easp 2.34; proghtml 2.34 (C)1999-2014 kawase
Day 1 | |||||
|---|---|---|---|---|---|
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
| Symposium <Bubbles, Drops, and Particles Dispersion Engineering 2014> | |||||
| (9:00–10:00) (Chair: Honma J.) | |||||
| B101 | Abatement of VOCs by Atomizing Acrylamide Polyampholyte (APA) Solution Using One-fluid Spray Nozzles | Acrylamide Polyampholyte Spray Nozzle Volatile Organic Compound | S-23 | 212 | |
| B102 | Effects of dissolved gases on mist formation generated by ultrasonic irradiation | ultrasonic atomization mist formation dissolved gas | S-23 | 995 | |
| B103 | Development of a liquid atomizing device using capillary action and electric field as driving forces | Electrostatic Aerosolization Droplets | S-23 | 374 | |
| (10:00–11:00) (Chair: Tsuchiya K.) | |||||
| B104 | Numerical analysis of the impact of a freely falling droplet on an immiscible fluid layer | Drop-impact behavior Immiscible fluid Numerical analysis | S-23 | 946 | |
| B105 | Numerical analysis of bubble formation process in a shear-thinning liquid | Bubble formation Shear-thinning liquid Numerical analysis | S-23 | 941 | |
| B106 | The drag on a methane bubble in zigzag motion | Drag Dissipation Wake | S-23 | 481 | |
| (11:00–12:00) (Chair: Ohta M.) | |||||
| B107 | Bubbling behaviors under mechanical vibration in a two-dimensional fluidized bed | two-dimensional fluidized bed vibration bubble | S-23 | 860 | |
| B108 | Characteristics of pressure fluctuations during defluidization in a fluidized catalyst bed | fluidized bed defluidization wavelet analysis | S-23 | 852 | |
| B109 | A DEM-VOF coupling method for numerical simulation of solid-gas-liquid flows | Solid-gas-liquid flow Discrete Element Method Volume-of-fluid Method | S-23 | 644 | |
| (13:00–14:00) (Chair: Kobayashi D.) | |||||
| B113 | Synthesis of Silica Particle by Using Gas-liquid Slug Flow in a Mini-channel | gas-liquid slug flow silica particle mini-channel | S-23 | 674 | |
| B114 | Influence of surface control additives on the thin film formation by wet process | thin film surface control additives | S-23 | 299 | |
| B115 | Effect of gas-liquid interaction in oil/gas blowout | Oil/gas blowout Gas-liquid interaction Numerical simulation | S-23 | 139 | |
| (14:00–15:00) (Chair: Yoshimoto M.) | |||||
| B116 | Gas Absorption Properties of Micro Bubble Generator Using Titanium Porous Membrane | Microbubble Membrane Water treatment | S-23 | 381 | |
| B117 | The separation method of the fine particles by using the fine bubbles | fine bubble | S-23 | 41 | |
| B118 | Flotation of protein from domestic wastewater by microbubbles | Microbubble Waste Water Treatment Flotation | S-23 | 582 | |
| (15:00–16:00) (Chair: Fujioka S.) | |||||
| B119 | Characteristics of gas-liquid two-phase flows in a treatment system based on ozonation for wastewater containing milk | Wastewater treatment system Ejector Ozonation | S-23 | 430 | |
| B120 | Effects of geometry and liquid depth on the shear rate in bubble columns as evaluated with liposomes | External loop airlift liposomes shear rate sensing | S-23 | 282 | |
| B121 | Effects of gas-liquid contacting mode on liquid phase mass transfer coefficient of dispersed bubbles | Mass transfer coefficient Gas-liquid contacting mode Bubble interaction | S-23 | 89 | |
| (16:00–16:40) (Chair: Honma S.) | |||||
| B122 | Modeling of self-propelled particles - Interaction between particles and structured walls | Squirmer Model Self-propelled particles Hydrodynamic interaction | S-23 | 479 | |
| B123 | A Simple Scheme for Interface Tracking | GasLiquid Interface Simulation Computational Fluid Dynamics | S-23 | 1 | |
Day 2 | |||||
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
| Symposium <Bubbles, Drops, and Particles Dispersion Engineering 2014> | |||||
| (10:00–11:00) (Chair: Sakai M.) | |||||
| B204 | Viscoelastical changes of dense colloidal dispersions by kneading processes | kneading processes dense colloidal dispersions shear-thickening | S-23 | 424 | |
| B205 | Compound Droplet Formation Mechanism with Flow Focusing | Compound Droplet Flow Focusing Front-Tracking | S-23 | 377 | |
| B206 | CFD analysis for effect of neighboring pore in a membrane emulsification | CFD計算 エマルション 膜乳化 | S-23 | 744 | |
| (11:00–12:00) (Chair: Honma S.) | |||||
| B207 | Newly developed method for foam measurement via a Single-Tip Optical fiber Probe (S-TOP) based on 3D-ray tracing simulation | S-TOP foam measurement ray-tracing simulation | S-23 | 411 | |
| B208 | Measurement Technologies in Bubbles and Drops Dispersion Systems and Its Applications | Bubbles and Drops Dispersion Systems Measurement Technologies | S-23 | 193 | |
| Symposium <Extended Mixing Technology -Clarification of mixing phenomena and new applications> | |||||
| (13:00–13:40) (Chair: Horie T.) | |||||
