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The variation in composition of ultramafic rocks and the effect on their suitability for carbon dioxide sequestration by mineralization following acid leaching
Author(s) -
Styles M. T.,
Sanna A.,
Lacinska A. M.,
Naden J.,
MarotoValer M.
Publication year - 2014
Publication title -
greenhouse gases: science and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.45
H-Index - 32
ISSN - 2152-3878
DOI - 10.1002/ghg.1405
Subject(s) - ultramafic rock , olivine , carbonatite , leaching (pedology) , mineralization (soil science) , geochemistry , geology , mineralogy , carbonate , carbon dioxide , silicate , pyroxene , chemistry , mantle (geology) , soil science , soil water , organic chemistry
Carbon dioxide capture and storage by mineralization has been proposed as a possible technology to contribute to the reduction of global CO 2 levels. A main candidate as a feed material, to supply Mg cations for combination with CO 2 to form carbonate, is the family of ultramafic rocks, Mg‐rich silicate rocks with a range of naturally occurring mineralogical compositions. A classification scheme is described and a diagram is proposed to display the full range of both fresh and altered ultramafic rock compositions. This is particularly for the benefit of technologists to raise the awareness of the variation in possible feedstock materials. A systematic set of acid leaching experiments, in the presence of recyclable ammonium bisulphate, has been carried out covering the range of ultramafic rock compositions. The results show that lizardite serpentinite releases the most Mg with 78% removed after 1 h, while an olivine rock (dunite) gave 55% and serpentinized peridotites intermediate values. Antigorite serpentinite only released 40% and pyroxene‐ and amphibole‐rich rocks only 25%, showing they are unsuitable for the acid leaching method used. This wide variation in rock compositions highlights the necessity for accurate mineralogical characterization of potential resources and for technologists to be aware of the impact of feed material variations on process efficiency and development.