Bibliographic Details
| Title: |
Multi-objective optimisation design of stator slot parameters for bearingless induction motors. |
| Authors: |
Shen, Zijun1 (AUTHOR), Yang, Zebin1 (AUTHOR), Sun, Xiaodong2 (AUTHOR), Pan, Wei1 (AUTHOR) 1000002634@ujs.edu.cn |
| Source: |
International Journal of Electronics. Feb2026, Vol. 113 Issue 2, p310-332. 23p. |
| Subjects: |
Multi-objective optimization, Torque, Taguchi methods, Operations research, Induction motors, Genetic algorithms |
| Abstract: |
In bearingless induction motors (BIM), the performance is significantly influenced by two sets of windings embedded in the stator slots for suspension and torque. To enhance the suspension and torque performance of BIMs, a multi-objective optimisation design method for BIM stator slot parameters was proposed in this paper. Firstly, based on the analysis of the mechanism for generating suspension force in BIMs and the identification of optimisation parameters for the motor's stator slots, high-sensitivity optimisation parameters had been determined through experiments using the Taguchi method and sensitivity analysis. Secondly, the BIM stator slots were modelled using the response surface methodology, combined with an enhanced multi-objective non-dominated sorting genetic algorithm (NSGA-II). A comprehensive optimisation was conducted for the high-sensitivity parameters, namely slot width Hs0, slot opening depth Hs1, and slot depth Bs0, to identify the optimal parameter combination that maximises both suspension and torque performance. The effectiveness of stator parameter optimisation was verified by comparing the motor's torque and suspension force performance before and after optimisation. Finally, a physical prototype of the optimised motor was constructed, and an experimental platform was established to test the performance of the optimised motor. Both simulation and experimental results indicated that the optimised motor experienced an increase in average suspension force, with reductions in both torque and suspension force ripple, leading to a significant enhancement in BIM performance. [ABSTRACT FROM AUTHOR] |
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| Database: |
Engineering Source |