| B213 | Two-phase flow in complex geometry and application to mixing device by lattice Boltzmann method | lattice Boltzmann method mixing two-phase flow | S-22 | 1015 | |
| (13:40–15:00) (Chair: Nishi K.) | |||||
| B215 | Effect of a particle size on unsteady CFD by MPS method about Newton fluid mixing | simulation MPS mixing | S-22 | 397 | |
| B216 | CFD on an emulsification phenomenon with a change of viscosity by agitation depending on shear rate as a key factor | mixing emulsion simulation | S-22 | 401 | |
| B217 | Evaluation of rotation-revolution mixing by using numerical simulation and particle count in solution (Hitachi, Ltd., Hitachi Res. Laboratory) Fukumura M., | rotation-revolution mixing numerical simulation particle count | S-22 | 313 | |
| B218 | Numerical study of non-Newtonian fluid mixing applied to estimate mixing time and Metzner-Otto constant | mixing time Metzner-Otto method non-Newtonian fluid | S-22 | 128 | |
| (15:00–16:00) (Chair: Shouno A.) | |||||
| B219 | Mixing Mechanism of Large Paddle Impeller Based on Streak Line Observation | Mixing Streak line Flow visualization | S-22 | 4 | |
| B220 | Quantification of structure of streak lobe in laminar mixing vessel equipped with single or double stage paddle impeller | laminar mixing streak lobe double stage paddle impeller | S-22 | 237 | |
| B221 | Evaluation of mixing performance with a periodic analysis of mixing pattern induced by a rotationally reciprocating impeller | mixing image analysis power curve | S-22 | 918 | |
| (16:00–16:40) (Chair: Mizumi R.) | |||||
| B222 | A study about the mixing effect in using a micromixing device utilizing the Marangoni convection on a gas-liquid free interface applied in a larger-scale channel | Gas-liquid free interface Marangoni effect PIV | S-22 | 315 | |
| B223 | Fundamental study on fluid heating with mixing blade heated by induction heating | Induction Heating Mixing Blade Fluid Heating | S-22 | 269 | |
Day 3 | |||||
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
| Symposium <Extended Mixing Technology -Clarification of mixing phenomena and new applications> | |||||
| (9:00–9:40) (Chair: Kuratsu M.) | |||||
| B301 | Recent Emulsifying Technology and Equipment | emulsification shear micronization | S-22 | 1014 | |
| (9:40–11:00) (Chair: Kato Y.) | |||||
| B303 | Quantification of drop size distribution under high-concentrated dispersion state in an annular centrifugal contactor by pattern matching image analysis | liquid-liquid extraction drop size distribution image analysis | S-22 | 246 | |
| B304 | Development and Performance Assessment of Specific Impellers for Gas Dispersion from Liquid Surface. | Mixing Gas-Liquid Dispersion | S-22 | 24 | |
| B305 | Development of a static mixer with stacked elements and evaluation for its mixing performance | Static mixer Stacked element Mixing | S-22 | 564 | |
| B306 | Mixing effect of swirl flow ejector on in-line mixing process of high-reactive components | In-line mixing Swirl Flow Ejector | S-22 | 664 | |
| (11:00–12:00) (Chair: Kuratsu M.) | |||||
| B307 | Effects of impeller geometry and liquid viscosity on the starting torque of vertical paddle impellers | starting torque stirred vessel paddle impeller | S-22 | 225 | |
| B308 | Effects of impeller geometry and liquid viscosity on the horizontal load to vertical paddle impeller | mixing horizontal load paddle impeller | S-22 | 236 | |
| B309 | Power consumption for disc turbine type fractal shaped impeller | Power Consumption Fractal disc turbine | S-22 | 344 | |
| (13:00–13:40) (Chair: Yoshikawa S.) | |||||
| B313 | Effect of Thickness of Impeller Blade on Power Consumption | Mixing Power Consumption Blade Thickness | S-22 | 3 | |
| B314 | Power Consumption in Gas-High Viscous Liquid Mixing Vessel with Dual Impeller and Laege Ring Sparger | Mixing Power Comsumption Gas-Liquid | S-22 | 37 | |
| (13:40–15:00) (Chair: Takahashi K.) | |||||
| B315 | Direct measurement of particle collisions with impeller blades in a stirred vessel by high-speed video camera system synchronized with impeller rotation | Solid liquid mixing Particle collision Synchronized rotational system | S-22 | 238 | |
| B316 | The effects of particle diameter and density on particle collision phenomena with the impeller blades in a stirred vessel | mixing particle collision phenomena CFD | S-22 | 240 | |
| B317 | Population balance simulation of cooling crystallization with seeding in consideration of time evolution of supersaturation | crystallization with seeding supersaturation population balance | S-22 | 239 | |
| B318 | The Effect of Impeller Type on Behavior of Solid Dispersion in a Stirred Tank | Particle dispersion Dispersion behavior Flow pattern | S-22 | 757 | |
© 2014 The Society of Chemical Engineers, Japan. All rights reserved.
www3.scej.org easp 2.34; proghtml 2.34 (C)1999-2014 kawase