28th SCEJ Students Meeting (online, 2026): Hall program

`28th SCEJ Students Meeting (online, 2026)`

Hall program

Hall C

Most recent update: 2026-03-06 17:03:49


Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Fluid & particle processing
(9:30–10:42) (Chair: Murakami Yuya, Fujii T.)
9:30– 9:42	C01	Numerical analyses of binary collision using a phase-field lattice Boltzmann method (TMU) *Kobayashi Minoru, Tagawa Toshio	PF-LBM binary collision high-viscous drop	2-e	257
9:42– 9:54	C02	Control of water droplet dripping behavior in oil by microwave irradiation (Kansai Uni) *Sawada Hayato, Asakuma Yusuke	microwave interface dripping	3-a	10
9:54– 10:06	C03	Investigation of mechanism for mechanochemical production of slaked lime from calcium carbonate under water existence (NIT Ichinoseki) *Fujisawa Moe, Nikaido Mitsuru, Fukumura Takuya	Mechanochemistry Calcium hydroxide	2-f	270
10:06– 10:18	C04	Development of a Method for Detecting Foreign Particles in Nanoparticle Slurries via Osmotic Pressure Measurements (U.Hosei) *Imai S., Kitamura K., Mori T.	Osmotic pressure Nanoparticle slurry Detection of foreign particles	12-d	66
10:18– 10:30	C05	Packing and Flow Properties of Alumina Slurries Flocculated by Polyelectrolytes (U. Hosei) *Kimura N., Kitamura K., Mori T.	wastewater treatment polyelectrolyte sediment	2-f	87
10:30– 10:42	C06	Transformation of convection based on the Rayleigh Number (Hyogo H.S) Obata Sayako, Koizumi Teruma, Seriguchi Atsuki, Tanno Natsuki, *Funai Takuto, Shiga Toshiki	Convection Rayleigh Number Tempurature	2-a	18
10:42– 10:50		Break
Fluid & particle processing
(10:50–12:02) (Chair: Tagawa Toshio, Ohsaki Shuji)
10:50– 11:02	C08	Analysis of Pressure Drop in Laminar Flow Through Channels with Arbitrary Cross-Sectional Geometry (U. Hosei) *Arai N., Yamashita A.	Pressure Drop Laminar Flow Artificial Kidney	2-a	177
11:02– 11:14	C09	Evaluation of a mixing assessment method in a custom microchannel using the Villermaux-Dushman method (Shizuoka U.) *Fujii Kano, Murakami Yuya	microchannel Villermaux-Dushman protocol micromixing	2-b	212
11:14– 11:26	C10	Controlling the bubbles in soda (Senri H.S.) Manabe Futo, Kataoka Keito, Yoden Ryota, Tsukuda Reijiro, Fukuno Katsuhisa	ﾃｺｻﾀﾈｯﾋ｢ｱﾕﾂﾎ､ﾎﾇｴﾅﾙ	7-h	38
11:26– 11:38	C11	Direct measurement of interaction forces acting on microbubble surfaces (Osaka Metro. U.) *Kazuta M, Nomura T	Cleaning technology Interaction forces Microbubbles	2-d	44
11:38– 11:50	C12	Evaporation behavior of surfactant water during microwave irradiation (Kansai Uni) *Toba Juon, Asakuma Yusuke	microwave evaporation surfactant	2-a	11
11:50– 12:02	C13	*Glass fusing &12316;the reaction between seraform, frits and silver wire&12316;* (Ikuno H.S) Ishikawa S., Tsuchiya R., Matsuoka R., Kawabuchi H., Onishi A.	glass fusing silver wire	2-g	171
12:02– 13:14		Lunch break
Fluid & particle processing
(13:14–14:26) (Chair: Mori T., Yamashita A.)
13:14– 13:26	C20	Dimensionless Correlation Modeling for Evaluation of the Dissolution Rate Solubility of Skim Milk Powder (Osaka Metro. U.) *Taniguchi Yohei, (Meiji) Ikeda Riku, Hanyu Keigo, (Osaka Metro. U.) Ohsaki Shuji, Nakamura Hideya, Watano Satoru	Solubility Skim milk powder Dimensionless numbers	2-g	153
