SCEJ

23rd SCEJ Students Meeting (2021)

Session programs

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Fluid & particle processing

A21-A27, A29-A35, B01-B07, B09-B15

Most recent update: 2021-03-04 21:47:01
TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Hall A
(13:00–14:24) (Chair: No data , No data )
13:0013:12A21Evaluation of mixing condition during atomization process using Villermaux-Dushman reaction
(Tokyo U.Sci) *Tejima G., Murakami Y., Matsukawa H., Otake K., Shono A.
Villermaux-Dushman reaction
Spray Mixing
Segregation Index
2-b64
13:1213:24A22Complete drawdown of floating particles in a stirring vessel
(Tokyo U.Sci.) *Oikawa Y., Murakami Y., Matsukawa H., Otake K., Shono A.
Complete drawdown
Mixing process
Floating particles
2-b77
13:2413:36A23Experimental study of power and mixing characteristics of multi-stage stirred vessel
(Yokohama Nat. U.) *Takahashi R., Misumi R.
mixing
PIV
multi-stage stirred vessel
2-b114
13:3613:48A24Measurement of turbulence velocity 3 components and quantification of turbulent energy around the stirring blade using stereo PIV
(Yokohama Nat. U.) *Yamamoto N., Misumi R.
mixing
PIV
2-b120
13:4814:00A25Numerical analysis of large-scale culture of iPS cells in a stirring tank using wings
(osaka univercity) *Kobatake Ryosuke, (osaka graduate school) Isobe Ryosuke, Okano Yasunori, Kinooka Masahiro, (FUJIMORI KOGYO) Tokura Tomohiro, Matuda Hiroyuki
iPS cells
suspension culture
2-b185
14:0014:12A26Viscous fluid behavior on inclined dam break problem
(U.Hyogo) *Otani Haruka, Itoh Kazuhiro, Taguchi Shogo, (U. Hyogo) Yamamoto Takuji, Maeda Kouji
non Newtonian fluid
dam break flow
numerical calculation
2-a66
14:1214:24A27About the phenomenon that ice moves on the metal lane
(nirasakiH.S.) *natori kohaku, *asakawa haruku, *moriya syunsuke
ice
surface tension
metal lane
8-b145
(14:36–16:00) (Chair: No data , No data )
14:3614:48A29Flow around a two-dimensional rotating cylinder using the generalized interpolation lattice Boltzmann method
(TMU) *Kobayashi Daisuke, Tagawa Toshio
Lattice Boltzmann method
Generalized coordinate system
Rotating cylinder
2-a87
14:4815:00A30Numerical simulation of the formation of droplets from an inkjet nozzle and the impingement of droplets to a substrate
(Saitama U.) *Tada Yuta, Yoshinuma Masaki, Homma Shunji
inkjet
VOF
droplets
2-a130
15:0015:12A31Numerical Analysis of glass melts flow with unsteady heat transport
(Saitama U.) *Koyama Ryoya, Chiba Kotaro, Homma Syunji
glass melts
unsteady heat transport
flow in a circular tube
2-a128
15:1215:24A32Numerical analysis of natural convection in a cavity for highly viscous fluid
(Saitama U.) *Sasaki Ryuya, Chiba Kotaro, Homma Shunji
highly viscous fluid
natural convection
CFD
2-a127
15:2415:36A33Numerical analysis of fluorination reactor
(Saitama U.) *Saito Takeaki, Homma Shunji
Fuel debris
Fluoride volatility method
Numerical analysis
2-a123
15:3615:48A34Resonance of Air Columns ~Aiming to improve the efficiency of sound power generation~
(hiroshima kokutaiji H.S.) seike naoya
wavelength
doubled vibration
resonance
2-a26
15:4816:00A35Origin of bathtub vortex
(Kokutaiji H.S.) *Nitta Yuya, *Maeda Yo
flow of different directions
initial velocity
Partition plate
2-g25
Hall B
(9:00–10:24) (Chair: No data , No data )
