Aondohemba Aende scite author profile

Currently over 845 million people are believed to be living under severe water scarcity, and an estimated 2.8 billion people across the globe are projected to come under serious water scarcity by the year 2025, according to a United Nations (UN) report. Seawater desalination has gained more traction as the solution with the most potential for increasing global freshwater supplies amongst other solutions. However, the economic and energy costs associated with the major desalination technologies are considered intrinsically prohibitive largely due to their humongous energy requirements alongside the requirements of complex equipment and their maintenance in most cases. Whilst forward osmosis (FO) is being touted as a potentially more energy efficient and cost-effective alternative desalination technique, its efficiency is challenged by draw solutes and the draw solutes recovery step in FO applications alongside other challenges. This paper looks at the present situation of global water scarcity, and a brief leap into the major desalination technologies employed. A closer look at the key drivers of FO as a seawater desalination technique in their individual domain and its outlook as an technology are further highlighted.

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A novel highly osmotic K/Fe3O4/CNF magnetic draw solution for salty water desalination

Aende

Gardy

Aslam

et al. 2022

Desalination

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Aondohemba Aende

Seawater Desalination: A Review of Forward Osmosis Technique, Its Challenges, and Future Prospects

A novel highly osmotic K/Fe3O4/CNF magnetic draw solution for salty water desalination

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