Last modified: 2024-09-19 02:24:28
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In this symposium, we call for lectures on innovative "conversion, storage and utilization" technology of material and energy, such as electrolytic synthesis, electrodeposition, electrolysis, fuel cell, secondary battery, solar cell, flow battery. We accept lectures widely from the view point of nano-scaled material development as well as energy system development and design. Furthermore, we plan to discuss about the contribution of chemical engineering to these technologies.
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
Hall S, Day 1 | |||||
(8:40–10:00) (Chair: | |||||
S100 | Two-phase masstransport analysis for direct formic acid fuel cell | DFAFC Two-phase mass transport porous electrode | ST-23 | 947 | |
S101 | Power generation characteristics of solid oxide fuel cell using simulated syn gas from biomass gasification | SOFC Biomass gasified gas SEM | ST-23 | 414 | |
S102 | Impact of microwave treatment on the catalytic properties of MOF-derived catalysts for the oxygen reduction reaction | ZIF-8 Fuel cell | ST-23 | 493 | |
S103 | Fe-N-C-Si universal pH ORR catalyst synthesized from unused environmental resources via hydrothermal doping and carbonization | Biomass Hydrothermal treatment Catalyst | ST-23 | 365 | |
(10:00–11:00) (Chair: | |||||
S104 | Operando analysis of water transport in polymer electrolyte fuel cells(5) Water distribution along channel direction with 100 mm length | Polymer electrolyte fuel cell Synchrotron X-ray radiography Back-diffusion | ST-23 | 23 | |
S105 | Operando analysis of water transport in polymer electrolyte fuel cells(6) Liquid water visualization in the Pt-loading catalyst layers using operando synchrotron X-ray radiography | Polymer electrolyte fuel cell Synchrotron X-ray radiography Catalyst layer | ST-23 | 1 | |
S106 | Operando analysis of water transport in polymer electrolyte fuel cells(7) Neutron Radiography for Automotive PEFC During Start at Sub-zero temperature | Neutron Polymer electrolyte fuel cell Imaging | ST-23 | 204 | |
(11:00–12:00) (Chair: | |||||
S107 | [Invited lecture] Application of Hydrogen Recirculating Energy System for the Isotopes Separation | Water Electrolysis Fuel Cell Deuterium | ST-23 | 41 | |
(13:00–14:00) (Chair: | |||||
S113 | Understanding of water transport through membrane electrode assembly in PEFC | polymer electrolyte fuel cell water transport membrane electrode assembly | ST-23 | 802 | |
S114 | Oxygen Concentration and Reaction Rate Profiles Analysis of PEFC | polymer electrolyte fuel cell mass transfer resistance electrochemical engineering | ST-23 | 750 | |
S115 | Analysis of temperature and relative humiditiy dependency of the oxygen reduction reaction rate of PEFC | polymer electrolyte fuel cell oxygen reduction reaction mass transfer resistance | ST-23 | 664 | |
(14:00–15:20) (Chair: | |||||
S116 | Construction of a machine learning model for predicting the characteristics from the fuel cell electrode catalyst layer preparation process | Fuel Cell Electrode Machine learning | ST-23 | 489 | |
S117 | Analysis of the state of fuel cell electrode catalyst ink using impedance spectroscopy | Catalyst ink Impedance spectroscopy Fuel cell | ST-23 | 495 | |
S118 | Study of PEFC carbon corrosion ~First report: The effect of Pt/C surface conditions changed by applied voltages~ | PEFC Carbon corrosion Surface conditions | ST-23 | 562 | |
S119 | Study of PEFC carbon corrosion -Second report: The effect of oxygen supply to cathodes- | PEFC Carbon corrosion Oxygen supply | ST-23 | 118 | |
(15:20–16:40) (Chair: | |||||
S120 | Research and development of fuel cell systems from process systems engineering perspective | Fuel cell Process systems engineering Multi-scale simulation | ST-23 | 698 | |
S121 | [Featured presentation] A fuel cell catalyst degradation model for the integration to the fuel cell system simulator | fuel cell simulation degradation | ST-23 | 256 | |
S122 | Optimization of operation conditions of fuel cell systems based on material properties using model predictive control | Fuel Cell Systems Model Predictive Control | ST-23 | 696 | |
S123 | Development of an optimization method for the setpoints of air and coolant system states in fuel cell systems | Fuel Cell Optimization Control | ST-23 | 1137 | |
(16:40–17:40) (Chair: | |||||
S124 | An inferential control system of hydrogen concentration of exhaust gas from fuel cell systems | Polymer electrolyte fuel cell Exhaust gas Inferential control | ST-23 | 673 | |
S125 | Reaction model for titanium hydride formation | Reaction kinetics Heat storage Metal hydride | ST-23 | 117 | |
S126 | Comparison of experimental and estimated pressures during thermal change using metal hydride for sub-zero temperature | Metal hydride Thermal change Hydrogen pressure | ST-23 | 396 | |
Hall S, Day 2 | |||||
(9:00–10:00) (Chair: | |||||
