Title :
Electromagnetic and Thermal Design of a Linear Actuator Using Output Polynomial Space Mapping
Author :
Encica, Laurentiu ; Paulides, Johannes J H ; Lomonova, Elena A. ; Vandenput, André J A
Author_Institution :
Eindhoven Univ. of Technol., Eindhoven
Abstract :
This paper describes the optimization methodology used in the design of a slotted tubular permanent-magnet actuator for industrial applications. A time-effective optimization procedure is obtained by considering simple analytical design equations in coherence with 2-D finite-element analysis as means to establish the various design variables. The optimization is performed in a multiphysics environment because both electromagnetic and thermal models are created and used in the optimization routine. The original optimization problem is replaced by a surrogate, which is updated or improved iteratively by means of a space-mapping-based technique. Its application for solving coupled magnetic-thermal design problems for electric machines is a rather unexplored topic.
Keywords :
electromagnetic actuators; optimisation; permanent magnets; polynomials; coupled magnetic-thermal design; electric machines; electromagnetic design; industrial applications; linear actuator; multiphysics environment; optimization methodology; output polynomial space mapping based technique; slotted tubular permanent-magnet actuator; Design optimization; Electric machines; Electromagnetic forces; Equations; Finite element methods; Hydraulic actuators; Industry Applications Society; Magnetic flux; Polynomials; Thermal resistance; Design optimization; linear permanent-magnet (PM) actuators; output polynomial space mapping; space mapping (SM);
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2008.916604
