Analytical modeling and optimization of a radial permanent magnets synchronous machine
Abstract
Nowadays, designers typically use modeling tools and numerical calculation for the electrical machine sizing, particularly the finite element method. The finite element method has been validated and has proved to be a very efficient one. However, due to problem complexity, this method is still time-consuming and large computer memory is needed. In this paper, we propose a faster analytical model (magnetic and thermal) coupled with an optimization tool CADES (Component Architecture for the Design of Engineering Systems) [1-2] to optimize a range of machines (from a few kW to more than 300 kW, and for speed ranges from 100 rpm to more than 5500 rpm). For this we used a deterministic optimization algorithm called Sequential Quadratic Programming (SQP) [3-4].
Domains
Electric power
Origin : Files produced by the author(s)
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