Optimal design of a yoke-less axial flux switching PM motor based on multi-objective PSO

Javad Rahmani Fard; Saadat Jamali Arand; Siroos Hemmati

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Optimal design of a yoke-less axial flux switching PM motor based on multi-objective PSO

Javad Rahmani Fard ^[3] ; Saadat Jamali Arand ^[1] ; Siroos Hemmati ^[2]
1. [1] Yasouj University
  
  Yasouj University
  
  Irán
2. [2] Kermanshah University of Technology
  
  Kermanshah University of Technology
  
  Irán
3. [3] Electrical Engineering Department, Pooyesh Institute of Higher Education, Qom, Iran
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Localización: Compel: International journal for computation and mathematics in electrical and electronic engineering, ISSN 0332-1649, Vol. 42, Nº 6, 2023, págs. 1248-1262
Idioma: inglés
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Resumen
- Purpose In this paper, an improved multiobjective particle swarm optimization (PSO) algorithm is proposed to optimize a three-phase, 12-slot, 19-pole, yokeless axial-field flux-switching permanent magnet (YASA-AFFSPM) motor.
  
  Design/methodology/approach Based on the structural characteristics of the YASA-AFFSPM, a mathematical model is established to calculate the main size of the YASA-AFFSPM motor. The split ratio, stator axial length, sandwiching pole angle, rotor pole angle, PM arc and number of conductors per slot are selected as optimization variables. Also, the efficiency, power factor, cogging torque and average torque are considered as the optimization objectives. The objectives are optimized by combining the improved multiobjective PSO algorithm with electromagnetic calculation.
  
  Findings Based on the proposed algorithm, the investigated motor is optimized. The on-load efficiency, power factor and average torque of the motor performance have increased by 0.87%, 3.13% and 10.39%, respectively. Moreover, the cogging torque and slot fill factor have undergone decreases of 8.57% and 3.34%, respectively. Finally, the effectiveness of the algorithm is verified using experiment results.
  
  Originality/value So far, no comprehensive report has been observed on the optimization of the YASA-AFFSPM motor using evolutionary algorithms and the study of the effect of the motor parameters. Therefore, in this paper, the authors decided to investigate the effect of YASA-AFFSPM motor parameters and improve motor performance with the improved PSO method.