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SCEJ 88th Annual Meeting (Tokyo, 2023) / / IChES 2023

List of received applications (By topics code)


5) Chemical reaction engineering

5-a. Catalytic reaction engineering

Most recent update: 2023-05-11 20:44:01

The keywords that frequently used
in this topics code.
KeywordsNumber
Structured catalyst6**
Carbon capture3*
catalyst3*
hydrogen2
Dehydrogenation2
Ethylene Aromatization2
transfer learning2
CO2 Utilization2
CO2 reduction2
Methanethiol2
Hydrogen sulfide2
Carbon2
CO2 methanation2
machine learning2
oxidation1

ACKN
No.
Title/Author(s)KeywordsStyle
10Carbon capturing process from CO2 in cement clinker burning using structured catalyst reaction
(Taiheiyo Cement) *(Reg)Imai Toshio, (Cor)Tome Aoi, (Cor)Miura Keiichi, (Shizuoka U.) (Reg)Akama Hiroshi, (Reg)Watanabe Ryo, (Reg)Fukuhara Choji
cement clinker burning
multi-catalytic reaction
solid carbon
O
15Development of carbon synthesis technology from H2 and CO2
(IHI) *(Reg)Nakamura Shiko, (Cor)Kadowaki Haruna, (Cor)Yasuda Kenta
CO2 utilization
carbon synthesis
hydrogen
O
22Investigation of catalyst regeneration method for dehydrogenation of propane on alumina-supported nickel oxide catalyst
(Tokushima U.) *(Reg)Sugiyama S., (Stu)Koizumi A., (Reg)Shimoda N., (Mitsubishi Chemical) (Reg)Kato Y., (Reg)Ninomiya W.
dehydrogenation
propane
nickel oxide
O
23Efficient Calcium Looping-integrated Methane-Dry Reforming by Dual Functional Aerosol Ca-Ni-Ce Nanoparticle Cluster
(Nat. Tsing-Hua U.) *Law Zhi Xuan, Tsai De-Hao
Aerosol
nanoparticle cluster
calcium looping
P
30Bottom-up synthesis and catalytic application of titanosilicate nanoparticle possessing highly concentrated active Ti(IV) species
(U. Tokyo) *(Reg)Moteki Takahiko, Sei Tomohiro, (Reg)Ogura Masaru
titanosilicate
oxidation
bottom-up
O
46Optimizing octahedron sites in MnFe2O4 spinel by boron doping for highly efficient seawater splitting
(Hirosaki U.) *(Stu)Chen Meng, (Stu)Kitiphatpiboon Nutthaphak, (Stu)Feng Changrui, (Reg)Abudula Abuliti, (Reg)Guan Guoqing
Seawater splitting
MnFe2O4 spinel
oxygen evolution reaction
P
77Heterogeneous materials for catalysis of CO2-utilized Carbonates Formation
(Nat. Tsing-Hua U.) *Yang Pao-Chi, Chang Ching-Yuan, Pan Yung-Tin, Tsai De-Hao
propylene carbonate
propylene glycol
heterogeneous reaction
P
84Influence of Sulfur Species in Ethylene Aromatization over MFI-type Zeolite
(Kyushu U.) *(Reg)Oshima Kazumasa, (Stu)Konishi Eriko, (Shizuoka U.) (Reg)Watanabe Ryo, (Reg)Fukuhara Choji, (Kyushu U.) (Reg)Kishida Masahiro
Ethylene aromatization
MFI zeolite
Sulfur contamination
O
85Influence of Methanethiol Contamination in Ethylene Aromatization over Ga-modified Zeolite
(Kyushu U.) *(Stu)Konishi Eriko, (Reg)Oshima Kazumasa, (Shizuoka U.) (Reg)Watanabe Ryo, (Reg)Fukuhara Choji, (Kyushu U.) (Reg)Kishida Masahiro
Ethylene Aromatization
Methanethiol
Ga-modified zeolite
P
87Kinetic analysis of oxidation of As(III) in water using a fixed-bed distribution reactor
(Kyushu U.) *(Stu)Kondo Hiromichi, (Reg)Oshima Kazumasa, (Reg)Yamamoto Tsuyoshi, (Reg)Kishida Masahiro
platinum catalyst
arsenic removal
kinetic analysis
O
105Photoreduction of CO2 by porous polymers incorporating iron porphyrin
(Kyushu U.) *(Stu)Furusawa Shota, (Reg)Nagao Masanori, (Reg)Miura Yoshiko
photocatalyst
CO2 reduction
