Last Update: 2018-12-17 03:35:01

List of Received Applications (SY-54) [Japanese]


SY) SCEJ Division Symposium

SY-54. [Symposium of Division of Fluid & Particle Processing] Advance in Powder Process 2018

Organizer(s): Seto Takafumi (Kanazawa Univ.), Kimata Mitsumasa (Yamagata Univ.), Kano Junya (Tohoku Univ.), Fukui Kunihiro (Hiroshima Univ.)

Most recent update: 2018-12-17 03:35:01

The keywords that frequently used
in this topics code.
KeywordsNumber
DEM5*
aerosol2
Powder2
nanoparticles2
Spray Dry2
Coating state2
Wet granular flow1

ACKN
No.
Title/Author(s)KeywordsStyle
17Development of a new spray freeze granulation dry device
(Preci) *(Reg)Kawaguchi Shinya, Misumi Yuichi, Honbo Takanobu, Sato Takayuki
Spray freeze granulation dry
Powder
Spray dry
O
41Development of disk for spray drying with improved product collection rate by coanda effect
(Preci) *(Reg)Kawaguchi Shinya, Kato Shinsuke, Sato Takayuki, Misumi Yuichi, Honbo Takanobu
Spray Dry
Rotary Atomizer
Coanda Effect
O
48Characterization of particle collection by charged fibrous filters for suppression of UFP formation from laser printers
(Kogakuin U.) *(Stu)Karatsu Wataru, (Reg)Nakayama Ryoichi, (Reg)Namiki Norikazu, (Japan Vilene) Muramoto Yoshiro, Nagashima Masaaki
Laser printer
Ultrafine particle(UFP)
Charged fibrous filter
O
49Prevention of re-entrainment of particles captured on medium-performance filter media by atomizing APA solution and evaluation of their particle collection performance
(Kogakuin U.) *(Stu)Yoshimura Kazuma, (Reg)Nakayama Ryoichi, (Reg)Namiki Norikazu, (ESPO Chemical) Kobayashi Shunsuke, Kunitomo Hideo, Ikeda Tsuyoshi
re-entrainment
acrylamide polyampholyte (APA)
medium-performance filter
O
50Characterization of formation and evolution of indoor secondary organic aerosols (ISOAs) from VOCs derived from house-keeping wares and their countermeasure
(Kogakuin U.) *(Stu)Furuya Ikumi, (Reg)Nakayama Ryoichi, (Reg)Namiki Norikazu, (Tokyo Tech) Kagi Naoki, (Shibaura Inst. Tech.) Suwa Yoshihide
Indoor secondary organic aerosol(ISOA)
Evolution
Particle formation
O
96Effects of electrostatic charge characteristics for mixing operations on coating states and improving particle flowability
(Doshisha U.) *(Stu)Yono M., (Reg)Shimosaka A., (Reg)Yoshida M., (Reg)Shirakawa Y.
Electrostatic charge amount
Improving flowability
Coating state
O
103Mechanism investigation using DEM and MLA for liberation enhancement under high pressure by piston cylinder
(Waseda U.) *(Stu)Sawamura Yukihiro, (Stu)Nagata Yu, (Stu)Kato Tatsuya, (Furukawa Ind. Machinery Systems) Tsukada Koji, (Furukawa) Misumi Takashi, (Nittetsu Mining) Kawarabuki Ryo, Mitsuhashi Kohei, (Waseda U.) (Reg)Tokoro Chiharu
liberation
mineral processing
copper ore
O
108Surface-enhanced Raman Scattering by simultaneous Electrostatic Splaying of Ag nanoparticles and target molecules
(Kanazawa U.) *(Stu)Fujioka Ryoko, Kato Shun, Abd El-Aal Mohamed, (Reg)Seto Takafumi
Surface-enhanced Raman scattering
electrospraying deposition
O
114Mechanochemical polymerization of MMA by grinding silica in water solvent
(Yamagata U.) *(Stu)Ichimura Ryouichi, (Reg)Kimata Mitumasa
Mechanochemical polymerization
Planetary ball milling
Aqueous slurry
O
123Numerical simulation of large-scale circulating fluidized bed by coarse grain DEM
(U. Tokyo) *(Stu)Mori Yuki, (Reg)Sakai Mikio
Gas-Solid flow
Euler-Lagrange method
CFB
O
130Dispersion mechanism of agglomerates in non-uniform electric field
(Kyoto U.) *(Stu)Shoyama Mizuki, (Reg)Matsusaka Shuji
Dispersion
agglomerate
non-uniform electric field
O
143[The Outstanding Paper Award] Evaluation of Aerosol Penetration through a Cylindrical Tube by Langevin Dynamic Method
(Muroran Inst. Tech.) *(Reg)Fujimoto Toshiyuki, (Reg)Yamanaka Shinya, (Reg)Kuga Yoshikazu
Langevin dynamics method
Aerosol
Brownian motion
O
152DEM analysis of vibrating rod mill for decrystallization of cellulose
(Kao) *(Reg)Wada T., (Reg)Uematsu T., (Reg)Oosaki K., (Cor)Shiomi H., (Reg)Mine K., (Tohoku U.) (Reg)Ishihara S., (Reg)Kano J.
Cellulose
DEM
Vibrating rod mill
O
214[The Outstanding Paper Award] Study of a Cyclone Type Classifier for Separating Coarse Particles
(Soken Chemical & Eng.) *(Reg)Oshitari Teruo, (Cor)Yamamoto Kazumi, (Hiroshima U.) (Reg)Fukui Kunihiro, (Reg)Yoshida Hideto
Gas-cyclone
Particle Separation
Cut-off Size
O
