Analytical approach for leakage characterization in carbon sequestration in a bounded deep saline aquifer

https://doi.org/10.1016/j.petrol.2018.05.071Get rights and content

Highlights

  • New analytical modeling methods to monitor pressure changes in monitoring aquifers are developed.

  • Developed analytical models are capable for bounded saline aquifers.

  • To eliminate the effect of a size in our modeling, all the developed models are in dimensionless form.

Abstract

One of the promising methods in CO2 sequestration is CO2 injection into deep saline aquifers. A challenging question in CO2 storage in deep saline aquifers is how we can determine the leakage in a storage aquifer if its cap rock does not fully seal it. Among those approaches previously employed, leakage detection by monitoring pressure changes in a monitoring well has gained the most attention recently. In this study, we have developed a new analytical modeling method to monitor pressure changes in monitoring aquifers as a tool for leakage detection. Our developed analytical models are capable for bounded saline aquifers. To eliminate the effect of a size in our modeling, all the developed models are in dimensionless form. Pragmatic sensitivity analyses are performed to determine the effect of different parameters on a dimensionless leakage rate and a pressure change in a monitoring well and a pressure change in a storage aquifer due to both injection and leakage. Based on the results gained, the dimensionless pressure in the monitoring well depends on the well location and the thickness of the monitoring aquifer; however, it is independent of a leak location. The dimensionless pressure change in a storage aquifer highly depends on the dimensionless diffusivity coefficient and the thickness of the storage aquifer; however, it is independent of a leak location.

Keywords

Analytical model
Leakage rate
Closed reservoir
Storage
Aquifer
Monitoring well

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