heterogeneous catalyst
P
120Fabrication of Indium doped Bi2O3 catalyst on carbon paper for electrochemical reduction of CO2 to formate
(Hirosaki U.) *(Stu)Yang Ziyuan, (Hirosaki U. IRI) (Int)Feng Zhengbao, (Hirosaki U.) (Reg)Abudula Abuliti, (Hirosaki U. IRI) (Reg)Guan Guoqing
Electroreduction
CO2
formate
P
161Metal-Organic Framework-derived Nanocatalyst for Methane Bi-reforming
(Nat. Tsing-Hua U.) *Tu Jia-Yun, (Nat. Cheng Kung U.) Kung Chung-Wei, (Nat. Tsing-Hua U.) Tsai De-Hao
Bi reforming of methane
Metal-organic framwork
Catalyst
P
186Low environmental load base-catalyzed reaction using air-bubbles
(Kitami Inst. Tech.) *(Stu)Kodama Koki, (Stu)Ngo Thi Thu Thao, (Nagoya U.) (Stu)Iwata Takuya, (Reg)Yasuda Keiji, (Kitami Inst. Tech.) (Reg)Saitoh Tohru
bubble
air/water interface
catalysis
P
187Formation of graphite by CCVD method from C2H2 using Fe catalyst
(toyotanso) *(Reg)Maeda Hiroyuki, Okuni Tomoyuki, (Reg)Ohta Naoto, (AIST) Soneda Yasushi, (Reg)Hatanaka Takeshi
CVD
carbon
reaction mechanism
O
222Effect of a dopant to 60 wt% Ni-CeO2 for CO2 methanation activity
(Yamagata U.) *(Reg)Fujiwara Kakeru, Izutu Kaito
Flame spray pyrolysis
Ni catalyst
CO2 methanation
O
223Improved Catalyst Performance Prediction with a Transfer Learning Approach
(AIST) *(Reg)Kosaka Fumihiko, (NEC/AIST) Obuchi Kiichi
materials informatics
catalysis informatics
transfer learning
O
230Catalysis of KMgF3 prepared using a mechano-chemical method
(Kogakuin U.) *(Reg)Iida Hajime, Sugiyama Shoya, Horie Tatsuya
Mechano-chemical
Fluoroperovskite
Knoevenagel condensation
O
247Propane ammoxidation reaction with various elements added FeSb-based catalysts
(Utsunomiya U.) *(Stu)Hida Yuto, (Reg)Furusawa Takeshi
Propane ammoxidation
FeSb-based catalyst
various elements
P
275Density Functional Theory-Based Microkinetics for the CO2 Methanation Reaction over Flat and Stepped Ni and Ru Surfaces
(Hitachi) *(Stu)Oda Haruyuki, (NIMS) Ishikawa Atsushi, Tateyama Yoshitaka, (Hitachi) Gunzi Akira, Sugimasa Masatoshi
DFT calculation
Microkinetics
Methanation catalyst
O
283Self-starting and -processing CO2 methanation by powerful Ru/CeO2 structured catalyst
(Shizuoka U.) *(Int)Verma P., (Reg)Watanabe R., (Reg)Akama H., (Reg)Fukuhara C.
CO2 methanation
Structured catalyst
Catalytic Reaction Engineering
O
315Synthesis of zeolite-encapsulated metal nanoparticle catalyst by dry gel conversion method and its application for catalytic reaction of n-pentane
(Tokyo Tech) *(Stu)Nakatani Nodoka, (Stu)Endoh Misaki, (Reg)Kimura Kentaro, (Reg)Tago Teruoki
n-pentane cracking
olefin
zeolite-encapsulated metal catalyst
P
317The development of Porous polymer monolith catalyst with the application of machine learning
(Kyushu U.) *(Stu)Syu Sintei, (Reg)Nagao Masanori, (Reg)Miura Yoshiko
Immobilized Catalyst
Monolith
Machine Learning
P
385High-performance reverse water-gas shift reaction process constructing by multi-stage spiral-type structured catalysts system
(Shizuoka U.) *(Reg)Akama Hiroshi, Sugihara Tetsu, (Int)Verma Priyanka, (Reg)Watanabe Ryo, (Reg)Fukuhara Choji
RWGS reaction
Structured catalyst
Cu-Fe/Zn catalyst
O
501Exergy evaluation of novel multi-stage system producing syngas and solid C from CO2
(Shizuoka U.) *(Stu·PCEF)Naiki Hiroto, (Reg)Akama Hiroshi, (Int)Verma Priyanka, (Reg)Watanabe Ryo, (Reg)Fukuhara Choji
Structured catalyst
