20th SCEJ Students Meeting in Tokyo (2018): Hall program

Hall program

Hall B

Most recent update: 2018-02-19 13:28:13


Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Separation processes
(9:30–10:30) (Chair: No data , No data )
9:30– 9:42	B01	Development of inorganic based nanofiltration by using a surface treatment method (Shibaura Inst. Tech.) *Sugimoto C, Takeuchi T, Yoshiura J, Ikeda A, Nomura M	Nano filtration membrane Surface treatment 3-aminopropyltrietothoxysilane	4-a	76
9:42– 9:54	B02	Ion exchange for FAU zeolite membranes (Shibaura Inst. Tech.) *Osada Satoshi, Yoshida Yuki, Asou Takuya, Makita Nayumi, Ikeda Ayumi, Nomura Mikihiro	FAU zeolite membrane ion exchange properties gas permeation	4-a	40
9:54– 10:06	B03	Adsorption and pH effect of platinum group ion on a silk fiber (NIT Tsuruoka) *Abe Saki, Yokoyama Shino, Sato Tsukasa, Ito Shinko, Abe Tatsuo	silk adsorption platinum group	4-e	99
10:06– 10:18	B04	Deposition of hydrogen permselective membranes on porous silica substrates (Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Shibata Ryo, Shibata Ai, Takeuchi Toshichika, Urabe Takumi, Ikeda Ayumi, Nomura Mikihiro, (SEI) Okuno Takuya, Tawarayama Hirotada, Ishikawa Shinji, Kuwahara Kazuya	Silica substrate Counter diffusion CVD Hydrogen separation	4-a	114
10:18– 10:30	B05	Preparation of silica membranes for high temperature hydrogen separation (Shibaura Inst. Tech.) *Yoshida Manami, ishii Katunori, ikeda ayumi, Kameda Yousuke, Yoshiura Ayako, Nomura Mikihiro	Counter diffusion CVD methyltrimethoxysilane Hydrogen / hydrocarbon separation	4-a	85
10:30– 10:40	Break
Separation processes
(10:40–11:40) (Chair: No data , No data )
10:40– 10:52	B07	Control of permselectivity through the MOR zeolite membranes (Shibaura Inst. Tech.) *Yoshida Yuki, Osada Satoshi, Asou Takuya, Makita Nayumi, Ikeda Ayumi, Nomura Mikihiro	MOR zeolite membrane ion exchange properties pervaporation	4-a	80
10:52– 11:04	B08	Advanced nuclide separation using several inorganic ion exchange techniques (Nat. Inst. Tech. or Nippon Inst. Tech. or NITechTC) *Banjarnahor Irvin Mardongan, Ito Shinko, Abe Tatsuo	ion exchanger high-level radioactive waste	4-e	113
11:04– 11:16	B09	Improvement of MFI zeolite membranes by post-treatment (Shibaura Inst. Tech.) *Yoshimura Toshihiro, Aoki Hitoshi, Tanizume Syusei, Ikeda Ayumi, Nomura Mikihiro	MFI zeolite Surface treatment Gas permeation	4-a	41
11:16– 11:28	B10	Improvement of permselectivity through the zeolite membranes by adding fluorine ion (Shibaura Inst. Tech.) *Suzuki Kohei, Uehara Hikari, Takayama Daishi, Ikeda Ayumi, Nomura Mikihiro, (Sumitomo Electric Industries) Okuno Takuya, Tawarayama Hiromasa, Ishikawa Shinji, Kuwahara Kazuya	Silicalite-1 zeolite membrane Silica support Gas separation	4-a	75
11:28– 11:40	B11	Removal of secondary product from thermal oxidation of oil (Mizusawa high school) Arima Kento, Chida Yusei, *Watanabe Taisei, Takahashi Kazunari	oil oxidation peroxide	14-c	57
11:40– 12:40	Lunch break
Fluid & particle processing
(12:40–13:52) (Chair: No data , No data )
12:40– 12:52	B17	Two-component three-dimensional PIV measurement of laminar flow velocity distribution in a SMX mixer (Yokohama Nat. U.) *Sun X., Misumi R., Kaminoyama M., (FUJIFILM) Taniguchi K., Katai Y.	Static mixer Laminar flow PIV measurement	2-b	48
12:52– 13:04	B18	Study on production of ozone water for sterilization using ultra-fine-bubbles (TUAT) *Tanaka Haruki, Tran Thanh Phong, Okano Makoto, sakurai makoto	Ozone water Ultra-fine-bubbles Sterilization	2-g	103
13:04– 13:16	B19	Preparation of Silica Hollow Particles Using Ultrasonically Generated Microbubbles (Yamagata U.) *Tazaki S., Hamada T., (Hitachi Chemical) Akasu Y., Makino T., (Yamagata U.) Makuta T.	Microbubbles Silica Hollow Particles Ultrasonic Oscillation	2-e	1
13:16– 13:28	B20	Quantification of the flow pattern ahead of and behind rotating blades from laminar to turbulent flow regime based on PIV measurements (Yokohama Nat. U.) *Hakamada T., Misumi R., Kaminoyama M.	mixing transition regime PIV	2-b	26
13:28– 13:40	B21	The¡¡mechanism of supercooling in softdrinks (T.Takaokaminami) Naoe T, (H.Takaokaminami) Gotou K, (T.Takaokaminami) Nakayama H, (H.Takaokaminami) Kushita H	supercooling	2-g	46
13:40– 13:52	B22	Preparation of monodisperse microbubbles for medical applications using microfluidic devices (Yokohama Nat. U.) *Kitazaki R, Matsuo A, Kanai T	Microbubbles Microfluidics Medical application	2-d	105
13:52– 14:00	Break
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(14:00–15:12) (Chair: No data , No data )
14:00– 14:12	B24	Experimental study on pressure fluctuation analysis and fluidization similarity on the small-scale bubbling fluidized beds (NIT Tokyo) *Koizumi Reo, Morimoto Kyousuke, Ishii Hiroyuki	Bubbling fluidized bed Pressure fluctuation scaling law	2-c	33
14:12– 14:24	B25	Experimental scale-up study of venturi nozzle on macrobubble generator (NIT Tokyo) *Satou Youkou, Satake Takumi, Horiuchi Natsuki, Ishii Hiroyuki	Microbubble venturi nozzle scale-up	2-e	34
14:24– 14:36	B26	Fractal structure of combustion instability in a gas turbine model combustor (TUS) *Nakano S., Murayama S., Kaku K., Gotoda H.	combustion instability fractal gas turbine model combustor	3-b	117
14:36– 14:48	B27	Scale-free nature of network structure in H2/O2 coaxial jet (TUS) *Kobayashi W., Hashimoto T., Gotoda H., (JAXA) Ohmichi Y., Matsuyama S.	Complex network Scale-free structure Large-eddy simulation	3-b	121
14:48– 15:00	B28	The effect of carbon-based particles on evaporation rate in a solar distillation (Tokyo U. Agr. Tech) *Hasegawa Tomomi, Lenggoro Wuled	Particles Evaporation Capillarity	3-a	77
15:00– 15:12	B29	Scale-free structure in a turbulent fire (TUS) *Toyoda M., Takagi K., Gotoda H.	turbulent fire Large-eddy simulation scale-free structure	3-b	119

