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      Current Status of the Effect of Seawater Ions on Copper Flotation: Difficulties, Opportunities, and Industrial Experience

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          Reverse osmosis desalination: water sources, technology, and today's challenges.

          Reverse osmosis membrane technology has developed over the past 40 years to a 44% share in world desalting production capacity, and an 80% share in the total number of desalination plants installed worldwide. The use of membrane desalination has increased as materials have improved and costs have decreased. Today, reverse osmosis membranes are the leading technology for new desalination installations, and they are applied to a variety of salt water resources using tailored pretreatment and membrane system design. Two distinct branches of reverse osmosis desalination have emerged: seawater reverse osmosis and brackish water reverse osmosis. Differences between the two water sources, including foulants, salinity, waste brine (concentrate) disposal options, and plant location, have created significant differences in process development, implementation, and key technical problems. Pretreatment options are similar for both types of reverse osmosis and depend on the specific components of the water source. Both brackish water and seawater reverse osmosis (RO) will continue to be used worldwide; new technology in energy recovery and renewable energy, as well as innovative plant design, will allow greater use of desalination for inland and rural communities, while providing more affordable water for large coastal cities. A wide variety of research and general information on RO desalination is available; however, a direct comparison of seawater and brackish water RO systems is necessary to highlight similarities and differences in process development. This article brings to light key parameters of an RO process and process modifications due to feed water characteristics.
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            The composition of Standard Seawater and the definition of the Reference-Composition Salinity Scale

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              Why are water-hydrophobic interfaces charged?

              We report ab initio molecular dynamics simulations of hydroxide and hydronium ions near a hydrophobic interface, indicating that both ions behave like amphiphilic surfactants that stick to a hydrophobic hydrocarbon surface with their hydrophobic side. We show that this behavior originates from the asymmetry of the molecular charge distribution which makes one end of the ions strongly hydrophobic while the other end is even more hydrophilic than the regular water (H2O) molecules. The effect is more pronounced for the hydroxide than for the hydronium. Our results are consistent with several experimental observations and explain why hydrophobic surfaces in contact with water acquire a net negative charge, a phenomenon that has important implications for biology and polymer science.
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                Author and article information

                Contributors
                (View ORCID Profile)
                Journal
                Mineral Processing and Extractive Metallurgy Review
                Mineral Processing and Extractive Metallurgy Review
                Informa UK Limited
                0882-7508
                1547-7401
                July 04 2022
                March 18 2021
                July 04 2022
                : 43
                : 5
                : 545-563
                Affiliations
                [1 ]Departamento de Ingeniería Química y Procesos de Minerales, Universidad de Antofagasta, Antofagasta, Chile
                [2 ]School of Engineering Science, LUT University, Lappeenranta, Finland
                [3 ]Institut de Recherche en Mines et Environnement (IRME), Université du Québec en Abitibi-Témiscamingue, Rouyn-Noranda, Canada
                [4 ]Escuela de Ingeniería Civil de Minas, Universidad de Talca, Talca, Chile
                Article
                10.1080/08827508.2021.1900175
                ed1c5eb8-0643-4de2-98e6-3b90b9007ce0
                © 2022
                History

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