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1. Formation and stability of Pb-, Zn- & Cu-PO₄ phases at low temperatures: implications for heavy metal fixation in polar environments.

Author

White DA, Hafsteinsdóttir EG, Gore DB, Thorogood G, and Stark SC

Subjects

Antarctic Regions, Arctic Regions, Copper analysis, Copper chemistry, Environmental Pollutants analysis, Lead analysis, Lead chemistry, Metals, Heavy analysis, Models, Chemical, Phosphates analysis, Zinc Compounds analysis, Zinc Compounds chemistry, Environmental Pollutants chemistry, Metals, Heavy chemistry, Phase Transition, Phosphates chemistry

Abstract

Low temperatures and frequent soil freeze-thaw in polar environments present challenges for the immobilisation of metals. To address these challenges we investigated the chemical forms of Pb, Zn and Cu in an Antarctic landfill, examined in vitro reaction kinetics of these metals and orthophosphate at 2 and 22 °C for up to 185 days, and subjected the products to freeze-thaw. Reaction products at both temperatures were similar, but the rate of production varied, with Cu-PO(4) phases forming faster, and the Zn- and Pb-PO(4) phases slower at 2 °C. All metal-orthophosphate phases produced were stable during a 2.5 h freeze-thaw cycle to -30 °C. Metal immobilisation using orthophosphate can be successful in polar regions, but treatments will need to consider differing mineral stabilities and reaction rates at low temperatures., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2012