SCEJ 50th Autumn Meeting (Kagoshima, 2018): List of the applications (topics)

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.	Keywords	Number
DEM	5
aerosol	2
Powder	2
nanoparticles	2
Spray Dry	2
Coating state	2
Wet granular flow	1

The keywords that frequently used
in this topics code.

Keywords

Number

DEM

aerosol

Powder

nanoparticles

Spray Dry

Coating state

Wet granular flow

ACKN No.	Title/Author(s)	Keywords	Style
17	Development 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
41	Development 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
48	Characterization 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
49	Prevention 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
50	Characterization 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
96	Effects 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
103	Mechanism 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
108	Surface-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
114	Mechanochemical 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
123	Numerical 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
130	Dispersion 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
152	DEM 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
373	Nucleation promotion through particle number density predicted by microwave irradiation (U. Hyogo) Shibatani Atsuya, Kan Haruka, *(Reg)Asakuma Yusuke	microwave number density nucleation	O
399	Synergistic 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
428	Nanoparticle 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
445	Utilization 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
475	Discrete 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
496	Reduction 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
518	Effects 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
600	Collection 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
726	Analysis 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
753	Numerical 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
797	Effect 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
801	Development 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
856	Numerical 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
860	Reducing 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
887	A 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
946	Lattice 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
987	Control 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

ACKN
No.

Title/Author(s)

Keywords

Style

Development 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

Development 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

Characterization 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

Prevention 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

Characterization 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

Effects 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

103

Mechanism 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

108

Surface-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

114

Mechanochemical polymerization of MMA by grinding silica in water solvent
(Yamagata U.) *(Stu)Ichimura Ryouichi, (Reg)Kimata Mitumasa

Mechanochemical polymerization
Planetary ball milling
Aqueous slurry

123

Numerical 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

130

Dispersion mechanism of agglomerates in non-uniform electric field
(Kyoto U.) *(Stu)Shoyama Mizuki, (Reg)Matsusaka Shuji

Dispersion
agglomerate
non-uniform electric field

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

152

DEM 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

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

373

Nucleation promotion through particle number density predicted by microwave irradiation
(U. Hyogo) Shibatani Atsuya, Kan Haruka, *(Reg)Asakuma Yusuke

microwave
number density
nucleation

399

Synergistic 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

428

Nanoparticle 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

445

Utilization 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

475

Discrete 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

496

Reduction 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

518

Effects 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

600

Collection 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

726

Analysis 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

753

Numerical 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

797

Effect 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

801

Development 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

856

Numerical Simulation of powder behavior in compression process
(Okayama U.) *(Stu)Yoshioka Erina, (Reg)Mino Yasushi, (Reg)Nakaso Koichi, (Reg)Gotoh Kuniaki

Compression
DEM
Powder

860

Reducing 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

887

A 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

946

Lattice 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

987

Control 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

List of received applications (By topics code)

List of received applications

SCEJ 50th Autumn Meeting (Kagoshima, 2018)

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Most recent update: 2018-12-17 03:35:01
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List of received applications (By topics code)

SY) SCEJ Division Symposium

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