Abstract
Abstract Carbon capture and storage in deep geological formations is a method to reduce greenhouse gas emissions. Supercritical CO 2 is injected into a reservoir and dissolves in the brine. Under the impact of pressure and temperature (P–T) the aqueous species of the CO 2 -acidified brine diffuse through the cap rock where they trigger CO 2 –water–rock interactions. These geochemical reactions result in mineral dissolution and precipitation along the CO 2 migration path and are responsible for a change in porosity and therefore for the sealing capacity of the cap rock. This study focuses on the diffusive mass transport of CO 2 along a gradient of decreasing P–T conditions. The process is retraced with a one-dimensional hydrogeochemical reactive mass transport model. The semi-generic hydrogeochemical model is based on chemical equilibrium thermodynamics. Based on a broad variety of scenarios, including different initial mineralogical, chemical and physical parameters, the hydrogeochemical parameters that are most sensitive for safe long-term CO 2 storage are identified. The results demonstrate that P–T conditions have the strongest effect on the change in porosity and the effect of both is stronger at high P–T conditions because the solubility of the mineral phases involved depends on P–T conditions. Furthermore, modeling results indicate that the change in porosity depends strongly on the initial mineralogical composition of the reservoir and cap rock as well as on the brine compositions. Nevertheless, a wide range of conditions for safe CO 2 storage is identified.
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