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RESEARCH ARTICLE

Phosphate Removal from Aqueous Solutions using Neutralised Bauxite Refinery Residues (Bauxsol™)

Darren J. Akhurst A , Graham B. Jones A B , Malcolm Clark A and David McConchie A
+ Author Affiliations
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A Centre for Coastal Management, School of Environmental Science and Management, Southern Cross University, Lismore, New South Wales 2480, Australia.

B Corresponding author. Email: gjones@scu.edu.au

Environmental Chemistry 3(1) 65-74 https://doi.org/10.1071/EN05038
Submitted: 27 June 2005  Accepted: 13 November 2005   Published: 2 March 2006

Environmental Context. Eutrophication of freshwater and marine ecosystems is a global problem, which is frequently linked to high phosphorus concentrations. The present study investigated the use of Bauxsol™, a modified bauxite refinery residue, to remove dissolved phosphate from water, and has shown that it can be used as a cost-effective adsorbent for treating phosphate-contaminated waters. The results provide water and environmental managers with a new technique for decreasing the phosphate loads in water and wastewater. Environmental benefits include improved water quality, minimisation of excessive plant growth, including potentially toxic blue green algae, and the utilisation of an industrial residue for environmental remediation.

Abstract. Phosphate (PO43–) removal by Bauxsol™, a neutralised bauxite refinery residue, was investigated as a function of time, pH, ionic strength, adsorbent dosage, competing ions, and initial phosphate concentration. The results of adsorption and desorption studies indicate that adsorption of PO43– by Bauxsol™ is based on a ligand-exchange mechanism, although the low reversibility pH-independent desorption observed in acid-treated Bauxsol™ indicates a dominance of chemisorption. It was shown that PO43– adsorption onto both Bauxsol™ and acid-treated Bauxsol™ followed a Langmuir isotherm model, with adsorption capacities of 0.21 and 0.48 mmol g−1 at pH 9.0 and 5.2 respectively. Adsorption of PO43– by Bauxsol™ increased with decreasing pH, with maximum adsorption efficiencies obtained at pH 5.2 ± 0.1 (the lowest pH investigated), higher Bauxsol™ to initial phosphate concentration ratios, and increased time. Studies of the effects of competing ions on the adsorption of PO43– by Bauxsol™ indicated that adsorption decreased in the presence of HCO3 ions, whereas SO42–and Cl ions had little effect, and Ca2+ and Mg2+ ions increased adsorption. These findings suggest that Bauxsol™ could be used as an efficient low-cost adsorbent for treating phosphate-contaminated waters.

Keywords. : aquatic chemistry — Bauxsol™ — natural/wastewaters — phosphate removal — recycling waste


References


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[2]   Rhue R. D., Harris W. G., in Phosphorus Biogeochemistry in Subtropical Ecosystems (Eds K. R. Reddy, G. A. O’Connor, C. L. Schelske) 1999, pp. 187–206 (Lewis Publishers: Boca Raton, FL).

[3]   R. K. Chiswell, G. B. Jones, J. Brodie, Mar. Freshwater Res. 1997, 48,  287.
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