由于可参考的陆运和海运混合动力系统与空运混合动力系统存在较大差别,曾设计出的可续航探测飞行器混合动力系统均存在一定问题。因此,设计一种拥有强攀升能力和强能量优化能力的可续航探测飞行器混合动力系统,该系统依靠发动机和太阳能电池为可续航探测飞行器供应能量。在可续航探测飞行器的启停、攀升和下落过程中,使用914型航空发动机利用燃料为其提供能量;而在探测过程中,系统将多个太阳能电池并联起来,共同为可续航探测飞行器供应能量。系统实现部分给出了太阳能电池模型函数,以及系统能耗获取流程图。实验结果表明,所设计的混合动力系统拥有较强的攀升能力和能量优化能力。 Due to the great difference between the reference ground-based and marine hybrid systems and the air-powered hybrid system, some problems have been encountered in the design of a hybrid vehicle-system. As a result, a cruise-powered detection hybrid hybrid system with strong climb capability and strong energy optimization is designed that relies on engines and solar cells to supply energy for a mission-detect vehicle. The 914 aeroengine uses fuel to provide energy for start-stop, climb and fall of a mission-detectable aircraft. In the process of exploration, the system connects multiple solar cells in parallel to supply energy to the mission-detectable aircraft . The part of the system gives the solar cell model function, as well as the system energy consumption flow chart. The experimental results show that the hybrid system designed has strong climbing ability and energy optimization ability.