Chapter 30 - Nanocomposite/nanoparticle in membrane-based separation for water remediation: Case study

Abstract

Nanostructured membranes have widely gained increased attention due to their specific morphology leading to improved solute retention, enhanced water permeation, increased antifouling properties, decreased energy consumption, enhanced antibacterial properties, improved mechanical-thermal stability, enhanced hydrophilicity, desired porosity, enforced chemical properties, etc. Exponential growth in the development of diverse nanomaterials has provided a stunning scenery and a desired opportunity to improve the fabrication of nanostructured membranes. All different kinds of membranes such as zeolites, polymeric, nanocomposites, metallic, and carbon-based membranes (carbon nanotube- and graphene-based membranes) have benefited from using diverse nanomaterials to improve their performance, especially their water permeation and rejection capability. Accordingly, we presented a study on using diverse nanomaterials into the structure of membranes to improve the ability of such membranes for remediation and purification of water.