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

Hall program

Hall D

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

Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Separation processes
(9:32–10:44) (Chair: Yasuda Masahiro, Shimanouchi Toshinori)
9:32– 9:44	D02	Recovery of lanthanoids from solvent impregnated resin with surfactant (OMUCT) *Ohishi Tomoya, Komatsu Tomoha, Kurahashi Kensuke, (ICR) Sohrin Yoshiki	surfactant lanthanides solvent impregnated resin	4-e	201
9:44– 9:56	D03	Selective removal of cadmium from zinc refining solution with reagents containing a sulfur atom. (Miyazaki U.) *Koga Sayaka, Kanemaru Shintaro, Baba Yoshinari, Sugamoto Kazuhiro	Zinc and cadmium Sulfur-containing reagents Selective extraction	4-f	190
9:56– 10:08	D04	Decomposition of PET by chemical recycling (kamaisi H.S.) Satou Mio, Konnno Reika, kawabata raito, Satomi sora	¥×¥é¥¹¥Á¥Ã¥¯ ¥±¥ß¥«¥ë¥ê¥µ¥¤¥¯¥ë ¥Æ¥ì¥Õ¥¿¥ë»À	4-f	148
10:08– 10:20	D05	Preparation of activated carbon from crushed waste plum seeds by microwave heating method (NIT Wakayama) *Higashimura Takeru, Kishimoto Noboru	Activated carbon Microwave Plum seed	4-e	386
10:20– 10:32	D06	Environmentally friendly recycling of LiB cathodes by non-aqueous leaching using amidic acid type extractant (Kyushu U.) *Matsui Takejirou, Sakamoto Takahiro, Hanada Takafumi, Goto Masahiro	LiB Recycle Non-aqueous leaching (NaqL)	4-f	65
10:32– 10:44	D07	controlling of surface color on bismuth with chemicals (Nara H.S.) Ueda Yuto, Yoshii Shuuto, *Takenaka Yuuki, Nomoto Tsubaki, Yoshimura Ayuka	Bismuth Oxide film Structural color	4-a	382
10:44– 10:50	Break
Separation processes
(10:50–12:02) (Chair: Kishimoto Noboru, Shimanouchi Toshinori)
10:50– 11:02	D09	Analysis of the effect of NOx concentration fluctuation on the NO oxidation using high silica zeolite (Osaka Met. U.) *Kakuda Tomoya, Okita Erika, Horie Takafumi, Yasuda Masahiro	Nitrogen monoxide High silica zeolite Oxidation	4-e	64
11:02– 11:14	D10	Investigation of new materials for high temperature carbon dioxide permselective membranes (Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Yanai Daiki, Sato Yuya, Michael Schwierz, Nomura Mikihiro	membrane CO2 Separation high temperture	4-a	21
11:14– 11:26	D11	Development of carbon dioxide permselective CHA zeolite membrane (Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Mitsuzawa Kenichi, Matsuoka Masahide, Kuribayashi Yuta, Mikihiro Nomura	Membrane CO2 Separation Zeolite	4-a	138
11:26– 11:38	D12	Verification of deodorizing effect by self-propelled deodorant equipped vehicle (NIT Tsuruoka) Ohta Hayato	Deodorizing effect Level of the odor Self-propelled vehicles	4-e	57
11:38– 11:50	D13	Analysis of hot spring eggs using hot springs in each region expected to have an inbound effect (NIT Tsuruoka) Nawa Fumio	Regional Development Hot Spring Egg Chemical analysis	4-e	58
11:50– 12:02	D14	Degree of Removal of Ink Stains Due to Differences in Baking Soda Concentration (TENNOJI H.S.) Imazawa Hiroto, Yamaguchi Manabu, *Mao Eiko	Baking Soda Stain Removal Washing	4-f	200
12:02– 13:00	Lunch break
Separation processes
(13:00–14:12) (Chair: Kurahashi Kensuke, Tanaka Kazuhiro)
13:00– 13:12	D20	Development of hydrogen permselective membranes by using a novel alternating vapor supply method (Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Sakura Naoki, Yabe Keita, Ito myuwako, Ichihara kota, Irie Megumi, Nomura Mikihiro	separation membrane chemical vapor deposition	4-a	16
