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

Water Supply Pub Date : 2024-05-09 DOI:10.2166/ws.2024.107
Kamel Ferhat Benabdelaziz, Abla Chaker, R. Kerfah
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Abstract

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).
通过太阳能集热器和蓄热一体化提高半球形太阳能蒸馏器的产水量:实验验证
在缺水的干旱地区,太阳能蒸馏为满足日益增长的清洁饮用水需求带来了希望。本研究探讨了将平板太阳能集热器加热的热水储存系统与半球形太阳能蒸馏器的整合问题。将储水罐置于蒸馏器吸收器下方可提高热量输入,并有效储存白天多余的热能。这项研究于 2022 年 12 月至 2023 年 10 月在布伊斯梅尔进行,取得了显著成果:改良型太阳能蒸馏器的性能优于传统型蒸馏器,冬季产量增加了 157%,夏季增加了 207%。此外,改良型蒸馏器在夏季的效率显著提高,达到 37.42%,而传统蒸馏器仅为 20.38%。相对于热水入口孔而言,储水箱中鳍片的方向对产水量有很大影响,角度的改变导致产水量下降达 25%。盐水深度的增加导致蒸馏水产量的减少,改良蒸馏器的产量减少达 37.08%。经济分析表明,改良蒸馏器每升水的成本(0.1897 美元)略高于简单蒸馏器(0.1446 美元)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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