A Comprehensive Review of Performance Augmentation of Solar Stills Using Common Non-Metallic Nanofluids

Alenezi, Anwur; Alabaiadly, Yousef

doi:10.3390/su151310122

Cited by 8 publications

(1 citation statement)

References 72 publications

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“…A review paper [23] discussed energy exchange and energy storage materials including nano embodied PCMs, nano fluids and nanoparticles, nanostructures with efficient steam generation and sensible heat storage materials for solar desalination. Another review [24] focused on recent enhancement techniques aiming at boosting solar still performance by incorporating non-metallic nanofluids into the base fluid. The nanomaterials examined in this review include Al2O3, CuO, ZnO, and TiO2.…”

Section: Introductionmentioning

confidence: 99%

Enhancing Solar Still Productivity: Use of Nanomaterials

Tayeb,

Mahmoud,

Geddawy

2023

International Journal of Industry and Sustainable Development

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Much care is being given for the issue of sustainable development in the last few years. Among these efforts, researchers are giving much interest to saving water resources, energy conservation and protecting environment from pollution resulting from the use of fossil fuel. The present study is an investigation for the effects of operational and design parameters on the performance of basin type passive solar stills. Two types of nanomaterials are used for enhancing still productivity. The materials tested are nano-ZnO and nano-TiO2.Besides, experiments are run on TiO2 particles and on a reference still with no materials added except saline water. This gave a chance to investigate the effect, on still productivity, of adding an energy absorbing material, the effect of having this material in a nanoform and a comparison between the performances of different materials. The parameters of ambient temperature, basin temperature, glass temperature and solar intensity are studied. A total productivity amounting to 1645ml, 1560ml and 1115ml was obtained per day from stills having nano-ZnO, nano-TiO2 or TiO2 particles (0.6 g/l), respectively. The still efficiency is calculated to be 34.93%, 48.87% and 51.53% when TiO2, TiO2 NPs and ZnO NPs are used, respectively. Thus, ZnO showed the best productivity, followed by TiO2 and finally by TiO2 particles.

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Section: Introductionmentioning

confidence: 99%

Enhancing Solar Still Productivity: Use of Nanomaterials

Tayeb,

Mahmoud,

Geddawy

2023

International Journal of Industry and Sustainable Development

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Performance analysis of pyramid solar still with natural banana fibers and Kanche marbles

Senthilkumar,

Yuvaperiyasamy,

Deepanraj

et al. 2024

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A review of the current situation and prospects for nanofluids to improve solar still performance

Rashid,

Al-Obaidi,

Mohammed

et al. 2024

J Therm Anal Calorim

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Drinking water production has been thrust to the forefront of global issues as a direct result of the critical need for access to clean water and the expanding environmental difficulties. Solar stills are becoming an increasingly popular technology for the purification of water since they provide a greener and more cost-effective alternative to the production of distilled water of a high standard. Recent research has focused on the incorporation of nanofluids, which are suspensions of metallic or non-metallic nanoparticles, into base fluids such as water and oil in the hopes of further increasing the effectiveness of solar distillation. This novel technique intends to improve thermophysical and evaporation parameters, which will eventually lead to greater production in solar stills. In this paper, a complete overview of the most recent developments in the use of nanofluids in solar still technology is presented. This research investigates the potential of nanofluid-filled solar still systems by focusing on their one-of-a-kind qualities. These qualities include increased thermophysical properties, better thermal conductivity, and enhanced thermal absorptivity. The innovative nature of this method is highlighted by the fact that the use of nanofluids in active solar stills has proven a decrease in the amount of pumping power that is required. For instance, it has been ascertained that the inclusion of carbon quantum dots nanofluids to a solar still can expressively improve the water production, boosting the output by 57.9% to 823 mL compared to the 521 mL produced by a conventional still. Also, using a concentration of 0.9%, Al2O3, TiO2, CuO nanofluids and multiwall carbon nanotubes can boost the water production by 11.57%, 7.16%, 6.32%, and 4.66%, respectively, if compared to a solar still without nanofluids. This study serves as a pioneering examination of the future possibilities of nanofluid-enabled solar still systems, shining light on a transformational route toward environmentally friendly and effective water purification technologies. In light of these astonishing discoveries, this research serves as a pioneering exploration of the future prospects of nanofluid-enabled solar desalination units.

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A Comprehensive Review of Performance Augmentation of Solar Stills Using Common Non-Metallic Nanofluids

Cited by 8 publications

References 72 publications

Enhancing Solar Still Productivity: Use of Nanomaterials

Enhancing Solar Still Productivity: Use of Nanomaterials

Performance analysis of pyramid solar still with natural banana fibers and Kanche marbles

A review of the current situation and prospects for nanofluids to improve solar still performance

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