Hall F - Hall and day program - SCEJ 89th Annual Meeting (Sakai, 2024)

`SCEJ 89th Annual Meeting (Sakai, 2024)`

Last modified: 2024-06-18 12:32:12

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Hall and day program : Hall F

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Hall F(B3 2F 206)

Hall F, Day 1 | Hall F, Day 2 | Hall F, Day 3
5

Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Hall F(B3 2F 206), Day 1(Mar. 18)
5. Chemical reaction engineering
(13:00–14:20) (Chair: Sasayama Tomone)
13:00– 13:20	F113	Evaluation of alkane synthesis process from C1 compounds via CH₃SH (Shizuoka U.) *(Reg)Watanabe Ryo, Smith Suchada, (Reg)Akama Hiroshi, (Kyushu U.) (Reg)Oshima Kazumasa, (Reg)Kishida Masahiro, (Shizuoka U.) (Reg)Fukuhara Choji	Methanethiol Alkane synthesis Sulfur	5-a	552
13:20– 13:40	F114	Structured catalyst system for rapidly transforming GHG: Performance acceleration effect by swirl flow (Shizuoka U.) *(Reg)Akama Hiroshi, (Stu)Nakazawa Yuma, (Reg)Watanabe Ryo, (Reg)Fukuhara Choji	Structured catalyst system Methanation Reverse water gas shift	5-a	417
13:40– 14:00	F115	[Featured presentation] Structured catalyst system for rapidly transforming GHG: Application to green process (Shizuoka U.) *(Reg)Fukuhara Choji, (Stu)Naiki Hiroto, (Stu)Yamada Yuki, (Reg)Akama Hiroshi, (Reg)Watanabe Ryo	Structured catalyst system Dry reforming Solid carbon capture	5-a	418
14:00– 14:20	F116	Active sites of CO₂ methanation on Ni/CeO₂ prepared by flame spray pyrolysis (Kanazawa U.) (Reg)Fujiwara Kakeru	CO2 methanation Ni catalyst CeO2	5-a	493
(14:20–14:40) (Chair: Fujiwara Kakeru)
14:20– 14:40	F117	Reaction Kinetics of CO₂ Capture and Conversion over Dual-Function Materials (AIST) *(Reg)Ono Yuya, (Reg·PCEF)Sasayama Tomone, (Reg)Kosaka Fumihiko, (Reg)Morimoto Masato, (Reg)Matsuoka Koichi, (Reg)Kuramoto Koji	dual-function materials CO2 capture and utilization reaction kinetics	5-a	612
(15:00–15:40) (Chair: Fujiwara Kakeru)
15:00– 15:20	F119	Development of HNb₃O₈/g-C₃N₄ nanosheet composite photocatalytic membranes with two-dimensional heterostructured nanochannels (Kobe U./MaF Tech Center) *(Reg)Nakagawa Keizo, (Kobe U.) (Stu)Imoto Seiji, (NTUST) Hu Chechia, (Kobe U./MaF Tech Center) (Reg)Yoshioka Tomohisa, (Reg)Matsuoka Atsushi, (Reg)Kamio Eiji, (Reg)Matsuyama Hideto	nanosheet photocatalytic membrane reactor heterostructured nanochannel	5-a	576
15:20– 15:40	F120	Reaction mechanism and kinetics of isoparaffin gas-phase selective oxidation with water and oxygen over transition metal oxide catalysts (Tohoku U.) *(Reg)Takahashi Atsushi, (Stu·PCEF)Ono Masataka, (Reg)Hiromori Kousuke, (Reg)Shibasaki-Kitakawa Naomi	green oxidation metal oxide catalyst kinetic analysis	5-a	464
(15:40–17:00) (Chair: Takahashi Atsushi)
15:40– 16:00	F121	Investigation of promoter in plasma DRM by Co based catalyst (TUAT) *(Reg)Kamiya Kenji, Inoue Kotone, (Reg)Qian Eika W, (Gifu U.) (Reg)Kobayashi Nobusuke	Co based catalyst Plasma catalyst CO2 capture and utilization	5-a	663
16:00– 16:20	F122	Development of Hybrid Kinetic Model Applying Machine Learning for Liquid Phase Photocatalytic Reaction (NIT Nagaoka) *(Reg)Atsumi Ryosuke, (Stu·PCEF)Nakano Haruka, (Stu)Iwai Makoto	Photocatalyst Kinetics Machine learning	5-a	693
16:20– 16:40	F123	Machine Learning-assisted analysis of NO adsorption and dissociation on PdRuIr ternary nanoparticle alloy (Shinshu U.) *(Reg)Aspera Susan Menez, Valadez Huerta Gerardo, Nanba Yusuke, Hisama Kaoru, (Reg)Koyama Michihisa	machine learning nanoparticle alloy catalysis	5-a	285
