设计了一种基于热管冷却回收技术的高倍聚光太阳能电/热(CPV/T)复合系统,主要包括第三代Ⅲ-Ⅴ族高倍聚光太阳能电池实现太阳能高效低成本光电转化和极高导热性能的热管冷却回收技术带走电池废热实现高效热利用;建立了CPV/T系统的理论模型,编写了基于Matlab的模型求解程序,并根据实测的武汉太阳辐照等环境数据,对该系统全天发电量、产热量、系统转换效率、出水温度等性能进行了模拟仿真,对聚光倍数等影响CPV/T系统性能的因素进行了理论研究。 A high-power concentrating solar thermal / thermal (CPV / T) composite system based on heat pipe cooling recovery technology is designed, which mainly includes the third generation III-V high-concentration concentrating solar cells to realize solar energy with high efficiency and low cost photoelectric conversion and extremely high thermal conductivity Performance of the heat pipe cooling recovery technology to take away the battery waste heat to achieve efficient heat utilization; CPV / T system is established theoretical model, prepared based on Matlab model solver, and based on the measured solar radiation in Wuhan and other environmental data, the whole system Day power generation, heat production, system conversion efficiency, water temperature and other performance simulation, the factors that affect the CPV / T system performance, such as condenser multiples, were studied theoretically.