This paper presents the multilevel optimization approach for a fault-tolerant electric machine. Based on the proposed algorithm, 150-kVA 24000-rpm fault-tolerant electric machine with a power-to-mass ratio of 4 kW/kg was designed. The stator is oil-immersed. The results of mechanical, thermal, and electromagnetic calculations are presented. Based on the design, a full-size experimental prototype of the fault-tolerant electric machine with an additional winding located on the stator back was developed. The test results confirmed the achievement of the power-to-mass ratio of 4 kW/kg. The efficiency of the created fault-tolerant electric machine was 96– 97%. Experimental results show a high degree of convergence with the calculation results. It is shown the correctness of the used methods and approach.
Multi-Criteria Optimization of the Aircraft Permanent-Magnet Generator
2020-09-10
3671964 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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