中国物理B ›› 2013, Vol. 22 ›› Issue (11): 114704-114704.doi: 10.1088/1674-1056/22/11/114704
• ELECTROMAGNETISM, OPTICS, ACOUSTICS, HEAT TRANSFER, CLASSICAL MECHANICS, AND FLUID DYNAMICS • 上一篇 下一篇
孙东科, 项楠, 姜迪, 陈科, 易红, 倪中华
Sun Dong-Ke (孙东科), Xiang Nan (项楠), Jiang Di (姜迪), Chen Ke (陈科), Yi Hong (易红), Ni Zhong-Hua (倪中华)
摘要: The inertial secondary flow is particularly important for hydrodynamic focusing and particle manipulation in biomedical research. In this paper, the development of the inertial secondary flow structure in a curved microchannel was investigated by the multi relaxation time lattice Boltzmann equation model with a force term. The numerical results indicate that the viscous and inertial competition dominates the development of secondary flow structure development. The Reynolds number, Dean number, and the cross section aspect ratio influence significantly on the development of the secondary vortexes. Both the intensity of secondary flow and the distance between the normalized vortex centers are functions of Dean numbers but independent of channel curvature radius. In addition, the competition mechanism between the viscous and inertial effects were discussed by performing the particle focusing experiments. The present investigation provides an improved understanding of the development of inertial secondary flows in curved microchannels.
中图分类号: (Channel flow)