研究目的
To study the performance of the CIS module and its temperature distribution for hot and humid climatic condition. To find the optimal thermophysical properties of the eutectic PCM, various proportions have been characterized. To design and fabricate the PV-PCM and regulate the temperature rise of the module using PCM for improved electrical and thermal performance.
研究成果
The performance of the CIS module is analyzed experimentally, and their temperature distribution is compared with the simulation tool. The simulation and experimental result shows that the integration of the PCM on the PV module decreases the surface temperature up to 9°C compared with the module without PCM. The PV-PCM system has the output power of 1012.95 Whr on Day 1 and 1091.3 Whr on Day 2 with the average energy gain of 103.6 Whr. The eutectic mixtures of the PCM have shown the better performance compared with the module without PV-PCM. The inorganic eutectic mixture has potential to regulate the surface temperature and solve the limitations in the inorganic PCM. The results from the study will promote the PV PCM in the community buildings.
研究不足
The challenges in the packing and the temperature distribution are need to be analyzed. The inorganic eutectic mixture has potential to regulate the surface temperature and solve the limitations in the inorganic PCM.