16:40– 17:00	F124	Improving efficiency of reaction mechanism exploration using chemical reaction neural network and its application to glycerol oxidation reaction (Shinshu U.) *(Reg)Shimada Iori, (Stu)Shionoya Tomoki	chemical reaction neural network kinetic model glycerol oxidation	5-a	325
Hall F(B3 2F 206), Day 2(Mar. 19)
Organized Session (CVD Reactions Section, Division of Chemical Reaction Engineering)
(9:00–10:00) (Chair: Shimogaki Yukihiro, Shimizu Hideharu)
9:00– 9:20	F201	Reaction Rate Equation Determination of Chemical Vapor Deposited Bismuth-based Perovskite Thin Film (Kyoto U.) *(Int)Yang Ziguang, (Stu)Togami Keito, (Stu)Tanabe Maika, (Reg)Kawase Motoaki	Chemical vapor deposition Methylammonium bismuth iodide Perovskite solar cell	5-h	686
9:20– 9:40	F202	Evaluation of Reactive sputtered MAX alloy thin films with reducing gas (Osaka Metro. U.) *(Reg)Saito Takeyasu, (Stu·PCEF)Ueda Kazuki, (Reg)Okamoto Naoki	sputtering MAX-phase	5-h	787
9:40– 10:00	F203	Rate analysis of carbon CVD from hydrocarbons with different degrees of unsaturation (Kyoto U.) (Stu)Nakano Shinji, (Reg)Fujitsuka Hiroyasu, *(Reg)Kawase Motoaki	CVD carbon coking	5-h	785
(10:00–11:00) (Chair: Kawase Motoaki)
10:00– 10:20	F204	Exploring the large-area graphene CVD conditions by machine learning assisted image analysis (Fukuoka U.) (Stu)Tahara Yuya, *(Reg)Yoshihara Naoki, (Reg)Noda Masaru	Graphene Chemical vapor deposition Machine learning	5-i	302
10:20– 10:40	F205	Stable and continuous synthesis of carbon nanotubes by floating catalyst CVD with fluid mixing control (Waseda U.) *(Reg)Lang Jianghua, (Reg)Osawa Toshio, (Reg)Noda Suguru	carbon nanotube chemical vapor deposition continuous process	5-h	225
10:40– 11:00	F206	Reduction of reaction mechanism of SiC-CVI (U. Tokyo) *(Reg)Sato Noboru, (Stu)Yoshida Koki, (Stu)Otaka Yuhei, (IHI) (Reg)Fukushima Yasuyuki, (U. Tokyo) (Reg)Tsukune Atsuhiro, (Reg)Shimogaki Yukihiro	SiC-CVI CH3SiCl3 Reduced model	5-h	562
(11:00–12:00) (Chair: Noda Suguru, Tamaoki Naoki)
11:00– 11:20	F207	Research on improving uniformity in furnace and high speed SiC infiltration in the production of SiC-CMC using Chemical Vapor Infiltration method. (U. Tokyo) *(Stu)Yoshida Koki, (Stu)Otaka Yuhei, (Stu)Kimura Shunsuke, (Reg)Sato Noboru, (Reg)Tsukune Atsuhiro, (IHI) (Reg)Fukushima Yasuyuki, (U. Tokyo) (Reg)Shimogaki Yukihiro	SiC CVI CVD	5-h	233
11:20– 11:40	F208	Exploration of exhaust gas reforming conditions to improve yield and reduce by-product formation in SiC-CVI with high MTS partial pressure (U. Tokyo) *(Stu)Otaka Yuhei, (Stu)Yoshida Koki, (Reg)Sato Noboru, (IHI) (Reg)Fukushima Yasuyuki, (U. Tokyo) (Reg)Tsukune Atsuhiro, (Reg)Shimogaki Yukihiro	CVI SiC Recycling	5-h	633
11:40– 12:00	F209	Strategy for CVI process development in SiC_f/SiC-CMC production (U. Tokyo) *(Stu)Otaka Yuhei, (Stu)Yoshida Koki, (Reg)Sato Noboru, (IHI) (Reg)Fukushima Yasuyuki, (U. Tokyo) (Reg)Tsukune Atsuhiro, (Reg)Shimogaki Yukihiro	CVI SiC Process design	5-h	634
(13:20–14:20) (Chair: Muranaka Yosuke)
13:20– 13:40	F214	Influence of binder added zeolite catalyst on hydrotreating of vegetable oil (TUAT) *(Int)Kumar Taufik, Peng Ming Ming, (Reg)Kamiya Kenji, (Reg)Qian Eika W	binder vegetable oil zeolite	5-a	628
13:40– 14:00	F215	Saccharification of Cellulose by Using Mesoporous Carbons (TUAT) *(Int)She Shaohua, Takada Shunpei, Watanabe Hikaru, Sudo Masaya, (Reg)Qian Eika W, (Reg)Kamiya Kenji	Mesoporous carbon Saccharification Cellulose	5-a	671
