Xie Jin-Han, Vanneste Jacques
School of Mathematics and Maxwell Institute for Mathematical Sciences, University of Edinburgh, Edinburgh EH9 3JZ, United Kingdom.
Phys Rev E Stat Nonlin Soft Matter Phys. 2014 Jun;89(6):063010. doi: 10.1103/PhysRevE.89.063010. Epub 2014 Jun 18.
In microfluidic applications involving high-frequency acoustic waves over a solid boundary, the Stokes boundary-layer thickness δ is so small that some non-negligible slip may occur at the fluid-solid interface. This paper assesses the impact of this slip by revisiting the classical problem of steady acoustic streaming over a flat boundary, replacing the no-slip boundary condition with the Navier condition u|{y=0}=L{s}∂{y}u|{y=0}, where u is the velocity tangent to the boundary y=0, and the parameter L_{s} is the slip length. A general expression is obtained for the streaming velocity across the boundary layer as a function of the dimensionless parameter L_{s}/δ. The limit outside the boundary layer provides an effective slip velocity satisfied by the interior mean flow. Particularizing to traveling and standing waves shows that the boundary slip respectively increases and decreases the streaming velocity.
在涉及固体边界上高频声波的微流体应用中,斯托克斯边界层厚度δ非常小,以至于在流固界面可能会出现一些不可忽略的滑移。本文通过重新审视平边界上稳定声流的经典问题来评估这种滑移的影响,用纳维条件(u|_{y = 0} = L_s∂yu|{y = 0})取代无滑移边界条件,其中(u)是与边界(y = 0)相切的速度,参数(L_s)是滑移长度。得到了边界层上声流速度作为无量纲参数(L_s/δ)的函数的一般表达式。边界层外的极限给出了内部平均流满足的有效滑移速度。对行波和驻波的特殊情况表明,边界滑移分别增加和减小了声流速度。
