根据当前电池与电动机特性分别建立适合电动直升机的能源与动力系统数学模型,提出满足电动直升机的3种能源方案,构建出一套适合电动直升机概念设计的总体参数选择与优化方法,并结合任务剖面需求对采用3种能源方案的电动直升机展开总体参数的选择与敏感性分析。受当前电池技术水平发展,电动直升机的久航性能与燃油动力直升机相比有较大差距。通过参数敏感性分析方法得出,电动直升机具有与燃油直升机不同的设计特征,电动直升机应结合动力及能源系统特征进行针对性设计。 Based on the current battery and motor characteristics, the mathematical model of the energy and power system for the electric helicopter is established respectively. Three energy schemes that satisfy the electric helicopter are proposed, and a set of overall parameter selection and optimization methods are designed for the conceptual design of the electric helicopter. Combined with the mission profile Demand for the choice of three parameters of the electric helicopter to start the overall parameter selection and sensitivity analysis. By the current level of battery technology development, electric helicopter long-haul performance compared with the fuel-powered helicopter has a big gap. Through parametric sensitivity analysis, the electric helicopter has different design features from the fuel helicopter. The electric helicopter should be designed with the characteristics of power and energy system.