26th SCEJ Students Meeting (Online, 2024): Hall program

Hall program

Hall E

Most recent update: 2024-03-01 17:45:43


Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Separation processes
(9:30–10:42) (Chair: No data , No data )
9:30– 9:42	E01	Development of zeolite-carbon composite membranes and evaluation of their dehydration performance. (Yamaguchi U.) *Moriyama Arisa, Kumakiri Izumi	membrane separation dehydration pervaporation	4-a	7
9:42– 9:54	E02	Fabrication of fluorine-containing polyamide-ceramic composite membranes and their non-polar solvent permeation properties (Kobe U./MaFTech Center) *Tamamizu Y, Matsuoka A, Kamio E, Nakagawa K, Yoshioka T, Matsuyama H	OSRO PA-ceramic membrane fluorine-containing	4-a	192
9:54– 10:06	E03	Influence of seeding method on dehydration performance of MFI zeolite membranes (Yamaguchi U.) *Nakamura Kotaro, Kumakiri Izumi	MFI zeolite membrane Seeding method Dehydration	4-a	5
10:06– 10:18	E04	Development of zeolite membranes for separation of organic solution (Shibaura Inst. Tech.) *Kurata Haruki, Caralin Irmariza, Widyanto Alvin, Nomura Mikihiro	MFI zeolite membrane Separation of organic solvent Recycling society	4-a	143
10:18– 10:30	E05	Development of TiO2-ZrO2-Organic Chelating Ligand composite membrane for organic solvent reverse osmosis (Kobe U./MaFTech Center) *Matsuoka N, Matsuoka A, Kamio E, Nakagawa K, Yoshioka T, Matsuyama H	Organic solvent reverse osmosis TiO2-ZrO2 Organic chelating ligand	4-a	251
10:30– 10:42	E06	Fabrication of adsorbent using bamboo pipe structure (NIT Kumamoto) *Ogata Ryoma, Wakasugi Reiko	Bamboo Charcoal adsorb Carbonization	4-d	338
(10:42–11:50) (Chair: No data , No data )
10:42– 10:50	Break
Separation processes
10:50– 11:02	E08	Development of porous ceramic membranes for high steam permeation (Shibaura Inst. Tech.) *Horiguchi Towa, Muto Takahiro, Kuribayashi Yuta, Nomura Mikihiro	Surface treatment Silicon alkoxide Water vapor permeation	4-c	81
11:02– 11:14	E09	Antibacterial Properties of Ag-TiO₂ Filtration Membrane (Yamaguchi U.) *Sumida Takuto, Yamada Shotaro, Hosida Hisashi, Kumakiri Izumi	Ag-TiO₂ membrane Antibacterial action filtration	4-a	39
11:14– 11:26	E10	Deep eutectic solvents composed of an oxime-ligand for nickel separation (Tokushima U.) *Taki Kotaro, Hanada Takafumi, Katoh Masahiro, (Kyushu U.) Goto Masahiro	Deep eutectic solvent Lithium-ion battery recycling Nickel	4-f	31
11:26– 11:38	E11	Inclusion properties of cyclodextrins (Kumamoto Daini) Takaji shun, Morimoto Gosho, Itou kokoro, Marui Yuuri, Cho Reiri, Kawabata Teruki	cyclodextrin inclusion pigment	4-e	145
11:38– 11:50	E12	Preparation of amorphous solid dispersion of flavors by spray-drying and the characterization (Okayama U.) *Hasegawa Takato, Araga Chika, Honda Nao, Sato Haruna, Imanaka Hiroyuki, Imamura Koreyoshi	amorphous solid dispersion spray-drying flavor	4-h	314
12:02– 12:14	Lunch break
Separation processes
(13:00–14:12) (Chair: No data , No data )
13:00– 13:12	E19	Effect of molecular interactions on the extraction of precious metals by hydrophobic deep eutectic solvents (Tokushima U.) *Shima Takahiro, Hanada Takafumi, Katoh Masahiro, (Kyushu U.) Goto Masahiro	Deep eutectic solvent Solvent extraction Precious metals	4-f	30
