Use of Nano-Sized Adsorbents for Wastewater Treatment: A Review

Abstract

There is an increased demand for high-quality drinking water, which requires the removal of hazardous contaminants emerging from municipal, agricultural, and industrial effluents. An approach towards safe drinking water requires the implementation of various treatment processes for water emerging from natural resources as well as coming in the form of industrial wastewater. Pollutants in water bodies may be present in multiple states, including large suspended particles, dissolved chemical substances, in the form of microorganisms or suspended solids. Over the last few years, researchers have concentrated on developing a practical methodology for extracting pollutants from wastewater. During the course of time, although many advanced and complex wastewater treatment processes have evolved, yet adsorption has its own importance. Owing to its simple operation process, low cost, and less sludge formation, adsorption is being considered the most promising technique for wastewater treatment. In this regard, nanomaterial adsorbents have become a topic of great interest owing to their exceptional properties such as high adsorption strength, greater surface area, and chemical stability. Keeping in view, key features of nanoparticles, researchers have explored the applications of various adsorbents at the nanoscale in addressing wastewater treatment issues. The present review focuses on the use of nano-adsorbents in treating various industrial effluents and also provides a comparative assay in terms of the advantages and drawbacks of these nano-adsorbents, employed in removing hazardous contaminants from industrial effluents.