SCEJ

23rd SCEJ Students Meeting (2021)

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Most recent update: 2021-03-04 21:47:01

TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Separation processes
(9:12–10:24) (Chair: No data , No data )
9:129:24E02Separation properties of carbon dioxide by silicalite membranes prepared on porous SUS tube
(Tokushima U.) *Akagi S., Yamauchi T., Katoh M., Shimoda N., Sugiyama S., (MIcrotracBEL) Nakai K.
silicalite membrane
carbon dioxide
separation property
4-a62
9:249:36E03Search of zeolite particles introduced on porous SUS tubes for preparation of palladium thin membranes
(Tokushima U.) *Kozai T., Terasaki K., Katoh M., Shimoda N., Sugiyama S.
Pd thin membrane
zeolite particle
porous SUS tube
4-a63
9:369:48E04Preparation of dense Pd membranes by vacuum-assisted electroless plating on porous SUS tube with spherical silica particles
(Tokushima U.) *Tanaka C., Inadu Y., Katoh M., Shimoda N., Sugiyama S.
Dense Pd membrane on porous SUS tube
Vacuum-assisted electroless plating
Spherical silica particle
4-a65
9:4810:00E05Separation of organic liquids through silica membranes
(Shibaura Inst. Tech.) *Takeyama Taiki, Ishii Katsunori, Nomura Mikihiro
aceticacid
iodomethane
acetaldehyde
4-a67
10:0010:12E06Fabrication of polyamide-TFC membrane using porous ceramic substrate
(MaFˇ¦Techˇ¦C) *Takahashi Ryosuke, Yoshioka Tomohisa, Shintani Takuzi, Nakagawa Keizo, Matsuoka Atsushi, Sasaki Yuji, Kamio Eiji, Matsuyama Hideto
Polyamide
Ceramic membrane
Nanofiltration
4-a146
10:1210:24E07Examination of Zeolite-TiO2 composite membrane aiming at decomposition of dissolved organic matter
(Yamaguchi U.) *sakai hiroshi, murasaki kouhei, kumakiri izumi
membrane
Zeolite
TiO2
4-a286
10:2410:36Break
Separation processes
(10:36–11:36) (Chair: No data , No data )
10:3610:48E09Adsorption characteristics of acid clay as adsorbent for caffeine
(U. Hyogo) *Ouchi Shuhei, Matsuda Toru, Taguchis Shogo, Maeda Kouji, Yamamoto Takuji
caffeine
acid clay
4-e102
10:4811:00E10Characterization of Multimodal Chromatographic resins using Design of Experiments
(Kyoto Inst.Tech.) *Kobayashi Ryo, Ohara Ayaka, (YMC) Takahashi Ryosuke, Takai Takatomo, (Kyoto Inst.Tech.) Horiuchi Jun-ichi, Kumada Yoichi
Multimodal chromatography
Design of Experiments
protein adsorption
4-e299
11:0011:12E11Development of Zn plating wastewater by adsorption separation system using ion exchange/chelate fibers
(NIT Nara) *Kinooka K., Hayashi K., Nakamura H.
Adsorption separation
Ion exchange/chelate fibers
Plating wastewater
4-e201
11:1211:24E12Preparation of activated carbon from waste orange peels by microwave heating
(NIT Wakayama) *Wada Kazuma, Kishimoto Noboru
Microwave
Activated carbon
Orange peel
4-e273
11:2411:36E13Applying chlorophyll to sunscreen cream
(Osaka Pref. TENNOJI H.S.) *Mori A., *Shinohara M., *Okada M.
Synergy
Sunscreen cream
Persistence
14-e137
12:0012:12Lunch break
Supercritical fluid
(13:00–14:24) (Chair: No data , No data )
13:0013:12E21Mechanochemical effect on cocrystal formation in high-pressure CO2
(Tokyo Tech) *Kobayashi K, Orita Y, Shimoyama Y
high-pressure CO2
mechanochemical effect
cocrystallization
8-e199
13:1213:24E22Fabrication of visible light responsive photocatalyst by supporting CuO fine particles on TiO2 thin film using supercritical fluid deposition
(U.Tokyo) *Sato S., Aji R., Deura M., (Tokyo Tech) Shimoyama Y., (U.Tokyo) Shimogaki Y., Momose T.
supercritical fluid deposition
visible light responsive photocatalyst
8-e141
