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Effects of staggered truncated ribs on thermal-hydraulic performance and entropy generation of microchannel heat sinks

Dongkai Wang, Lirui Xue, Chang Liu, Haitao Chen, Changquan Xia, Qinyu Qian, Liwen Cheng

2024Case Studies in Thermal Engineering11 citationsDOIOpen Access PDF

Abstract

A microchannel with staggered truncated ribs (MC-STR) is presented. The effects of rib height ratio ( α ) and rib width ratio ( β ) on the thermal-hydraulic performance and entropy generation are investigated by numerical simulation at the Reynolds numbers ( Re ) range of 223-593. Initially, to compare the MC-STR of different α configurations, the traditional ribbed microchannel (MC-TR) and the smooth microchannel (MC-S) are also numerically analyzed. Subsequent analysis further investigates the effect of β on convective heat transfer in MC-STR. The results indicate that MC-STR significantly enhances the heat transfer and reduces the heated wall temperature. Increasing α and β results in higher Nusselt number ( Nu ) and friction coefficient ( f ). Compared to MC-TR, MC-STR effectively reduces pressure drop losses and exhibits higher Nu at α = 0.75 and α = 0.5 for most Re . Overall, the highest comprehensive thermal performance factor ( PEC ) of 1.355 for MC-STR ( α = 0.5, β = 0.3) is attained at Re = 593. Furthermore, the augmentation entropy generation number ( N s,a ) of MC-STR ( α = 0.75, β = 0.3) reaches the lowest value of 0.422 for Re = 593.

Topics & Concepts

MicrochannelHeat sinkMechanicsThermalMaterials scienceHydraulic diameterRib cageThermal hydraulicsThermodynamicsHeat transferPhysicsStructural engineeringReynolds numberEngineeringTurbulenceHeat Transfer and OptimizationHeat Transfer MechanismsHeat Transfer and Boiling Studies