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Article

Hydrotalcites and hydrated Mg-carbonates as carbon sinks in serpentinite mineral wastes from the Woodsreef chrysotile mine, New South Wales, Australia: Controls on carbonate mineralogy and efficiency of CO2 air capture in mine tailings

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Citation

Turvey CC, Wilson SA, Hamilton JL, Tait AW, McCutcheon J, Beinlich A, Fallon SJ, Dipple GM & Southam G (2018) Hydrotalcites and hydrated Mg-carbonates as carbon sinks in serpentinite mineral wastes from the Woodsreef chrysotile mine, New South Wales, Australia: Controls on carbonate mineralogy and efficiency of CO2 air capture in mine tailings. International Journal of Greenhouse Gas Control, 79, pp. 38-60. https://doi.org/10.1016/j.ijggc.2018.09.015

Abstract
Carbon mineralisation of ultramafic mine tailings can reduce net emissions of anthropogenic carbon dioxide by reacting Mg-silicate and hydroxide minerals with atmospheric CO2 to produce carbonate minerals. We investigate the controls on carbonate mineral formation at the derelict Woodsreef chrysotile mine (New South Wales, Australia). Quantitative XRD was used to understand how mineralogy changes with depth into the tailings pile, and shows that hydromagnesite [Mg5(CO3)4(OH)2·4H2O], is present in shallow tailings material ( 0.8) atmospheric CO2 source. Laboratory-based anion exchange experiments, conducted to explore stable C isotope fractionation in pyroaurite, shows that pyroaurite δ13C values change with carbon availability, and 13C-depleted signatures are typical of hydrotalcites in C-limited environments, such as the deep tailings at Woodsreef. Quantitative XRD and elemental C data estimates that Woodsreef absorbs between of 229.0–405.1?g CO2?m?2 y?1.

Keywords
Carbon sequestration; Hydrotalcites; Brucite; Hydromagnesite; Carbon accounting; Mine tailings

Journal
International Journal of Greenhouse Gas Control: Volume 79

StatusPublished
Publication date31/12/2018
Publication date online17/10/2018
Date accepted by journal22/09/2018
ISSN1750-5836