S201 | Development of wire type electrical heated catalyst | alumite catalyst electrical heated catalyst wire type catalyst | ST-23 | 738 | |
S202 | LMO resynthesis from leachate and bio-graphite synthesis from woody sawdust for the creation of environmentally low-impact LIBs | LIB Graphite Hydrothermal | ST-23 | 298 | |
S203 | Numerical analysis of effect of particle size distribution on ionic conductive path in electrode for all solid state battery | Discrete Element Method All solid state batteries Shortest path algorithm | ST-23 | 922 | |
(10:00–11:00) (Chair: | |||||
S204 | Temperature dependency on the charge/discharge characteristics of carbon air secondary battery system | solid oxide fuel cell carbon dioxide | ST-23 | 593 | |
S205 | Development of nickel-based fuel electrode for carbon/air secondary battery system balancing high efficiency and improvement in durability. | carbon/air secondary battery system solid oxide fuel cell carbon dioxide | ST-23 | 342 | |
S206 | Discharge and Charge Characteristics of carbon/air secondary battery system Systems Depending on Thermet Electrodes | solid oxide fuel cell battery carbon dioxide | ST-23 | 672 | |
(11:00–12:00) (Chair: | |||||
S207 | [Invited lecture] The future of Hokkaido created by climate change measures - Zero Carbon Hokkaido - | Carbon Neutrality Renewable energy Hokkaido goverment policy | ST-23 | 1139 | |
Hall S, Day 3 | |||||
(9:00–10:00) (Chair: | |||||
S301 | Development of Efficient Nickel-based Phosphate Electrocatalysts for Oxygen Evolution Reaction in Water Electrolysis | Water electrolysis electrocatalyst density functional theory | ST-23 | 244 | |
S302 | Development of three-dimensional electrode for water electrolysis using layered double hydroxide catalyst and carbon nanotube film | Water electrolysis Layered double hydroxide Carbon Nanotube | ST-23 | 312 | |
S303 | Anion exchange membrane water electrolysis using self-supported porous anode catalyst and an ether-free aromatic polyelectrolyte membrane | Water electrolysis Membrane eectrode assembly Anion exchange membrane | ST-23 | 644 | |
(10:00–11:00) (Chair: | |||||
S304 | Urea electrosynthesis from N2 and carbonate solution using boric acid-treated nickel electrodes | Urea synthesis CO2 recycling Electrosynthesis | ST-23 | 689 | |
S305 | Electrolyte effects in ethanol electro-reforming in acidic electrolytes | Ethanol electro-reforming Hydrogen production Electrolyte effect | ST-23 | 497 | |
S306 | The consideration of the fossil resource reduction effect of an agrivoltaics and thermal energy storage system in the Tokachi region. | photovoltaics agrivoltaics thermal energy storage | ST-23 | 1091 | |
(11:00–12:00) (Chair: | |||||
S307 | [Invited lecture] Air Water Group's Efforts to Development of a Decarbonized Energy Supply Chain S307 will be presented by (Air Water) Tanaka Masako. | Biomethane Hydrogen Carbon Neutral Energy | ST-23 | 1035 | |
(13:00–14:00) (Chair: | |||||
S313 | [Invited lecture] Developing Heterogeneous Catalysts for the Synthesis of Useful Substances Using Carbon Dioxide as a Raw Material | Heterogeneous catalysis Carbon dioxide methanol | ST-23 | 1129 | |
(14:00–15:20) (Chair: | |||||
S316 | CO2 Methanation Process Using Ni/YSZ Tubular Reactor | Methanation Catalyst Reactor | ST-23 | 934 | |
S317 | Electrochemical CO2 reduction activity of gold nanoparticle-loaded gas diffusion electrodes fabricated by a sputtering process | CO2 electrolysis Nanoparticles gas diffusion electrode | ST-23 | 850 | |
S318 | R&D for Synthetic Liquid Fuel Production Process Using SOEC | carbon recycling SOEC e-fuel | ST-23 | 325 | |
S319 | Electrochemical CO2 reduction reaction under hydrothermal conditions using porous electrodes | Nano porous Hydrothermal CO2RR | ST-23 | 799 | |
(15:20–16:40) (Chair: | |||||
S320 | Development of Exhaust Heat-Driven CO2 High-Pressure Hydrogenation Process Using Hydrogen Storage Alloys | Metal Hydride Carbon Dioxide Exhaust Heat | ST-23 | 656 | |
S321 | Ammonia synthesis from water and nitrogen using an electrochemical cell with molten alkali metal hydroxide electrolytes and hydrogen-permeable membrane cathodes | ammonia synthesis molten solt electrolytes green ammonia | ST-23 | 258 | |
S322 | Impregnation of Metal Catalysts and Structural Evaluation of Electrode-Supported Cells for Ammonia Electrosynthesis | Ammonia Electrosynthesis Electrode-Supported Cells Protonic Ceramic Electrolysis Cells | ST-23 | 1014 | |
S323 | Ammonia electrolysis for hydrogen generation using metal nanoparticle-supported carbon nanotube film electrodes | Hydrogen generation Ammonia electrolysis Metal nanoparticles | ST-23 | 1058 | |
(16:40–17:00) (Chair: | |||||
S324 | General discussion ~Issue of material and system in electlysis and material conversion~ | electlysis material conversion system | ST-23 | 1094 |
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SCEJ 55th Autumn Meeting (Sapporo, 2024)