干旱区生态环境知识资源中心(Arid): Effect of design and operation parameters on solar-driven membrane-based desalination systems: An overview

Arid

DOI	10.1002/wene.521
	Effect of design and operation parameters on solar-driven membrane-based desalination systems: An overview
	Abdelrazik, A. S.; Sharafeldin, M. A.; Elwardany, Mohamed; Abdulkawy, N.; Shboul, Bashar; Ezzat, Sh M.; AlGalad, A. R.; Allam, Abdelwahab N.; Abdulnasser, R.; Abdalbadea, N.; Antar, Mohamed A.
通讯作者	Abdelrazik, AS
来源期刊	WILEY INTERDISCIPLINARY REVIEWS-ENERGY AND ENVIRONMENT
ISSN	2041-8396
EISSN	2041-840X
出版年	2024
卷号	13 期号:3
英文摘要	Due to the scarcity of freshwater resources in many arid regions of the world, as well as rapidly growing populations and industrialization, various desalination technologies have been developed and enhanced to improve the performance of saline water purification with high quality. Integrating solar energy technologies with desalination systems would alleviate the running out of fossil fuel sources, reduce costs, and improve energy efficiency. Solar-powered desalination systems could be a viable and efficient method for treating highly saline water for human consumption. Obtaining reliable and accurate design parameters for such hybrid systems plays a significant role in determining the system performance of solar-driven desalination systems. The present review provides a comprehensive review of various solar-driven membrane-based desalination systems to investigate the impact of design and operation parameters for solar and desalination units on the effectiveness of the hybrid solar/desalination system. Recent advancements in utilizing numerous solar energy sources for desalination are analyzed herein. The economic implications of various membrane desalination operations for different solar energy sources are also discussed. It was revealed that the solar system design parameters, desalination unit characteristics, feed water properties, and climate conditions all affect the functionality and productivity of the membrane-based solar-powered desalination system. The feed pressure, number and shape of membranes, and the integrated solar system, all have significant impacts on the performance of the hybrid system. This article provides a pathway for desalination researchers to select the optimal design and operation parameters for hybrid solar-powered membrane-based desalination systems. Notably, they are found more feasible and sustainable than traditional desalination processes. Several related conclusions and future perspectives are reported herein. This article is categorized under: Sustainable Energy > Solar Energy
英文关键词	design of desalination systems hybrid desalination systems membrane-based-desalination solar-driven desalination thermal-based desalination
类型	Review
语种	英语
收录类别	SCI-E
WOS记录号	WOS:001230761300001
WOS关键词	BRACKISH-WATER DESALINATION ; REVERSE-OSMOSIS ; ELECTRODIALYSIS ; PERFORMANCE ; ENERGY ; SCALE ; TECHNOLOGY ; PRESSURE
WOS类目	Energy & Fuels
WOS研究方向	Energy & Fuels
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/405945
推荐引用方式 GB/T 7714	Abdelrazik, A. S.,Sharafeldin, M. A.,Elwardany, Mohamed,et al. Effect of design and operation parameters on solar-driven membrane-based desalination systems: An overview[J],2024,13(3).
APA	Abdelrazik, A. S..,Sharafeldin, M. A..,Elwardany, Mohamed.,Abdulkawy, N..,Shboul, Bashar.,...&Antar, Mohamed A..(2024).Effect of design and operation parameters on solar-driven membrane-based desalination systems: An overview.WILEY INTERDISCIPLINARY REVIEWS-ENERGY AND ENVIRONMENT,13(3).
MLA	Abdelrazik, A. S.,et al."Effect of design and operation parameters on solar-driven membrane-based desalination systems: An overview".WILEY INTERDISCIPLINARY REVIEWS-ENERGY AND ENVIRONMENT 13.3(2024).