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Thermal Management of High-Power Density Electric Motors for Electrification of Aviation and Beyond

Author

Listed:
  • David C. Deisenroth

    (Department of Mechanical Engineering, University of Maryland, 8228 Paint Branch Dr., Rm 3131, College Park, MD 20740, USA)

  • Michael Ohadi

    (Department of Mechanical Engineering, University of Maryland, 8228 Paint Branch Dr., Rm 3131, College Park, MD 20740, USA)

Abstract

Enhanced cooling, coupled with novel designs and packaging of semiconductors, has revolutionized communications, computing, lighting, and electric power conversion. It is time for a similar revolution that will unleash the potential of electrified propulsion technologies to drive improvements in fuel-to-propulsion efficiency, emission reduction, and increased power and torque densities for aviation and beyond. High efficiency and high specific power (kW/kg) electric motors are a key enabler for future electrification of aviation. To improve cooling of emerging synchronous machines, and to realize performance and cost metrics of next-generation electric motors, electromagnetic and thermomechanical co-design can be enabled by innovative design topologies, materials, and manufacturing techniques. This paper focuses on the most recent progress in thermal management of electric motors with particular focus on electric motors of significance to aviation propulsion.

Suggested Citation

  • David C. Deisenroth & Michael Ohadi, 2019. "Thermal Management of High-Power Density Electric Motors for Electrification of Aviation and Beyond," Energies, MDPI, vol. 12(19), pages 1-18, September.
    • Handle: RePEc:gam:jeners:v:12:y:2019:i:19:p:3594-:d:269111
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    Citations

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    Cited by:

    1. Zi-Qiang Zhu & Dawei Liang, 2022. "Perspective of Thermal Analysis and Management for Permanent Magnet Machines, with Particular Reference to Hotspot Temperatures," Energies, MDPI, vol. 15(21), pages 1-51, November.
    2. Giorgio Previati & Giampiero Mastinu & Massimiliano Gobbi, 2022. "Thermal Management of Electrified Vehicles—A Review," Energies, MDPI, vol. 15(4), pages 1-29, February.
    3. Xinyu Chang & Koji Fujita & Hiroki Nagai, 2022. "Numerical Analysis of Wick-Type Two-Phase Mechanically Pumped Fluid Loop for Thermal Control of Electric Aircraft Motors," Energies, MDPI, vol. 15(5), pages 1-15, February.
    4. Wolf-Rüdiger Canders & Jan Hoffmann & Markus Henke, 2019. "Cooling Technologies for High Power Density Electrical Machines for Aviation Applications," Energies, MDPI, vol. 12(23), pages 1-23, December.
    5. Diego Troncon & Luigi Alberti, 2020. "Case of Study of the Electrification of a Tractor: Electric Motor Performance Requirements and Design," Energies, MDPI, vol. 13(9), pages 1-15, May.
    6. Jan Hoffmann & Wolf-Rüdiger Canders & Markus Henke, 2020. "Impact of Current Density and Cooling on the Weight Balance of Electrical Propulsion Drives for Aviation," Energies, MDPI, vol. 13(22), pages 1-22, November.
    7. Ralf Johannes Keuter & Florian Niebuhr & Marius Nozinski & Eike Krüger & Stephan Kabelac & Bernd Ponick, 2023. "Design of a Direct-Liquid-Cooled Motor and Operation Strategy for the Cooling System," Energies, MDPI, vol. 16(14), pages 1-14, July.

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