Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
Energy engineering | |||||
(9:00–10:20) ( Inoue G.) | |||||
K201 | CsH2PO4/Polyvinylidene Fluoride Composite Electrolytes for Intermediate Temperature Fuel Cells | intermediate temperature fuel cell electrolyte CsH2PO4 | 9-e | 258 | |
K202 | Relationship between fiber structure and catalytic activity on nanofiber catalyst for direct fuel cells | Direct fuel cell Electrocatalyst Carbon nanofiber | 9-e | 303 | |
K203 | Evaluation of SOFC performance and cost reduction potential for SOFC technology scenario | solid oxide fuel cell cost analysis technology scenario | 9-e | 382 | |
K204 | Anode reaction mechanism in direct carbon fuel cell using single carbon particle | Direct carbon fuel cell anode reaction single carbon | 9-e | 474 | |
Break | |||||
(10:40–12:00) ( Matsumoto T.) | |||||
K206 | Influence of the cell temperature on the overpotentials behavior in the direct formic acid fuel cells | Direct Formic Acid Fuel Cell Mass Transport Electrode structure | 9-e | 617 | |
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, | Polymer Electrolyte Fuel Cell Catalyst Superlattice Structure | 9-e | 786 | |
K208 | Effect of activating condition on oxygen reduction reaction activity of silk-derived activated carbon | PEFC Non-precious metal catalyst activated carbon | 9-e | 800 | |
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. | IGCC with CO2 capture high temperature sulfur removal carbon deposition | 9-e | 3 | |
Energy engineering | |||||
(15:20–17:00) ( Tsujiguchi Takuya, Kobayashi M) | |||||
K220 | Creating a model of biomass gasification and experimental proof | biomass gasification model grain diameter volatile gas composition | 9-e | 612 | |
K221 | Diameter controlled Si nanowires fabricated for solar cells with minimum usage of metal catalyst | Si nanowires chemical vapor deposition growth | 9-e | 579 | |
K222 | Electrochemical capacitor electrodes of nanocarbons captured in nanotube matrix | electrochemical capacitors hybrid electrodes carbon nanotubes | 9-e | 635 | |
K223 | Electrochemical Properties of Li-ion Batteries with Improved Carbon Black Additive | Cabon black Conductive additive Lithium ion battery | 9-e | 737 | |
K224 | Effect of carbon conductive material and binder distribution on high rate performance of Lithium-ion battery | Lithuim-ion battery carbon conductive material mass transport | 9-e | 789 |