Abstract
Permanent magnet synchronous motors (PMSMs) with rectangular coils in hairpin windings exhibit improved fill factor and reduced end turn of the coils, which in turn improve the efficiency and power density of PMSMs, making them ideal for e-mobility applications. Herein, the shape of a PMSM was optimized for torque ripple reduction using metamodels to improve the noise and vibrational performance of the motor. The objective function of the optimal design aimed to minimize the torque ripple, and the average torque and efficiency were set as constraints. The notch width and depth and barrier length were selected as the design variables to satisfy the objective function and constraints. Using the optimal Latin hypercube design technique, 27 experimental points were selected, and a finite element analysis (FEA) was performed for each point. Furthermore, a function approximation was performed using six metamodels, and the best metamodel was selected using the root mean square error test. Moreover, the optimization was performed by combining the best metamodels for each variable with a sequential two-point diagonal quadratic approximation optimization algorithm. The torque ripple was improved by approximately 1.63% compared with the initial model, whereas the constraint values remained constant. Finally, an FEA was performed on the optimal point, and the FEA results matched with those of the optimal method.
Highlights
Vehicular pollution has considerably increased in recent years due to urbanization and has become one of the major contributors to environmental pollution
hybrid metaheuristic algorithm (HMA) is a kind of evolutionary algorithm, and sequential two-point diagonal quadratic approximate optimization (STDQAO) is a kind of gradient-based optimization algorithm
The torque ripple of the optimal model was improved by approximately 1.63% compared with that of the initial model
Summary
Vehicular pollution has considerably increased in recent years due to urbanization and has become one of the major contributors to environmental pollution To overcome this problem, electro mobility or e-mobility, which offers an eco-friendly means of transportation, especially in the urban areas, has been gaining considerable traction [1]. The key components of any electric vehicle include a motor, battery, and power converter [3]. Among these key components, a traction motor capable of delivering high output at high efficiency was considered in this study. Permanent magnet synchronous motors (PMSMs) have been widely used in a variety of industries (such as appliances, industrial tools, and driving motors for electric vehicles) because of their excellent efficiency, torque density, and low maintenance [4,5,6,7]. Since the copper loss is reduced by reducing the end turn of the coils, the efficiency and output density of the motor can be significantly improved [9]
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