Enhanced water production in hemispherical solar stills via solar collector and thermal storage integration: experimental validation

In arid regions that face water scarcity, solar distillation offers hope by meeting the increasing need for clean drinking water. This study investigates the integration of a hot water storage system, heated by a flat plate solar collector, into a hemispherical solar still. Placing the storage tank...

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Bibliographic Details
Published in:Water science & technology. Water supply 2024-05, Vol.24 (5), p.1734-1754
Main Authors: Benabdelaziz, Kamel Ferhat, Chaker, Abla, Kerfah, Rabah
Format: Article
Language:English
Subjects:
active solar still
Aluminum
Arid regions
Arid zones
Copper
Cost analysis
Distillation
Distilled water
Drinking water
Economic analysis
Efficiency
Fins
flat plat solar collector
Flat plates
Heat conductivity
hemispherical solar still
Hot water
Nanoparticles
Orifices
Productivity
Radiation
Saline water
Salvage value
Solar collectors
Solar distillation
Solar stills
Storage tanks
Summer
Thermal energy
Thermal storage
Water
Water depth
Water scarcity
Water storage
Zinc
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Summary:In arid regions that face water scarcity, solar distillation offers hope by meeting the increasing need for clean drinking water. This study investigates the integration of a hot water storage system, heated by a flat plate solar collector, into a hemispherical solar still. Placing the storage tank below the still's absorber enhances heat input and efficiently stores excess daytime thermal energy. Conducted in Bouismail from December 2022 to October 2023, the study yielded significant results: the modified solar still outperformed the conventional one, with production increases of 157% in winter and 207% in summer. Moreover, the modified still demonstrated remarkable efficiency improvement in summer, reaching 37.42% compared to 20.38% for the conventional still. The orientation of the fins within the storage tank, with respect to the hot water entrance orifice, significantly impacted water production, with alterations of the angle resulting in decreases of up to 25%. Increasing saltwater depth led to reduced distilled water output, with declines of up to 37.08% for the modified still. Economic analysis showed a slightly higher cost per liter of water produced by the modified still ($0.1897) compared to the simple one ($0.1446).
ISSN:1606-9749
1607-0798
DOI:10.2166/ws.2024.107