Abstract
In this paper, an experimental investigation study was conducted to show the effect of enhancing the evaporation and condensation processes inside a modified solar still by placing ultrasonic humidifiers inside a cotton mesh tent in the basin water and by installing a cooling chamber with thermoelectric elements on top of the solar still. Various parameters were recorded every hour, such as temperatures at different points within the solar still, the weather conditions (e.g., solar irradiance intensity, ambient air temperature, and wind speed), the yield of distilled water, and thermal efficiency on 29 July 2021 at the Ural Federal University (Russia). The production cost of distilled water from modified and traditional solar stills was also estimated. The experimental results showed that the productivity of the modified solar still increased by 124% compared with the traditional solar still, and the highest thermal efficiency was recorded at 2:00 p.m. (approximately 95.8% and 35.6% for modified and traditional solar stills, respectively). Finally, the productivity cost of distillate water (1 L) was approximately 0.040 and 0.042 $/L for the modified and traditional solar stills, respectively. The current work has contributed to increasing solar still productivity by applying simple and new technologies with the lowest possible capital and operational costs.
Highlights
Solar photovoltaic (PV) energy is a part of the family of clean, free, and renewable energy sources, and it can produce electrical and thermal energy
Where ηth is the thermal efficiency, m. ev is the hourly yield of distillate water (L/m2/h), hfg is the latent heat of the basin water at an average temperature (J/Kg), Abp is the surface area of the water basin (m2), I(t) is the intensity of the solar radiation (W/m2), nPE, nfan, and nUM are the number of Peltier elements, fans, and ultrasonic humidifiers, respectively, and PPE, Pfan, and PUM are the power consumption of the Peltier elements, fans, and ultrasonic humidifiers, respectively
An experimental investigation was conducted to show the effect of enhancing the evaporation and condensation processes inside a single modified solar still by placing ultrasonic humidifiers inside a cotton mesh tent in the basin water and by installing a cooling chamber with thermoelectric elements on top of the still
Summary
Solar photovoltaic (PV) energy is a part of the family of clean, free, and renewable energy sources, and it can produce electrical and thermal energy. Abdullah et al [21] designed and constructed a modified piece of technology by installing a vertically rotating wick in a single-slope solar still and adding nanofluid to the basin water This modification with and without nanofluid enhanced productivity by approximately 315% and 300%, respectively. Alwan et al [24] raised the productivity of a single-slope solar still by immersing three ultrasonic humidifiers in the water basin inside a cotton tent (wick) to improve evaporation They demonstrated that the suggested modification improved the daily yield by 68% compared with a traditional solar still. S. Nazari et al [28] conducted an experimental study to improve the evaporation efficiency of the solar distiller basin water using a copper oxide nanofluid (Cu2O) and to increase the condensation efficiency by integrating the modified solar distiller with a cooling duct, on which four thermoelectric cooling units were installed.
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