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ANSYS Fluent-CFD analysis of a continuous single-slope single-basin type solar still

Srishti, Paras, Aditya Kumar

2024Green Technologies and Sustainability15 citationsDOIOpen Access PDF

Abstract

The present study endeavours to substantially contribute towards alleviating the global water scarcity problem. The task entailed designing a computational model of a renewable energy-based evaporator. Using ANSYS Fluent, the CFD simulations of a three-dimensional conventional continuous single slope, single basin solar still were carried out in summer at 23.79°N, 86.43°E coordinates. With the optimized inclination condensation angle of 29° and water depth at 1 cm, the solar still recorded the highest hourly drinking water, about 1.5 kg m−2, at 11:00 h. The continuous production resulted in a water collection rate of 8.6 kg m−2 day −1, encompassing the production of all previous models. Additionally, compared with the literature correlation for solar still simulated mass, the Power model calculation was the closest, with a 12.4% variation. Furthermore, the study showcases that CFD is an economical, efficient, and easily diagnosable technique for designing solar stills.

Topics & Concepts

FluentComputational fluid dynamicsGeologyEngineeringAerospace engineeringSolar-Powered Water Purification MethodsMembrane Separation TechnologiesWater Quality Monitoring Technologies
ANSYS Fluent-CFD analysis of a continuous single-slope single-basin type solar still | Litcius