Evolution of Mineral-Accessible Surface Area Induced by Geochemical Reactions

Qin, Fanqi; Salek, Md. Fahim; Asadi, Parisa; Beckingham, Lauren E.

doi:10.1021/acsearthspacechem.2c00335

ACS Earth Space Chem.

2023

DOI: 10.1021/acsearthspacechem.2c00335

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Evolution of Mineral-Accessible Surface Area Induced by Geochemical Reactions

Fanqi Qin

Md. Fahim Salek

Parisa Asadi

et al.

Abstract: Mineral dissolution and precipitation reactions occur in a wide range of porous media systems, driven by deviations from an equilibrium between solid and fluid phases. Reactions occur at mineral surfaces in contact with reactive fluids or accessible mineral surface areas. These mineral surface areas can be determined using a multiscale imaging approach and have been shown to improve the simulation of mineral reaction rates in porous media compared to other estimates of reactive surface area. As reactions progr… Show more

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2024

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Cited by 2 publications

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Evolution of pore structure and reactive transport parameters during acid leaching of sandstone uranium ore

Wang,

Lian,

Ding

et al. 2024

Hydrometallurgy

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Evolution of pore structure and reactive transport parameters during acid leaching of sandstone uranium ore

Wang,

Lian,

Ding

et al. 2024

Hydrometallurgy

View full text Add to dashboard Cite

Temporal Evolution of Permeability for Porous Rock During Mineral Dissolution and Precipitation Process Based on Fractal Theory

CHEN,

MIAO,

SHEN

et al. 2024

Fractals

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Mineral dissolution and precipitation reactions occur in a variety of porous rocks due to the deviations from a geochemical equilibrium between solid matrix and flow fluid, resulting in the alteration of the petrophysical properties of rocks. A physically-based theoretical model is proposed based on fractal theory for quantitatively assessing the temporal evolution of permeability for porous rocks undergoing mineral dissolution and precipitation reactions. The proposed model is associated with pore structure parameters, such as initial porosity [Formula: see text], the tortuosity fractal dimensions [Formula: see text], the initial fractal dimension [Formula: see text], and the overall dissolution rate [Formula: see text] considering the precipitation reactions in porous rocks. The proposed model provides a better prediction of the time dependence of permeability compared with the available experimental data. The essential effects of the overall dissolution rate and pore structural parameters of porous rocks on the dimensionless time-dependent permeabilities are investigated in detail. It is found that the overall dissolution rate has obvious effects on the dimensionless time dependence of permeabilities. The present model may provide useful insights into the understanding of permeability change during mineral dissolution and precipitation reactions in porous rocks.

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Evolution of Mineral-Accessible Surface Area Induced by Geochemical Reactions

Cited by 2 publications

References 40 publications

Evolution of pore structure and reactive transport parameters during acid leaching of sandstone uranium ore

Evolution of pore structure and reactive transport parameters during acid leaching of sandstone uranium ore

Temporal Evolution of Permeability for Porous Rock During Mineral Dissolution and Precipitation Process Based on Fractal Theory

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