Time

Paper
ID

Title / Authors

Keywords

Topic code

Ack.
number

Separation processes

(9:30–10:30) (Chair: No data , No data )

9:30– 9:42

B01

Development of inorganic based nanofiltration by using a surface treatment method

(Shibaura Inst. Tech.) *Sugimoto C, Takeuchi T, Yoshiura J, Ikeda A, Nomura M

Nano filtration membrane
Surface treatment
3-aminopropyltrietothoxysilane

4-a

9:42– 9:54

B02

Ion exchange for FAU zeolite membranes

(Shibaura Inst. Tech.) *Osada Satoshi, Yoshida Yuki, Asou Takuya, Makita Nayumi, Ikeda Ayumi, Nomura Mikihiro

FAU zeolite membrane
ion exchange properties
gas permeation

4-a

9:54– 10:06

B03

Adsorption and pH effect of platinum group ion on a silk fiber

(NIT Tsuruoka) *Abe Saki, Yokoyama Shino, Sato Tsukasa, Ito Shinko, Abe Tatsuo

silk
adsorption
platinum group

4-e

10:06– 10:18

B04

Deposition of hydrogen permselective membranes on porous silica substrates

(Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Shibata Ryo, Shibata Ai, Takeuchi Toshichika, Urabe Takumi, Ikeda Ayumi, Nomura Mikihiro, (SEI) Okuno Takuya, Tawarayama Hirotada, Ishikawa Shinji, Kuwahara Kazuya

Silica substrate
Counter diffusion CVD
Hydrogen separation

4-a

114

10:18– 10:30

B05

Preparation of silica membranes for high temperature hydrogen separation

(Shibaura Inst. Tech.) *Yoshida Manami, ishii Katunori, ikeda ayumi, Kameda Yousuke, Yoshiura Ayako, Nomura Mikihiro

Counter diffusion CVD
methyltrimethoxysilane
Hydrogen / hydrocarbon separation

4-a

10:30– 10:40

Break

Separation processes

(10:40–11:40) (Chair: No data , No data )

10:40– 10:52

B07

Control of permselectivity through the MOR zeolite membranes

(Shibaura Inst. Tech.) *Yoshida Yuki, Osada Satoshi, Asou Takuya, Makita Nayumi, Ikeda Ayumi, Nomura Mikihiro