13:12– 13:24	D21	Development of high hydrogen permselective membranes by using the 2 step chemical vapor deposition method (Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Ito Myuwako, Yabe Keita, Sakura Naoki, Irie Megumi, Ichihara Kota, Nomura Mikihiro	membrane gas separation chemical vapor deposition	4-a	17
13:24– 13:36	D22	Adsorption of Dyes by Activated Carbon Derived from Waste Plum Seeds Prepared by One-Step Superheated Steam Method (NIT Wakayama) *Kawai Taku, Kishimoto Noboru	Superheated steam one-step process Adsorption of methylene blue Activated carbon derived from waste plum seeds	4-e	387
13:36– 13:48	D23	Improving Yields in Refining Camphor (Hibiya H.S.) Yamazaki T.	camphor purification distillation	4-c	292
13:48– 14:00	D24	Study for the mechanism of demulsification process by microwave irradiation (U. Hyogo) *Nakajima Takuma, Asakuma Yusuke	microwave demulsification interfacial modification	4-i	314
14:00– 14:12	D25	creating hybrid paper (Ibaraki Christian H.S.) Ooka Aoi, Koibuchi Kuho	hybrid paper sea squirt cellulose	4-f	404
14:12– 14:20	Break
Separation processes
(14:20–15:44) (Chair: Kashima Keita, Tanaka Kazuhiro)
14:20– 14:32	D27	Fabrication of tough ion gel membrane containing an ionic liquid with highly selective CO2 absorbability (Kobe U./MaFTech Center) *Kobayashi Kan, Zhang Jinhui, Kamio Eiji, Matsuoka Atsushi, Nakagawa Keizo, Yoshioka Tomohisa, Matsuyama Hideto	CO2 separation membrane ion gel	4-a	52
14:32– 14:44	D28	CO2 permeation performance of an ion gel membrane composed of MOF/polymer composite network (Kobe U./MaFTech Center) *Kimura Shogo, Nakamura Hinako, (Kobe U./MaFTech Center/Center Environ Manage) Kamio Eiji, (Kobe U./MaFTech Center) Matsuoka Atsushi, Nakagawa Keizo, Yoshioka Tomohisa, Matsuyama Hideto	ion gel membrane CO2 separation MOF/polymer composite network	4-a	53
14:44– 14:56	D29	Development of continuous process for NO oxidation and NO2 adsorption using powder high silica zeolite (Osaka Met. U.) *Miyamae Kakeru, Okita Erika, Horie Takafumi, Yasuda Masahiro	Nitrogen monoxide Adsorption Oxidation	4-e	78
14:56– 15:08	D30	Continuous adsorption removal of nitrogen dioxide in combustion gas using powder high silica zeolite (Osaka Metro. U. Col. Tech.) *Kushida Naohito, Hirabayashi Daisuke, (Osaka Met. U.) Okita Erika, Horie Takafumi, Yasuda Masahiro	Nitrogen dioxide High silica zeolite Continuous separation processs	4-e	209
15:08– 15:20	D31	Investigation of hydrogen permeation by Pd-V composite membrane (Tokyo U. Sci.) *Niho Takaharu, (Taiyo Koko) Yoshinaga Hideo, (Tokyo U. Sci.) Murakami Yuya, Matsukawa Hiroaki, Otake Katsuto, Shono Atsushi	Hydrogen permeation Vanadium membrane Siverts' law	4-a	248
15:20– 15:32	D32	Modeling and analyzing polyamide membrane for organic solvent reverse osmosis(OSRO) by molecular simulation (Kobe U.) *Nishikawa Ami, Nakagawa Keizo, Kitagawa Toru, Okamoto Yasunao, Matsuoka Atsushi, Kamio Eiji, Matsuyama Hideto, Yoshioka Tomohisa	Polyamide organic solvent reverse osmosis simulation	4-a	262
15:32– 15:44	D33	Fabrication polyamide-TFC forward osmosis membrane using porous ceramic substrate (Kobe U.) *Wada Ryotaro, Yoshioka Tomohisa, Nakagawa Keizo, Kitagawa Toru, Okamoto Yasunao, Matuoka Atsushi, Kamio Eiji, Matsuyama Hideto	FO polyamide ceramic	4-a	285

