Prospects of forward osmosis-based membranes for seawater mining: Economic analysis, limitations and opportunities.

Processes for separating solutes from water, including desalination, are based on synthetic membranes using the forward osmosis (FO) technique. The industrial-level success of these membrane techniques has been astounding. Modern desalination membranes, however, cannot extract a single metal ion with precision from a commingled ion solution. Lithium, cobalt, uranium, and other energy-critical elements will soon be in greater demand than they can meet, thus elevating their importance as geopolitical resources. Critical metals can be found in seawater, an essential yet unconventional supply. Gold mining and ore processing are activities of great economic importance. However, they are related to generating extremely polluted effluents containing high concentrations of heavy metals and low pH. The review highlights the most recent design and deployment of FO desalination technologies, their application in sea mining, and the remaining challenges and prospects. This work also highlights the enormous potential of FO sea mining and how it is crucial to optimize the operating parameters, including draw solutions and energy consumption, and raise attention toward the economic aspect and market diffusion of FO sea mining. [Display omitted] • The advantages of using FO technology in sea mining are highlighted and discussed. • Several investigations, including FO energy consumption, and draw solute choice, are described in depth. • Draw solution characteristics, properties and choice criteria are highlighted and discussed. • Challenges and prospects using FO in sea mining have been proposed. [ABSTRACT FROM AUTHOR]