Study on energy-saving operation of a combined heating system of solar hot water and air source heat pump

In this work, a hybrid solar hot water and air source heat pump (HSAHP) combined heating system is proposed, which can realize various connection modes, such as solar hot water (SHW) and air source heat pump (ASHP) parallel heating mode, series heating mode, and preheating type connection mode of solar hot water as air source heat pump's heat source. In the cold season, the energy efficiency of the combined heating system was simulated and analyzed. The results showed that the solar radiation intensity and the ambient temperature are important factors that affect the energy efficiency of each connection method of the proposed combined heating system. In addition, the optimal energy efficiency area diagram of the HSAHP combined heating system was drawn, which showed the optimal energy efficiency area corresponding to the three connection modes (preheat air solar-air source heat pump (PASAHP), series, and parallel). The return water temperature as well as the area of the solar collectors can change the distribution of optimal energy efficiency area. Among the three connection modes, the change of backwater temperature has the greatest influence on the area of series mode and the least influence on the area of parallel mode. The change of solar collector area has the greatest influence on the area of parallel mode and the least influence on the area of PASAHP mode. The HSAHP combined heating system can obtain good energy-saving benefits by switching the connection mode of SHW and ASHP according to the outdoor weather conditions.

Automated summary

This study proposes a hybrid solar hot water and air source heat pump combined heating system, which optimizes energy efficiency through different connection modes. Simulation analysis of the system's energy efficiency in the cold season reveals that solar radiation intensity and ambient temperature are crucial factors affecting efficiency. By switching the connection mode of solar hot water and air source heat pump based on outdoor weather conditions, the system can achieve significant energy-saving benefits.