Thermal Performance of Microchannels with Patterned Super-Hydrophobic Surfaces Under Laminar Flow Academic Article

abstract

• 2015 Copyright Taylor & Francis Group, LLC. This article presents the simulation results and the effects of slip length and fractal ratio on patterned super-hydrophobic surfaces in microchannels under laminar flow conditions. The effects of using different slip length ratios and fractal ratios on patterned surfaces were simulated numerically at two Reynolds number values. Dimensionless parameters such as Nusselt number, friction factor, and performance efficiency indicator were used to study the effects of boundary conditions (i.e., surface features) on microchannel thermal performance. The results show that the flow structure within a patterned microchannel experiences flow fluctuations near the wall boundary caused by the super-hydrophobic surface. The results also indicate that patterned surfaces with high slip length enhance heat transfer performance and reduce pressure drop.

authors

• Alvarado, Jorge

published proceedings

• NUMERICAL HEAT TRANSFER PART A-APPLICATIONS

author list (cited authors)

• Li, Q., & Alvarado, J. L.

citation count

• 2

complete list of authors

• Li, Qibo||Alvarado, Jorge L

publication date

• June 2015

publisher

• Taylor & Francis  Publisher

published in

• Numerical Heat Transfer; Part A: Applications  Journal

keywords

• 40 Engineering
• 4012 Fluid Mechanics And Thermal Engineering

Digital Object Identifier (DOI)

• 10.1080/10407782.2014.965071

start page

• 1163

end page

• 1186

volume

• 67

issue

• 11

URL

• http://dx.doi.org/10.1080/10407782.2014.965071