Well Engineering Aspects and Risk Analysis of Carbon Capture and Storage (CCS) Wells

Liu, Zhengchun; Samuel, Robello

doi:10.2118/215737-ms

Cited by 2 publications

References 13 publications

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CCUS Well Integrity Success Using Fit-for-Purpose Cement Designs

Shine,

Sowailem,

Bechah

et al. 2024

SPE Annual Technical Conference and Exhibition

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Defining long-term zonal isolation requirements for any carbon capture underground storage (CCUS) project life cycle is important to support well integrity success. The utility and scope of an underground storage project helps guide the isolation requirements for the well construction phase emphasizing the well design and cementing. Within the domain of cementing, a basis of design approach holistically can evaluate the corrosive risks, isolation requirements, cement installation, and degree of integrity for the anticipated well utility or load cases. The manuscript highlights the results of a field deployed and validated cement design being able to withstand CO2 corrosive exposure helping to achieve zonal isolation for CCUS well construction while managing the anticipated load conditions to ensure wellbore integrity. Several case histories, a 6-month corrosive study performance analysis, and cement integrity modeling support the fit-for-purpose designs helping to deliver well integrity success.

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CCUS Well Integrity Success Using Fit-for-Purpose Cement Designs

Shine,

Sowailem,

Bechah

et al. 2024

SPE Annual Technical Conference and Exhibition

View full text Add to dashboard Cite

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Thermodynamic and Condensation Rate Modeling in Abandoned Wells: Assessing Potential Corrosion Risks in CCS Applications

Gupta,

Rai,

Ratnakar

2024

SPE Journal

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Summary Carbon capture and storage (CCS) is considered one of the most suitable solution strategies for decarbonization in energy-intensive industries. While the examples of commercial-scale CCS projects are steadily growing worldwide, monitoring and success of such projects require mitigating several risks at the field scale. One of the challenges lies in assessing wellbore integrity issues in nearby abandoned wells, where wellbore corrosion caused by the condensation of acidic gases could be a potential integrity hazard. In this work, we develop a modeling framework to assess this issue by analyzing the underlying physical process of acid gas condensation through thermodynamics and heat transfer models to predict the acid gas condensation rates. We assess the effects of reservoir conditions of salinity, temperatures, and pressures on the resulting condensation rates, pH of the condensed liquid, and semi-empirically derived corrosion rates (CRs) across the well height. The study highlights the need to develop an assessment framework to identify and assess such integrity risks at an early stage for CCS projects.

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Well Engineering Aspects and Risk Analysis of Carbon Capture and Storage (CCS) Wells

Cited by 2 publications

References 13 publications

CCUS Well Integrity Success Using Fit-for-Purpose Cement Designs

CCUS Well Integrity Success Using Fit-for-Purpose Cement Designs

Thermodynamic and Condensation Rate Modeling in Abandoned Wells: Assessing Potential Corrosion Risks in CCS Applications

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