Air Cooling for High Temperature Power Electronics (Presentation): NREL (National Renewable Energy Laboratory)

Scot Waye, Charles King

Research output: NRELPresentation

Abstract

Current emphasis on developing high-temperature power electronics, including wide-bandgap materials such as silicon carbide and gallium nitride, increases the opportunity for a completely air-cooled inverter at higher powers. This removes the liquid cooling system for the inverter, saving weight and volume on the liquid-to-air heat exchanger, coolant lines, pumps, and coolant, replacing them withjust a fan and air supply ducting. We investigate the potential for an air-cooled heat exchanger from a component and systems-level approach to meet specific power and power density targets. A proposed baseline air-cooled heat exchanger design that does not meet those targets was optimized using a parametric computational fluid dynamics analysis, examining the effects of heat exchanger geometryand device location, fixing the device heat dissipation and maximum junction temperature. The CFD results were extrapolated to a full inverter, including casing, capacitor, bus bar, gate driver, and control board component weights and volumes. Surrogate ducting was tested to understand the pressure drop and subsequent system parasitic load. Geometries that met targets with acceptable loads onthe system were down-selected for experimentation. Nine baseline configuration modules dissipated the target heat dissipation, but fell below specific power and power density targets. Six optimized configuration modules dissipated the target heat load, exceeding the specific power and power density targets. By maintaining the same 175 degrees C maximum junction temperature, an optimized heatexchanger design and higher device heat fluxes allowed a reduction in the number of modules required, increasing specific power and power density while still maintaining the inverter power.
Original languageAmerican English
Number of pages32
StatePublished - 2014

Publication series

NamePresented at the 2014 Thermal Management Systems Symposium, 22-24 September 2014, Denver, Colorado

NREL Publication Number

  • NREL/PR-5400-62920

Keywords

  • air cooled heat exchangers
  • air cooled inverters
  • cooling loops
  • heat exchanger
  • materials
  • wide band gap

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