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- Title
Linear Stability Analysis of Double-Diffusive Convection in Porous Media, with Application to Geological Storage of CO.
- Authors
Javaheri, Mohammad; Abedi, Jalal; Hassanzadeh, Hassan
- Abstract
Onset of double-diffusive buoyancy-driven flow resulted from vertical temperature and concentration gradients in a horizontal layer of a saturated and homogenous porous medium is investigated using amplification factor theory. After injection of CO into a deep saline aquifer, the density of the brine saturated with CO increases slightly. This increase in density induces natural convection. The effect of geothermal gradient is also considered in this work as a second incentive for convection and the double-diffusion convection was studied. Linear stability analysis is used to predict the inception of instabilities and initial wavelength of the convective instabilities. The analysis presented is applied to acid gas injection (as an analogue for CO storage) into saline aquifers in the Alberta basin. It is found that the geothermal gradient does not have significant effect on the onset of convection for these aquifers. It is shown that the geothermal effects on the onset of natural convection are negligible as compared to the solutal effects induced by dissolution and diffusion of CO in deep saline aquifers. Therefore, the linear stability analysis and the long-term numerical simulation of CO sequestration into such saline aquifers may be assumed to be isothermal in terms of natural convection occurrence.
- Subjects
NATURAL heat convection; DIFFUSION; FLUID dynamics; POROUS materials; CARBON sequestration; STABILITY (Mechanics); WAVELENGTHS
- Publication
Transport in Porous Media, 2010, Vol 84, Issue 2, p441
- ISSN
0169-3913
- Publication type
Article
- DOI
10.1007/s11242-009-9513-z