13:12– 13:24	E20	Oil water separation utilizing mesh laminated coalescer (Kagoshima U.) *Fukushima Katsuya, Mizuta Kei, Nii Susumu	Oil water separation Mesh laminated coalescer Low energy consumption	4-j	351
13:24– 13:36	E21	Fundamental investigation on the effect of operation conditions on selective CO₂ permeation property of a facilitated transport membrane with glycine carrier (Kobe U./MaFTech Center) *Ohashi K., Kamio E., Matsuoka A., Nakagawa K., Yoshioka T., Matsuyama H.	CO2 separation Facilitated transport membrane Glycine	4-a	104
13:36– 13:48	E22	Development of simultaneous organics concentration and desalination process by forward osmosis for methane fermentation (Kobe U./MaFTech Center) *Morishita Haruto, Okamoto Yasunao, Matsuoka Atsushi, Gonzales Ralph Rolly, Hasegawa Susumu, Kumagai Kazuo, Kamio Eiji, Kitagawa Toru, Yoshioka Tomohisa, Nakagawa Keizo, Matsuyama Hideto	forward osmosis concentration desalination	4-a	276
13:48– 14:00	E23	Development of a high-concentration ethanol separation method using Molecular Sieves and salt (Shibaura Inst. Tech. Kashiwa Senior H.S.) Mimura Itsuki	azeotropic mixture ethanol distillation	4-c	308
14:00– 14:12	E24	Investigation of the membrane fabrication method of polyamide nanofiltration membranes using polyether sulfone support (Shinshu U.) *Kaneya Rara, Saeki Daisuke, Okumura Yukihisa	polyether sulfone polyamide nanofiltration membrane	4-a	253
14:12– 14:20	Break
Supercritical fluid
(14:20–15:44) (Chair: No data , No data )
14:20– 14:32	E26	Effect of temperature on hydrothermal extraction of bamboo powder (Utsunomiya U.) *Takamatsu Masato, Sato Takafumi, Itoh Naotsugu	bamboo hydrothermal extraction biomass	8-c	66
14:32– 14:44	E27	Development of carbon dioxide electrolysis systems under hydrothermal conditions (Tohoku U.) *Takayanagi Ryusei, (Tohoku U. FRIS) Tomai Takaaki, (Tohoku U. IMRAM) Iwase Kazuyuki	Carbon dioxide reduction reaction Hydrothermal Faradaic efficiency	8-d	69
14:44– 14:56	E28	Preparation of liposomes by ultrasound-assisted method using mixtures of sub/supercritical carbon dioxide and dimethyl ether (Nagoya U.) *Onuma K., Zhu L., Wang T., Yasuda K., Yamamoto T., Kanda H.	liposome dimethyl ether supercritical carbon dioxide	8-e	18
14:56– 15:08	E29	Production of Theophylline Microparticles by Supercritical Anti-solvent Recrystallization Using a Complete-mixing Micro Crystallizer (Kanazawa U.) *Nozaki M., Uchida H.	Supercritical anti-solvent recrystallization Drug microparticles Complete-mixing micro crystallizer	8-e	354
15:08– 15:20	E30	Effects of decompression rates on polymorph transitions of salicylamide by crystallization from gas-saturated solutions using supercritical CO₂ (Kanazawa U.) *Ito T., Yoshizawa K., Uchida H.	Polymorph Supercritical CO2 Decompression rates	8-e	353
15:20– 15:32	E31	The Relations between Rust and pH (masuda H.S.) Nakashima R., Kitaura A.	pH rust iron oxide	8-d	238
15:32– 15:44	E32	Development of multi-element oxides via subcritical fluid processing as electrocatalysts for oxygen evolution reactions (Tohoku U.) *Kato Ryoga, Iwase Kazuyuki, Tomai Takaaki	Subcritical fluid High-entropy oxides Oxygen evolution	8-e	244

Time

Paper
ID

Title / Authors

Keywords

Topic code

Ack.
number

Separation processes

(9:30–10:42) (Chair: No data , No data )

9:30– 9:42

E01

Development of zeolite-carbon composite membranes and evaluation of their dehydration performance.

