Slip in the Presence of Semi-Circular Menisci Between Parallel Ridges

L. Lam, Y. Muzychka
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Abstract

Surfaces which are structured on the micro- and nanoscale to resist wetting are being considered for internal flows due to their drag reducing properties in applications such as electronics cooling and lab-on-chip. Here, an expression is developed to characterize the hydrodynamic slip in a laminar flow which occurs near the surface for the case when positive meniscus curvature is present. The surfaces considered are composed of ridges oriented parallel to the flow. Curvature of the meniscus, which resides between the liquid in the Cassie state and the gas trapped in cavities between the ridges, results from the pressure difference between the liquid and the gas. The meniscus is considered shear free. The no slip condition exists at the tips of the ridges. Conformal maps from the literature are used to derive an expression which is a function of cavity fraction of the surface. The positive protrusion angle is 90 degrees. Cavity fractions range from 0 to 75%.
平行脊间存在半月板时的滑移
由于在电子冷却和芯片实验室等应用中具有减少阻力的特性,在微纳米尺度上结构的表面可以抵抗润湿,因此被考虑用于内部流动。在这里,开发了一个表达式来表征在表面附近发生的层流中的流体动力滑移,当正半月板曲率存在时。所考虑的表面由平行于气流方向的脊组成。位于Cassie状态的液体和被困在脊间空腔中的气体之间的半月板的曲率是由液体和气体之间的压力差造成的。半月板被认为无剪切。脊尖处存在无滑移条件。利用文献中的保角映射推导出表面空腔分数的函数表达式。正面的突出角是90度。空腔分数范围从0到75%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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