9:009:12B01Thermal flow analysis in a mold during the LCP injection molding filling process
(Osaka U.) *Takayoshi Junya, (Graduate School of Osaka U.) Hu Haotian, (Polyplastics) Hamano Yusuke, Aoki Gen, (Graduate School of Osaka U.) Okano Yasunori
Injection Molding
OpenFOAM
DEM
2-a206
9:129:24B02Numerical Analysis of nozzle flow during 3D bioprinting ink switching
(Osaka U.) *Yamamoto Seishiro, Hidaka Mitsuyuki, Sakai Shinji, Kojima Masaru, Okano Yasunori
VOF model
OpenFOAM
Bioprinting
2-e282
9:249:36B03Study on Particle Size Distribution Prediction Equations for Droplet Atomization
(Gifu U.) *Yada Tokiha, Kamiya Tomohiro, Mizuno Kyohei, Asahara Makoto, Miyasaka Takeshi
atomaization
droplet size distribution
shadow sizing method
2-e326
9:369:48B04Development and optimization of silica hollow particles using microbubbles
(U.Yamagata) *Takahashi M., Makuta T.
silica
microbubbles
hollow particles
2-e211
9:4810:00B05Fluid dynamics of liquid rope-coils in micro-channel
(Tokyo U.Sci) *Shinotsuka R., (Office Murozono) Murozono K., (Tokyo U.Sci.) Murakami Y., Matsukawa H., Otake K., Shono A.
Microfluidics
Liquid rope-coil effect
Particle method
2-e83
10:0010:12B06Research Regarding the Fluidization Characteristics of Micro-Fluidized Beds
(NIT Sasebo) *Jones James, Maeda Taisuke, Tsurusaki Yuuto, Hamada Hiroyasu, Johno Yuuki
Fluidized bed
Microreactor
Numerical simulation
2-c215
10:1210:24B07Research on Floating Separation of Microplastics
(NIT Sasebo) *Murakami Wataru, Tanabe Shogo, Tanaka Yasuhiko, Matsuyama Fuminori, Nakashima Kenji, Johno Yuuki
Fine bubble
Microplastic
Floating Separation
2-e219
(10:36–12:00) (Chair: No data , No data )
10:3610:48B09Three dimensional numerical Analysis of curtain coating
(Saitama U.) *Togashi Kota, Chiba Kotaro, Homma Shunji
curtain coating
adhesive
CFD
2-a126
10:4811:00B10Effects of Preparation Pressures on the Production of Caffeine Microparticles by Spray Drying Using High Pressure CO2
(Kanazawa U.) *Matsuoka H., Xie B., Yamashita T., Uchida H.
Spray drying
High pressure CO2
Caffeine micronization
2-f269
11:0011:12B11Evaluation of dielectric properties of alumina composites with CNT for hybrid heating
(HiroshimaU.) *Yamada M, (JAEA) Segawa T, (HiroshimaU.) Fukasawa T, Ishigami T, Fukui K
CNT
uniformity
Dielectric properties
2-f203
11:1211:24B12Development of a novel jet mill and evaluation its milling performance
(Osaka Pref. U.) *Matsunaga Miku, Ohsaki Shuji, Nakamura Hideya, Watano Satoru
Dry grinding
Fluidized bed jet mill
Classification
2-f232
11:2411:36B13Numerical analysis for high-speed tableting process
(Osaka Pref. U.) *Imayoshi Yusuke, Ohsaki Shuji, Nakamura Hideya, Watano Satoru
Compression speed
Tableting process
Finite Element Method
2-f100
11:3611:48B14Cohesive force in DEM simulation for simulating noodle dough
(Okayama U. Sci.) *Sasaki Yui, Kuwagi Kenya, Hirano Hiroyuki
Powder
Discrete Element Method
Cohesive force
2-f223
11:4812:00B15DEM Numerical Analysis of Powder Flow with Liquid Bridging
(NIT Sasebo) *Matsunaga Kanta, Hamada Hiroyasu, Matsuyama Fuminori, Nakashima Kenji, Johno Yuuki
Discrete Element Method
Powder
Liquid bridge
2-f221

Technical program
23rd SCEJ Students Meeting (2021)

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