Proceedings of the KIEE Conference (대한전기학회:학술대회논문집)

The Korean Institute of Electrical Engineers (대한전기학회)
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Multi-objective Topology Optimization of Magneto-Thermal Problem considering Heat Flow Rate

열 유입률을 고려한 자계-열계 다목적 위상최적설계

  • Shim, Ho-Kyung (School of Information & Mechatronics, GIST(Gwangju Institute of Science & Technology)) ;
  • Wang, Se-Myung (School of Information & Mechatronics, GIST(Gwangju Institute of Science & Technology)) ;
  • Moon, Hee-Gon (School of Information & Mechatronics, GIST(Gwangju Institute of Science & Technology)) ;
  • Hameyer, Kay (Institute of Electrical Machines, RWTH Aachen University)
  • 심호경 (광주과학기술원 정보기전공학부) ;
  • 왕세명 (광주과학기술원 정보기전공학부) ;
  • 문희곤 (광주과학기술원 정보기전공학부) ;
  • Published : 2007.07.18
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Abstract

This research provides machine designers with some intuition to consider both, magnetic and heat transfer effects. A topological multi-objective function includes magnetic energy and heat inflow rate to the system, which equals to the total heat dissipation by conduction and convection. For the thermal field regarding the heat inflow, introduced as a reaction force, topology design sensitivity is derived by employing discrete equations. The adjoint variable method is used to avoid numerous sensitivity evaluations. As a numerical example, a C-core design excited by winding current demonstrates the strength of the multi-physical approach.

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