渐进式学习策略辅助油水混冷电机多目标优化

IF 1.6 4区 工程技术 Q3 ENGINEERING, MECHANICAL Journal of Thermal Science and Engineering Applications Pub Date : 2023-08-24 DOI:10.1115/1.4063245
Wei Li, Yongsheng Li, Congbo Li, Ningbo Wang, Jiadong Fu
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引用次数: 0

摘要

电机作为电动汽车的核心部件,其性能好坏直接影响到电动汽车的使用。电机对温度很敏感,过热的工作温度可能会导致磁性能的恶化和效率的降低。为有效改善电机散热性能,提出了一种基于增量学习策略的油水混合冷却异步电机多目标优化方法。对电机的关键参数进行了参数化建模,并采用拉丁超立方法进行了实验设计。采用增量学习策略改进代理模型的低准确率。采用4种多目标优化算法驱动优化过程,得到了最优的冷却系统参数。通过电机台架实验验证了该方法的可靠性。优化结果表明,优化后电机最高温度降低5 K,电机散热得到有效改善,为进一步推广和改进感应电机提供了理论依据。
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Incremental Learning Strategy Assisted Multi-Objective Optimization for An Oil-Water Mixed Cooling Motor
As the core component of electric vehicles (EVs), the performance of motors affects the use of EVs. Motors are sensitive to temperature, and overheated operating temperature may cause the deterioration of the magnetic properties and the reduction of efficiency. To effectively improve the heat dissipation of the motor, this work presents an incremental learning strategy assisted multi-objective optimization method for an oil-water mixed cooling induction motor (IM). The key parameters of the motor are modeled parametrically, and design of experiment is carried out by Latin hypercube method. The incremental learning strategy is used to improve the low accuracy of surrogate model. Four multi-objective optimization algorithms are used to drive the optimization process, and the optimal cooling system parameters are obtained. The reliability of the proposed method is verified by motor bench experiments. The optimization results suggest that the maximum temperature of the motor is reduced by 5 K after optimization, and the heat dissipation of the motor is improved effectively, which provides a theoretical basis for further promotion and improvement of induction motor.
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来源期刊
Journal of Thermal Science and Engineering Applications
Journal of Thermal Science and Engineering Applications THERMODYNAMICSENGINEERING, MECHANICAL -ENGINEERING, MECHANICAL
CiteScore
3.60
自引率
9.50%
发文量
120
期刊介绍: Applications in: Aerospace systems; Gas turbines; Biotechnology; Defense systems; Electronic and photonic equipment; Energy systems; Manufacturing; Refrigeration and air conditioning; Homeland security systems; Micro- and nanoscale devices; Petrochemical processing; Medical systems; Energy efficiency; Sustainability; Solar systems; Combustion systems
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