1. Analyzing the performance of combined solar photovoltaic power system with phase change material
- Author
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Divya S., Siva Ramkumar Mathiyalagan, J. Mohana, Vinjamuri S.N. CH Dattu, Hemavathi S., Natrayan L., Anand Chakaravarthi M.C., V. Mohanavel, and Ravishankar Sathyamurthy
- Subjects
Photovoltaic system ,Phase change material (PCM) ,Thermal system ,Solar photovoltaic power system ,Electrical engineering. Electronics. Nuclear engineering ,TK1-9971 - Abstract
Under the influence of cosmic improvement, photovoltaic (PV) container power capability decreases. In this case study, several passive and active chilling exploratory studies are carried out on a PV container to determine their effects on the energetic and warm depiction of a PVT scheme. All experiments are carried out on a cosmic person who poses as an expert while working with a wide range (regular-condensed) of energy from the sun’s capability. The temperature of the PV container rises as heat is generated along its course, resulting in a lower power delivered. The heat produced during the operation can be eliminated by attaching phase change material (PCM) to the PV committee afterward, which can retain the PV heat for a long time to increase overall effectiveness. Fins may be secondhand inside the PCM canister to improve the heat transmission. In research, it is noticed that as directly as PCM is melted entirely, the heat ancestry rate of PCM reduces that repeated leads to development in PV hotness. An oily acid was preferred as the PCM with a development change hotness. For the time being the investigation, research inspected two various sporadic warm requirement approaches utilizing a water distribution loop in the PV/T-PCM arrangement to boost the overall solar energy exercise effectiveness, and particularized contrasting were accomplished. The results showed that using PCM in a solar-powered battery can essentially reduce the PV committee’s hotness vacillation and improve photoelectric efficacy. Using the warm regulation method’s low hotness backdrop, excess heat may be extracted from the PCM in the solar panel. It was decided that an acceptable thermal management policy might improve the overall energy exercise percentage of the PV/T-PCM plan; however, more effect on the commerce research of the system that regulates organization is still needed. The research is developed to analyze a combination of solar Photovoltaic power systems using the PCM performance is analyzed.
- Published
- 2022
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