020

(C) 2020 The Society of Chemical Engineers, Japan. . All rights reserved.
Most recent update: 2020-09-26 15:59:01
For more information contact Organizing Committee, SCEJ 85th Annual Meeting (2020) / / IChES 2020
E-mail: inquiry-85a

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