Time

Paper
ID

Title / Authors

Keywords

Topic code

Ack.
number

Separation processes

(9:32–10:44) (Chair: Yasuda Masahiro, Shimanouchi Toshinori)

9:32– 9:44

D02

Recovery of lanthanoids from solvent impregnated resin with surfactant

(OMUCT) *Ohishi Tomoya, Komatsu Tomoha, Kurahashi Kensuke, (ICR) Sohrin Yoshiki

surfactant
lanthanides
solvent impregnated resin

4-e

201

9:44– 9:56

D03

Selective removal of cadmium from zinc refining solution with reagents containing a sulfur atom.

(Miyazaki U.) *Koga Sayaka, Kanemaru Shintaro, Baba Yoshinari, Sugamoto Kazuhiro

Zinc and cadmium
Sulfur-containing reagents
Selective extraction

4-f

190

9:56– 10:08

D04

Decomposition of PET by chemical recycling

(kamaisi H.S.) *Satou Mio, *Konnno Reika, *kawabata raito, *Satomi sora

¥×¥é¥¹¥Á¥Ã¥¯
¥±¥ß¥«¥ë¥ê¥µ¥¤¥¯¥ë
¥Æ¥ì¥Õ¥¿¥ë»À

4-f

148

10:08– 10:20

D05

Preparation of activated carbon from crushed waste plum seeds by microwave heating method

(NIT Wakayama) *Higashimura Takeru, Kishimoto Noboru

Activated carbon
Microwave
Plum seed

4-e

386

10:20– 10:32

D06

Environmentally friendly recycling of LiB cathodes by non-aqueous leaching using amidic acid type extractant

(Kyushu U.) *Matsui Takejirou, Sakamoto Takahiro, Hanada Takafumi, Goto Masahiro

LiB
Recycle
Non-aqueous leaching (NaqL)

4-f

10:32– 10:44

D07

controlling of surface color on bismuth with chemicals

(Nara H.S.) *Ueda Yuto, *Yoshii Shuuto, *Takenaka Yuuki, Nomoto Tsubaki, Yoshimura Ayuka

Bismuth
Oxide film
Structural color

4-a

382

10:44– 10:50

Break

Separation processes

(10:50–12:02) (Chair: Kishimoto Noboru, Shimanouchi Toshinori)

10:50– 11:02

D09

Analysis of the effect of NOx concentration fluctuation on the NO oxidation using high silica zeolite

(Osaka Met. U.) *Kakuda Tomoya, Okita Erika, Horie Takafumi, Yasuda Masahiro

Nitrogen monoxide
High silica zeolite
Oxidation

4-e

11:02– 11:14

D10

Investigation of new materials for high temperature carbon dioxide permselective membranes

(Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Yanai Daiki, Sato Yuya, Michael Schwierz, Nomura Mikihiro

membrane
CO2 Separation
high temperture

4-a

11:14– 11:26

D11

Development of carbon dioxide permselective CHA zeolite membrane

(Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Mitsuzawa Kenichi, Matsuoka Masahide, Kuribayashi Yuta, Mikihiro Nomura

Membrane
CO2 Separation
Zeolite

4-a

138

11:26– 11:38

D12

Verification of deodorizing effect by self-propelled deodorant equipped vehicle

(NIT Tsuruoka) Ohta Hayato

Deodorizing effect
Level of the odor
Self-propelled vehicles

4-e

11:38– 11:50

D13

Analysis of hot spring eggs using hot springs in each region expected to have an inbound effect

(NIT Tsuruoka) Nawa Fumio

Regional Development
Hot Spring Egg
Chemical analysis

4-e

11:50– 12:02

D14

Degree of Removal of Ink Stains Due to Differences in Baking Soda Concentration

(TENNOJI H.S.) *Imazawa Hiroto, *Yamaguchi Manabu, *Mao Eiko

Baking Soda
Stain Removal
Washing

4-f

200

12:02– 13:00

Lunch break

Separation processes

(13:00–14:12) (Chair: Kurahashi Kensuke, Tanaka Kazuhiro)

13:00– 13:12

D20

Development of hydrogen permselective membranes by using a novel alternating vapor supply method

(Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Sakura Naoki, Yabe Keita, Ito myuwako, Ichihara kota, Irie Megumi, Nomura Mikihiro

separation membrane
chemical vapor deposition

4-a

13:12– 13:24

D21

Development of high hydrogen permselective membranes by using the 2 step chemical vapor deposition method

(Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Ito Myuwako, Yabe Keita, Sakura Naoki, Irie Megumi, Ichihara Kota, Nomura Mikihiro

membrane
gas separation
chemical vapor deposition

4-a

13:24– 13:36

D22

Adsorption of Dyes by Activated Carbon Derived from Waste Plum Seeds Prepared by One-Step Superheated Steam Method

(NIT Wakayama) *Kawai Taku, Kishimoto Noboru

Superheated steam one-step process
Adsorption of methylene blue
Activated carbon derived from waste plum seeds

4-e

387

13:36– 13:48

D23

Improving Yields in Refining Camphor

(Hibiya H.S.) Yamazaki T.

camphor
purification
distillation

4-c

292

13:48– 14:00

D24

Study for the mechanism of demulsification process by microwave irradiation

(U. Hyogo) *Nakajima Takuma, Asakuma Yusuke

microwave
demulsification
interfacial modification

4-i

314

14:00– 14:12

D25

creating hybrid paper

(Ibaraki Christian H.S.) *Ooka Aoi, *Koibuchi Kuho

hybrid paper
sea squirt
cellulose

4-f

404

14:12– 14:20

Break

Separation processes

(14:20–15:44) (Chair: Kashima Keita, Tanaka Kazuhiro)

14:20– 14:32

D27

Fabrication of tough ion gel membrane containing an ionic liquid with highly selective CO2 absorbability

(Kobe U./MaFTech Center) *Kobayashi Kan, Zhang Jinhui, Kamio Eiji, Matsuoka Atsushi, Nakagawa Keizo, Yoshioka Tomohisa, Matsuyama Hideto

CO2 separation
membrane
ion gel

4-a

14:32– 14:44

D28

CO2 permeation performance of an ion gel membrane composed of MOF/polymer composite network

(Kobe U./MaFTech Center) *Kimura Shogo, Nakamura Hinako, (Kobe U./MaFTech Center/Center Environ Manage) Kamio Eiji, (Kobe U./MaFTech Center) Matsuoka Atsushi, Nakagawa Keizo, Yoshioka Tomohisa, Matsuyama Hideto

ion gel membrane
CO2 separation
MOF/polymer composite network

4-a

14:44– 14:56

D29

Development of continuous process for NO oxidation and NO2 adsorption using powder high silica zeolite

(Osaka Met. U.) *Miyamae Kakeru, Okita Erika, Horie Takafumi, Yasuda Masahiro

Nitrogen monoxide
Adsorption
Oxidation

4-e

14:56– 15:08

D30

Continuous adsorption removal of nitrogen dioxide in combustion gas using powder high silica zeolite

(Osaka Metro. U. Col. Tech.) *Kushida Naohito, Hirabayashi Daisuke, (Osaka Met. U.) Okita Erika, Horie Takafumi, Yasuda Masahiro

Nitrogen dioxide
High silica zeolite
Continuous separation processs

4-e

209

15:08– 15:20

D31

Investigation of hydrogen permeation by Pd-V composite membrane

(Tokyo U. Sci.) *Niho Takaharu, (Taiyo Koko) Yoshinaga Hideo, (Tokyo U. Sci.) Murakami Yuya, Matsukawa Hiroaki, Otake Katsuto, Shono Atsushi

Hydrogen permeation
Vanadium membrane
Siverts' law

4-a

248

15:20– 15:32

D32

Modeling and analyzing polyamide membrane for organic solvent reverse osmosis(OSRO) by molecular simulation

(Kobe U.) *Nishikawa Ami, Nakagawa Keizo, Kitagawa Toru, Okamoto Yasunao, Matsuoka Atsushi, Kamio Eiji, Matsuyama Hideto, Yoshioka Tomohisa

Polyamide
organic solvent reverse osmosis
simulation

4-a

262

15:32– 15:44

D33

Fabrication polyamide-TFC forward osmosis membrane using porous ceramic substrate

(Kobe U.) *Wada Ryotaro, Yoshioka Tomohisa, Nakagawa Keizo, Kitagawa Toru, Okamoto Yasunao, Matuoka Atsushi, Kamio Eiji, Matsuyama Hideto

FO
polyamide
ceramic

4-a

285

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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E-mail: inquiry-stu25

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