Last modified: 2022-03-04 12:00:00
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
Hall L, Day 2 | |||||
5. Chemical reaction engineering | |||||
(9:00–10:20) (Chair: | |||||
L201 | Effect of Frequency on Threshold Power for Ultrasonic Degradation of Phenol | Ultrasonic degradation Frequency Threshold power | 5-b | 536 | |
L202 | CO2 Reduction Performance of TiO2 Photocatalyst in the Case of Utilizing Infrared Light for Mass Transfer Promotion | Photocatalyst CO2 Reduction Performance Mass Transfer Promotion | 5-c | 15 | |
L203 | Development of ethanol upgrading to butanol on solid catalysts | butanol production upgrading of ethanol solid catalyst | 5-a | 523 | |
L204 | Effect of reactant partial pressure on small olefins formation over LTA-type zeolite | MTO reaction ETP reaction catalysis | 5-a | 702 | |
(10:40–11:40) (Chair: | |||||
L206 | Effect of selenium addition to Pt/TiO2 catalyst for methylcyclohexane dehydrogenation | Methylcyclohexane dehydrogenation Pt/TiO2 catalyst selenium promoter | 5-a | 18 | |
L207 | Behavior of catalytic activity for propane dehydrogenation influenced by the loading of nickel oxide supported on alumina | dehydrogenation propane nickel oxide | 5-a | 35 | |
L208 | Effect of Ru element on lattice S2- redox and propane dehydrogenation property of Fe-based catalyst | Propane dehydrogenation Lattice sulfide Redox | 5-a | 494 | |
(11:40–12:00) (Chair: | |||||
L209 | [The SCEJ Award for Outstanding Young Researcher] Development of Carbon-supported Metal Catalysts Using Ion Exchange Resins as Precursor of Carbon Support for Highly Fast and Selective Hydrogen Production | The SCEJ Award for Outstanding Young Researcher | 0-c | 729 | |
(13:00–14:00) (Chair: | |||||
L213 | Development of CO2 hydrogenation catalysts based on characteristics of mixed oxides | CO2 hydrogenation Catalyst Metal oxide composite | 5-a | 185 | |
L214 | Performance of structured catalyst system contributing to high-flow rate methanation of CO2 exhausted from industrial process | Methanation Structured catalyst CCU | 5-a | 559 | |
L215 | Methanation performance of 2-stage spiral type structured catalyst system using real CO2gas exhausted from cement clinker production | Methanation Structured catalyst Cement clinker exhaust | 5-a | 541 | |
(14:00–14:40) (Chair: | |||||
L216 | Effect of SiO2 addition on the pore structure and the catalytic activity of 60wt%Ni/CeO2 | Flame spray pyrolysis Ni catalyst CO2 methanation | 5-a | 206 | |
L217 | [Featured presentation] Start-up of CO2 methanation Reactor by Heat of H2 Combustion | CO2 Methanation Power-to-Gas Power-to-Methane | 5-e | 49 | |
(15:00–16:00) (Chair: | |||||
L219 | Model-based comparison of batch and flow syntheses for heterogeneous hydrogenation reaction in drug substance manufacturing | Heterogeneous hydrogenation Batch and flow synthesis Drug substance manufacturing | 5-i | 414 | |
L220 | Scale-up of Pd/C-Catalyzed Hydrogenation of Methyl Cinnamate under Continuous Flow Conditions | Scale-up Hydrogenation Flow Fine Synthesis | 5-f | 420 | |
L221 | Scale-up of Pt-Catalyzed Oxidation with Hydrogen Peroxide under Continuous Flow Conditions | Flow Fine Synthesis Hydrogen Peroxide Scale-up | 5-f | 535 | |
(16:00–17:00) (Chair: | |||||
L222 | Continuous flow reaction with immobilized catalyst on polymer monolith and residence time distribution analysis | Polymer Monolith Continuous flow reaction Molecular catalyst | 5-f | 675 | |
L223 | Recovery of Useful Components from Unutilized Seaweed Resources using Biphasic Organosolv Treatment | Seaweed Organosolv Treatment Cellulose | 5-g | 104 | |
L224 | Catalytic pyrolysis of cellulose using deep eutectic solvent for levoglucosenone production | Biomass Celluloce Deep eutectic solvent | 5-g | 692 | |
Hall L, Day 3 | |||||
(13:00–14:20) (Chair: | |||||
L313 | Methodology of ex situ visualization and characterization of porous materials for polymer electrolyte fuel cells | Polymer electrolyte fuel cells Pores Transport phenomena | 5-a | 369 | |
L314 | Analysis of structure and transport of porous material for PEFC (2) Ex-situ visualization of wetting dynamics in the microporous layer | Polymer electrolyte fuel cells Pores Transport phenomena | 5-i | 667 | |
L315 | Photon utilization efficiency of CO2 decomposition by excimer lamp | carbon dioxide photochemical reaction vacuum ultraviolet light | 5-e | 48 | |
L316 | Reaction Conditions for purification in the thermochemical water-splitting iodine-sulfur process | hydrogen production IS process | 5-i | 545 | |
Organized Session (CVD Reactions Section, Division of Chemical Reaction Engineering) | |||||
(14:40–15:40) (Chair: | |||||
L318 | Comparative study on precursors in Co-ALD process | ALD cobalt precursor | 5-h | 585 | |
L319 | Density Function Theory Study of Cu(II) Acetylacetonate Adsorption on Cu (111) surface | Atomic Layer Depositon Density Function Theory Surface Adsorption | 5-h | 110 | |
L320 | CVD of methylammonium bismuth iodide perovskite using molten bismuth | CVD perovskite methylammonium bismuth iodide | 5-h | 649 | |
(15:40–17:00) (Chair: | |||||
L321 | Preparation of Ag-embedded TiO2 film by reducing metal ions via plasma-enhanced chemical vapor deposition | nanoparticles photocatalytic activity morphology | 5-h | 492 | |
L322 | Construction of surface reaction model of TiAlN-CVD based on theoretical study | TiAlN CVD Surface reaction kinetics | 5-h | 578 | |
L323 | Consideration of the factors of more uniform growth in SiC-CVI from MTS/H2 by addition of SiCl4 | SiC CVI CMC | 5-h | 511 | |
CVD reaction subdivision encouragement award ceremony |
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SCEJ 87th Annual Meeting (Kobe, 2022)