The use of PVT can recover waste heat of the solar power generation system and improve power generation efficiency, which has practical value. This study intends to analyze the waste heat recovery technology (PVT) of photovoltaic power generation. Firstly, develop the heat transfer and power generation model of the PVT module, discuss the design of the PVT module (the thickness and material of the bonding interface), the design of the PVT system, and the influence of environmental factors on the performance of heat collection and power generation through computer simulation, so as to optimize the design of the PVT system, and analyze the economic benefit of the PVT system. This study takes the solar energy system of National Taiwan Normal University Green Energy Center as an example. The PVT system has a scale of 10kWp solar panels and a size of 2400L water storage tank. The long-term performance of this system is studied in detail. This study found that under the condition of the set reference point, the heat recovery rate of the PVT system is about 24.3%~29.3%, and the power generation efficiency is about 17.5%~17.7%. Compared with the system without PVT, the power generation efficiency is increased by about 5%~5.9%, and the total energy saving rate is about 70.5%~75.9%, the system payback period is about 2~12 years, and the total annual profit is about 30520~108537NTD.