Journal ArticleDOI
Pore-Scale Imaging and Modelling of Reactive Flow in Evolving Porous Media: Tracking the Dynamics of the Fluid–Rock Interface
TLDR
Pore-scale imaging and reactive flow modeling applied to interface dynamics is reviewed in this paper. But the authors focus on the application of pore-based reactive transport models to the modeling of fluid-mineral and fluid-rock interfaces.Abstract:
Fluid–mineral and fluid–rock interfaces are key parameters controlling the reactivity and fate of fluids in reservoir rocks and aquifers. The interface dynamics through space and time results from complex processes involving a tight coupling between chemical reactions and transport of species as well as a strong dependence on the physical, chemical, mineralogical and structural properties of the reacting solid phases. In this article, we review the recent advances in pore-scale imaging and reactive flow modelling applied to interface dynamics. Digital rocks derived from time-lapse X-ray micro-tomography imaging gives unprecedented opportunity to track the interface evolution during reactive flow experiments in porous or fractured media, and evaluate locally mineral reactivity. The recent improvements in pore-scale reactive transport modelling allow for a fine description of flow and transport that integrates moving fluid–mineral interfaces inherent to chemical reactions. Combined with three-dimensional digital images, pore-scale reactive transport modelling complements and augments laboratory experiments. The most advanced multi-scale models integrate sub-voxel porosity and processes which relate to imaging instrument resolution and improve upscaling possibilities. Two example applications based on the solver porousMedia4Foam illustrate the dynamics of the interface for different transport regimes (i.e., diffusive- to advective-dominant) and rock matrix properties (i.e., permeable vs. impermeable, and homogeneous vs. polymineralic). These parameters affect both the interface roughness and its geometry evolution, from sharp front to smeared (i.e., diffuse) interface. The paper concludes by discussing the challenges associated with precipitation processes in porous media, rock texture and composition (i.e., physical and mineralogical heterogeneity), and upscaling to larger scales.read more
Citations
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Journal ArticleDOI
Digital rock physics, chemistry, and biology: challenges and prospects of pore-scale modelling approach
TL;DR: An overview of the recent progress and challenges involved in modelling digital rock physics, chemistry, and biology of multiscale systems is presented here.
Journal ArticleDOI
porousMedia4Foam: Multi-scale open-source platform for hydro-geochemical simulations with OpenFOAM®
Cyprien Soulaine,Saideep Pavuluri,Francis Claret,Christophe Tournassat,Christophe Tournassat +4 more
TL;DR: The features of a new generation open-source hydro-geochemical module implemented within porousMedia4Foam, which relies on micro-continuum concept and which makes it possible to investigate hydro- geochemical processes occurring at multiple scales i.e. at the pore-scale, reservoir-scale and at the hybrid-scale are introduced.
Journal ArticleDOI
A reactive transport modeling perspective on the dynamics of interface-coupled dissolution-precipitation
TL;DR: In this article , a microcontinuum pore-scale reactive transport model was used to investigate the feedback loop between reaction rate and solute transport with explicit consideration of surface passivation and the diffusion process through the coating layer, as well as the impacts of saturation-dependent nucleation rate on the textures of precipitates that will largely dictate the diffusion properties of the coating.
Journal ArticleDOI
Pore Scale Numerical Modelling of Geological Carbon Storage Through Mineral Trapping Using True Pore Geometries
TL;DR: In this article , a finite elements advection-diffusion-reaction numerical model was used to investigate the impact of pore geometry features such as branching, tortuosity and throat radii on the distribution and occurrence of carbonate precipitation in different pore networks over 2000 year simulated periods.
Journal ArticleDOI
A perspective on applied geochemistry in porous media: Reactive transport modeling of geochemical dynamics and the interplay with flow phenomena and physical alteration
Hang Deng,Mehdi Gharasoo,Liwei Zhang,Zhenxue Dai,A. Hajizadeh,Catherine A. Peters,Cyprien Soulaine,Martin Thullner,Philippe Van Cappellen +8 more
TL;DR: A brief review of recent developments and applications of reactive transport modeling to study geochemically driven processes and alteration in porous media is provided in this article , with a perspective on opportunities and challenges for continuously developing and expanding the role of this valuable methodology to advance fundamental understanding and transferable knowledge of various dynamic geochemical systems.
References
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