Capillary Filling Flows inside Patterned-Surface Microchannels

Abstract

Capillary flows inside microchannels with patterned‐surfaces are investigated theoretically and numerically. The surface energy method is used to derive an equivalent contact angle (ECA) model for small capillary number flows. The SIMPLE algorithm using a volume of fluid (VOF) method is adopted to investigate the flows in those microchannels. The flow characteristics such as the liquid front shapes and the evolution of the liquid lengths are obtained. The numerical results reveal that capillary flows in a patterned‐surface microchannel still follow the traditional capillary theories. The ECA model is confirmed by the numerical results. It indicates that the capillary flows inside the patterned‐surface microchannels can be estimated by means of the homogeneous‐surface microchannels with the equivalent contact angle. The ECA model provides a good criterion for the total wettability of a patterned‐surface microchannel, as well.