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میکروسیالات و نانوسیالات 2013
جزئیات رویداد
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  • two- and three-dimensional lattice boltzmann simulations of particle migration in microchannels

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    • تاریخ ارائه: 1392/07/24
    • تاریخ انتشار در تی پی بین: 1392/07/24
    • تعداد بازدید: 1297
    • تعداد پرسش و پاسخ ها: 0
    • شماره تماس دبیرخانه رویداد: -
     the use of two-dimensional (2d) numerical simulations with a reduced particle-based reynolds number (re) for studying particle migration in a microchannel with equally spaced multiple constrictions was investigated. 2d and 3d colloidal lattice boltzmann (lb) models were used to simulate particle-fluid hydrodynamics. experiments were conducted with inert microparticles in a creeping flow in a microflow channel with symmetric wall obstacles. lowering re in 2d simulations by a factor of r (the dimensionless particle radius in lb simulations) resulted in a close match between numerically computed and experimentally obtained particle velocities, indicating that re-based dimensional scaling was needed to capture the 3d particle flow dynamics in 2d simulations of experimental data. we captured particle displacement motion in a microchannel with symmetric inline obstacles in 2d simulations, where symmetry in the flow field was broken by local disturbances in the flow field due to particle motion, indicating that asymmetry in channel geometry is not the sole cause for particle displacement motion. particle acceleration/deceleration around each constriction followed the same pattern, but each constriction acted like a particle accelerator in 2d and 3d simulations, in which particles exhibited progressively higher velocities in each subsequent constriction. particles migrated across multiple streamlines in converging and diverging flow zones in a creeping flow, which calls into question the use of steady streamlines for calculating transient particle flow. monotonicity in particle acceleration toward the constriction and deceleration beyond the constriction was broken by interparticle hydrodynamic interactions leading to more pronounced particle migration across multiple streamlines.

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