Abstract
Abstract A shortage of safe drinking water is one of the leading problems in the world. Even in developed countries where water treatment systems are present, safe drinking water may not be always available due to the limitations of advanced water treatment techniques and high energy costs. On the other hand, many rural communities in Asia and Africa situated in semi-arid to arid regions are without reliable access to clean drinking water. It is, therefore, important to explore how solar energy can be linked to water treatment systems for clean drinking water production. Membrane-based water purification technologies play a major role in water purification by utilization of low-cost heat sources to make the process economically and technically viable for small, medium, and large-scale applications. Solar energy can be a viable source of power for water purification facilities in the coming years. Photovoltaic panels and solar thermal collectors are appropriate solar energy collectors for making a solar-powered water treatment system. Solar-assisted membrane-based water purification techniques could have a viable solution to the existing problems in semi-arid and arid regions. Due to the high quality of potable water demand, studies have been carried out on solar-assisted membrane-based technologies in water purification. This review considers basic concepts, specific energy consumption, water production cost, and applications of solar-driven membrane-based water purification technologies such as reverse osmosis, forward osmosis, electrodialysis, membrane distillation, and hybrid membrane systems. This review will allow the researchers to have a wider overview of the effort made by several investigators in the area of solar-assisted membrane-based water purification technology.
Highlights
Water is one of the most abundant resources on earth, covering three-quarters of the planet’s surface
The results show that direct contact membrane distillation (DCMD) is the most cost-effective configuration, and air gap membrane distillation (AGMD) is the most expensive configuration
Results suggest that the laboratory-scale DCMD is the least energy-intensive and conclude that water produced from laboratory-scale DCMD is economically competitive with solar-powered membrane-based separation technologies
Summary
Water is one of the most abundant resources on earth, covering three-quarters of the planet’s surface. This paper reviews solar-driven membrane technologies for water purification such as RO, FO, ED, and MD, as standalone processes or as hybrid systems, evaluating energy consumption and water production costs. RO is a commercialized membrane-based water purification technology that can be coupled with solar energy systems for economical and energy-efficient desalination of brackish and seawater and water/wastewater treatments to produce freshwater.
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