The daily thermal energy and exergetic performance metrics of the hemispherical-cover solar still have been benchmarked against a conventional solar still configuration,
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The economic feasibility presented that the dual utilization of the wick and the glass cover cooling (THSS-WC) reduced the total cost of distillates produced from hemispherical
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Generally, hemispherical solar still has relatively better thermal performance than other types of solar stills. The maximum solar radiation, daily accumulative yield, thermal
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Solar Glass vs Regular Glass: Key Differences ExplainedThe evolution of renewable energy technology has brought significant advances in materials science,
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Therefore, this work introduces a different approach to enhancing the performance of the hemispherical solar distiller (HSD) with a convex base and convex cover. The modified
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The modified solar still design incorporates a hemispherical tube, leading to a higher glass temperature (increased by 5.5 °C) due to enhanced evaporation and
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By using the water film over the single glass hemispherical type solar still the performance of hemispherical solar still was studied thoroughly by Hijleh Abu [4] and Hijleh
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Productivity enhancement of hemispherical solar still using Al 2 O 3 ‑water‑based nanofluid and cooling the glass cover (Bellila et al. 2021).
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The hemispherical distiller characteristics are having a large surface area for receiving and condensing compared to a conventional single-slope distiller. To achieve the
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Glass cover designs including pyramid [7,8], double glass [9], conical [10], tubular [11–13], spherical [14] and hemispherical [15–18] shapes have also been studied. In order to
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The impact of using TiO2 nano-coated basin and glass cover cooling at different concentrations of 0.1, 0.2, and 0.3% on Traditional Hemispherical Solar...
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Humankind has depended for ages on underground water reservoirs for its fresh water needs. But these sources do not always
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Various scientists are looking for effective and easy solutions for the augmentation of yield from the hemispherical solar still (HSS). In this study, aluminum foil sheet was used to
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Figure 9 a–c shows the hourly variation of accumulated water productivity for various concentrations accompanied by cooling the glass cover of hemispherical solar stills
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The hemispherical solar still (depicted in Fig. 1e) features a curved bowl-like shape resembling a hemisphere, while the spherical solar still (Fig. 1f) consists of a spherical glass
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The goal of the Solar Thermal Technology Program is to advance the engineering and scientific understanding of solar thermal technology and to establish the technology base
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In current experimental study hemispherical solar still was modified with attachments of different fins, applied water sprinkling technique and its comparison was done without it
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