TY - JOUR AU - Konstantaras, John AU - Pagkalos, Christos AU - Koukou, Maria AU - Lymperis, Kostas AU - Caouris, Yannis AU - Vrachopoulos, Michail PY - 2022 DA - 2022/06/09 TI - Controller Evaluation for Solar-Latent Thermal Energy Applications JO - Journal of Energy and Power Technology SP - 021 VL - 04 IS - 02 AB - In this study, the performance of a self-sufficient controller used for a solar-latent heat domestic hot water (DHW) production unit under real-world operating conditions was analyzed. The unit consists of a flat-plate solar collector and a latent heat storage tank. The controller is powered by a small solar panel and governs the charging and discharging of the system, ensuring maximum solar energy absorption, desired hot water temperature, and constant monitoring of the heat-storage tank’s capacity. The system is compact and can be installed on flat and curved roofs as a direct replacement of conventional solar collectors with heat-energy storage tanks. During testing, all internal and external parameters were monitored using a monitoring system that was also used for emulating user profiles. The controller uses self-learning techniques to adjust its parameters and improves its performance by fine-tuning the control equations to the peculiarities of the specific system and installation location. The system was installed and operated for an extended period to allow for the learning equations to train the system. The results for the first, fifth, and twentieth days of operation are presented in this paper. On the 20th operating day, the controller effectively regulated the heat transfer fluid temperature difference in the charging circuit within the efficient band of 2°C–5°C following the irradiance conditions at the testing area. During discharge, the DHW temperature was regulated between 37°C–40°C, with the user’s set temperature as 38°C. The regulation hysteresis time for the DHW temperature regulation was approximately 5 min. The tests were conducted under real-world operating conditions for the charging of the system, while for the discharging, the user profile was emulated using a test rig. SN - 2690-1692 UR - https://doi.org/10.21926/jept.2202021 DO - 10.21926/jept.2202021 ID - Konstantaras2022 ER -