25th SCEJ Students Meeting (online, 2023): Hall program

Hall program

Hall E

Most recent update: 2023-03-16 14:37:10

Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Chemical reaction engineering
(9:20–10:44) (Chair: Takahashi Atsushi, Tada Shohei¡¡)
9:20– 9:32	E01	Methanol synthesis by CO₂ hydrogenation over Cu-supported ZSM-5 catalyst (Tokyo Tech) *Awano K., Tago T., Kimura K., Kanomata R., Yokoi T., Yasuda S., Matsumoto T., (Kyoto U.) Fujitsuka H., (Tokyo U.) Wakihara T., Raquel S.	CO2 hydrogenation Methanol synthesis Zeolite supported Cu catalyst	5-a	249
9:32– 9:44	E02	Improving Production Efficiency of Biodiesel Fuel from Oil extracted from Rice Bran (Hiroshima U. H.S.) Azuma Yukari, Miyasho Reina, *Yuuki Kyoko	Rice Bran Biodiesel Fuel Catalyst	13-i	400
9:44– 9:56	E03	Direct synthesis of dimethyl ether from CO2 hydrogenation over Cu-ZnO-ZrO2-Al2O3 catalysts prepared using the sol-gel method (Shizuoka U.) *Kofuji Hiroto, Takeishi Kaoru	Dimethyl ether (DME) Cu-ZnO-ZrO2-Al2O3 catalysts CO2 hydrogenation	5-a	350
9:56– 10:08	E04	Preferential oxidation of carbon monoxide over Cu-CeO₂-Al₂O₃ catalysts prepared using the sol-gel method (Shizuoka U.) *Ando Koki, Mochizuki Kaoru, Takeishi Kaoru	CO-PROX Cu-CeO₂-Al₂O₃ catalysts sol-gel method	5-a	384
10:08– 10:20	E05	Study on Correlation between Chemical Composition and Photocatalytic Reactivity of Titanium Niobium Oxides. (Shizuoka Inst. Sci. Tech.) *Iwata Emi, Tojo Tomohiro	Titanium Niobium Oxides Photocatalytic Reaction Chemical Composition	5-a	105
10:20– 10:32	E06	Effect of graphene oxide addition on photocatalytic activity of g-C₃N₄/HNb₃O₈ nanosheet composite photocatalytic membranes (Kobe.U.) *Moriguchi Kana, (Kobe U./MaF Tech Center) Nakagawa Keizo, (NTUST) Hu Chechia, (Kobe.U.) Tachikawa Takashi, (Kobe.U.MaF Tech Center) Okamoto Yasunao, (Kobe U./MaF Tech Center) Matuoka Atsushi, Kamio Eiji, Kitagawa Tooru, Yoshioka Tomohisa, Matsuyama Hideto	carbon nitride nanosheet niobate nanosheet graphene oxide	5-a	187
10:32– 10:44	E07	The study of the photocatalysts reaction greatly accelerate with additive (Nanyo Senior H.S.) kawabata kenta, tomioka yasunari	Photocatalyst Environment Cocatalyst	5-a	33
10:44– 10:50	Break
Chemical reaction engineering
(10:50–12:02) (Chair: Gabe Atsushi, Horie Takafumi)
10:50– 11:02	E09	The research for Rust Catalytic action of titanium dioxide (Tsuyama H.S.) Iizuna Otoha, Kusaka Sara, Nagao Mana, Nishihara Kaho, *Yorimoto Shiori	Rust Titanium dioxide Photocatalytic action	5-a	134
11:02– 11:14	E10	Difference in the amount of rust produced by metals (Nirasaki H.S.) Aiyoshi Yuto, Hisasue Yuzuki, Akiyama Rino, Ochiai Rin	rust aqueous solution metal	5-i	239
11:14– 11:26	E11	Development of new catalysts for low-temperature CO2 methanation (Ibaraki U.) *Jinushizono T., Yamauchi N., Kobayashi Y., (Hokkaido U.) Tada S.	methanation ruthenium zirconia	5-a	106
11:26– 11:38	E12	Synthesis of fatty alcohol from ethanol and methanol (Tohoku U.) *Wake Shota, Hiromori Kousuke, Shibasaki-Kitakawa Naomi, Takahashi Atsushi	solid catalyst fatty alcohol active site	5-a	321
11:38– 11:50	E13	Catalytic activity evaluation and structure optimization of visible light-sensitive CuO_x/TiO₂ photocatalysts using in-situ measurement technique (U.Tokyo) *Tanaka Jun, Nakajima Yusuke, Shimogaki Yukihiro, Momose Takeshi	photocatalyst visible light structural optimization	5-a	126
11:50– 12:02	E14	characteristics of solid catalysts that can generate ethylene and new solid catalysts (Kozu H.S.) Nakamura Kousin, Sogi Yamato, Numazawa Sana, Haratani Hina, Miki Kasumi, Mizohata Reon	ethylene solid catalyst proton	5-a	44
