SCEJ

27th SCEJ Students Meeting (Online, 2025)

Hall program

The technical program on this page is still provisional. Confirm the final program later.
Japanese page

Hall E

Most recent update: 2025-02-05 07:59:05
TimePaper
ID		Title / AuthorsKeywordsTopic codeAck.
number
Energy engineering
9:309:42E01(canceled)

100127
9:429:54E02Effect of temperature on the effective viscosity of microcapsule dispersion for thermal energy storage with a rotational viscometer
(Yamagata U.) *Yoshizawa Kansuke, Hibino Fumiya, Makuta Toshinori, Akamatsu Masato
Microcapsule dispersion
Rotational viscometer
Effective viscosity
9-b112
9:5410:06E03Improvement of electrochemical performance by adsorption of amino acids on adsorbed manganese oxides
(Kanto-Gakuin U.) *Yamaguchi Rion, Okawa Ryosuke, Matsui Masami, Tomono Kazuaki
Layered manganese oxide
Amino acid
Electrochemical Capacitance
9-e57
10:0610:18E04Production of mesoporous activated carbon from hydrothermal carbonization and its application
(Kansai U.) *okamoto Yuzuki, Hayashi Junichi, Hasegawa Isao
hydrothermal carbonization
mesoporous
activated carbon
9-c242
10:1810:30E05Synthesis and Characterization of ZnCo2O4 for Energy Storage Electrode Applications
(Shizuoka U.) Sks Saravana Karthikeyan, *ishiguro kanta, kong chang yi
supercapacitor
ZnCo₂O₄
specific capacitance
8-e231
10:3010:42E06The dike use of the Coanda effect
(Nirasaki H.S.) *Tsukahara Honami, *Kobayashi Kenshin, Takeda Natsumi
Coanda effect
Dike
9-e202
10:4210:50Break
Energy engineering
10:5011:02E08Effect of temperature on the effective viscosity of microcapsule dispersion for thermal energy storage with a vibration-type viscometer
(Yamagata U.) *Tsunakawa Asahi, Ohya Daiki, Abe Toma, Kawakami Yudai, Makuta Toshinori, Akamatsu Masato
Microcapsule dispersion
Vibration-type viscometer
Effective viscosity
9-b111
11:0211:14E09Evaluating Oyster Shell-derived Materials for CaO-based Thermochemical Heat Storage by Using CNT as Catalyst
(Hiroshima U.) *Yang Hyeonjun, Zhang Mengli, Matsumura Yukihiko
Heat Storage
Oyster Shell-derived Materials
Carbon nanotubes (CNTs) catalyst
9-b256
11:1411:26E10Optimal Design of Catalyst Layer for Polymer Electrolyte Fuel Cells Focusing on Platinum Degradation and Durability Evaluation
(Kyushu U.) *Ishii Koki, Okamura Kaisei, Yano Takeru, Asano Shusaku, Inoue Gen
PEFC
Ostwald ripening
degradation
9-a210
11:2611:38E11The methods for producing and maximizing the efficiency of bioethanol
(Tennoji H.S) *Homma Rei, *Asaki Saneatsu, *Kajitani Ryosuke, *Yanagida Kazuki, Kuroishi Takashi
fermentation
Saccharification
alcohol
9-c143
11:3811:50E12Alternative membranes using atmospheric pressure plasma graft polymerisation in vanadium redox flow batteries
(TUAT) *Sasaki T., Ohashi H.
vanadium redox flow battery
membrane
graft
9-a266
11:5012:02E13CO2 absorption and desorption behavior of Ca-based mixed oxide
(Chiba U.) *Ito Rin, Okamura Shunya, Okuyama Ryuki, Tokushige Manabu, Ryu Junichi
Chemical heat storage
Mixed oxide
CO2 absorption
9-b125
12:0212:15Lunch break
Separation processes
13:1013:22E19Carbon dioxide methanation in a porous ceramic membrane reactor
(Shibaura Inst. Tech.) *Shimizu Yuka, Nomura Mikihiro, (AGH U. Sci. and Tech.) Moździe Marcin, Brus Grzegorz, (Yasuda Women's U.) Ookawara Shinichi
Methanation
Membrane reactor
