Effects of Particle Reactive Surface Areas on Chemical Dissolution-Front Instability in Fluid-Saturated Porous Media
Part of the Lecture Notes in Earth System Sciences book series (LNESS)
Particle shapes and arrangements within a porous medium can significantly affect the porosity and permeability of the porous medium.
KeywordsPorous Medium Particle Shape Representative Elementary Volume Morphological Evolution Benchmark Problem
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- Bear J (1972) Dynamics of fluids in porous media. American Elsevier Publishing Company, New YorkGoogle Scholar
- Chadam J, Ortoleva P, Sen A (1988) A weekly nonlinear stability analysis of the reactive infiltration interface. IMA J Appl Math 48:1362–1378Google Scholar
- Lewis RW, Schrefler BA (1998) The finite element method in the static and dynamic deformation and consolidation of porous media. Wiley, New YorkGoogle Scholar
- Phillips OM (1991) Flow and reactions in permeable rocks. Cambridge University Press, CambridgeGoogle Scholar
- Scheidegger AE (1974) The physics of flow through porous media. University of Toronto Press, TorontoGoogle Scholar
- Steefel CI, Lasaga AC (1990) Evolution of dissolution patterns: permeability change due to coupled flow and reaction. In: Melchior DC, Basset RL (eds) Chemical modeling in Aqueous systems II. American chemistry society symposium series, vol 416. pp 213–225Google Scholar
- Sweby PK (1985) High resolution TVD schemes using flux limiters. Lect Appl Math 22:289–309Google Scholar
- Zienkiewicz OC (1977) The finite element method. McGraw-Hill, LondonGoogle Scholar
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