13:2413:36E23Effects of equipment factors on production of microparticles by supercritical anti-solvent recrystallization (SAS) in micro-space
(Kanazawa U.) *Hada T., Kasahara N., Uchida H.
SAS
Micro device
Sulfathiazole
8-e265
13:3613:48E24Preparation of ionic liquid impregnated mesoporous silica material using supercritical fluid method
(Hiroshima U.) *So Ryosuke, Ushiki Ikuo, Kihara Shin-ichi, Takishima Shigeki
Supercritical carbon dioxide
Mesoporous silica
Ionic liquid
8-e184
13:4814:00E25Measurement and modeling of adsorption equilibria of ester VOCs in supercritical CO2 for regeneration of high-performance activated carbon
(Hiroshima U.) *Ueno Yuji, Ushiki Ikuo, Kihara Shin-ichi, Takishima Shigeki, (DAI-DAN Co) Ito Yasuyuki, (Tohoku U.) Inomata Hiroshi
Supercritical carbon dioxide
Activated carbon
Adsorption
8-c197
14:0014:12E26Heat transport behavior of supercritical nano fluid
(U.Tohoku) *Chiba N, (WPI-AIMR) Yoko A, (NICHe) Seong G, (IMRAM) Tomai T, (WPI-AIMR) Adsciri T
supercritical water
nano fluid
heat transfer
8-b59
14:1214:24E27Effect of coexisting ions and pH on the decomposition of dibutyl phosphate in high-pressure and high-temperature water
(NIT Hachinohe) *Chiba Fumie, Hasegawa Akira, (Japan Nuclear Fuel Limited) Horimai Tatsuya, Kanehira Norio, (Utsunomiya U.) Satou Takafumi, (NIT Hachinohe) Honma Tetsuo
Dibutyl phosphate
Coexisting ions
Reaction rate analysis
8-d158
14:2414:36Break
Supercritical fluid
(14:36–16:00) (Chair: No data , No data )
14:3614:48E29Development of Medical Nanoparticles using The Technology of Extractions of Emulusions
(Fukuoka U.) *Yashima Nanako, Nakamura Miyuki, Sharmin Tanjina, Aida Taku, Mishima Kenji
Nanoparticles
Supercritical carbon dioxide
Emulsion
8-e274
14:4815:00E30Extraction of Flavones from natural plants
(Fukuoka U.) *Asao Yuta, Nakamura Miyuki, Sharmin Tanjina, Aida Taku, Mishima Kenji
High pressure carbon dioxide
Luteolin
Apigenin
8-c275
15:0015:12E31Development of New Pesticides
(Fukuoka U.) *Ema Konoka, Nakamura Miyuki, Sharmin Tanjina, Aida Taku, Mishima Kenji
Pyriproxyfen
Supercritical carbon dioxide
Pesticides
8-e276
15:1215:24E32Development of Medical Devices by PGSS Method
(Fukuoka U.) *Nakamoto Yuki, Nakamura Miyuki, Sharmin Tanjina, Aida Taku, Mishima Kenji
Supercritical carbon dioxide
Caffeine
Micro coating
8-e277
15:2415:36E33Microencapsulation of Levofloxacin
(Fukuoka U.) *Tamaoki Yuta, Nakamura Miyuki, Sharmin Tanjina, Aida Taku, Mishima Kenji
Microcapsule
Supercritical Carbon Dioxide
Levofloxacin
8-e278
15:3615:48E34Liquefaction of Sake Lees by Subcritical Water Treatment and Evaluation as a Vinegar Manufacturing Additives
(kumamoto U.) *murakai daigo, (GSST,kumamoto U.) minami katsuya, yamato kazuharu, (MAFT) hirayama syouji, hoshino yuriko, (Maruboshi Vineger Co.) hoshino munehiro, (FAST,kumamoto U.) kida tetsuya, (IINa,kumamoto U.) sasaki mitsuru, (Craftman Co.) matsumori yukihiro
Subcritical Water
Liquefaction
Sake Lees
8-f202
15:4816:00E35Decomposition of dibutyl phosphate in high temperature and high pressure water using metal oxide catalysts
(NIT Hachinohe) *Shimosawa Mayu, Hasegawa Akira, (Japan Nuclear Fuel Limited) Horimai Tatsuya, Kanehira Norio, (NIT Hachinohe) Honma Tetsuo
dibutyl phosphate
high temperature and high pressure water
solid catalyst
8-d157

Technical program
23rd SCEJ Students Meeting (2021)

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Most recent update: 2021-03-04 21:47:01
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