SCEJ 79th Annual Meeting (Gifu, 2014): Hall and day program

Hall and day program

Hall K, Day 2

Most recent update: 2014-03-04 22:22:53

Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Energy engineering
(9:00–10:20) ( Inoue G.)
9:00– 9:20	K201	CsH₂PO₄/Polyvinylidene Fluoride Composite Electrolytes for Intermediate Temperature Fuel Cells (U. Tokyo) Qing Geletu, Kikuchi Ryuji	intermediate temperature fuel cell electrolyte CsH2PO4	9-e	258
9:20– 9:40	K202	Relationship between fiber structure and catalytic activity on nanofiber catalyst for direct fuel cells (Gunma U.) Ishitobi H., Ito Y., Nakagawa N.	Direct fuel cell Electrocatalyst Carbon nanofiber	9-e	303
9:40– 10:00	K203	Evaluation of SOFC performance and cost reduction potential for SOFC technology scenario (UTokyo) Otomo J., Oishi J., (JST-LCS) Mitsumori T., Iwasaki H., (JST-LCS / UTokyo) Yamada K.	solid oxide fuel cell cost analysis technology scenario	9-e	382
10:00– 10:20	K204	Anode reaction mechanism in direct carbon fuel cell using single carbon particle (Tokyo Tech.) Watanabe H., Furuyama T., Okazaki K.	Direct carbon fuel cell anode reaction single carbon	9-e	474
10:20– 10:40	Break
(10:40–12:00) ( Matsumoto T.)
10:40– 11:00	K206	Influence of the cell temperature on the overpotentials behavior in the direct formic acid fuel cells (Kanazawa U.) Tsujiguchi Takuya, Matsuoka Fumihiko, (Gunma U.) Nakagawa Nobuyoshi, (Kanazawa U.) Osaka Yugo, Kodama Akio	Direct Formic Acid Fuel Cell Mass Transport Electrode structure	9-e	617
11:00– 11:20	K207	Development of the Trimetallic PtFeNi Catalysts with Superlattice Structures for Polymer Electrolyte Fuel Cells (Kanagawa Academy of Sci. and Tech., Tokyo Inst. Technology) Kuroki Hidenori, Tamaki Takanori, (NISSAN ARC Ltd) Kamiguchi Kazuhiro, Kubobuchi Kei, Arao Masazumi, Matsumoto Masashi, Imai Hideto, (Kanagawa Academy of Sci. and Tech., Tokyo Inst. Technology) Yamaguchi Takeo	Polymer Electrolyte Fuel Cell Catalyst Superlattice Structure	9-e	786
11:20– 11:40	K208	Effect of activating condition on oxygen reduction reaction activity of silk-derived activated carbon (Shinshu U.) Fukunaga Hiroshi, Fukaya Jin, Shimada Iori, Takahashi Nobuhide, Takatsuka Toru, Hattori Yoshiyuki	PEFC Non-precious metal catalyst activated carbon	9-e	800
11:40– 12:00	K209	Elimination of Carbon Deposit by Oxidation Procedure in the Dry Gas Desulfurization Process for Oxy-fuel IGCC Power Generation with Carbon Dioxide Capture Capability. (CRIEPI) Kobayashi M, Nakao Y	IGCC with CO2 capture high temperature sulfur removal carbon deposition	9-e	3
Energy engineering
(15:20–17:00) ( Tsujiguchi Takuya, Kobayashi M)
15:20– 15:40	K220	Creating a model of biomass gasification and experimental proof (Yanmar CO., LTD.) Matsumoto T., Wakizaka H., Noda Y.	biomass gasification model grain diameter volatile gas composition	9-e	612
15:40– 16:00	K221	Diameter controlled Si nanowires fabricated for solar cells with minimum usage of metal catalyst (Tokyo Tech / JST) Zhang X, (Tokyo Tech) Akita H, Yamada K, Ihara M	Si nanowires chemical vapor deposition growth	9-e	579
16:00– 16:20	K222	Electrochemical capacitor electrodes of nanocarbons captured in nanotube matrix (U. Tokyo) Quintero Ricardo, (Waseda U.) Kim Dong Young, Hasegawa Kei, (U. Tokyo) Yamada Yuki, Yamada Atsuo, (Waseda U.) Noda Suguru	electrochemical capacitors hybrid electrodes carbon nanotubes	9-e	635
16:20– 16:40	K223	Electrochemical Properties of Li-ion Batteries with Improved Carbon Black Additive (Asahi Carbon Co., Ltd.) Yamaguchi Togo, Arimitsu Nozomi, Nishikawa Shogo	Cabon black Conductive additive Lithium ion battery	9-e	737
16:40– 17:00	K224	Effect of carbon conductive material and binder distribution on high rate performance of Lithium-ion battery (Kyoto U.) Inoue G., Ikishima J.	Lithuim-ion battery carbon conductive material mass transport	9-e	789

Time

Paper
ID

Title / Authors

Keywords

Topic code

Ack.
number

Energy engineering

(9:00–10:20) ( Inoue G.)

