1. Performance and feasibility study of solar-air source pump systems for low-energy residential buildings in Alpine regions.
- Author
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Liu, Zhijian, Liu, Yuanwei, Wu, Di, Jin, Guangya, Yu, Hancheng, and Ma, Wensheng
- Subjects
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ALPINE regions , *AIR source heat pump systems , *DWELLINGS , *DWELLING design & construction , *HEAT pumps , *FEASIBILITY studies , *PASSIVHAUS - Abstract
To promote the application of renewable energy in low-energy buildings in Alpine regions, a solar-air source heat pump (SASHP) system was investigated based on a low-energy residential building in Xining City. First, a solar fresh air (SFA) heating system simulation model was established in TRNSYS software, and the reliability of the model was verified with measured values. In addition, based on the SFA heating system model, a SASHP system model was further realized. The operating characteristics of the SASHP system were explored in depth and compared with those of the single-ASHP system in the heating season. The results show that the SFA heating system model is reliable, with relative errors that can be controlled within 15%. The indoor average temperature (T ave) can be maintained from 16.13 to 19.61 °C. The SASHP system can leads to T ave fluctuations within the range of 21.4–22.9 °C, and the solar fraction can reach 55% in the heating season. Furthermore, the SASHP system can reduce energy consumption by 55.38% compared to the ASHP system; additionally, the COP of the SASHP system is 109.43% higher than that of the ASHP system, and the annual cost is 9.7% lower. Moreover, the SASHP system produces 55.48% less carbon emissions than the ASHP system. These results provide guidance for the application of SASHP systems in Alpine regions. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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