373Nucleation promotion through particle number density predicted by microwave irradiation
(U. Hyogo) Shibatani Atsuya, Kan Haruka, *(Reg)Asakuma Yusuke
microwave
number density
nucleation
O
399Synergistic effect of mineral component and water vapor on low-temperature continuous regeneration of fluidized bed type PM removal device
(Kyushu U.) *(Stu)Yokoo Kento, (Reg)Yamamoto Tsuyoshi, (Reg)Matsune Hideki, (Reg)Kishida Masahiro, (Adv. Tech. Inst.) (Reg)Tatebayashi June
Continuous Regeneration
Fluidized Bed
Low-Temperature Combustion
O
428Nanoparticle coating on spherical porous particles and their effects on the water drying behaviors on their powder layer
(Yokohama Nat. U.) *(Reg)Iijima Motoyuki, Hayakawa Masahiro, Tatami Junichi, (Lion) (Cor)Nakamura Koichiro, (Cor)Nagashima Shinichi
Composite particle
Microstructure
Drying
O
445Utilization of woody biomass combustion ash optimized by its particle size
(Hiroshima U.) *(Stu·PCEF)Momen K., (Reg)Fukasawa T., (Reg)Ishigami T., (Reg)Fukui K.
woody biomass combustion ash
fertilizer
glue
O
475Discrete element simulation of wet ball mill based on velocity dependence of friction coefficient
(Osaka Pref. U.) *(Reg)Iwasaki Tomohiro, Yamanouchi Hiroyuki, (Reg)Iwata Masashi
DEM
Wet ball mill
Friction coefficient
O
496Reduction of operating temperature on continuous regenerating type PM removal device by increasing the carried amount of potassium
(Kyushu U.) *(Stu)Wakizaka Akinobu, (Reg)Yamamoto Tsuyoshi, (Reg)Matsune Hideki, (Reg)Kishida Masahiro, (Adv. Tech. Inst.) (Reg)Tatebayashi June
Potassium
Operating Temperature
Continuous Regenerating Type
O
518Effects of pressing strength and rotational speed for mixing procedures on compacted packing fraction in a smaller particle admixing system
(Doshisha U.) *(Stu)Tsujimoto Daisuke, (Reg)Shimosaka Atsuko, (Reg)Yoshida Mikio, (Reg)Shirakawa Yoshiyuki
Admixture of smaller particles
Coating state
Mixing conditions
O
600Collection of carbon nanotubes by bag filters
(Kanazawa U.) *(Stu)Morioka Naoya, (SINTOKOGIO) (Cor)Amano Hiroyuki, (Reg)Suzuki Takashi, (Kanazawa U.) (Reg)Kumita Mikio, (Reg)Higashi Hidenori, (Reg)Seto Takafumi, (Reg)Otani Yoshio
Carbon nanotube
Air filter
Collection performance
O
726Analysis for behaviors of media and grinded particles in a wet ball milling
(Tohoku U.) (Stu·APCE)Kushimoto Kizuku, (Tohoku U. IMRAM) (Reg)Ishihara Shingo, *(Reg)Kano Junya
DEM-CFD model
Simulation
Wet ball milling
O
753Numerical study on a wet granular flow in a roll mill
(U. Tokyo) *(Stu)Takabatake Kazuya, (Reg)Sakai Mikio, (Toyota Motor) (Cor)Hatano Kazuhiro, (Cor)Uezono Tomoyuki
Wet granular flow
Roll mill
DEM
O
797Effect of particle behavior on rate of mechanochemical reaction
(Osaka Pref. U.) *(Stu)Hirosawa Fumie, (Reg)Iwasaki Tomohiro, Hayashi Kazuki, (Reg)Iwata Masashi
Mechanochemical reaction
DEM
Reaction rate constant
O
801Development of Centrifugal Collector for air cleaning
(Kanazawa U.) *(Stu)Tsurui Shota, (Panasonic) Hayasaki Yoshiki, Kamakura Masanao, (Kanazawa U.) (Reg)Higashi Hidenori, (Reg)Kumita Mikio, (Reg)Otani Yoshio, (Reg)Seto Takafumi
filtration
centrifugal collector
O
856Numerical Simulation of powder behavior in compression process
(Okayama U.) *(Stu)Yoshioka Erina, (Reg)Mino Yasushi, (Reg)Nakaso Koichi, (Reg)Gotoh Kuniaki
Compression
DEM
Powder
O
860Reducing Flame Synthesis of Reduced Titanium Oxide by Clustered Microflames
(Chubu U.) *(Stu)Kato Yuichi, (Reg)Hirasawa Taro, (Sansho) Kato Keiichi
Reduction Reaction
Nanoparticles
Diffusion Microflame
O
887A slit nozzle for mass production of submicron spherical particles by pulsed laser melting in liquid
(AIST) *(Reg)Ishikawa Yoshie, (Hokkaido U.) (Reg)Koshizaki Naoto
pulsed laser melting in liquid
submicron spherical particle
flow irradiation
O
946Lattice Boltzmann model for wetting behavior of particles
(Okayama U.) *(Reg)Mino Yasushi, (Stu)Yamamoto Tomoyo, (Reg)Nakaso Koichi, (Reg)Gotoh Kuniaki
Lattice Boltzmann method
Particle
Wetting dynamics
O
987Control of number concentration of aerosol nanoparticles generated by nanospray drying
(Organo) *(Cor)Ichihara Fumitaka, (Kanazawa U.) Sakamoto Masaki, (Reg)Higashi Hidenori, (Reg)Kumita Mikio, (Reg)Otani Yoshio, (Reg)Seto Takafumi
nanoparticles
spray-drying
aerosol
O

List of received applications (By topics code)

List of received applications
SCEJ 50th Autumn Meeting (Kagoshima, 2018)