Separation Membrane
4-a218
13:2213:34E20Optimization of fabrication conditions of Covalent Organic Frameworks membranes by vacuum filtration
(Kobe U./MaF Tech C.) *Tabata Yuki, Okamoto Yasunao, Matsuoka Atsushi, Kamio Eiji, Nakagawa Keizo, Yoshioka Tomohisa, Matsuyama Hideto
Organic solvent nanofiltration
Covalent Organic Framework
Molecular sieve
4-a108
13:3413:46E21Preparation of the activated carbon from waste plum seeds by one-step superheated steam method and its dye adsorption characteristics.
(NIT Wakayama) *Koyabu K., Kishimoto N.
Superheated steam
Activated carbon
Adsorption
4-e167
13:4613:58E22Nanofiltration properties of porphyrin-based covalent network membranes
(U.Kobe) *Tsuboi Hijiri, Nakagawa Keizo, Kitagawa Tooru, Okamoto Yasunao, Matsuoka Atsushi, Kamio Eiji, Yoshioka Tomohisa, Matsuyama Hideto
Nanofiltration Membrane
Polyamide Membrane
5,10,15,20-Tetrakis(4-aminophenyl)porphyrin
4-a104
13:5814:10E23Development of Carbon Membranes Aimed at Adaptation to Solvent Separation
(Yamaguchi.U.) *Kioka Daichi, Kumakiri Izumi
solvent separation
carbon membrane
pervaporation
4-a113
14:1014:22E24How to utilize black pine cones
(Noshiro H.S) *Kudo Kanade, *Mori Ryoutaro, *Oyama Minori, *Wada Mai, Matsumoto Tomonori
pinecone
extraction
turpentine
4-f89
14:2214:30Break
Separation processes
14:3014:42E26Effect of hydrolysis treatment on polyamide nanofiltration membranes containing ester bonds as part of the main chain
(Shinshu U.) *Sai Yuma, Saeki Daisuke, Okumura Yukihisa
ester bonds
polyamide nanofiltration membrane
hydrolysis
4-a241
14:4214:54E27CO2 adsorption by amines encapsulated in metal-organic framework
(organic- and bio- nanomaterials) *Fujita Y., Sei H., Kasai H., Oka K.
Monoethanolamine
Encapsulation
CO2 adsorption
4-e28
14:5415:06E28Study of a simple preparation method for silica-based hydrogen permeaselective membranes
(Shibaura Inst. Tech.) *Koyama Kyogo, Sakura Naoki, Nakaya Kousei, Nomura Mikihiro
Inorganic separation membranes
Silica membranes
Pore control
4-a215
15:0615:18E29Surface modification of PDMS membrane with PDMS-PEG block copolymer for application to the intermediate layer of ion-gel thin film composite membrane
(Kobe U./MaF Tech C) *Sunaike Hirokazu, Kamio Eiji, Matsuoka Atsushi, (Kobe U./MaF C) Nakagawa Keizo, Yoshioka Tomohisa, (Kobe U./MaF Tech C) Matsuyama Hideto
PDMS
PDMS-PEG block copolymer
surface hydrophilicity
4-a67
15:1815:30E30Relationship between extraction amount and time of tannins and caffeine in tea
(Tennoji H.S) *Naruo Runa, *Chihara Reina, *Moritani Keigo, *Yamaguchi Shina, *Yokoyama Kei, Iwai Haruhiko
extraction
tannin
caffeine
4-f148
15:3015:42E31Development of Carbon Composite Membranes for Dehydration
(Yamaguchi U.) *Minematsu Nozomi, Kumakiri Izumi
Carbon Membrane
Gas Permeation
Pervaporation Separation
4-a73
15:4215:54E32Challenge of preparation of palladium nickel alloy membrane on porous SUS tube with USY zeolite particles
(Tokushima U.) *Ohnishi N., Shijiraya T., Hanada T., Katoh M.
Dence Pd/Ni alloy membrane on porous SUS tube
Electroless plating
USY zeolite
4-a11
15:5416:10Break
Technical program
27th SCEJ Students Meeting (Online, 2025)
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Most recent update: 2025-02-05 07:59:05
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