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Title Sensitivity analysis of salt precipitation and CO2-brine displacement in saline aquifers
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Zeidouni, M.
Pooladi-Darvish, M.
Keith, D.

Carbon dioxide sequestration in deep saline aquifers is a means of reducing anthropogenic atmospheric emissions of CO2. Among various mechanisms, CO2 can be trapped in saline aquifers by dissolution in the formation water. Vaporization of water occurs along with the dissolution of CO2. Vaporization can cause salt precipitation, which reduces porosity and impairs permeability of the aquifer in the vicinity of the wellbore, and can lead to reduction in injectivity. In an earlier work, we developed an analytical model to predict the precipitated salt saturation and CO2 displacement around the wellbore. In this study we analyse the effect of different parameters on the salt precipitation and CO2-brine displacement. The parameters include: aquifer pressure, temperature, salinity, relative permeability functions, and volume change upon mixing. The results indicate that increasing the salinity, increases the CO2 spread due to reduced vaporization and dissolution. Furthermore, it is found that the amount of salt precipitation increases and the maximum plume size decreases with pressure increase. The CO2 plume expands by increasing the temperature. However, the effect of temperature on the salt precipitation depends on the pressure. Increasing relative permeability of the aqueous phase (or decreasing the relative permeability of the gaseous phase) causes both the amount of precipitated salt saturation and the extent of the CO2 plume to decrease. It is also found that the effect of volume change upon mixing may be negligible at higher pressures. For the range of parameters studied, both the solid salt saturation and the plume extent are very sensitive to the relative permeability of the aqueous phase. While the plume size is also very sensitive to the pressure, the salt precipitation is most affected by the brine salinity.

Collection GCCC Bookshelf
Pages 16
Issue Number
Keywords Brine displacement Modeling-Flow simulation
Year 2009
Date Published 0000-00-00 00:00:00
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