Litcius/Paper detail

Experimental investigation of heat pipe performance under translational acceleration

Immanuel Voigt, Welf‐Guntram Drossel

2021Heat and Mass Transfer17 citationsDOIOpen Access PDF

Abstract

Abstract Heat pipes provide highly efficient heat transfer and are powerful tools in thermal management systems. In contrast to most established systems, heat pipes operating within moving systems such as electric vehicles or machine tools are exposed to unsteady acceleration forces. In order to guarantee proper heat pipe function in scenarios involving accelerated movement, it is necessary to examine the effect of acceleration forces on the heat pipe behavior. This paper presents experimental investigations on the thermal performance of translationally moving heat pipes. The designed experimental set-up consists of a measurement platform mounted to a linear direct drive. By obtaining the temperature gradient between evaporator and condenser section, the thermal resistance of heat pipes is determined at standstill and under linear motion. The experiments were conducted using heat pipes with sintered, mesh and grooved wicks. The results demonstrate the motion influence on the thermal resistances depending on the heat pipe orientation and heat input.

Topics & Concepts

Heat pipeCondenser (optics)EvaporatorMicro-loop heat pipeMechanicsAccelerationHeat transferMaterials scienceThermal resistanceLoop heat pipeMechanical engineeringThermalHeat sinkThermodynamicsHeat exchangerPhysicsEngineeringClassical mechanicsOpticsLight sourceHeat Transfer and Boiling StudiesAdvanced Measurement and Metrology TechniquesAdhesion, Friction, and Surface Interactions