14:00– 14:20	F216	Reactive extraction process of lignin under hydrothermal condition: a use of slug flow of qater/organic biphasic system (Okayama U.) *(Reg)Shimanouchi Toshinori, (Stu)Kobayashi Shin, (Keio U.) (Reg)Fujioka Satoko, (Reg)Terasaka Koichi, (Okayama U.) (Reg)Kimura Yukitaka	vanilin slug flow hydrothermal reaction	5-d	714
(14:20–14:40) (Chair: Uemiya Shigeyuki)
14:20– 14:40	F217	[The SCEJ Award for Outstanding Young Researcher] Mechanistic understanding of catalytic reaction utilizing automated flow reactor systems (Kyushu U.) (Reg)Asano Shusaku	The SCEJ Award for Outstanding Young Researcher	0-c	745
(15:00–16:00) (Chair: Asano Shusaku)
15:00– 15:20	F219	Polymer immobilization catalysts using machine learning methods (Kyushu U.) *(Reg)Miura Yoshiko, Zhou Xincheng, (Reg·PCE)Matsumoto Hikaru, (Reg)Nagao Masanori	Polymer Immobilized Catalyst Machine Learning Pd	5-f	717
15:20– 15:40	F220	Kinetic analysis of Claisen rearrangement using near-infrared spectroscopy and transient flow method (AIST) *(Reg)Takebayashi Yoshihiro, (Reg)Sue Kiwamu, (Reg)Kataoka Sho	automated flow reactor NIR kinetic analysis	5-f	136
15:40– 16:00	F221	Evaluation of the mass transfer model and analysis of the error causes for the Taylor flow reactor with hydrogenation reaction (Mitsui Chemicals) *(Cor)Fukui Takuya, (Osaka Metro. U.) (Reg)Horie Takafumi, (Reg)Okita Erika, (Reg)Yasuda Masahiro	Taylor flow Gas-Liquid reaction Mass transfer	5-f	406
(16:00–17:00) (Chair: Miura Yoshiko)
16:00– 16:20	F222	Oxygen Transport Analysis in Meso Pores of Carbon Support for Polymer Electrolyte Fuel Cells by Reactive Molecular Dynamics Method (Tohoku U.) *(Stu)Nakamura Tetsuya, Mori Kaito, Fukushima Shogo, Su Yixin, Asano Yuta, Ootani Yusuke, (Kyoto U.) Ozawa Nobuki, (Tohoku U.) (Reg)Kubo Momoji	Polymer Electrolyte Fuel Cell Catalyst Layer Reactive Molecular Dynamics Method	5-a	52
16:20– 16:40	F223	Graphical Analysis of Infinite Number of First-order Parallel Reactions (Kyoto U.) (Reg)Miura Kouichi	Kinetic analysis DAEM Activation energy	5-i	307
16:40– 17:00	F224	Modeling of Autocatalytic Reaction by Cylindrical Particle with Finite Length (Tech U. Korea) Cho Young-Sang	cylindrical particle with finite length autocatalytic reaction reaction-diffusion equation	5-i	98
Hall F(B3 2F 206), Day 3(Mar. 20)
(10:20–12:00) (Chair: Shimanouchi Toshinori, Shimada Iori)
10:20– 10:40	F305	Efficient production of chitin-oligosaccharides using a vibratory disc mill and clay reagents (Hokkaido Res. Org.) *(Reg)Mori Takeshi, (Reg)Ogawa Yuta, (Reg)Yoshida Seiichiro, (Reg)Matsushima Keiichiro	chitin biorefinery mechanochemical reaction clay	5-g	164
10:40– 11:00	F306	Predicting bed agglomeration in fluidized-bed combustion of biomass fuels (IIC) *(Reg)Tauchi Nozomi, Miyashita Kazuhiro, Shigeta Jun-ichi	agglomeration fluidized-bed combustion biomass fuels	5-g	83
11:00– 11:20	F307	Development of catalytic process for the synthesis of aromatic compounds from bioethanol (AIST) *(Reg)Kuramoto Koji, (Reg)Kosaka Fumihiko, (Reg·PCEF)Sasayama Tomone, (Reg)Matsuoka Koichi, Liu Yanyong	Bioethanol aromatic compound catalytic process	5-g	499
11:20– 11:40	F308	Biomass pretreatment to enhance the pyrolysis reaction at low temperature (AIST) (Reg)Hosokai Sou	Biomass Pyrolysis Pretreatment	5-g	544
11:40– 12:00	F309	Development of sustainable formic acid/AlCl₃/choline chloride catalyzed levulinic acid production process using byproducts (TUAT) *(Stu)Sato Ryu, (Stu)Hirano Nanami, (Reg)Fushimi Chihiro	Levulinic acid Choline chloride Techno-economic analysis	5-g	288

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SCEJ 89th Annual Meeting (Sakai, 2024)

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