A saline aquifer storage consists of a reservoir and a caprock layer overlying on the reservoir. It is possible to evaluate the storage performance of the reservoir by predicting the pressure rise and the spread of the CO₂ plume due to CO₂ injection using numerical analysis. In generally, numerical analysis for evaluating the storage performance of a reservoir, only the reservoir is modeled, and caprock is treated as an impermeable boundary. In this research, numerical analysis was performed using the analytical model that models both the caprock layer and the reservoir. Then, the sealing performance of the caprock was evaluated based on the analysis results.
The analysis model was created with reference to the storage site of the CCS project in operation. At the storage site, there are two types of seal layers as caprocks, and their physical property values are as follows.
Seal-A: Absolute permeability 1.0×10^-16m², Porosity 0.04
Seal-B: Absolute permeability 1.0×10^-21m², Porosity 0.01
In this research, two cases were carried out. As the caprock, the Seal-A was applied in Case-1 and the Seal-B was applied in Case-2. In the analyses, CO₂ was injected into the reservoir to predict the pressure response inside the caprock and the spread of the CO₂ plume in the reservoir. TOUGH-2/ECO2N was used in the numerical analyses.
As the result, slight CO₂ penetration into the caprock in the Case-1 (Seal-A), and no penetration in the Case-2 (Seal-B) were predicted.
It is considered that a more appropriate storage design will be possible by evaluating not only the storage performance of the reservoir but also the sealing performance of the caprock.