12:02– 13:00	Lunch break
Chemical reaction engineering
(13:00–14:12) (Chair: Nakagawa Keizo, Takeishi Kaoru)
13:00– 13:12	E20	Catalyst development for low-temperature methanol synthesis by CO2 hydrogenation (Ibaraki U.) *Mukaiyama R., Yamauchi N., Kobayashi Y., (Hokkaido U.) Tada S.	CO2 hydrogenation palladium methanol	5-a	119
13:12– 13:24	E21	Catalytic Transfer Hydrogenation of xylose to xylitol using light alcohols as hydrogen donors (Kyoto U.) *Murakami Shuka, Hiraoka Taku, Fujitsuka Hiroyasu, Kawase Motoaki	catalytic transfer hydrogenation carbon-supported catalyst xylitol	5-a	28
13:24– 13:36	E22	Investigation of oxidation treatment conditions for alumina-supported nickel oxide catalyst used for dehydrogenation of isobutane (Tokushima U.) *Iwai T., Shimoda N., Sugiyama S., (Mitsubishi Chemical) Kato Y., Ninomiya W.	dehydrogenation isobutane nickel oxide	5-a	32
13:36– 13:48	E23	Hydrothermal Synthesis of stibnite ¡ÁHydrothermal Synthesis by Neutronss ¡Á (Saijo H.S.) Sasaki Towa, Kuwamura syou, Hosokawa Yue, Terada Ririko, Fujimoto Yuzuki, Nishimura Oriha, Usami Takamasa, Inami Hina, Fujita Yui, Itou Hitomi, *Watanabe Hinata	Stibnite Hydrothermal Synthesis Sodium Chloride	5-a	295
13:48– 14:00	E24	Ammonia Methanation with ruthenium-based hybrid catalysts (Hiroshima U.) *Imamura S., Sunamoto R., Miyaoka H., Ichikawa T., Saima H.	Carbon recycle Ammonia Methanation	5-a	22
14:00– 14:12	E25	Visible light-driven hydrogen generation by organic polymer materials in the Ru(bpy)32+/Metylviologen/EDTA system (NITTC) Akiyama Z, Koma R, Iwasaki S, Okuzaki S, Shiroishi H	hydrogen generation organic polymer materials Visible light-driven	5-a	346
14:12– 14:20	Break
Chemical reaction engineering
(14:20–15:44) (Chair: Sugiyama Shigeru, Fujitsuka Hiroyasu)
14:20– 14:32	E27	Liquid phase selective oxidation of glycerol using atmospheric pressure non-equilibrium plasma without catalyst (Tohoku U.) *Nakagaki Yuya, Chida Tsutomu, Hiromori Kousuke, Shibasaki-Kitakawa Naomi, Sasaki Shota, Takahashi Atsushi	atmospheric pressure non-equilibrium plasma reactive oxygen species selective oxidation	5-c	332
14:32– 14:44	E28	Development of cellulose hydrolysis catalysts by controlling amounts and types of acid sites on carbon (NIT Kurume) *Chouno T., Gabe A.	hydrolysis of cellulose oxygen containing functional groups carbonization	5-g	395
14:44– 14:56	E29	Development of zeolite-based catalysts for controlling hydroisomerization and cracking of long-chain n-paraffins for SAF production (Tokyo Tech) *Tsuchiya T., Saika T., Kimura K., (Kyoto U./Tokyo Tech) Fujiysuka H., (Tokyo Tech) Tago T.	SAF Zeolite Platinium	5-a	297
14:56– 15:08	E30	Low temperature CVD process development for AlN thin films (U. Tokyo) *Obara S., Ninomiya T., Takagi T., Momose T., Shimogaki Y.	AlN film chemical vapor deposition low temperature	5-h	175
15:08– 15:20	E31	CVD process for perovskite thin films from molten bismuth (Kyoto U.) *Tanabe M., Yang Z., Kawase M.	CVD perovskite solar cell molten bismuth	5-h	27
15:20– 15:32	E32	Solubilization of biomass components by hydrothermal decomposition of biomass with organic solvents (Kansai U.) *Hamamoto Y., Hasegawa I., Hayashi J.	biomass organosolv hydrothermal decomposition	5-g	168
15:32– 15:44	E33	Study on enhancement of gas-liquid mass transfer in Taylor Flow (Osaka Metro. U.) *Ikeda Toshitake, Watabe Yoshihide, Horie Takafumi, Okita Erika, Yasuda Masahiro	Taylor Flow mass transfer enhancement spiral tube	5-f	163

