Modelling of wellbore integrity in CO2 storage sites

In CO2 storage sites, the defects in the cement sheaths of drilled wells endanger the effectiveness of carbon capture and storage projects. The wells in CO2 storage sites are direct connections between the underground formations and the Earth’s surface. The cement sheath acts as a barrier preventing the permeation of CO2-bearing fluids to the surrounding and inside of the well casing. However, the movement of injected CO2 from injection wells brings an acidic environment into contact with the cement sheath. The performance of cement sheath is affected by the invasion of CO2-bearing fluids. Its durability can be compromised due to the degradation process and the stress state resulted from the conditions found underground. The integrity of cement sheath is a function the cement composition, rock type, fluid pressure, stress state, temperature, and the type of wells. This work presents a methodology to investigate the stability of rock-cement-casing assemblage. The mechanical behaviour of the rock-cement-casing assemblage is coupled with the chemical alterations occurring in this assemblage during the invasion of CO2-bearing fluids. A plasticity approach is also introduced to characterise the performance of cement matrix being affected by both of failure and deformation within in altered regions.