MOR zeolite membrane
ion exchange properties
pervaporation

4-a

10:52– 11:04

B08

Advanced nuclide separation using several inorganic ion exchange techniques

(Nat. Inst. Tech. or Nippon Inst. Tech. or NITechTC) *Banjarnahor Irvin Mardongan, Ito Shinko, Abe Tatsuo

ion exchanger
high-level radioactive waste

4-e

113

11:04– 11:16

B09

Improvement of MFI zeolite membranes by post-treatment

(Shibaura Inst. Tech.) *Yoshimura Toshihiro, Aoki Hitoshi, Tanizume Syusei, Ikeda Ayumi, Nomura Mikihiro

MFI zeolite
Surface treatment
Gas permeation

4-a

11:16– 11:28

B10

Improvement of permselectivity through the zeolite membranes by adding fluorine ion

(Shibaura Inst. Tech.) *Suzuki Kohei, Uehara Hikari, Takayama Daishi, Ikeda Ayumi, Nomura Mikihiro, (Sumitomo Electric Industries) Okuno Takuya, Tawarayama Hiromasa, Ishikawa Shinji, Kuwahara Kazuya

Silicalite-1 zeolite membrane
Silica support
Gas separation

4-a

11:28– 11:40

B11

Removal of secondary product from thermal oxidation of oil

(Mizusawa high school) *Arima Kento, *Chida Yusei, *Watanabe Taisei, Takahashi Kazunari

oil
oxidation
peroxide

14-c

11:40– 12:40

Lunch break

Fluid & particle processing

(12:40–13:52) (Chair: No data , No data )

12:40– 12:52

B17

Two-component three-dimensional PIV measurement of laminar flow velocity distribution in a SMX mixer

(Yokohama Nat. U.) *Sun X., Misumi R., Kaminoyama M., (FUJIFILM) Taniguchi K., Katai Y.

Static mixer
Laminar flow
PIV measurement

2-b

12:52– 13:04

B18

Study on production of ozone water for sterilization using ultra-fine-bubbles

(TUAT) *Tanaka Haruki, Tran Thanh Phong, Okano Makoto, sakurai makoto

Ozone water
Ultra-fine-bubbles
Sterilization

2-g

103

13:04– 13:16

B19

Preparation of Silica Hollow Particles Using Ultrasonically Generated Microbubbles

(Yamagata U.) *Tazaki S., Hamada T., (Hitachi Chemical) Akasu Y., Makino T., (Yamagata U.) Makuta T.

Microbubbles
Silica Hollow Particles
Ultrasonic Oscillation

2-e

13:16– 13:28

B20

Quantification of the flow pattern ahead of and behind rotating blades from laminar to turbulent flow regime based on PIV measurements

(Yokohama Nat. U.) *Hakamada T., Misumi R., Kaminoyama M.

mixing
transition regime
PIV

2-b

13:28– 13:40

B21

The¡¡mechanism of supercooling in softdrinks

(T.Takaokaminami) *Naoe T, (H.Takaokaminami) *Gotou K, (T.Takaokaminami) *Nakayama H, (H.Takaokaminami) *Kushita H

supercooling

2-g

13:40– 13:52

B22

Preparation of monodisperse microbubbles for medical applications using microfluidic devices

(Yokohama Nat. U.) *Kitazaki R, Matsuo A, Kanai T

Microbubbles
Microfluidics
Medical application

2-d

105

13:52– 14:00

Break

(14:00–15:12) (Chair: No data , No data )

14:00– 14:12

B24

Experimental study on pressure fluctuation analysis and fluidization similarity on the small-scale bubbling fluidized beds

(NIT Tokyo) *Koizumi Reo, Morimoto Kyousuke, Ishii Hiroyuki

Bubbling fluidized bed
Pressure fluctuation
scaling law

2-c

14:12– 14:24

B25

Experimental scale-up study of venturi nozzle on macrobubble generator

(NIT Tokyo) *Satou Youkou, Satake Takumi, Horiuchi Natsuki, Ishii Hiroyuki

Microbubble
venturi nozzle
scale-up

2-e

14:24– 14:36

B26

Fractal structure of combustion instability in a gas turbine model combustor

(TUS) *Nakano S., Murayama S., Kaku K., Gotoda H.

combustion instability
fractal
gas turbine model combustor

3-b

117

14:36– 14:48

B27

Scale-free nature of network structure in H2/O2 coaxial jet

(TUS) *Kobayashi W., Hashimoto T., Gotoda H., (JAXA) Ohmichi Y., Matsuyama S.

Complex network
Scale-free structure
Large-eddy simulation

3-b

121

14:48– 15:00

B28

The effect of carbon-based particles on evaporation rate in a solar distillation

(Tokyo U. Agr. Tech) *Hasegawa Tomomi, Lenggoro Wuled

Particles
Evaporation
Capillarity

3-a

15:00– 15:12

B29

Scale-free structure in a turbulent fire

(TUS) *Toyoda M., Takagi K., Gotoda H.

turbulent fire
Large-eddy simulation
scale-free structure

3-b

119

Technical program

20th SCEJ Students Meeting in Tokyo (2018)

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Most recent update: 2018-02-19 13:28:13
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E-mail: inquiry-stu20e

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