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Application of a ghost fluid approach for a thermal lattice Boltzmann method
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#
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1392 - 07
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Three-dimensional numerical simulation of sedimenting drops inside a vertical channel
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#
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1392 - 07
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Numerical simulation of buoyant drops suspended in a shear flow suspensions at low and moderate areal fractions
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#
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1392 - 05
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Equilibrium Position of a Buoyant Drop in Couette and Poiseuille Flows at Finite Reynolds Numbers
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#
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1391 - 12
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Numerical simulation of buoyant drops suspended in Poiseuille flow at nonzero Reynolds numbers
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#
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1391 - 10
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On the behavior of suspension of drops on an inclined surface
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#
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1391 - 10
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Heat transfer and entropy generation analyses associated with mixed electrokinetically induced and pressure-driven power-law microflows
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#
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1391 - 01
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NUMERICAL SIMULATION OF A BUOYANT SUSPENDING DROP IN PLANE COUETTE FLOW THE EQUILIBRIUM POSITION OF THE DROP
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#
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1390 - 12
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Electroviscous and thermal effcts on non-Newtonian liquid flows through microchannels
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#
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1390 - 11
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The lateral migration of a drop under gravity between two parallel plates at finite Reynolds numbers
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#
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1390 - 10
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Three-dimensional numerical simulation of drops suspended in Poiseuille flow at non-zero Reynolds numbers
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#
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1390 - 09
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Three-dimensional numerical simulation of drops suspended in simple shear flow at finite Reynolds numbers
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#
|
1390 - 09
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effect of density ratio on the hydrodynamic interaction between two drops in simple shear flow
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#
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1390 - 07
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Binary collision of drops in simple shear flow at finite Reynolds numbers Geometry and viscosity ratio effects
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#
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1390 - 05
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Numerical Simulation of Two-Dimensional Drops Suspended in Simple Shear Flow at Non-zerio Reynolds Numbers
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#
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1389 - 12
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A three-dimensional study of the motion of a drop in plane Poiseuille flow at finite Reynolds numbers
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#
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1389 - 01
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numerical simulation of the motion of a single drop in a shear flow at finite Reynolds numbers
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#
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1388 - 07
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A numerical study of the motion of drops in Poiseuille flow. Part 1. Lateral migration of one drop
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#
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1378 - 10
|
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Analytic prediction of Nusselt number in a simulaneously developing laminar flow between parallel plates
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#
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1368 - 12
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Simulation of a group of droplets evaporation
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https://doi.org/10.1016/j.euromechflu.2024.06.005
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2024 -
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