Energy, exergy and environmental analysis of glazed and unglazed PVT system integrated with phase change material: An experimental approach

Abstract

In the current study, the effects of using a mixture of pure water and ethylene glycol (EG) with a mass ratio of 50% on the performance of glazed and unglazed photovoltaic thermal systems (PVTs) integrated with a PCM layer (PVT/PCM) are investigated. The studied coolant fluids are pure water, pure EG (EG 100%), and a mixture of pure water and pure EG with a mass ratio of 50% (EG 50%). The outdoor experimental tests are performed at Mashhad, Iran on sunny days in August, and a thermodynamic study including energy and exergy analysis is carried out to assess the efficiencies of two PVT/PCM systems. The results show, although the thermal energy efficiency of PVTs is decreased by mixing EG and pure water, the thermal exergy efficiency is enhanced. In addition, both overall energy and exergy efficiencies of the PVT/PCM system reduce when EG is added as an impurity to the pure water. The results also indicate that the percentage of the energy losses decreases in glazed cases of water-based PVT/water, PVT/EG (50%), and PVT/EG (100%) by 9.28%, 23.33%, and 48.58%, respectively compared to the unglazed systems. In addition, environmental investigation indicates that, compared to the PV unit, using a PVT system significantly benefits CO2 mitigation from both thermodynamic approaches. Finally, the water/EG mixture introduces as an appropriate coolant fluid due to lower freezing point and higher overall energy and exergy with respect to pure EG and suggested for cold climate conditions.