ausblenden:
Schlagwörter:
CO2 storage; Heterogeneity; Spatial variability; Multiphase flow; Monte Carlo; CO2 Storage at the EGU General Assembly 2009
DDC:
550 - Earth sciences
Zusammenfassung:
Numerical modelling of multiphase flow is an essential tool to ensure the viability of long-term and safe CO2 storage in geological formations. Uncertainties arising from the heterogeneity of the formation and lack of knowledge of formation properties need to be assessed in order to create a model that can reproduce the data available from monitoring. In this study, we investigated the impact of unknown spatial variability in the petrophysical properties within a sandy channel facies of a fluviatile storage formation using stochastic methods in a Monte Carlo approach. The stochastic method has been applied to the Ketzin test site (CO2SINK), and demonstrates that the deterministic homogeneous model satisfactorily predicts the first CO2 arrival time at the Ketzin site. The equivalent permeability was adjusted to the injection pressure and is in good agreement with the hydraulic test. It has been shown that with increasing small-scale heterogeneity, the sharpness of the CO2 front decreases and a greater volume of the reservoir is affected, which is also seen in an increased amount of dissolved CO2. Increased anisotropy creates fingering effects, which result in higher probabilities for earlier arrival times. Generally, injectivity decreases with increasing heterogeneity.
