This work presents a detailed numerical investigation on the required development length (L=L/B) in laminar Newtonian fluid flow in microchannels with rectangular cross section and different aspect ratios (AR). The advent of new microfluidic technologies shifted the practical Reynolds numbers (Re) to the range of unitary (and even lower) orders of magnitude, i.e., creeping flow conditions. Therefore, accurate estimations of L at Re≤O(1) are important for microsystem design. At such low Reynolds numbers, in which inertial forces are less dominant than viscous forces, flow characteristics become necessarily different from those at the macroscale where Re is typically much larger. A judicious choice of mesh refinement and adequate numerical methods allowed obtaining accurate results and a general correlation for estimating L, valid in the ranges 0≤Re≤2000 and 0.1≤AR≤1, thus covering applications in both macro and microfluidics.
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机译:该工作提出了对具有矩形横截面和不同纵横比(AR)的微通道中型牛顿流体流动中所需开发长度(L = L / B)的详细数值研究。 新的微流体技术的出现将实际的雷诺数(RE)转移到单一(甚至更低)数量级的范围,即爬行流动条件。 因此,RE≤o(1)处的L的精确估计对于微系统设计很重要。 在这种低雷诺数的处,其中惯性力不如粘性力较少,流动特性必然与宏观尺寸的那些不同,其中RE通常更大。 允许获得准确的结果和足够的数值方法的明智选择和估计L的一般相关性,有效地在0≤0≤2000和0.1≤ar≤1中,从而覆盖宏观和微流体中的应用。
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