Time

Paper
ID

Title / Authors

Keywords

Topic code

Ack.
number

Chemical reaction engineering

(9:20–10:44) (Chair: Takahashi Atsushi, Tada Shohei¡¡)

9:20– 9:32

E01

Methanol synthesis by CO₂ hydrogenation over Cu-supported ZSM-5 catalyst

(Tokyo Tech) *Awano K., Tago T., Kimura K., Kanomata R., Yokoi T., Yasuda S., Matsumoto T., (Kyoto U.) Fujitsuka H., (Tokyo U.) Wakihara T., Raquel S.

CO2 hydrogenation
Methanol synthesis
Zeolite supported Cu catalyst

5-a

249

9:32– 9:44

E02

Improving Production Efficiency of Biodiesel Fuel from Oil extracted from Rice Bran

(Hiroshima U. H.S.) *Azuma Yukari, *Miyasho Reina, *Yuuki Kyoko

Rice Bran
Biodiesel Fuel
Catalyst

13-i

400

9:44– 9:56

E03

Direct synthesis of dimethyl ether from CO2 hydrogenation over Cu-ZnO-ZrO2-Al2O3 catalysts prepared using the sol-gel method

(Shizuoka U.) *Kofuji Hiroto, Takeishi Kaoru

Dimethyl ether (DME)
Cu-ZnO-ZrO2-Al2O3 catalysts
CO2 hydrogenation

5-a

350

9:56– 10:08

E04

Preferential oxidation of carbon monoxide over Cu-CeO₂-Al₂O₃ catalysts prepared using the sol-gel method

(Shizuoka U.) *Ando Koki, Mochizuki Kaoru, Takeishi Kaoru

CO-PROX
Cu-CeO₂-Al₂O₃ catalysts
sol-gel method

5-a

384

10:08– 10:20

E05

Study on Correlation between Chemical Composition and Photocatalytic Reactivity of Titanium Niobium Oxides.

(Shizuoka Inst. Sci. Tech.) *Iwata Emi, Tojo Tomohiro

Titanium Niobium Oxides
Photocatalytic Reaction
Chemical Composition

5-a

105

10:20– 10:32

E06

Effect of graphene oxide addition on photocatalytic activity of g-C₃N₄/HNb₃O₈ nanosheet composite photocatalytic membranes

(Kobe.U.) *Moriguchi Kana, (Kobe U./MaF Tech Center) Nakagawa Keizo, (NTUST) Hu Chechia, (Kobe.U.) Tachikawa Takashi, (Kobe.U.MaF Tech Center) Okamoto Yasunao, (Kobe U./MaF Tech Center) Matuoka Atsushi, Kamio Eiji, Kitagawa Tooru, Yoshioka Tomohisa, Matsuyama Hideto

carbon nitride nanosheet
niobate nanosheet
graphene oxide

5-a

187

10:32– 10:44

E07

The study of the photocatalysts reaction greatly accelerate with additive

(Nanyo Senior H.S.) *kawabata kenta, *tomioka yasunari

Photocatalyst
Environment
Cocatalyst

5-a

10:44– 10:50

Break

Chemical reaction engineering

(10:50–12:02) (Chair: Gabe Atsushi, Horie Takafumi)

10:50– 11:02

E09

The research for Rust Catalytic action of titanium dioxide

(Tsuyama H.S.) *Iizuna Otoha, *Kusaka Sara, *Nagao Mana, *Nishihara Kaho, *Yorimoto Shiori

Rust
Titanium dioxide
Photocatalytic action

5-a

134

11:02– 11:14

E10

Difference in the amount of rust produced by metals

(Nirasaki H.S.) *Aiyoshi Yuto, *Hisasue Yuzuki, *Akiyama Rino, *Ochiai Rin

rust
aqueous solution
metal

5-i

239

11:14– 11:26

E11

Development of new catalysts for low-temperature CO2 methanation

(Ibaraki U.) *Jinushizono T., Yamauchi N., Kobayashi Y., (Hokkaido U.) Tada S.

methanation
ruthenium
zirconia

5-a

106

11:26– 11:38

E12

Synthesis of fatty alcohol from ethanol and methanol

(Tohoku U.) *Wake Shota, Hiromori Kousuke, Shibasaki-Kitakawa Naomi, Takahashi Atsushi

solid catalyst
fatty alcohol
active site

5-a

321

11:38– 11:50

E13

Catalytic activity evaluation and structure optimization of visible light-sensitive CuO_x/TiO₂ photocatalysts using in-situ measurement technique

(U.Tokyo) *Tanaka Jun, Nakajima Yusuke, Shimogaki Yukihiro, Momose Takeshi

photocatalyst
visible light
structural optimization

5-a

126

11:50– 12:02

E14

characteristics of solid catalysts that can generate ethylene and new solid catalysts

(Kozu H.S.) *Nakamura Kousin, *Sogi Yamato, Numazawa Sana, Haratani Hina, Miki Kasumi, Mizohata Reon

ethylene
solid catalyst
proton

5-a

12:02– 13:00

Lunch break

Chemical reaction engineering

(13:00–14:12) (Chair: Nakagawa Keizo, Takeishi Kaoru)

13:00– 13:12

E20

Catalyst development for low-temperature methanol synthesis by CO2 hydrogenation

(Ibaraki U.) *Mukaiyama R., Yamauchi N., Kobayashi Y., (Hokkaido U.) Tada S.

