Trent University Graduate Thesis Collection

Item Description

Identifier

tula:etd

Type

Collection

Language

eng

Extent

1 item

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Displaying 1 - 3 of 3

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Displaying 1 - 3 of 3

Predicting and monitoring drainage chemistry during mineral weathering for CO2 sequestration

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Year: 2023, 2023

Member of: Trent University Graduate Thesis Collection

Name(s): Creator (cre): McDonald, Duncan, Thesis advisor (ths): Power, Ian M, Degree committee member (dgc): Paulo, Carlos, Degree committee member (dgc): Dang, Huy, Degree granting institution (dgg): Trent University

Abstract: <p>Mineral feedstocks, including alkaline mine wastes, can sequester CO2 as a dissolved phase (e.g., HCO3-) or a solid carbonate via enhanced rock weathering (ERW). For this thesis, the release of easily accessible Ca and Mg from non-carbonate sources was determined for kimberlite residues from several diamond mines and commonly proposed ERW rock types, including wollastonite and olivine.… more

Enhanced weathering and carbonation of kimberlite residues from South African diamond mines: Implications for CO2 sequestration

Year: 2020, 2020

Member of: Trent University Graduate Thesis Collection

Name(s): Creator (cre): Stubbs, Amanda Rebecca, Thesis advisor (ths): Power, Ian M, Degree committee member (dgc): McKenna Neuman, Cheryl, Degree committee member (dgc): Lafleur, Peter, Degree granting institution (dgg): Trent University

Abstract: <p>Mafic and ultramafic mine wastes have the potential to sequester atmospheric carbon dioxide (CO2) through enhanced weathering and CO2 mineralization. In this study, kimberlite residues from South African diamond mines were investigated to understand how weathering of these wastes leads to the formation of secondary carbonate minerals, a stable sink for CO2. Residues from Venetia Diamond… more