Experimental Validation of Performance Parameters of An Air Source Heat Pump Model

Meeting the DHW (domestic hot water) requirement and the energy used for DHW has an important share in the energy sector today. Air-source heat pumps, one of the systems used to meet this requirement, can also be supported by various renewable energy sources. In such hybrid systems, it is extremely important to model the system and validate this model, since the tests in laboratory conditions are quite difficult. In this study, a system was established for the experimental validation of air source heat pumps used to meet the domestic hot water demand, and the same system was modelled using TRNSYS software to validate the system. The developed model is capable of being supported by renewable energy sources and is a guide for such studies. The heat pump capacity used in the study is a 8 kW, and the experimental tests were carried out for temperatures between 0°C and 15°C. In this study, domestic hot water was continuously heated through a tank and its temperature was increased from 30°C to 45°C. For air source heat pumps, a model with the highest average percentage deviation of 3.5% was developed and validated with experimental data. The developed model is designed to be supported by renewable energy sources, and it is a source study for such hybrid models.