Removing ammonium from water and wastewater using cost-effective adsorbents: A review |
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Authors: | Jianyin Huang Nadeeka Rathnayake Kankanamge Christopher Chow David T Welsh Tianling Li and Peter R Teasdale |
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Institution: | 1.Natural and Built Environments Research Centre, School of Natural and Built Environments, University of South Australia, SA 5095, Australia
2.Future Industries Institute, University of South Australia, SA 5095, Australia
3.Environmental Futures Research Institute, School of Environment, Griffith University, Gold Coast campus, QLD 4215, Australia,3.Environmental Futures Research Institute, School of Environment, Griffith University, Gold Coast campus, QLD 4215, Australia,1.Natural and Built Environments Research Centre, School of Natural and Built Environments, University of South Australia, SA 5095, Australia
2.Future Industries Institute, University of South Australia, SA 5095, Australia,3.Environmental Futures Research Institute, School of Environment, Griffith University, Gold Coast campus, QLD 4215, Australia,3.Environmental Futures Research Institute, School of Environment, Griffith University, Gold Coast campus, QLD 4215, Australia and 1.Natural and Built Environments Research Centre, School of Natural and Built Environments, University of South Australia, SA 5095, Australia
2.Future Industries Institute, University of South Australia, SA 5095, Australia |
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Abstract: | Ammonium is an important nutrient in primary production; however, high ammonium loads can cause eutrophication of natural waterways, contributing to undesirable changes in water quality and ecosystem structure. While ammonium pollution comes from diffuse agricultural sources, making control difficult, industrial or municipal point sources such as wastewater treatment plants also contribute significantly to overall ammonium pollution. These latter sources can be targeted more readily to control ammonium release into water systems. To assist policy makers and researchers in understanding the diversity of treatment options and the best option for their circumstance, this paper produces a comprehensive review of existing treatment options for ammonium removal with a particular focus on those technologies which offer the highest rates of removal and cost-effectiveness. Ion exchange and adsorption material methods are simple to apply, cost-effective, environmentally friendly technologies which are quite efficient at removing ammonium from treated water. The review presents a list of adsorbents from the literature, their adsorption capacities and other parameters needed for ammonium removal. Further, the preparation of adsorbents with high ammonium removal capacities and new adsorbents is discussed in the context of their relative cost, removal efficiencies, and limitations. Efficient, cost-effective, and environmental friendly adsorbents for the removal of ammonium on a large scale for commercial or water treatment plants are provided. In addition, future perspectives on removing ammonium using adsorbents are presented. |
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Keywords: | Ammonium Water treatment Capacities Cost-effective Environmental friendly |
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