Day 2 | |||||
---|---|---|---|---|---|
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
Chemical reaction engineering | |||||
(13:00–15:00) (Chair: Harano A., Kikuchi R.) | |||||
D213 | Production of organic acids from lignocellulosic biomass under basic condition | Biomass Basic treatment Lactic acid | 5-g | 341 | |
D214 | Production of a green solvent by two-step catalytic reforming of volatiles from cellulose pyrolysis | Cellulose Pyrolysis Reforming | 5-g | 681 | |
D215 | Utilization of waste egg shell as a catalyst for steam reforming of biomass tar | biomass tar steam reforming egg shell | 5-g | 23 | |
D216 | Growth rate and final biomass concentration of five types of marine microalgae in F2 medium: Targeting biomass production and carbon capture | marine microalgae growth biomass production | 5-g | 744 | |
D217 | Transesterification of palm oil with methanol in a millichannel reactor: Effect of tube internal diameter | millichannel reactor transesterification FAME yield | 5-g | 769 | |
D218 | Torrefaction of empty fruit bunches under inert, oxygen, carbon dioxide and oxygen/carbon dioxide atmospheres | torrefaction empty fruit bunches oxidative atmosphere | 5-g | 782 | |
Break | |||||
(15:20–16:40) (Chair: Hayashi J.) | |||||
D220 | Oligomerization of organic compounds with pulsed discharges at argon-aqueous solution interface | Pulsed discharges Amino acids Oligomerization | 5-c | 814 | |
D221 | Measurement of the active oxygen species formed by the ultrasound/microbubble combined system | マイクロバブル 超音波 活性酸素 | 5-c | 129 | |
D222 | Reaction of sea water components with NO2 | denitration Raman spectroscopy sea water | 5-c | 44 | |
D223 | (withdrawn) | 100 | 631 | ||
Day 3 | |||||
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
Chemical reaction engineering | |||||
(9:00–10:20) (Chair: Nakagawa K., Sasaki T.) | |||||
D301 | Kinetic analysis for NH3 decomposition reaction on Ni and Ru catalysts | ammonia decomposition Hydrogen production Kinetic model | 5-a | 7 | |
D302 | Additive effect of chromium on Cu/CeO2 catalyst for CO oxidation | CO oxidation composite metal oxide copper | 5-a | 194 | |
D303 | The effect of metal addition to Cu/HZSM-5 catalysts on the activity of phenol synthesis | partial oxidation phenol synthesis Cu/HZSM-5 | 5-a | 307 | |
D304 | Improvement of catalytic activity by addition of myristic acid in preparation of supported Pt-Pd catalytsts | Pt-Pd Catalyst Myristic Acid Decane Oxidation | 5-a | 273 | |
Break | |||||
(10:40–12:00) (Chair: Ichihashi Y, Takahashi A.) | |||||
D306 | Development of an analysis method for active site concentration of heterogeneous catalytic reactions | heterogeneous catalytic reaction active site concentration reaction kinetics | 5-a | 821 | |
D307 | Hydrothermal synthesis and catalytic reaction on alcohol dehydration of high surface area ceria | Cerium oxide Hydrothermal synthesis Catalytic dehydration | 5-a | 38 | |
D308 | Preparation of Single Layer Niobate Nanosheets Photocatalysts by A Bottom-Up Approach and Hydrogen Evolution from Water/Methanol Solution | nanosheet photocatalyst niobate | 5-a | 601 | |
D309 | Reaction selectivity of sour shift catalyst in low steam operation | shift catalyst reaction rselectivity side reaction | 5-a | 322 | |
(13:00–15:00) (Chair: Fukushima Y., Kishida M.) | |||||
D313 | Production of high calorific gas fuel by decomposition of glycerol with iron ore | glycerol iron ore decomposition | 5-a | 152 | |
D314 | Ionic liquid-TEOS polymer catalyst | ionic liquid TEOS polymer catalyst | 5-a | 560 | |
D315 | Development of Carbon-Based Catalysts for Enhancement of GTBE Synthesis and Measurement of Dielectric Properties | glycerin microwave carbon catalysts | 5-a | 806 | |
D316 | Washcoat Layer Structure and Intra-layer Mass Transport Simulation of Automotive Catalyst | catalyst washcoat simulation | 5-a | 377 | |
D317 | Dimensionless equations of cathode model of polymer electrolyte fuel cell | Polymer electrolyte fuel cell Cathode model Oxygen reduction reaction | 5-a | 818 | |
D318 | Electrolyte selection for electrochemical reduction of carbon dioxide | Electrochemical reduction Carbon dioxide Electrolyte | 5-i | 301 | |
Ceremony of Young Researcher Award on Section of CVD Reactions | |||||
(15:20–17:00) (Chair: Tsukune A., Sasaki M.) | |||||
D320 | Construction of the overall reaction model for opitmizing SiC-CVD using Methyltrichlorosilane | Overall reaction model SiC CVD | 5-h | 657 | |
D321 | Study on the Sticking Probability of SiC-CVD Species Using Methyltrichlorosilane (3) | CVD SiC methyltrichlorosilane | 5-h | 672 | |
D322 | Preparation of metal oxide layer on carbon nanotubes by in-flight coating | Plasma enhanced chemical vapor deposition Composite materials Film formation | 5-h | 178 | |
D323 | Effects of hydrogen addition on silica film growth by plasma CVD | Plasma CVD silica hydrogen addition | 5-h | 303 | |
D324 | Genaration and electrostatic collection of ultrafine solid particles by ultrasonic atomization | Ultrasonic atomization Ultrafine solid particle Electrostatic charge | 5-b | 811 |