Last modified: 2018-02-27 10:00:00
Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
Hall D, Day 2 | |||||
(9:00–10:40) (Chair: | |||||
D201 | Numerical simulation on transport phenomena of natural convection in an enclosed horizontal rectangular container | Natural convection Transport phenomena Numerical simulation | 2-a | 238 | |
D202 | Effect of viscosity distribution on heat transfer characteristics of Taylor-Couette flow in non-Newtonian fluid system | Taylor-Couette flow non-Newtonian fluid Heat transfer | 2-a | 600 | |
D203 | Perforated Plate Design and Installation Position for Uniform Flow in the Honeycomb | Velocity Distribution Pressure loss CFD | 2-a | 552 | |
D204 | Relation between polymer behavior and turbulent vortex motion in wall turbulence | Polymer Drag Reduction Turbulent Flow | 2-a | 180 | |
D205 | Sediment prevention technique and stability of magneto rheological fluid | slurry stability MR Fluid | 2-a | 438 | |
(10:40–12:00) (Chair: | |||||
D206 | Development of a new numerical model of acoustic streaming induced by ultrasonic cavitation | Acoustic streaming Numerical simulation Ultrasound | 2-a | 437 | |
D207 | Measurement and visualization of thickness distribution of nano-film by developing phase-shifting ellipsometer | ellipsometry phase-shifting technique thickness measurement | 2-a | 146 | |
D208 | Evaluation of mixing characteristics for static mixers by visualization measurements | Static Mixer Mixing Evaluation | 2-b | 21 | |
D209 | Effects of edge thickness of blades on power consumption with Rushton turbines | power consumption edge thickness of blades Rushton turbine | 2-b | 675 | |
(13:00–15:00) (Chair: | |||||
D213 | simulation-based optimization of gas dispersion by comparing agitation power in mixing tank | gas-liquid mixing tank CFD simulation agitation power | 2-b | 515 | |
D214 | Development of MILDrum(R) for reduction of calorific value variation rate | mixing | 2-b | 405 | |
D215 | Prediction of terminal rise velocity of single bubble considering an enhancement effect of external force on bubble surface fluctuation | Single bubble velocity Bubble surface fluctuation External force | 2-d | 92 | |
D216 | Fine bubble generation by vertical and Horizontal vibration | Fine bubble Bubble diameter distribution vibration | 2-e | 654 | |
D217 | Numerical Simulation for Generation Mechanism of Ultrafine Bubble by High-speed Stirring | Ultrafine Bubble Lattice Boltzmann Method Numerical Simulation | 2-e | 25 | |
D218 | Prediction of particle number of aggregates through bubble size measurement under microwave irradiation | microwave bubble formation aggregate | 2-e | 120 | |
(15:00–16:40) (Chair: | |||||
D219 | Effect of Viscosity Ratio on Shear-induced Deformation and Breakup of a Drop in Viscous Liquids | Shear flow Drop breakup Viscosity ratio | 2-e | 360 | |
D220 | Verification of CFD Prediction Accuracy of Erosion Rate for Engineering Applications | Erosion Rate Multi-phase Flow Particle | 2-e | 147 | |
D221 | Analysis of rheological properties of solid-liquid-liquid three-phase particle dispersion | Rheology Capillary suspension Structure formation | 2-e | 123 | |
D222 | Effect of food additives on drying of egg white in a spouted bed | egg white powder spouted bed drying defluidization | 2-c | 796 | |
D223 | Analysis for the particle breakage behavior of wet ball milling | ADEM CFD Breakage | 2-f | 224 | |
(16:40–17:00) (Chair: | |||||
D224 | [The SCEJ Award for Outstanding Research Achievement] Characterization and Control of Electrostatic Charging of Particulate Materials | The SCEJ Award for Outstanding Research Achievement | 0-b | 805 | |
Hall D, Day 3 | |||||
(9:00–10:20) (Chair: | |||||
D301 | Correlation analysis between compaction behavior of granular beds and their physical properties | granular matter uniaxial compression test | 2-f | 516 | |
D302 | Rheological Analysis of Moist Powder by Rheometer Assembled with Powder Fixture | Rheology Moist powder Viscoelasticity | 2-f | 470 | |
D303 | Correlation between shear property and solvent distribution of wet powder | wet powder shear test microscope | 2-f | 497 | |
D304 | Simulation analysis of the force transmission of fine powder by SDEM | SDEM force simulation | 2-f | 16 | |
(10:20–12:00) (Chair: | |||||
D305 | SDEM simulation with non-slip capillary force model | SDEM powder simulation | 2-f | 62 | |
D306 | Behavior analysis of fine powder, considering wetting characteristics by SDEM | SDEM powder simulation | 2-f | 15 | |
D307 | Comparison of DEM simulation and experiment of indirect heat transfer phenomenon in the low and medium temperature range of the granular packed bed | Discrete element method Thermal transfer Packed bed | 2-f | 434 | |
D308 | (withdrawn) | 100 | 689 | ||
D309 | Electrophoretic classification based on differences in electrophoretic mobility caused by changing in applied electric field | classification electrophoresis applied electric field | 2-f | 506 |
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SCEJ 83rd Annual Meeting (Osaka, 2018)