Experimental study of the role of surface tension in enhancing the performance of solar stills using different designs of plastic fins

Experimental study of the role of surface tension in enhancing the performance of solar stills using different designs of plastic fins

[Display omitted] •Surface tension represents one of the most important factors that affect evaporation rates.•Effect of cylindrical plastic fins on the surface tension was an experimental study.•Optimal diameter of plastic fins that achieve the highest yield of solar stills was studied.•Plastic fin...

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Bibliographic Details
Published in:Solar energy Vol. 262; p. 111835
Main Authors: Djaballah, Donia, Benhaoua, Boubaker, Elnaby Kabeel, Abd, Saad Abdullah, Abdelkader, Abdelgaied, Mohamed, Khechekhouche, Abderrahmane
Format: Journal Article
Language:English
Published: Elsevier Ltd 15-09-2023
Subjects:
Evaporation
Optimized design of plastic fins
Performance improvement
Plastic fins
Solar stills
Surface tension
Solar stills
Plastic fins
Surface tension
Evaporation
Optimized design of plastic fins
Performance improvement
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Summary:[Display omitted] •Surface tension represents one of the most important factors that affect evaporation rates.•Effect of cylindrical plastic fins on the surface tension was an experimental study.•Optimal diameter of plastic fins that achieve the highest yield of solar stills was studied.•Plastic fins with 0.5 cm diameter represents the optimal design that achieves the highest performance.•Using plastic fins improved productivity by a rate reached 41.4%. The study underscores the significance of ongoing research and innovation in developing sustainable water purification technologies to address the escalating global water crisis. Whereas, solar distillers are considered the most important simple and inexpensive solutions to produce water for remote areas that suffer from the problem of lack of clean water, but are flawed by its low productivity. Therefore, this study aims to devise a simple, inexpensive, and effective solution to increase the evaporation rates within conventional solar stills to improve their productivity. To achieve this, the surface tension represents one of most important factors that affect the evaporation rates. So this study dealt with the proposal to install plastic fins in the basin of solar stills, provided that its height is greater than the thickness of the basin water layer, these plastic fins are mainly aimed at increasing the surface tension, this will help spread the water on the surface of plastic fins and thus helps to increase evaporation rates. To get the optimal diameter of plastic fins that achieve the highest improvement rates, three modified solar stills with plastic fins were designed which have the same number of plastic fins with different diameters of 0.5 cm (MSS1), 1 cm (MSS2), and 1.5 cm (MSS3), and they were compared to the reference solar still (RSS). The results showed that the use of plastic fins with a diameter of 0.5 cm (MSS1) represents the optimal design that achieves the highest performance which produced 6176 ml/m2 day, compared to 4368 ml/m2 day that produced by RSS. This suggests that the plastic fins with 0.5 cm diameter play a crucial role in the performance of the solar stills, which improve their productivity by a rate reached 41.4%. The findings highlight the potential for optimizing solar still performance through the design and integration of plastic fin tubes, offering promising advancements in water purification technologies.
ISSN:0038-092X
1471-1257
DOI:10.1016/j.solener.2023.111835