ELECTRICAL machines are the hearts of many modern appliances and industrial systems.Their analysis and design optimization processes become more and more complex as more disciplines/domains and constraints are involve...ELECTRICAL machines are the hearts of many modern appliances and industrial systems.Their analysis and design optimization processes become more and more complex as more disciplines/domains and constraints are involved,such as electromagnetics,structural mechanics,heat transfer,and control strategies.To achieve multi-objective optimal performance of electrical machines and systems for applications of challenging specifications,such as electric vehicles and wind power generation,it is of great significance to conduct a multi-physics analysis and take a systematic design optimization approach.On the other hand,the performance and quality of batch produced electrical machines depend highly on the material diversities and manufacturing tolerances.展开更多
文摘ELECTRICAL machines are the hearts of many modern appliances and industrial systems.Their analysis and design optimization processes become more and more complex as more disciplines/domains and constraints are involved,such as electromagnetics,structural mechanics,heat transfer,and control strategies.To achieve multi-objective optimal performance of electrical machines and systems for applications of challenging specifications,such as electric vehicles and wind power generation,it is of great significance to conduct a multi-physics analysis and take a systematic design optimization approach.On the other hand,the performance and quality of batch produced electrical machines depend highly on the material diversities and manufacturing tolerances.
