easp 2.39; proghtml 2.37 (C)1999-2015 kawase
Day 1 | |||||
|---|---|---|---|---|---|
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
| Chemical reaction engineering | |||||
| (13:00–14:20) (Chair: Sasaki Mitsuru, Uemura Yoshimitsu) | |||||
| D113 | Nanocellulose extraction by combination of ionic liquid and ball milling method | Nanocellulose Ion liquid Ball-milling | 5-g | 229 | |
| D114 | Reaction mechanism of upgrading bio-oil over magnesium loaded zeolite | Magnesium loaded USY zeolite Oil upgrading Stability | 5-g | 232 | |
| D115 | Deoxygenation reaction mechanism in catalytic cracking of vegetable oil | vegetable oil catalytic cracking deoxygenation | 5-g | 531 | |
| D116 | Effect of reaction conditions on conversion of furfural produced from biomass to aromatic hydrocarbons over ZSM-5 | Bagasse Furfural Aromatic hydrocarbons | 5-g | 674 | |
| (15:00–16:40) (Chair: Shimada Iori, Fukudome Kenta) | |||||
| D119 | Enhancement effect of O2 and CO2 towards torrefaction of empty fruit bunches | torrefaction empty fruit bunches oxidative atmosphere | 5-g | 810 | |
| D120 | Characterization of empty fruit bunches torrefied under O2 and CO2 atmospheres | torrefaction oxidative atmosphere characterization | 5-g | 814 | |
| D121 | Effect of nanosecond pulsed arc discharges on the synthesis of poly-N-isopropylacrylamide | Pulsed arc discharge PNIPAM Reaction mechanism | 5-c | 796 | |
| D122 | Impact of Layout Condition of Metal-loaded TiO2 Coated on Different Substrates on CO2 Reforming Performance | Metal-loaded TiO2 CO2 Reforming Different Substrates Combination | 5-c | 18 | |
| D123 | Ni-based structured catalyst system for capturing carbon from methane dry reforming gas | Methane dry reforming Carbon capture Structured catalyst | 5-a | 849 | |
Day 2 | |||||
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
| Fluid & particle processing | |||||
| (9:00–10:20) (Chair: Kamiya Tetsu, Kaide Aya) | |||||
| D201 | Torque variation analysis of rotationally reciprocating impeller using viscoelastic fluids | FFT harmonic wave relaxation time | 2-b | 897 | |
| D202 | Development of a quantitative evaluation method of mixing performance of static mixers | Static mixer Flow visualization Mixing evaluation | 2-b | 400 | |
| D203 | Design for Multiphase Mixing Tank with Draft Tube Using Numerical Simulation | Mixing CFD Simulation | 2-b | 555 | |
| D204 | Computer Experiment of a Mixing Vessel by the Renormalization Molecular Dynamics Method | Mixing MAXBLEND Impeller Molecular Dynamics | 2-b | 67 | |
| (10:20–12:00) (Chair: Komoda Yoshiyuki, Yajima Takaaki) | |||||
| D205 | Velocity vector field on mixing pattern change and its characteristics | mixing pattern pattern velocity streakline | 2-b | 366 | |
| D206 | Dynamic formalization of mixing pattern diagram and golden ratio condition | mixing pattern golden ratio pattern dynamics | 2-b | 368 | |
| D207 | Optimization with configuration of high shear rotor-stator mixer using CFD analysis | Rotor stator mixer CFD Energy dissipation rate | 2-b | 589 | |
| D208 | Preliminary evaluation of mixing devices using CFD analysis Part.1 Case study of mesh method(Finite volume method) | CFD analysis mixing devices Finite volume method | 2-b | 806 | |
| D209 | Preliminary evaluation of mixing devices using CFD analysis Part.2 Case study of mesh less method(MPS method) | CFD Moving Particle Simulation Mixing | 2-e | 588 | |
| Chemical reaction engineering | |||||
| (13:00–14:20) (Chair: Makino Soichiro) | |||||
| D213 | Gas-phase continuous production of carbon nanotubes of smaller diameters at higher yields | carbon nanotubes chemical vapor deposition aerosol catalysts | 5-h | 883 | |
| D214 | On-substrate synthesis of carbon nanotubes for device applications | carbon nanotubes chemical vapor deposition self-organization | 5-h | 886 | |
| D215 | Fluidized-bed production of long carbon nanotubes and creation of three-dimensional electrodes for electric storage devices | carbon nanotubes fluidized bed electric storage devices | 5-h | 894 | |
| D216 | Roles of pre-anneal treatment for graphene CVD growth | graphene pre-anneal chemical vapor deposition | 5-h | 402 | |
| (14:20–16:00) (Chair: Watanabe Ryo, Momose Takeshi) | |||||
| D217 | Development of product by biomass (dried gourd) in Tochigi prefecture | Desiccating tablet Dried gourd Kanpyo | 5-g | 133 | |
| D218 | A study of deposition suppression on side-walls in vertical rotating disk reactor (Toyota Central R&D Labs., Inc.) *Makino Soichiro, | CVD CFD deposition | 5-h | 628 | |