(Yamaguchi U.) *Moriyama Arisa, Kumakiri Izumi

membrane separation
dehydration
pervaporation

4-a

9:42– 9:54

E02

Fabrication of fluorine-containing polyamide-ceramic composite membranes and their non-polar solvent permeation properties

(Kobe U./MaFTech Center) *Tamamizu Y, Matsuoka A, Kamio E, Nakagawa K, Yoshioka T, Matsuyama H

OSRO
PA-ceramic membrane
fluorine-containing

4-a

192

9:54– 10:06

E03

Influence of seeding method on dehydration performance of MFI zeolite membranes

(Yamaguchi U.) *Nakamura Kotaro, Kumakiri Izumi

MFI zeolite membrane
Seeding method
Dehydration

4-a

10:06– 10:18

E04

Development of zeolite membranes for separation of organic solution

(Shibaura Inst. Tech.) *Kurata Haruki, Caralin Irmariza, Widyanto Alvin, Nomura Mikihiro

MFI zeolite membrane
Separation of organic solvent
Recycling society

4-a

143

10:18– 10:30

E05

Development of TiO2-ZrO2-Organic Chelating Ligand composite membrane for organic solvent reverse osmosis

(Kobe U./MaFTech Center) *Matsuoka N, Matsuoka A, Kamio E, Nakagawa K, Yoshioka T, Matsuyama H

Organic solvent reverse osmosis
TiO2-ZrO2
Organic chelating ligand

4-a

251

10:30– 10:42

E06

Fabrication of adsorbent using bamboo pipe structure

(NIT Kumamoto) *Ogata Ryoma, Wakasugi Reiko

Bamboo Charcoal
adsorb
Carbonization

4-d

338

(10:42–11:50) (Chair: No data , No data )

10:42– 10:50

Break

Separation processes

10:50– 11:02

E08

Development of porous ceramic membranes for high steam permeation

(Shibaura Inst. Tech.) *Horiguchi Towa, Muto Takahiro, Kuribayashi Yuta, Nomura Mikihiro

Surface treatment
Silicon alkoxide
Water vapor permeation

4-c

11:02– 11:14

E09

Antibacterial Properties of Ag-TiO₂ Filtration Membrane

(Yamaguchi U.) *Sumida Takuto, Yamada Shotaro, Hosida Hisashi, Kumakiri Izumi

Ag-TiO₂ membrane
Antibacterial action
filtration

4-a

11:14– 11:26

E10

Deep eutectic solvents composed of an oxime-ligand for nickel separation

(Tokushima U.) *Taki Kotaro, Hanada Takafumi, Katoh Masahiro, (Kyushu U.) Goto Masahiro

Deep eutectic solvent
Lithium-ion battery recycling
Nickel

4-f

11:26– 11:38

E11

Inclusion properties of cyclodextrins

(Kumamoto Daini) *Takaji shun, *Morimoto Gosho, *Itou kokoro, *Marui Yuuri, *Cho Reiri, *Kawabata Teruki

cyclodextrin
inclusion
pigment

4-e

145

11:38– 11:50

E12

Preparation of amorphous solid dispersion of flavors by spray-drying and the characterization

(Okayama U.) *Hasegawa Takato, Araga Chika, Honda Nao, Sato Haruna, Imanaka Hiroyuki, Imamura Koreyoshi

amorphous solid dispersion
spray-drying
flavor

4-h

314

12:02– 12:14

Lunch break

Separation processes

(13:00–14:12) (Chair: No data , No data )

13:00– 13:12

E19

Effect of molecular interactions on the extraction of precious metals by hydrophobic deep eutectic solvents

(Tokushima U.) *Shima Takahiro, Hanada Takafumi, Katoh Masahiro, (Kyushu U.) Goto Masahiro

Deep eutectic solvent
Solvent extraction
Precious metals

4-f

13:12– 13:24

E20

Oil water separation utilizing mesh laminated coalescer

(Kagoshima U.) *Fukushima Katsuya, Mizuta Kei, Nii Susumu

Oil water separation
Mesh laminated coalescer
Low energy consumption

4-j

351

13:24– 13:36

E21

Fundamental investigation on the effect of operation conditions on selective CO₂ permeation property of a facilitated transport membrane with glycine carrier

(Kobe U./MaFTech Center) *Ohashi K., Kamio E., Matsuoka A., Nakagawa K., Yoshioka T., Matsuyama H.

