Removal of heavy metals from water sources in the developing world using low-cost materials: A review

Publication Year:

2019

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Journal Article

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In this review article, we summarize the current state of research on the removal of heavy metals with an emphasis on low-cost adsorbents that are feasible in the context of the developing world.

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Abstract

Heavy metal contamination is a growing concern in the developing world. Inadequate water and wastewater treatment, coupled with increased industrial activity, have led to increased heavy metal contamination in rivers, lakes, and other water sources in developing countries. However, common methods for removing heavy metals from water sources, including membrane filtration, activated carbon adsorption, and electrocoagulation, are not feasible for developing countries. As a result, a significant amount of research has been conducted on low-cost adsorbents to evaluate their ability to remove heavy metals. In this review article, we summarize the current state of research on the removal of heavy metals with an emphasis on low-cost adsorbents that are feasible in the context of the developing world. This review evaluates the use of adsorbents from four major categories: agricultural waste; naturally-occurring soil and mineral deposits; aquatic and terrestrial biomass; and other locally-available waste materials. Along with a summary of the use of these adsorbents in the removal of heavy metals, this article provides a summary of the influence of various water-quality parameters on heavy metals and these adsorbents. The proposed adsorption mechanisms for heavy metal removal are also discussed.

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Journal Article

Publication Year

2019

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The article examines the effectiveness of different treatment methods for removing radium from drinking water, including ion exchange, reverse osmosis, and coagulation/filtration. The authors find that all of these methods can be effective in reducing radium levels in water, but that the specific method used may depend on factors such as the initial radium concentration, water chemistry, and treatment goals.

The authors note that the choice of treatment method may also depend on other factors, such as cost, ease of operation, and maintenance requirements. The authors suggest that a combination of treatment methods may be most effective in some cases, particularly for larger water systems or those with high radium concentrations.

The article highlights the importance of monitoring radium levels in drinking water and complying with the maximum contaminant level (MCL) set by the Environmental Protection Agency (EPA). The authors note that exposure to radium can increase the risk of cancer and other health effects, particularly for those who consume water with high radium levels over a long period of time. The authors suggest that continued research and development of treatment methods for radium removal is needed to ensure that safe and affordable drinking water is available to all.