Research progress and state-of-the-art on solar membrane desalination

Maryam Nooman AlMallahi , Jawad Mustafa , Ali H. Al-Marzouqi , Mahmoud Elgendi
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Abstract

The global problem of water scarcity continues to grow because of population growth and climate change. Membrane distillation (MD) stands out as a progressing technology, demonstrating the potential for integration with operating systems powered by solar energy. Despite the increasing interest in solar-powered MD, existing literature primarily focuses on the technical aspects of the technology. There is a notable lack of comprehensive analyses that explore broader research trends, key contributors, and thematic evolution within this field. This paper addresses this gap by employing bibliometric analysis and machine learning approaches to explore trends in solar membrane desalination based on publications from 2014 to 2023. 991 publications were analyzed from various aspects, such as publications, countries, institutions, and research trends. Hot keywords include “membrane distillation”, “reverse osmosis”, “energy efficiency”, and “evaporation”. China had the highest number of publications and h-index, followed by the United States, and Saudi Arabia. The study clustered the keywords into three themes: membrane distillation, membrane materials, and reverse osmosis. Analysis of the thematic map reveals seven main research topics in solar-powered membrane desalination, classified according to their degree of relevance. Finally, future directions of membrane desalination are highlighted, including exploring economic and environmental aspects.

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太阳能膜海水淡化的研究进展和最新进展
由于人口增长和气候变化,全球缺水问题不断加剧。膜蒸馏技术(MD)作为一项不断进步的技术脱颖而出,展示了与太阳能供电的运行系统集成的潜力。尽管人们对太阳能驱动的 MD 的兴趣与日俱增,但现有文献主要侧重于该技术的技术方面。在这一领域中,明显缺乏对更广泛的研究趋势、主要贡献者和主题演变进行探讨的综合分析。本文针对这一空白,采用文献计量分析和机器学习方法,以 2014 年至 2023 年的出版物为基础,探讨太阳能膜海水淡化的发展趋势。本文从出版物、国家、机构和研究趋势等多个方面分析了 991 篇出版物。热门关键词包括 "膜蒸馏"、"反渗透"、"能效 "和 "蒸发"。中国的出版物数量和 h 指数最高,其次是美国和沙特阿拉伯。研究将关键词分为三个主题:膜蒸馏、膜材料和反渗透。对主题图的分析揭示了太阳能膜淡化的七个主要研究课题,并根据其相关程度进行了分类。最后,强调了膜法海水淡化的未来方向,包括探索经济和环境方面的问题。
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来源期刊
Case Studies in Chemical and Environmental Engineering
Case Studies in Chemical and Environmental Engineering Engineering-Engineering (miscellaneous)
CiteScore
9.20
自引率
0.00%
发文量
103
审稿时长
40 days
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