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Thermal Management System for an Electric Machine With Additively Manufactured Hollow Conductors With Integrated Heat Pipes

Towhid Chowdhury, Salar Koushan, Ali Al-Qarni, Sina Vahid, Ayman El‐Refaie, Kevin Bennion, Emily Cousineau, Xuhui Feng, Bidzina Kekelia

2024IEEE Transactions on Industry Applications22 citationsDOIOpen Access PDF

Abstract

This paper discusses steps taken to develop a novel thermal management system for an aircraft propulsion electric machine containing additively manufactured coils integrated with heat pipes aimed at boosting its specific power. Experimental setups are used to size and characterize heat pipes for the application and 3D thermal finite element analysis is used to determine optimum heat transfer coefficient of the convective boundaries. For some of the convective boundaries, fin-based surface area enhancement is required to reach a target combined overall heat transfer coefficient and surface area performance (UA). This enhancement is worked out using a combination of the Engineering Equation Solver tool and 3D thermal FEA. The thermal management system's UA, and by extension its specific power, sensitivity to coolant temperature is explored. Temperature distribution plots of optimized machine components are also presented and discussed. Lastly, additional heat pipe testing is carried out to study its maximum heat transfer capability's sensitivity to condenser coolant temperature and configuration.

Topics & Concepts

CoolantHeat transfer coefficientHeat transferHeat sinkFinMechanical engineeringMaterials scienceCondenser (optics)ThermalConvective heat transferElectrical conductorEngineeringNuclear engineeringMechanicsThermodynamicsComposite materialPhysicsOpticsLight sourceHeat Transfer and OptimizationSilicon Carbide Semiconductor TechnologiesInduction Heating and Inverter Technology
Thermal Management System for an Electric Machine With Additively Manufactured Hollow Conductors With Integrated Heat Pipes | Litcius