CO2 hydrogenation
palladium
methanol

5-a

119

13:12– 13:24

E21

Catalytic Transfer Hydrogenation of xylose to xylitol using light alcohols as hydrogen donors

(Kyoto U.) *Murakami Shuka, Hiraoka Taku, Fujitsuka Hiroyasu, Kawase Motoaki

catalytic transfer hydrogenation
carbon-supported catalyst
xylitol

5-a

13:24– 13:36

E22

Investigation of oxidation treatment conditions for alumina-supported nickel oxide catalyst used for dehydrogenation of isobutane

(Tokushima U.) *Iwai T., Shimoda N., Sugiyama S., (Mitsubishi Chemical) Kato Y., Ninomiya W.

dehydrogenation
isobutane
nickel oxide

5-a

13:36– 13:48

E23

Hydrothermal Synthesis of stibnite ¡ÁHydrothermal Synthesis by Neutronss ¡Á

(Saijo H.S.) *Sasaki Towa, *Kuwamura syou, *Hosokawa Yue, *Terada Ririko, *Fujimoto Yuzuki, *Nishimura Oriha, *Usami Takamasa, *Inami Hina, *Fujita Yui, *Itou Hitomi, *Watanabe Hinata

Stibnite
Hydrothermal Synthesis
Sodium Chloride

5-a

295

13:48– 14:00

E24

Ammonia Methanation with ruthenium-based hybrid catalysts

(Hiroshima U.) *Imamura S., Sunamoto R., Miyaoka H., Ichikawa T., Saima H.

Carbon recycle
Ammonia
Methanation

5-a

14:00– 14:12

E25

Visible light-driven hydrogen generation by organic polymer materials in the Ru(bpy)32+/Metylviologen/EDTA system

(NITTC) *Akiyama Z, *Koma R, Iwasaki S, Okuzaki S, Shiroishi H

hydrogen generation
organic polymer materials
Visible light-driven

5-a

346

14:12– 14:20

Break

Chemical reaction engineering

(14:20–15:44) (Chair: Sugiyama Shigeru, Fujitsuka Hiroyasu)

14:20– 14:32

E27

Liquid phase selective oxidation of glycerol using atmospheric pressure non-equilibrium plasma without catalyst

(Tohoku U.) *Nakagaki Yuya, Chida Tsutomu, Hiromori Kousuke, Shibasaki-Kitakawa Naomi, Sasaki Shota, Takahashi Atsushi

atmospheric pressure non-equilibrium plasma
reactive oxygen species
selective oxidation

5-c

332

14:32– 14:44

E28

Development of cellulose hydrolysis catalysts by controlling amounts and types of acid sites on carbon

(NIT Kurume) *Chouno T., Gabe A.

hydrolysis of cellulose
oxygen containing functional groups
carbonization

5-g

395

14:44– 14:56

E29

Development of zeolite-based catalysts for controlling hydroisomerization and cracking of long-chain n-paraffins for SAF production

(Tokyo Tech) *Tsuchiya T., Saika T., Kimura K., (Kyoto U./Tokyo Tech) Fujiysuka H., (Tokyo Tech) Tago T.

SAF
Zeolite
Platinium

5-a

297

14:56– 15:08

E30

Low temperature CVD process development for AlN thin films

(U. Tokyo) *Obara S., Ninomiya T., Takagi T., Momose T., Shimogaki Y.

AlN film
chemical vapor deposition
low temperature

5-h

175

15:08– 15:20

E31

CVD process for perovskite thin films from molten bismuth

(Kyoto U.) *Tanabe M., Yang Z., Kawase M.

CVD
perovskite solar cell
molten bismuth

5-h

15:20– 15:32

E32

Solubilization of biomass components by hydrothermal decomposition of biomass with organic solvents

(Kansai U.) *Hamamoto Y., Hasegawa I., Hayashi J.

biomass
organosolv
hydrothermal decomposition

5-g

168

15:32– 15:44

E33

Study on enhancement of gas-liquid mass transfer in Taylor Flow

(Osaka Metro. U.) *Ikeda Toshitake, Watabe Yoshihide, Horie Takafumi, Okita Erika, Yasuda Masahiro

Taylor Flow
mass transfer enhancement
spiral tube

5-f

163

Technical program

25th SCEJ Students Meeting (online, 2023)

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Most recent update: 2023-03-16 14:37:10
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