Litcius/Paper detail

Flow and Heat Transfer Performances of Liquid Metal Based Microchannel Heat Sinks under High Temperature Conditions

Tao Wu, Lizhi Wang, Yicun Tang, Chao Yin, Xiankai Li

2022Micromachines35 citationsDOIOpen Access PDF

Abstract

Developments in applications such as rocket nozzles, miniature nuclear reactors and solar thermal generation pose high-density heat dissipation challenges. In these applications, a large amount heat must be removed in a limited space under high temperature. In order to handle this kind of cooling problem, this paper proposes liquid metal-based microchannel heat sinks. Using a numerical method, the flow and heat transfer performances of liquid metal-based heat sinks with different working fluid types, diverse microchannel cross-section shapes and various inlet velocities were studied. By solving the 3-D steady and conjugate heat transfer model, we found that among all the investigated cases, lithium and circle were the most appropriate choices for the working fluid and microchannel cross-section shape, respectively. Moreover, inlet velocity had a great influence on the flow and heat transfer performances. From 1 m/s to 9 m/s, the pressure drop increased as much as 65 times, and the heat transfer coefficient was enhanced by about 74.35%.

Topics & Concepts

Heat sinkMicrochannelHeat transferHeat transfer coefficientMicro heat exchangerMaterials scienceMechanicsPressure dropLiquid metalThermodynamicsCritical heat fluxWorking fluidComputer coolingMechanical engineeringThermal management of electronic devices and systemsComposite materialEngineeringPhysicsHeat Transfer and OptimizationHeat Transfer MechanismsNanofluid Flow and Heat Transfer