9:00– 9:20

K201

CsH₂PO₄/Polyvinylidene Fluoride Composite Electrolytes for Intermediate Temperature Fuel Cells

(U. Tokyo) Qing Geletu, Kikuchi Ryuji

intermediate temperature fuel cell
electrolyte
CsH2PO4

9-e

258

9:20– 9:40

K202

Relationship between fiber structure and catalytic activity on nanofiber catalyst for direct fuel cells

(Gunma U.) Ishitobi H., Ito Y., Nakagawa N.

Direct fuel cell
Electrocatalyst
Carbon nanofiber

9-e

303

9:40– 10:00

K203

Evaluation of SOFC performance and cost reduction potential for SOFC technology scenario

(UTokyo) Otomo J., Oishi J., (JST-LCS) Mitsumori T., Iwasaki H., (JST-LCS / UTokyo) Yamada K.

solid oxide fuel cell
cost analysis
technology scenario

9-e

382

10:00– 10:20

K204

Anode reaction mechanism in direct carbon fuel cell using single carbon particle

(Tokyo Tech.) Watanabe H., Furuyama T., Okazaki K.

Direct carbon fuel cell
anode reaction
single carbon

9-e

474

10:20– 10:40

Break

(10:40–12:00) ( Matsumoto T.)

10:40– 11:00

K206

Influence of the cell temperature on the overpotentials behavior in the direct formic acid fuel cells

(Kanazawa U.) Tsujiguchi Takuya, Matsuoka Fumihiko, (Gunma U.) Nakagawa Nobuyoshi, (Kanazawa U.) Osaka Yugo, Kodama Akio

Direct Formic Acid Fuel Cell
Mass Transport
Electrode structure

9-e

617

11:00– 11:20

K207

Development of the Trimetallic PtFeNi Catalysts with Superlattice Structures for Polymer Electrolyte Fuel Cells

(Kanagawa Academy of Sci. and Tech., Tokyo Inst. Technology) Kuroki Hidenori, Tamaki Takanori, (NISSAN ARC Ltd) Kamiguchi Kazuhiro, Kubobuchi Kei, Arao Masazumi, Matsumoto Masashi, Imai Hideto, (Kanagawa Academy of Sci. and Tech., Tokyo Inst. Technology) Yamaguchi Takeo

Polymer Electrolyte Fuel Cell
Catalyst
Superlattice Structure

9-e

786

11:20– 11:40

K208

Effect of activating condition on oxygen reduction reaction activity of silk-derived activated carbon

(Shinshu U.) Fukunaga Hiroshi, Fukaya Jin, Shimada Iori, Takahashi Nobuhide, Takatsuka Toru, Hattori Yoshiyuki

PEFC
Non-precious metal catalyst
activated carbon

9-e

800

11:40– 12:00

K209

Elimination of Carbon Deposit by Oxidation Procedure in the Dry Gas Desulfurization Process for Oxy-fuel IGCC Power Generation with Carbon Dioxide Capture Capability.

(CRIEPI) Kobayashi M, Nakao Y

IGCC with CO2 capture
high temperature sulfur removal
carbon deposition

9-e

Energy engineering

(15:20–17:00) ( Tsujiguchi Takuya, Kobayashi M)

15:20– 15:40

K220

Creating a model of biomass gasification and experimental proof

(Yanmar CO., LTD.) Matsumoto T., Wakizaka H., Noda Y.

biomass gasification model
grain diameter
volatile gas composition

9-e

612

15:40– 16:00

K221

Diameter controlled Si nanowires fabricated for solar cells with minimum usage of metal catalyst

(Tokyo Tech / JST) Zhang X, (Tokyo Tech) Akita H, Yamada K, Ihara M

Si nanowires
chemical vapor deposition
growth

9-e

579

16:00– 16:20

K222

Electrochemical capacitor electrodes of nanocarbons captured in nanotube matrix

(U. Tokyo) Quintero Ricardo, (Waseda U.) Kim Dong Young, Hasegawa Kei, (U. Tokyo) Yamada Yuki, Yamada Atsuo, (Waseda U.) Noda Suguru

electrochemical capacitors
hybrid electrodes
carbon nanotubes

9-e

635

16:20– 16:40

K223

Electrochemical Properties of Li-ion Batteries with Improved Carbon Black Additive

(Asahi Carbon Co., Ltd.) Yamaguchi Togo, Arimitsu Nozomi, Nishikawa Shogo

Cabon black
Conductive additive
Lithium ion battery

9-e

737

16:40– 17:00

K224

Effect of carbon conductive material and binder distribution on high rate performance of Lithium-ion battery

(Kyoto U.) Inoue G., Ikishima J.

Lithuim-ion battery
carbon conductive material
mass transport

9-e

789

Technical program

SCEJ 79th Annual Meeting (Gifu, 2014)

© 2014 The Society of Chemical Engineers, Japan. All rights reserved.
Most recent update: 2014-03-04 22:22:53
For more information contact Organizing Committee, SCEJ 79th Annual Meeting (Gifu, 2014)
E-mail: inquiry-79a

www3.scej.org

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