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SCEJ 48th Autumn Meeting (Tokushima, 2016)

List of received applications (By topics code)

SY) SCEJ Division Symposium

SY-54. Symposium of Fluid & Particle Processing Division (3) Front line of mixing technology


Most recent update: 2016-11-29 11:54:01

The keywords that frequently used
in this topics code.		KeywordsNumber
mixing6**
Mixing ability2
CFD2
Twin-screw extruder2
crystallization2
PIV2
Human centered innovation1

ACKN
No.		Title/Author(s)KeywordsStyle
17New Pattern Dynamics of Fluid Mixing
(formaly Osaka U.) (Ful)Inoue Y.		fluid mixing
mixing pattern
pattern dynamics
O
18A Study of Volumetric oxygen transfer coefficient of Shaking Stirrer Vessel for Mammalian-Cell-Culture
(Hitachi) *(Ful)Oka Kenichiro, Namba Masaru, (FUJIMORI KOGYO) (Cor)Matsuda Hiroyuki		Mammalian-Cell-Culture
CFD
Shaking Stirrer
O
28Fluid Analysis of NANOVisK by Moving Particle Semi-implicit
(SHI-PE) *(Ful)Yajima T., (Ful)Horiguchi H., (Cor)Morinaga S., (Cor)Esaki K.		Mixing
NANOVisK
MPS
O
57Development of Large Scale Impeller for Heat Transfer and Mixing in a Wide Reynolds Number
(SATAKE Chemical Equipment Mfg.) *(Cor)Hosono Yuta, (Ful)Sato Makoto, (Ful)Moriguchi Kota, (Cor)Kanamori Hisayuki, (Ful)Kato Yoshikazu		Mixing
Heat Transfer
Large Scale Impeller
O
59Visualization of streak line of large paddle impeller using PIV method
(NITech) *(Stu)Otani Shota, (Ful)Kato Yoshihito, (Ful)Furukawa Haruki, (Ful)Tada Yutaka		Mixing
Streak Line
PIV
O
105The evaluation of kneading elements' mixing ability in the twin-screw extruder
(Kyushu U.) *(Stu)Esaki Satoshi, (Stu)Nakao Kenta, (Ful)Nakayama Yasuya, (Ful)Kajiwara Toshihisa, (JSW) Kimura Koichi, Takeuchi Takahide, Tomiyama Hideki		kneading element
twin-screw extruder
mixing ability
O
106Correlation between configurations of mixing elements and mixing ability in twin-screw melt-mixing
(Kyushu U.) *(Stu)Takemitsu Hiroki, (Ful)Nakayama Yasuya, (Ful)Kajiwara Toshihisa, (JSW) Kimura Koichi, Takeuchi Takahide, Tomiyama Hideki		Twin-screw extruder
Simulation
Mixing ability
O
124[Review lecture] New perspective of mixing technology from the concept of human centered innovation
(Kobe U.) (Ful)Ohmura Naoto		Mixing technology
Human centered innovation
Functional fixedness
O
347Preparation of Uniformly Sized Emulsions Using a High Velocity Revolution Mixer
(PRIMIX) *(Cor)Kanazawa Kenjiro, (TUAT) (Ful)Kamiya Hidehiro		mixer
CFD
uniformity
O
409Fabrication of in situ crosslinkable polyvinyl alcohol based hydrogel with Kenics static mixer
(U. Tokyo) *(Stu)Hozumi Takuro, (Ful)Ohta Seiichi, (Ful)Ito Taichi		static mixer
in situ crosslinkable hydrogel
O
500Performance of Solid-Liquid Mixing Based on A Model for Estimation of Just-suspension Speed
(Satake Chemical Equipment Mfg.) *(Cor)Bint Zamzam Zauyah, (Tokyo Tech) (Ful)Yoshikawa Shiro, (Ful)Ookawara Shinichi, (Satake Chemical Equipment Mfg.) (Ful)Kato Yoshikazu		Just-suspension Speed
Solid-Liquid Mixing
Power per Unit Volume
O
640Mixing performance of scraper in icegenerator for freeze concentration apparatus
(NIT Kochi) *(Stu)Noda N., (Ful)Kitamura T., Takeshima K., (Kochi U. Tech.) Matsumoto Y., (KAKIUCHI) Jinzenji Y.		Mixing
Freeze concentration
Suspension crystallization
O
666Quantification of mixing of two fluids with large viscosity ratio in static mixers with two kinds of elements based on image analysis
(Yokohama Nat. U.) *(Stu·PCEF)Fujiwara M., (Ful)Misumi R., (Ful)Kaminoyama M., (Chiba Inst. Tech.) (Ful)Nishi K., (FUJIFILM) (Ful)Taniguchi K., (Ful)Katai Y.		Static mixer combination
Large viscosity ratio
Image analysis
O
675Investigation of flow pattern and mixing enhancement in an eccentric stirred vessel with a PIV technique
(Yokohama Nat. U.) *(Stu·PCEF)Tanabe H., (Ful)Kaminoyama M., (Ful)Misumi R., (Chiba Inst. Tech.) (Ful)Nishi K.		eccentric mixing
PIV
mixing enhancement
O
711Measurement of time evolution of the particle size distribution and aggregation state during the batch cooling crystallization by image analysis
(Yokohama Nat. U.) *(Stu·PCEF)Hayashi H., (Ful)Misumi R., (Ful)Kaminoyama M., (Chiba Inst. Tech.) (Ful)Nishi K., (MCHC R&D Synergy Center,Inc.) (Cor)Harjo B.		crystallization
crystal aggregation
mixing
O
733Effect of mixing conditions and crystal shape on generation rate of attrition fragments caused by crystal collisions with an impeller
(Yokohama Nat. U.) *(Stu·PCEF)Miyauchi S., (Ful)Misumi R., (Ful)Kaminoyama M., (Chiba Inst. Tech.) (Ful)Nishi K.		crystal attrition
mixing
crystallization
O
772Study of laminar mixing process by numerical simulation for mixing based on distance with the nearest particle
(Chiba Inst. Tech.) *(Ful)Nishi Kazuhiko, Kurisaki Takahiro, (Yokohama Nat. U.) (APCE)Hayashi Moeka, (Ful)Misumi Ryuta, (Ful)Kaminoyama Meguru		laminar mixing
numerical simulation
particle tracking
O
773Mixing performance and gas-liquid mass transfer rate of a concave turbine
(Yokohama Nat. U.) *(Stu·PCEF)Arai K., (Ful)Misumi R., (Ful)Kaminoyama M., (Chiba Inst. Tech.) (Ful)Nishi K.		Concave
Mixing performance
Mass transfer rate
O
809Mixing time and discharge flow rate number of fractal shaped impellers
(Fukuoka U.) *(Stu)Sakamoto R., (Kubara Honke) Miyazaki T., (Fukuoka U.) (Ful)Suzukawa K., (Ful)Kanai Y.		Fractal shaped impeller
Mixing time
Discharge flow rate number
O
List of received applications (By topics code)
List of received applications
SCEJ 48th Autumn Meeting (Tokushima, 2016)
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Most recent update: 2016-11-29 11:54:01
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