Multi-stage reaction
Exergy
P
510Ammonia-Methanation of Carbon Dioxide with a Hybrid Catalyst
(Hiroshima U.) *(Reg)Saima Hitoshi, Sunamoto Reiji, Imamura Sohsuke, (Reg)Miyaoka Hiroki, (Reg)Ichikawa Takayuki
Ammonia
Methanation
Carbon Dioxide
O
512Decarbonization processing synthesis gas production and solid carbon capture from CO2: Recycle property of carbon capture catalyst
(Shizuoka U.) *(Stu)Matsuda Kotaro, (Reg)Akama Hiroshi, (Int)Verma Priyanka, (Reg)Watanabe Ryo, (Reg)Fukuhara Choji
Carbon capture
Structured catalyst
Recycle
P
517Effect of coexisting gases for carbon capturing system combined with CO2 plasma decomposition
(Gifu U.) *(Stu)Murata Daisuke, (Reg)Miyamoto Manabu, (Reg)Oumi Yasunori, (Reg)Uemiya Shigeyuki, (Reg)Imai Tsutomu, (Reg)Kambara Shinji
Catalyst
Carbon
CO2 reduction technology
P
519Effective syngas production process constructed by dual CH4 dry reforming and solid carbon capture
(Shizuoka U.) *(Stu·PCEF)Kinoshita Ayano, (Stu)Hatano Shuzo, (Int)Verma Priyanka, (Reg)Akama Hiroshi, (Reg)Watanabe Ryo, (Reg)Fukuhara Choji
Dual dry reforming
Carbon capture
Structured catalyst
P
520Development of Oxide Supported Fe-based Catalysts for Ammonia Synthesis under Mild Reaction Conditions
(Nagoya U.) *(Stu)Era K., (Reg)Sato K., Miyahara S., (Reg)Nagaoka K.
green ammonia synthesis
Fe nano-particles
energy career
P
539Prediction of product composition using machine learning in co-processing of bio-oil and heavy oil in catalytic cracking process
(Shinshu U.) *(Stu)Yasuike Shun, (Reg)Osada Mitsumasa, (Reg)Fukunaga Hiroshi, (Reg)Takahashi Nobuhide, (Reg)Shimada Iori
bio-oil
co-processing
machine learning
P
546Polyethylene decomposition behavior in organic solvents using zeolite beta catalyst
(Waseda U.) *(Stu)Miura Eri, (Reg)Kamo Tohru, (Reg)Sakai Motomu, (Waseda U./WISE) (Reg)Matsukata Masahiko
Beta zeolite
Polyethylene
Organic solvent
P
557Effect of co-feeding H2S on isobutene dimerization
(Shizuoka U.) *(Reg)Watanabe Ryo, Tanikawa Riku, (Int)Verma Priyanka, (Reg)Akama Hiroshi, (Reg)Fukuhara Choji
Isobutene
Dimerization
Hydrogen sulfide
O
559Effect of alkali metal addition on Mo-based sulfide catalyst for CH3SH synthesis
(Shizuoka U.) *(Stu·PCEF)Oba Natsu, (Reg)Watanabe Ryo, (Reg)Akama Hiroshi, (Kyushu U.) (Reg)Oshima Kazumasa, (Reg)Kishida Masahiro, (Shizuoka U.) (Int)Verma Priyanka, (Reg)Fukuhara Choji
Methanethiol
Mo sulfide
Alkali metal
P
580Selective synthesis of p-xylene from isobutanol over Zn-supported ZSM-5 catalyst with acid site deactivation on the external surface
(Tokyo Tech) *(Stu)Sakanushi Taiju, (Stu)Kojima Taisuke, (Nippon Steel Eng.) (Cor)Furuya Takaaki, (Tokyo Tech) (Reg)Kimura Kentaro, (Kyoto U.) (Reg)Fujitsuka Hiroyasu, (Tokyo Tech) (Reg)Tago Teruoki
p-xylene
biobutanol
Zeolite
P
584Co-based Hybrid Catalytic System for Development of Efficient Fischer-Tropsch Synthesis Process
(Nagoya U.) *(Int)Kutubi Md. Shahajahan, (Reg)Sato Katsutoshi, (Reg)Nagaoka Katsutoshi
Cobalt
Hybrid Catalyst
Fischer-Tropsch Synthesis
O
588Development of porous polymer monoliths with immobilised organocatalysts and their application in organic synthesis.
(Kyushu U.) *(Stu)Shigeeda Harutaka, (Reg)Nagao Masanori, (Reg)Miura Yoshiko
Porous polymer monolith
organocatalyst
asymmetric Michael addition reaction
P
592CO2 resource recovery process for small-scale distributed system