CO2 separation
Facilitated transport membrane
Glycine

4-a

104

13:36– 13:48

E22

Development of simultaneous organics concentration and desalination process by forward osmosis for methane fermentation

(Kobe U./MaFTech Center) *Morishita Haruto, Okamoto Yasunao, Matsuoka Atsushi, Gonzales Ralph Rolly, Hasegawa Susumu, Kumagai Kazuo, Kamio Eiji, Kitagawa Toru, Yoshioka Tomohisa, Nakagawa Keizo, Matsuyama Hideto

forward osmosis
concentration
desalination

4-a

276

13:48– 14:00

E23

Development of a high-concentration ethanol separation method using Molecular Sieves and salt

(Shibaura Inst. Tech. Kashiwa Senior H.S.) Mimura Itsuki

azeotropic mixture
ethanol
distillation

4-c

308

14:00– 14:12

E24

Investigation of the membrane fabrication method of polyamide nanofiltration membranes using polyether sulfone support

(Shinshu U.) *Kaneya Rara, Saeki Daisuke, Okumura Yukihisa

polyether sulfone
polyamide
nanofiltration membrane

4-a

253

14:12– 14:20

Break

Supercritical fluid

(14:20–15:44) (Chair: No data , No data )

14:20– 14:32

E26

Effect of temperature on hydrothermal extraction of bamboo powder

(Utsunomiya U.) *Takamatsu Masato, Sato Takafumi, Itoh Naotsugu

bamboo
hydrothermal extraction
biomass

8-c

14:32– 14:44

E27

Development of carbon dioxide electrolysis systems under hydrothermal conditions

(Tohoku U.) *Takayanagi Ryusei, (Tohoku U. FRIS) Tomai Takaaki, (Tohoku U. IMRAM) Iwase Kazuyuki

Carbon dioxide reduction reaction
Hydrothermal
Faradaic efficiency

8-d

14:44– 14:56

E28

Preparation of liposomes by ultrasound-assisted method using mixtures of sub/supercritical carbon dioxide and dimethyl ether

(Nagoya U.) *Onuma K., Zhu L., Wang T., Yasuda K., Yamamoto T., Kanda H.

liposome
dimethyl ether
supercritical carbon dioxide

8-e

14:56– 15:08

E29

Production of Theophylline Microparticles by Supercritical Anti-solvent Recrystallization Using a Complete-mixing Micro Crystallizer

(Kanazawa U.) *Nozaki M., Uchida H.

Supercritical anti-solvent recrystallization
Drug microparticles
Complete-mixing micro crystallizer

8-e

354

15:08– 15:20

E30

Effects of decompression rates on polymorph transitions of salicylamide by crystallization from gas-saturated solutions using supercritical CO₂

(Kanazawa U.) *Ito T., Yoshizawa K., Uchida H.

Polymorph
Supercritical CO2
Decompression rates

8-e

353

15:20– 15:32

E31

The Relations between Rust and pH

(masuda H.S.) *Nakashima R., *Kitaura A.

pH
rust
iron oxide

8-d

238

15:32– 15:44

E32

Development of multi-element oxides via subcritical fluid processing as electrocatalysts for oxygen evolution reactions

(Tohoku U.) *Kato Ryoga, Iwase Kazuyuki, Tomai Takaaki

Subcritical fluid
High-entropy oxides
Oxygen evolution

8-e

244

Technical program

26th SCEJ Students Meeting (Online, 2024)

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Most recent update: 2024-03-01 17:45:43
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