A comparative study on 3E (energy, exergy and economic) analysis of solar PV operated dome-shaped solar stills

The present investigation centres on the empirical examination of a solar photovoltaic (PV) system that is integrated with a dome-shaped solar still (DSSS) in order to facilitate the process of desalination. The objective is to increase the production of freshwater through the utilisation of saline water at elevated temperatures. The assessment of the DSSS system's efficacy is conducted through the examination of various parameters, including water yield, energy, exergy, concentrator performance, and economic feasibility. The study's results demonstrate that the DSSS system's water yield, energy, and exergy were evaluated under varying inlet temperatures and mass flow rates. The study recorded the water yield, energy, and exergy at 4.73, 4.27, and 4.91 l/m?, respectively, with respect to the ambient inlet temperature. The water yield was observed to range from 6.9 to 7.7 litres per square metre under different input temperatures and air mass flow rates. The DSSS system's energy and exergy efficiency were evaluated, indicating encouraging results for various inlet air temperatures. Furthermore, the economic evaluation revealed that the rate of freshwater production was cost-effective in comparison to conventional solar stills. In summary, this research offers empirical proof of the efficacy of a solar photovoltaic-powered dome-shaped solar still for the purpose of desalination. It emphasises enhancements in the output of fresh water, energy and exergy efficiency, and the economic viability of this technology.