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Experimental study on the heat transport capability of micro-grooved oscillating heat pipe

Jian Qu, Fengbo Guan, Yaojie Lv, Yalin Wang

2021Case Studies in Thermal Engineering15 citationsDOIOpen Access PDF

Abstract

This paper presents an experimental study to investigate the heat transfer limit of a micro-grooved OHP at the vertical bottom heat mode. The internal hydraulic diameter of the micro-grooved OHP is about 2.0 mm, and deionized water was used as a working fluid at volumetric filling ratios (FRs) ranging from 30% to 60%. Experimental results demonstrated that the micro-grooved OHP could significantly enhance the allowable maximum input heat flux before the occurrence of dry-out owing to the capillary action provided by micro-grooved structures to facilitate condensate backflow to the evaporator. The OHP obtained a maximum effective thermal conductivity of 41.8 kW/(m·°C) at 40% FR, corresponding to a dry-out heat flux of 36.9 W/cm2 with respect to the heat transfer limit. The allowable maximum input heat flux was found to be greater than 80 W/cm2 for 50% and 60% FRs, and could be further increased by increasing the OHP turn number. This study provides a promising option to address thermal management demand for high-density power devices.

Topics & Concepts

Materials scienceBackflowHeat pipeEvaporatorHeat fluxHeat transferThermal conductivityHeat transfer coefficientCapillary actionWorking fluidMechanicsCritical heat fluxThermodynamicsThermalComposite materialHeat exchangerMechanical engineeringInletEngineeringPhysicsHeat Transfer and Boiling StudiesHeat Transfer and OptimizationFluid Dynamics and Thin Films
Experimental study on the heat transport capability of micro-grooved oscillating heat pipe | Litcius