Multi-objective Optimization of a Line-start Synchronous Machine Using a Self-organizing Algorithm

Multi-objective Optimization of a Line-start Synchronous Machine Using a Self-organizing Algorithm

WoS Article

This paper introduces the design and optimization of line-start synchronous machines in fractional horse power industry applications. The proposed optimized design will be considered as a replacement for the induction machine driven from an AC drive. The optimized design will be achieved using a 2D finite element transient analysis and multi-objective optimization algorithm. For the optimization, a multi-objective self-organizing migrating algorithm was chosen. The optimization results are compared with the more popular NSGA-II algorithm, to prove algorithm sufficiency with three objectives and five design parameters in the area of electromagnetic design application.

This paper introduces the design and optimization of line-start synchronous machines in fractional horse power industry applications. The proposed optimized design will be considered as a replacement for the induction machine driven from an AC drive. The optimized design will be achieved using a 2D finite element transient analysis and multi-objective optimization algorithm. For the optimization, a multi-objective self-organizing migrating algorithm was chosen. The optimization results are compared with the more popular NSGA-II algorithm, to prove algorithm sufficiency with three objectives and five design parameters in the area of electromagnetic design application.

Optimization; Statistics; Sociology; Electromagnetics; Torque; Reactive power; Geometry

Optimization; Statistics; Sociology; Electromagnetics; Torque; Reactive power; Geometry

KNEBL, L.; BÁRTA, J.; ONDRŮŠEK, Č.; VÍTEK, O.; BRAMERDORFER, G.

2021

02.02.2021

IEEE Transactions on Magnetics

0018-9464

IEEE TRANSACTIONS ON MAGNETICS

57

6

United States of America

1

4

4

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