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Hybrid solar still as a co-generative system and desalination system - An experimental performance evaluation

Dhruvin L. Shukla, Kalpesh V. Modi

2021Cleaner Engineering and Technology29 citationsDOIOpen Access PDF

Abstract

An experimental evaluation of double basin hybrid solar still has been carried out as co-generative system and desalination system. The upper basin has dual-slope glass cover whereas lower basin has conventional single-slope glass cover. In the experiment of hybrid solar still as co-generative system, mixture of 33% concentrated magnesium chloride and 40% concentrated calcium chloride was flown through upper basin. Whereas in lower basin, the saline water depth of 0.01 ​m was retained with 0.10% w/w concentration of Zinc Oxide nanoparticles. In experiment of hybrid solar still as desalination system, saline water was flown through upper basin and the 0.01 ​m depth of saline water without nanoparticles was sustained in the lower basin. Desorbed water of 1.17 ​L/m2 from the upper basin and distillate of 0.28 ​L/m2 from the lower basin was obtained when hybrid solar still was examined as co-generative system. Whereas distillate yield of 0.63 ​L/m2 and 0.21 ​L/m2 was obtained from the upper and lower basin when hybrid solar still was utilized as desalination system. The experimental results revealed that maximum efficiency of 29.96% was achieved for hybrid solar still as co-generative system and 11.65% as desalination system. The outcome elucidate that an increment of 1.70% in concentration of mixture was achieved for hybrid solar still as co-generative system, which imparts 0.14 ​kW/m2 of latent cooling load.

Topics & Concepts

Solar stillDesalinationStructural basinSolar desalinationEnvironmental scienceHybrid systemEnvironmental engineeringChemistryGeologyGeomorphologyMembraneBiochemistryComputer scienceMachine learningSolar-Powered Water Purification MethodsSolar Thermal and Photovoltaic SystemsAdsorption and Cooling Systems
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