State-of-the-art-solar energy-driven adsorption desalination systems

IF 8 Q1 ENERGY & FUELS
Mohamed Ghazy , Alaa E. Zohir , Ehab S. Ali , Ahmed S. Alsaman , A.M. Farid , Hamdy H. El-Ghetany , Ahmed A. Askalany
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Abstract

The present work presents a literature review of solar-driven adsorption desalination systems (ADS) from the perspective of hybrid systems, adsorption materials, and system configurations. The evaluation criteria were based on the daily water production rate (SDWP), gain output ratio, coefficient of performance (COP), and the specific cooling power (SCP) of the dual-cooling and desalination systems. Recommendations for effective systems that require further research and development to increase water productivity and enhance system performance are also mentioned. First, concerning hybrid systems, adding an ejector to the adsorption desalination cycle showed a significant improvement in SDWP, reaching 40 m3/ton per day (TPD). In comparison, using two ejectors in the ADS integrated with HDH reached 83.1 m3/TPD at a cost estimated at 1.49 $/m3. Secondly, concerning system configurations, a wire wound finned tube heat exchanger of ADS achieved high performance. The SDWP, SCP, and COP were 23.5 m3/TPD, 682 W/kg, and 0.32, respectively. Thirdly, concerning adsorption materials, the results showed promising adsorbent materials in the range of solar energy temperatures, and on top of them was sodium polyacrylate (SP)/CaCl2, where SDWP and COP were about 45 m3/TPD and 0.67, respectively, while the cost was estimated at 3.8 $/m3. Finally, it was recommended to introduce 2D adsorbents to improve the adsorption properties and heat exchangers with 3D structures to improve the overall heat transfer coefficient of ADS.

最先进的太阳能驱动吸附式海水淡化系统
本研究从混合系统、吸附材料和系统配置的角度对太阳能驱动的吸附海水淡化系统(ADS)进行了文献综述。评估标准基于双冷却和海水淡化系统的日产水率(SDWP)、增益产出比、性能系数(COP)和比冷却功率(SCP)。此外,还对需要进一步研究和开发的有效系统提出了建议,以提高水生产率和系统性能。首先,关于混合系统,在吸附脱盐循环中增加一个喷射器可显著提高 SDWP,达到每天 40 立方米/吨(TPD)。相比之下,在与 HDH 相结合的 ADS 中使用两个喷射器,可达到 83.1 立方米/吨/日,成本估计为 1.49 美元/立方米。其次,在系统配置方面,ADS 的绕线翅片管换热器实现了高性能。其 SDWP、SCP 和 COP 分别为 23.5 m3/TPD、682 W/kg 和 0.32。第三,在吸附材料方面,研究结果表明,在太阳能温度范围内,吸附材料是有前途的,其中最重要的是聚丙烯酸钠(SP)/氯化钙,其 SDWP 和 COP 分别约为 45 m3/TPD 和 0.67,而成本估计为 3.8 美元/m3。最后,建议采用二维吸附剂来提高吸附性能,并采用三维结构的热交换器来提高 ADS 的整体传热系数。
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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来源期刊
Energy nexus
Energy nexus Energy (General), Ecological Modelling, Renewable Energy, Sustainability and the Environment, Water Science and Technology, Agricultural and Biological Sciences (General)
CiteScore
7.70
自引率
0.00%
发文量
0
审稿时长
109 days
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