Maximizing desalination performance in pyramid distiller: Integration of vertical wick still and enhanced phase change material by nanoparticle and emerging fins

IF 6 2区 工程技术 Q2 ENERGY & FUELS Solar Energy Pub Date : 2024-10-23 DOI:10.1016/j.solener.2024.113033
Fadl A. Essa , Suha A. Mohammed , Ali Basem , Wissam H. Alawee , Mutabe Aljaghtham , A.S. Abdullah , Hasan Sh. Majdi , Abbas J. Sultan , Z.M. Omara , Y. Gamiel
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Abstract

The growing global water crisis, driven by population growth and dwindling freshwater resources, demands innovative solutions for sustainable desalination. While traditional solar still designs have been explored, their efficiency remains limited. This study introduces an advanced approach to solar distillation by integrating a modified pyramid solar still (MPSS) with two key innovations: a vertically positioned wick still (VWSS) and phase change material (PCM) enhanced with silver nanomaterials (PCM-Ag Nano). In addition, the design features two absorber plate configurations—flat and finned—coupled with emerging fins (EF) within the PCM unit to improve heat conductivity, addressing a common limitation in solar distillation systems. By incorporating PCM-Ag Nano and finned absorbers, the MPSS achieved significant improvements in desalination performance. The combined system of MPSS-FA-PCM-Ag-EF and VWSS produced a total distillate volume of 12,870 ml, representing a 154 % increase over a conventional pyramid solar still (PSS). Specifically, daily outputs of 9,270 ml, 5,050 ml, and 3,600 ml were recorded for MPSS, PSS, and VWSS, respectively. Furthermore, the enhanced MPSS configuration attained the highest thermal efficiency at 60.5 %, and the desalination cost was reduced to $0.0142/L, compared to $0.019/L for the PSS. These results underscore the potential of this novel MPSS design, which combines PCM-Ag Nano and VWSS, to deliver substantial improvements in freshwater production, thermal efficiency, and cost-effectiveness. This innovative system offers a promising alternative to traditional desalination techniques, contributing to the global effort to mitigate water scarcity.
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最大限度地提高金字塔蒸馏器的脱盐性能:将垂直灯芯蒸馏器与纳米颗粒和新兴翅片增强型相变材料相结合
受人口增长和淡水资源日益减少的影响,全球水危机日益严重,这就要求为可持续的海水淡化提供创新的解决方案。虽然传统的太阳能蒸馏器设计已经得到探索,但其效率仍然有限。本研究介绍了一种先进的太阳能蒸馏方法,它将改良金字塔太阳能蒸馏器(MPSS)与两项关键创新集成在一起:垂直定位灯芯蒸馏器(VWSS)和纳米银材料增强相变材料(PCM)(PCM-Ag Nano)。此外,该设计还采用了两种吸收板配置--平板和翅片--与 PCM 单元内的新兴翅片 (EF) 相耦合,以提高导热性,从而解决太阳能蒸馏系统中的一个常见限制。通过采用 PCM-Ag Nano 和鳍片吸收器,MPSS 在海水淡化性能方面取得了显著改善。由 MPSS-FA-PCM-Ag-EF 和 VWSS 组成的组合系统产生的蒸馏物总量为 12,870 毫升,比传统的金字塔太阳能蒸馏器(PSS)增加了 154%。具体来说,MPSS、PSS 和 VWSS 的日产量分别为 9270 毫升、5050 毫升和 3600 毫升。此外,增强型 MPSS 配置的热效率最高,达到 60.5%,海水淡化成本降至 0.0142 美元/升,而 PSS 为 0.019 美元/升。这些结果凸显了这种新型 MPSS 设计的潜力,它结合了 PCM-Ag Nano 和 VWSS,在淡水产量、热效率和成本效益方面都有大幅提高。这一创新系统为传统的海水淡化技术提供了一种前景广阔的替代方案,有助于全球缓解水资源短缺问题。
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来源期刊
Solar Energy
Solar Energy 工程技术-能源与燃料
CiteScore
13.90
自引率
9.00%
发文量
0
审稿时长
47 days
期刊介绍: Solar Energy welcomes manuscripts presenting information not previously published in journals on any aspect of solar energy research, development, application, measurement or policy. The term "solar energy" in this context includes the indirect uses such as wind energy and biomass
期刊最新文献
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