(Tsukishima Kikai) *(Cor)Doya Yo, (Hokkaido U.) (Reg)Tada Shohei, (Tsukishima Kikai) (Cor)Shingaki Tomotsugu, (Cor)Hashimoto Yoshiko
CO2 reduction
methanol
hydrogen
O
600Metal hydrides for hydrogen compression using thermal energy and its use in CO2 hydrogenation to methanol
(Delft U. Tech.) *(Int)Wirner Luca, (AIST) (Reg)Kosaka Fumihiko, (Reg)Sasayama Tomone, (Reg)Ono Yuya, Liu Yanyong, Chen Shih-Yuan, Sakaki Kouji, Asano Kohta, (Delft U. Tech.) Urakawa Atsushi, (AIST) (Reg)Kuramoto Koji
Methanol Synthesis
Metal Hydrides
CO2 Utilization
P
608Immobilization of iridium complexes having dehydrogenation and hydrogenation catalytic function on gold surface
(Tokyo U. Tech.) *(Stu)Endou Temma, Kobayashi Tomohiro, Suzuki Kazutaka, (Kyoto U.) Fujita Ken-ichi, (Tokyo U. Tech.) Hara Kenji
Ir complex
catalyst
gold surface
P
627Effect of plastic addition on catalytic cracking of polycyclic aromatic hydrocarbons
(Shinshu U.) *(Reg)Shimada Iori, (Stu)Aida Kyosuke, (Reg)Osada Mitsumasa, (Reg)Fukunaga Hiroshi, (Reg)Takahashi Nobuhide
catalytic cracking
polycyclic aromatic hydrocarbons
plastic
O
650Effect of co-feeding H2S and Fe-based catalyst on isomerization and dehydrogenation of internal-olefin
(Shizuoka U.) *(Stu)Karasawa Fumiya, (Reg)Watanabe Ryo, (Cosmo Oil) (Cor)Miyagi Yuichi, (Cor)Watanabe Katsuya, (Shizuoka U.) (Int)Verma Priyanka, (Reg)Fukuhara Choji
Dehydrogenation
Internal-olefine
Hydrogen sulfide
P
653CH4 dry reforming process contributing to decarbonization of CO2: investigation of system scale-up
(Shizuoka U.) *(Stu)Hatano Shuzo, (Stu)Matsuda Kotaro, (Reg)Akama Hiroshi, (Int)Verma Priyanka, (Reg)Watanabe Ryo, (Reg)Fukuhara Choji
Carbon capture
Structured catalyst
Scale-up
P
655energy prediction by neural network with transfer learning for catalyst
(Fujitsu) *(Reg)Sakai Yasufumi, Dang Thang, Matsumura Naoki, (NIMS) Ishikawa Atsushi, (Fujitsu) Shirahata Koichi
Neural Networks
energy prediction for catalyst
transfer learning
P
659Construction of kinetic model from small and incomplete dataset using chemical reaction neural network
(Shinshu U.) *(Stu)Shionoya Tomoki, (Reg)Shimada Iori
physics informed machine learning
kinetic model
data-driven
P
696Synthesis of metal-encapsulated BEA zeolite by conversion of metal-loaded silica gel to zeolite.
(Tokyo Tech) *(Stu)Asami Raichi, (Reg)Kimura Kentaro, (Reg)Tago Teruoki
Metal-encapsulated zeolite
BEA zeolite
Molecular sieve
P
704Hydrothermal saccharifiction of cellulose by using macromeso porous carbon catalyst
(TUAT) *(Stu)Lee Changmin, Suzuki Yuto, Luh putu pitrayani sukma, Kamiya Kenji, Eika W. Qian
Macro-mesoporous
Solid acid catalyst
saccharification
O
713Evaluation of HC adsorption /desorption performance of zeolite H-Beta to reduce HC emissions in exhaust gas
(Waseda U.) *(Stu)Umezawa Kento, (Reg)Sakai Motomu, (Waseda U./WISE) (Reg)Matsukata Masahiko
exhaust gas
Vehicle Emission Control
Beta
P

List of received applications (By topics code)

List of received applications
SCEJ 88th Annual Meeting (Tokyo, 2023)
IChES 2023

(C) 2023 The Society of Chemical Engineers, Japan. . All rights reserved.
Most recent update: 2023-05-11 20:44:01
For more information contact Organizing Committee, SCEJ 88th Annual Meeting (Tokyo, 2023) / / IChES 2023
E-mail: inquiry-88awww3.scej.org
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