SY-81. [Symposium of Division of Materials and Interfaces] Resent Industrial Crystallization Technologies

Organizer(s): Maeda Kouji (Univ. of Hyogo), Miki Hideo (Katsuragi Industry)

The perceptions about industrial crystallization operations are very important for the manufactures of chemical products, pharmaceuticals and new materials. In this symposium, novel researches for industrial crystallization technologies are presented and discussed.

\n\n

In this session, lecture time is 12 minutes for speech and 7 minutes for discussions.

Most recent update: 2024-04-11 13:19:01

The keywords that frequently used
in this topics code.		KeywordsNumber
Crystallization5*
Nucleation2
cooling crystallization2
lysozyme2
High-pressure2
Population balance model2
continuous crystallization2
Ni-Zn battery1

ACKN
No.		Title/Author(s)KeywordsStyle
30Continuous Crystallization of Sodium Chloride: Effect of Types of Secondary Nucleation Mechanisms on Purity of Crystals
(Katsuragi Ind.) *(Reg)Tsushima Ippei, (U. Hyogo) (Reg)Maeda Kouji, (Katsuragi Ind.) (Cor)Sasakura Sana, (Cor)Miki Hideo		Continuous Crystallization
Purity
Secondary Nucleation Mechanisms
O
74Study on the improvement of Ni-Zn battery's performance by high-pressure
(U. Hyogo) *(Reg)Maeda Kouji, (Stu)Kobayashi Daiki, (Stu,PCEF)Maihara Tomoki, (Reg)Arafune Koji, (Reg)Iimura Kenji		Ni-Zn battery
High-pressure
Crystallization
O
75Effect of high-pressure on rechargeable Zn-Air battery
(U. Hyogo) *(Stu,PCEF)Maihara Tomoki, (Reg)Maeda Koji, (Reg)Iimura Kenji, (Reg)Arafune Koji		Zn-Air battery
High-pressure
Crystallization
O
211Effect of water on crystallization of polymorph of dihydrosphingomyelin
(Osaka Metro. U.) *(Stu)Nishibo Aika, (Nippon Fine Chemical) Matsumoto Masaki, Inoue Yuki, (Osaka Metro. U.) (Reg)Igarashi Koichi		phospholipid
crystal
polymorph
O
268Effects of membrane properties on lysozyme concentration mechanism in membrane crystallization
(Waseda U.) *(Stu)Ogawa Yuji, (Reg)Hirasawa Izumi, (Reg)Kohori Fukashi		crystallization
membrane
lysozyme
O
284Development of A New Purification Process with High-Yield Ability: Recrystallization under Reduced Pressure Condition by Vapor-Contact between Ionic Liquid and Sublimated Organic Molecule
(ORIST) *(Reg)Tanaka T., (Kobata Sangyo) Nishigahana Tamotsu, (Tohoku U.) Matsumoto Y., (BPC) Kim K._J., (Kobata Sangyo) Kobata Gohei		Recrystallization
Ionic Liquid
Sublimation
O
351Influence of Rod End Roughness on Tapping Nucleation of Salt Hydrate Melt
(Waseda U.) *(Reg)Watanabe Yasuyuki, (Reg)Hirasawa Izumi		Nucleation
Salt Hydrate
Solid Collision
O
458The effect of the characteristics and the amount of suspended crystals on scale formation dynamics in cooling crystallization
(Chiba Inst. Tech.) *(Reg)Kudo Shoji, (NIT Gunma) Morota Yukina, Ota Michiya		cooling crystallization
scale formation
crystal characteristics
O
693Efect of glycolipids on crystallization of lysozyme on lipid membranes
(Okayama U.) *(Reg)Shimanouchi Toshinori, (Stu)Utsumi Toshiya, (Reg)Kimura Yukitaka		glycolipid
phase separation
lysozyme
O
738Effects of Bubbling on Size Distribution of Product Crystalline Particles in Cooling Crystallization
(TUAT) *(Stu)Abe Sayaka, (Reg)Amari Shuntaro, (Reg)Takiyama Hiroshi		cooling crystallization
size distribution
bubbling
O
804Improving the properties of crystalline particles and productivity under low supersaturation condition using high shear field
(TUAT) *(Reg)Amari Shuntaro, (Tokyo Tech) (Stu)Takahashi Ryuji, (TUAT) Hosokawa Mako, (Reg)Takiyama Hiroshi		Crystallization
Low supersaturation
High shear field
O
861Analysis of spinodal decomposition behavior in three-component solution using Phase-Field method
(Doshisha U.) *(Stu)Tsugawa Yuhei, (Reg)Yoshida Mikio, (Reg)Shirakawa Yoshiyuki		Oiling-out
LLPS
Phase-Field method
O
872Growth control of hydroxyapatite by amino acid adsorption
(Waseda U.) *(Stu)Yamazaki Y., (Reg)Hirasawa I., (Reg)Kohori F.		hydroxyapatite
amino acid
growth control
O
877Changes in CaC2$O$4 crystal morphology during urinary stone formation process
(Waseda U.) *(Stu)Okuda M., (Reg)Hirasawa I., (Reg)Kohori F.		Calcium oxalate
Biocrystallization
Crystal morphology
O
884Investigation of effect of seeding conditions by PBM analysis of semi-batch sodium chloride evaporative crystallization process
(Yokohama Nat. U.) *(Stu,PCEF)Ikeda Tsubaki, (Reg)Misumi Ryuta		sodium chloride
evaporative crystallization
Population Balance Model
O
891Continuous crystallization of L-glutamic acid in an oscillatory helical tube reactor
(Osaka Metro. U.) *(Stu)Kawasaki Yuta, (Reg)Horie Takafumi, (Reg)Okita Erika, (Reg)Yasuda Masahiro		continuous crystallization
crystal growth rate
helical reactor
O
898Effect of Additives on Nucleation of Erythritol
(Iwate U.) *(Reg)Doki Norihito, Takahashi Mami, (Reg)Yokota Masaaki, Matsumoto Mika, Miura Makoto		Crystallization
Erythritol
Nucleation
O
954[Requested talk] Development of models for population balance simulation of a stirred-type crystallizer
(Yokohama Nat. U.) (Reg)Misumi R.		Digital twin
mixing
Population balance model
O
1049[Invited lecture] Strategy to apply advanced crystallization
(Waseda U.) (Reg)Hirasawa Izumi		*
O
List of received applications (By topics code)
List of received applications
SCEJ 54th Autumn Meeting (Fukuoka, 2023)
Most recent update: 2024-04-11 13:19:01
This page was generated by easp 2.51b; update.pl 2.37 (C)1999-2015 kawase