| D219 | Structure formation of composite thin films by vapor/solid-precursor PECVD | composite material plasma synthesis aerosol nanoparticle deposition | 5-h | 762 | |
| D220 | Rapid vapor deposition of active materials and current collectors toward high-capacity, light-weight electric storage devices | vacuum vapor deposition thin films lithium secondary batteries | 5-h | 905 | |
| D221 | Catalyst Nucleation and Carbon Nanotube Growth from Flame-Synthesized Co-Al-O Nanopowders at 10 Second Time Scale | carbon nanotubes cobalt nanoparticles chemical vapor deposition | 5-h | 906 | |
| (16:00–17:00) (Chair: Hasegawa Kei, Yoshihara Naoki) | |||||
| D222 | Process development for highly conformal filling of SiC-CVI using a sacrificial layer | CVD SiC methyltrichlorosilane | 5-h | 800 | |
| D223 | Effect of temperature and pressure on SiC-CVI using ultra high aspect ratio features | CVD SiC methyltrichlorosilane | 5-h | 812 | |
| D224 | Construction of the overall reaction model for opitmizing SiC-CVD using Methyltrichlorosilane | SiC CVD Modelization | 5-h | 910 | |
Day 3 | |||||
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
| Chemical reaction engineering | |||||
| (9:00–10:40) (Chair: Taniya Keita, Nakazato Tsutomu) | |||||
| D301 | Liquid-liquid extraction of lithium and cobalt ions using a slug flow microreactor | Micro channel Slug flow Selective separation | 5-f | 183 | |
| D302 | Wettability treatment of microchannels for forming multiple emulsions | droplet microfluidics surface | 5-f | 50 | |
| D303 | Study on methane reforming reaction using new designed plate reactors | plate reactor methane reforming low pressure | 5-f | 578 | |
| D304 | Effect of channel and operation conditions on interface mass transfer in microchannel | microchannel mass transfer slug flow | 5-f | 971 | |
| D305 | Development of a reduction system of nitrate ion for on-site water quality testing equipments | microreactor system for reduction copper reductant nitrate ion | 5-f | 54 | |
| (11:00–12:00) (Chair: Muto Akinori, Fukuda Takashi) | |||||
| D307 | Catalyst degradation in the oxidative dehydrogenation of 1-butene on Bi-Mo Oxide | catalyst degradation oxidative dehydrogenation 1-butene | 5-a | 20 | |
| D308 | Catalytic performance of metal-containing hydroxyapatites in oxidative dehydrogenation of propane | propane oxidative dehydrogenation hydroxyapatite | 5-a | 970 | |
| D309 | Single TG Curve Method for the Calculation of Activation Energy of Ag/CeO2-Catalyzed PM Combustion | Kinetics Analysis Activation Energy Calculation Catalytic PM Combustion | 5-a | 844 | |
| (13:00–14:20) (Chair: Sugiyama Shigeru, Taguchi Minori) | |||||
| D313 | Development of Fuel Processor for residential PEFC System | PEFC reformer CO convert reaction | 5-e | 15 | |
| D314 | Effect of promoter added in iron oxide-based structured catalyst on water gas shift reaction | Water gas shift reaction iron oxide structured catalyst | 5-a | 318 | |
| D315 | Cu Particle size and Support Effect on CO2 Hydrogenation to MeOH over Supported Cu Catalysts | CO2 hydrogenation methanol Cu catalyst | 5-a | 1 | |
| D316 | Promotion Effect of Co-cation Addition on Selective Hydrogenation of Cinnamaldehyde over Pt/SiO2 Catalysts | Selective hydrogenation Cinnamaldehyde Co-deposited Pt/SiO2 catalysts | 5-a | 712 | |
| (14:40–16:00) (Chair: Miyazaki Kanako, Tada Shohei) | |||||
| D318 | Interparticle porous structure dependence on effective gas diffusivity in washcoat layer | diffusion catalyst washcoat layer | 5-a | 591 | |
| D319 | Dimensionless modulus analysis of cathode catalyst layer of polymer electrolyte fuel cell | Polymer electrolyte fuel cell Modeling Electromotive force | 5-a | 688 | |
| D320 | Development of core-shell zeolite catalysts for highly-selective reactions | zeolite shape-selectivity catalysts | 5-a | 551 | |
| D321 | Synthesis of SAPO zeolite catalyst using organosilane compounds as a Si source | zeolite catalyst SAPO-18 light olefin synthesis | 5-a | 331 | |
| (16:00–17:00) (Chair: Nishiyama Satoru, Kato Satoru) | |||||
| D322 | Application to the chemical reaction process by development of Artificial Intelligence Integrated Ultra Accelerated Quantum Chemical Molecular Dynamics | quantum chemical molecular dynamics Artificial Intelligence computational chemistry | 5-a | 243 | |
| D323 | Chemical recycling of plastics using a CeO2 nanocatalyst | CeO2 nanoparticles catalysts plastics | 5-a | 332 | |
| D324 | Reaction process by discharge plasma at gas liquid interface under atmospheric to pressurized condition | Discharge plasma Chemical reaction Gas liquid interface | 5-i | 744 | |
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