13:26– 13:38	C21	Analysis of Vortex Flow in the Transition Flow Regime in an Oscillatory Baffled Reactor (Osaka Pref. U.) *Wada Takenori, (Keio U.) Fujioka Satoko, (Osaka Metro. U.) Yasuda Masahiro, Horie Takafumi	mixing transition regime POD	2-a	185
13:38– 13:50	C22	Numerical analyses for liquid-gas two-phase flows using a revised lattice kinetic scheme (TMU) *Wada Akinori, Tagawa Toshio	two-phase flow LKS numerical simulation	2-e	147
13:50– 14:02	C23	Effect of temperature difference on natural convection in a double cylindrical enclosure using a Cartesian grid system (TMU) *Yamazaki Takuma, Tagawa Toshio	double cylinder fully-explicit method natural convection	2-a	251
14:02– 14:14	C24	Development of a simple measuring method for microbubble generation quantity (Fukushima H.S) *Makuta Y., Sato Y.	Micro bubble harmful substance	2-e	229
14:14– 14:26	C25	Measurement of dissolved hydrogen concentration in a hydrogen bath prepared using the reductive fine bubble chemistry method (NIT. Kure) Fujiwara Reika, Teraoka Anju, Takiguchi Yuto, Hori Yugo, Yamane Aoi, Oikawa Eisaku	hydrogen water bath dissolved hydrogen reductive fine bubble chemistry	9-a	173
14:26– 14:34		Break
Separation processes
(14:34–15:58) (Chair: Oikawa Eisaku, Maruyama Hideo)
14:34– 14:46	C27	On the Absorption Capacity of Oya stone (Tochigi H.S) Harada T., Shinozaki N., Sotome S., Arakawa E., Shinoyama H.	Copper(ｭｶ)ion adsorption zeolite	4-e	155
14:46– 14:58	C28	Plants can create clean air! (Shimonosekinishi) Okazaki Rin, Yamamoto Arisa, *Yodogawa Utaha, Okada Shougo	Deodorize Plant Porous material	13-i	146
14:58– 15:10	C29	Fabrication of high CO2 permeable ion-gel thin-film-composite membranes by surface modification of loosely-crosslinked PDMS gutter layer (Kobe U.) *Demizu R., (Kobe U./MaF Tech C.) Kamio E., Matsuoka A., Nakagawa K., Yoshioka T., Matsuyama H.	Thin-film-composite membrane PDMS Surface hydrophilization	4-a	115
15:10– 15:22	C30	Evaluation of the absorption kinetics of various organic solvents into the polyamide active layer using QCM (Kobe U.) *Kurokawa Y., (Kobe U./MaF Tech C.) Matsuoka A., (Kobe U.) Akiyama T., (Kobe U./MaF Tech C.) Kamio E., Yoshioka T., Nakagawa K., Matsuyama H.	polyamide membrane organic solvent reverse osmosis quartz crystal microbalance	4-a	116
15:22– 15:34	C31	Changes in the dehydration performance of FAU-type zeolite membranes by glucose addition (U. Yamaguchi) *Uno Daisuke, (U.Yamaguchi) Kimura Yuto, Kumakiri Izumi	membrane separation zeolite membrane dehydration	4-a	240
15:34– 15:46	C32	Development of inorganic ion exchanger for recovery of platinum group elements (NITTC) *Nawa Fumio, Ito Shinko, Abe Tatsuo	Ion exchange Inorganic Platinum group elements	4-e	163
15:46– 15:58	C33	Production of olefins through CHA zeolite membranes (Shibaura Inst. Tech.) *Matsuo Roi, Nomura Mikihiro	MTO reaction CHA membrane Zeolite	5-a	58

Technical program
28th SCEJ Students Meeting (online, 2026)

© 2026 The Society of Chemical Engineers, Japan. All rights reserved.
Most recent update: 2026-03-06 17:03:49
For more information contact Organizing Committee, 28th SCEJ Students Meeting (online, 2026)
E-mail: inquiry-stu28

www4.scej.org

This page was generated by