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21st SCEJ Students Meeting in Kyoto (2019)

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Most recent update: 2019-02-18 13:09:45

TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Fluid & particle processing
(10:00–11:00) (Chair: Naoki Okamoto, Kuniaki Gotoh)
10:0010:12I01Investigation of the model of thrombopoiesis for megakaryocytes derived from iPS cells by using discrete element method
(Osaka U.) *Ishida Nao, Sekimoto Atsushi, Okano Yasunori, Kinooka Masahiro
discrete element method
computational fluid dynamics
iPS cell
2-b18
10:1210:24I02Development of a DEM simulation model for granulation process
(Osaka Pref. U.) *Baba Tomoya, Nakamura Hideya, Takimoto Hiroharu, Osaki Shuji, Watano Satoru
Granulation
Numerical simulation
Discrete element method
2-f39
10:2410:36I03Control of Aggregate Structure of Soft Porous Crystal and its adsorption properties
(Osaka Pref. U.) *Teranishi Akito, Ohsaki Shuji, Nakamura Hideya, Watano Satoru
Metal-organic framework
Spray-drying
High shear granulation
2-f63
10:3610:48I04Band gap control of zinc oxide by mechanochemical method
(Osaka Pref. U.) *Hoshishima Chiho, Watano Satoru
Band gap
Mechanochemical method
Zinc oxide
2-f66
10:4811:00I05Evaluation of adhesion force between a microbubble and a cell using atomic force microscope
(Osaka Pref. U.) *Katoh Satoshi, Konishi Yasuhiro, Nomura Toshiyuki
AFM
Adhesion force
Microbubble
2-g70
Fluid & particle processing
(11:00–12:00) (Chair: Toru Ishigami, Atsushi Sekimoto)
11:0011:12I06Effects of conditions of mixing section on the production of caffeine microparticles by spray drying using supercritical CO2
(Kanazawa U.) *Yamashita T., Hayashi Y., Watanabe K., Uchida H.
Spray drying
Supercritical CO2
Micronization
2-f93
11:1211:24I07Effect of bubble diameter on concentration of diatom cell using micro bubble
(U. Hyogo) *Nakasuji Tomoki, Itoh Kazuhiro, Kashino Yasuhiro, (Kyoto U.) Ifuku Kentaro, (U. Hyogo) Maeda Kouji, Yamamoto Takuji
diatom
micro bubble
concentration
2-e74
11:2411:36I08Effect of particles circulation flow on objects' float-sink in a gas-solid fluidized bed
(Okayama U. Sci.) *Morizane Y., Kato S., Oshitani J., (Ebara Environmental Plant) Kudo S., Kajiwara H., (Ebara) Matsuoka K.
gas-solid fluidized bed
particles circulation flow
object's float-sink
2-c98
11:3611:48I09Dry gravity separation of construction waste residue using vibro-fluidized bed
(Okayama U. Sci.) *Matsuoka T., Yokouchi T., Sugo R., Oshitani J., (Kyutech) Mawatari Y.
gas-solid fluidized bed
density segregation
gravity separation
2-c99
11:4812:00I102-step separation of construction waste residue using vibro-fluidized bed
(Okayama U. Sci.) *Miura K., Yokouchi T., Sugo R., Oshitani J., (Kyutech) Mawatari Y.
gas-solid fluidized bed
density segregation
gravity separation
2-c100
Fluid & particle processing
(13:00–14:12) (Chair: Toshiyuki Nomura, Daigo Yamamoto)
13:0013:12I11the effect of baffles on agitation and mixing
(Kobe U.) *Sato Eri, Ohmura Naoto, Horie Takahumi, Komoda Yoshiyuki, (Sumitomo Heavy Ind. Proc. Equip.) Horiguchi Hiroo
Stirred tank
Baffle configuration
Power number
2-b111
13:1213:24I12Study on Evaluation of Powder Gravitational Flowability in Powder Filling to a mold corner
(Okayama U.) *Sugahara T, Mino Y, Nakaso K, Gotoh K
powder
flowability
mold
2-f133
13:2413:36I13Effect of liquid bridge on strength of powder compacts
(Okayama U.) *Mashiba Y., Mino Y., Nakaso K., Gotoh K.
Powder
Compression
Liquid bridge
2-f136
13:3613:48I14Aggreration mechanism of latex particles using epoxy resin
(U.kobe) *Takahashi Toru, Komoda Yoshiyuki, Suzuki Kousuke, Horie Takafumi, Ohmura Naoto
aggregation
stirring condition
latex particle
2-b137
13:4814:00I15Study of the effect of surface roughness on a particle-solid wall adhesion based on relative adhesion index
(Okayama U.) *Ishida Y, Mino Y, Nakaso K, Gotoh K
Particle
Surface roughness
Adhesion
2-f138
14:0014:12I16DEM simulation of particle behavior in shearing process
(Okayama U.) *Shirota Nao, Mino Yasushi, Nakaso Koichi, Gotoh Kuniaki
Discrete Element Method
shearing process
van der Waals interaction
2-f140
Fluid & particle processing, Supercritical fluid
(14:12–15:24) (Chair: Yoshiyuki Komoda, Yasushi Mino)
14:1214:24I17Direct numerical simulation of drying process of particle-laden droplet
(Hiroshima U.) *Maemoto Y., Ishigami T., Fukasawa T., Fukui K.
spray drying
direct numerical simulation
gas-solid-liquid flow
2-e146
14:2414:36I18Influence of heating method on crystal formation and adsorption characteristics of ZSM-5
(Hiroshima U.) *Otsuka Kohei, Fukasawa Tomonori, Ishigami Toru, Fukui Kunihiro
microwave heating
zeolite
adsorption characteristics
2-f147
14:3614:48I19Evaluation of agglomeration behavior of fine powder in vibrating fluidized bed
(Hiroshima U.) *Yamane A, Fukasawa T, Ishigami T, Fukui K
Agglomeration
Fine powder
Fluidized bed
2-f149
14:4815:00I20Numerical simulation of emulsions permeating through filter coordinated with X-ray CT imaging
(Hiroshima U.) *Ueda M., Rozy Mohammad Irwan Fatkhur, Ishigami T., Fukasawa T., Fukui K.
phase-field model
coalescer
X-ray CT imaging
2-e152
15:0015:12I21Production of microparticles of sulfathiazole by supercritical anti-solvent recrystallization (SAS) in micro-space
(Kanazawa U.) *Kasahara N., Yamamoto T., Uchida H.
SAS-MD
Microparticles
Micro device
8-e92
15:1215:24I22Micro foaming of poly (ethylene-co-acrylic acid) using high pressure gas
(HIroshima U.) *Hirano Masaki, Kyoumoto Moeka, Ushiki Ikuo, Kihara Shinichi, Takishima Shigeki
Foaming
Poly(ethylene-co-acrylic acid)
Supercritical fluid
8-e155

Technical program
21st SCEJ Students Meeting in Kyoto (2019)

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Most recent update: 2019-02-18 13:09:45
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