Aquifer Selection for CO2 Sequestration Based on Mechanical Properties Evaluation

Author:

AL-Ameri Wahbi Abdulqader1,Abdulraheem Abdulazeez1,Mahmoud Mohamed1,Abdullatif Osman2,Adebayo Abdulrauf Rasheed2

Affiliation:

1. SPE

2. King Fahd University of Petr. & Min., Dhahran, Saudi Arabia, in partnership with King Abdul-Aziz Center for Science and Technology-Technology Innovation Center on Carbon Capture and Sequestration

Abstract

Abstract The long-term geological sequestration of carbon dioxide (CO2) in underground formations (deep saline aquifers) is the most economically viable option to decrease the emissions of greenhouse gas in the atmosphere which are the main contributing factors for global warming. The injection of CO2 in carbonate aquifers dissolves some of the calcite rock due to the formation of carbonic acid as a result of the interaction between CO2 and brine. This rock dissolution may affect the rock integrity and in turn will affect the rock mechanical properties. The effect of CO2 on the rock mechanical properties is a key parameter to be studied to assess the aquifer performance in the process of geological sequestration and to get safe and effective long-term storage. The main objective of this study is to address the impact of geological sequestration of CO2 on the mechanical properties of carbonate aquifer and cap rocks. In addition, the effect of the storage time on these properties are investigated. Moreover, the effect of CO2 sequestration on rocks with different mechanical properties are studied, and the good candidate carbonate rocks for geologic sequestration are identified. In this study the CO2 was injected and soaked with the brine with the core at high pressure and high temperature (2000 psi and 100°C) to simulate the actual downhole conditions The carbonate cores were analyzed for mechanical properties using indirect tensile strength, unconfined compression, and acoustics testing machines. Results show that CO2 sequestration affected the mechanical properties of the carbonate rocks as well as the cap rocks. Long time soaking of CO2 in brine allowed for the formation of enough carbonic acid to react with the cores and this greatly impacted the rock mechanical and acoustic properties. The significant impact of CO2 storage was noted on Khuff limestone and the good candidate among the carbonate rocks studied here for geological sequestration of CO2 is found to be Indiana limestone.

Publisher

SPE

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