Last modified: 2024-09-19 02:24:28
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
SY-64 [Symposium of Division of Chemical Reaction Engineering] New Development of Reaction Engineering in the Field of Natural Resources, Energy, and Environment (Oral Session) | |||||
(8:40–10:20) (Chair: | |||||
F200 | Development of Ni-based catalysts using aluminum-based industrial waste for steam reforming of methane | Steam reforming of methane Nickel catalyst Industrial waste | SY-64 | 686 | |
F201 | Physical acceleration effect of Cu-Zn based spiral-type catalysts for reverse water-gas shift reaction | Spiral catalyst Chemical plating Reverse water-gas shift | SY-64 | 274 | |
F202 | Proposal for a new hydrogen production method: supplying electrons in steam reforming | Electron Steam reforming Flow reactor | SY-64 | 1114 | |
F203 | Performance of partial oxidation of methane by spiral-type catalyst system with low-power electric heating | Electric heating Partial oxidation of methane | SY-64 | 1092 | |
F204 | Kinetics of methane decomposition over Fe/Al2O3 catalyst | Methane decomposition Hydrogen production Fe catalyst | SY-64 | 951 | |
(10:20–12:00) (Chair: | |||||
F205 | Catalysts for the synthesis of lower olefins by direct CO2 hydrogenation | lower olefins Fischer-Tropsch reaction Fischer-Tropsch reaction | SY-64 | 285 | |
F206 | Numerical analysis for integrated CO2 capture and conversion process using a simulated moving bed of a dual-function material | dual-function materials CO2 capture and utilization simulated moving bed | SY-64 | 771 | |
F207 | High energy efficiency and long durability of an electrically heated spiral-type structured catalyst system for methanation | Electrical heating CO2 methanation Structured catalyst | SY-64 | 1006 | |
F208 | Predicting kinetic constants for organic pollutant degradation in US/Oxidant systems using machine learning | Ultrasonics oxidants machine learning | SY-64 | 269 | |
F209 | [The Outstanding Paper Award] Performance intensification of CO2 methanation by co-feeding oxygen over various Ru-based catalysts | Methanation Carbon dioxide CCU | SY-64 | 127 | |
(12:40–13:40) (Chair: | |||||
F212 | Comparison of Hydrogen Production Capability in Shale Gas Wastewater Electrolysis Using Nickel Foam Electrode Loaded with Mo, S, and C | Hydrogen production Electrolysis Electrode | SY-64 | 462 | |
F213 | Innovative technology for CO2 fixation: Comparison of | Carbon capture Exergy CCU | SY-64 | 1013 | |
F214 | A positive effect of gas recycling on dual-type dry reforming of CH4 by structured catalyst system | Dual dry reforming Carbon capture Gas recycle | SY-64 | 630 | |
(13:40–14:40) (Chair: | |||||
F215 | Optimization study of CO2 methanation reactor using rod-shaped catalyst | CO2 utilization Methanation | SY-64 | 123 | |
F216 | Pore size of catalyst carrier of core-shell methanation catalyst and effect of cocatalyst | Co/Al2O3 Methanation Catalysts | SY-64 | 1030 | |
F217 | Effect of electrolyte on electrical recycling method of carbon fiber reinforced plastics | CFRP recycling Electrical treatment Nitric acid | SY-64 | 80 | |
(14:40–16:00) (Chair: | |||||
F218 | Development of a reaction kinetic model of hydrothermal synthesis of formic acid from KHCO3 solution. | CCU alkali bicarbonate chemical absorption | SY-64 | 884 | |
F219 | The Separation, Recovery, and Recycling of Carbon Fibers from CFRP Using Electromagnetic Heating Technology | CFRP Microwave Thermolysis Atmosphere | SY-64 | 959 | |
F220 | Devolopment of an auto-thermal reactor for ammonia decomposition | Ammonia ATR Hydrogen | SY-64 | 583 | |
F221 | Removal of ammonia adsorbed on fly ash from pulverized coal combustion | Pulverized coal combustion Ammonia Ozone | SY-64 | 590 |
Technical program
Technical sessions (Wide)
(For narrow screen)
Session programs
Search in technical program
SCEJ 55th Autumn Meeting (Sapporo, 2024)