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Iron Transformation and Its Role in Phosphorus Immobilization in a UCT-MBR with Vivianite Formation Enhancement

Shaoyu Deng, Changyong Zhang, Yan Dang, Richard N. Collins, Andrew S. Kinsela, Jingbao Tian, Dawn E. Holmes, Hongsuo Li, Bin Qiu, Xiang Cheng, T. David Waite

2020Environmental Science & Technology37 citationsDOI

Abstract

The formation of vivianite (Fe3(PO4)2·8H2O) in iron (Fe)-dosed wastewater treatment facilities has the potential to develop into an economically feasible method of phosphorus (P) recovery. In this work, a long-term steady FeIII-dosed University of Cape Town process-membrane bioreactor (UCT-MBR) system was investigated to evaluate the role of Fe transformations in immobilizing P via vivianite crystallization. The highest fraction of FeII, to total Fe (Fetot), was observed in the anaerobic chamber, revealing that a redox condition suitable for FeIII reduction was established by improving operational and configurational conditions. The supersaturation index for vivianite in the anaerobic chamber varied but averaged ∼4, which is within the metastable zone and appropriate for its crystallization. Vivianite accounted for over 50% of the Fetot in the anaerobic chamber, and its oxidation as it passed through the aerobic chambers was slow, even in the presence of high dissolved oxygen concentrations at circumneutral pH. This study has shown that the high stability and growth of vivianite crystals in oxygenated activated sludge can allow for the subsequent separation of vivianite as a P recovery product.

Topics & Concepts

PhosphorusChemistrySupersaturationAnaerobic exerciseWastewaterRedoxSewage treatmentInorganic chemistryEnvironmental scienceEnvironmental engineeringPhysiologyOrganic chemistryBiologyPhosphorus and nutrient managementWastewater Treatment and Nitrogen RemovalAdsorption and biosorption for pollutant removal
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