Performance Studies and Energy-Saving Analysis of a Solar Water-Heating System

This paper proposed an experimental test: the solar water-heating system was been monitored for a whole year to analyze collector performance in an actual operation process. Heat-collecting efficiency, heating capacity, power consumption, and heat required were analyzed theoretically. Results showed that solar irradiance and ambient temperature were positively correlated with heat collection efficiency, and the daily average heat collection efficiency was up to 56.63%. In winter, the auxiliary heat source consumed the most power, almost all of which bears the heat of users. The heat collection in summer met the demand for hot water, and the guarantee rate of solar energy could reach 100%. The energy saving properties and CO2 emission reduction were analyzed. This system had a significant effect on the energy-saving effect and environmental protection. The analysis showed that the hot-water system can fully meet the design requirements under the condition of relatively sufficient solar energy, and can operate stably, which has a certain guiding significance for the design and application of large-scale solar hot-water systems.

Automated summary

This study proposed an experimental test and analyzed the theoretical performance of a solar water-heating system throughout a year. The results showed the positive correlation between solar irradiance and ambient temperature with heat collection efficiency, with winter auxiliary heat source consuming the most power. The system had significant effects on energy-saving and environmental protection, showing certain guiding significance for large-scale solar hot-water systems.