Impact of Regional Pressure Dissipation on Carbon Capture and Storage Projects: A Comprehensive Review

Hawez, Haval Kukha; Asim, Taimoor

doi:10.3390/en17081889

Cited by 3 publications

(1 citation statement)

References 187 publications

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“…To ensure the long-term containment of injected CO 2 , these caprocks must remain intact. Therefore, it is essential to understand how shale caprocks react to CO 2 injection to assess the security and feasibility of CCS operations [3,4]. The hydromechanical response of shale caprocks to CO 2 injection involves a complex interplay of fluid flow and geomechanical deformation [5,6].…”

Section: Introductionmentioning

confidence: 99%

Effects of CO2 Geosequestration on Opalinus Clay

Asim,

Hawez

2024

Energies

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CO2 geosequestration is an important contributor to United Nations Sustainable Development Goal 13, i.e., Climate Action, which states a global Net-Zero CO2 emissions by 2050. A potential impact of CO2 geosequestration in depleted oil and gas reservoirs is the variations in induced pressure across the caprocks, which can lead to significant local variations in CO2 saturation. A detailed understanding of the relationship between the pressure gradient across the caprock and local CO2 concentration is of utmost importance for assessing the potential of CO2 geosequestration. Achieving this through experimental techniques is extremely difficult, and thus, we employ a coupled Computational Fluid Dynamics (CFD) and Finite Element Method (FEM) based solver to mimic sub-critical CO2 injection in Opalinus Clay under various pressure gradients across the sample. The geomechanical and multiphase flow modelling utilising Darcy Law helps evaluate local variations in CO2 concentration in Opalinus Clay. Well-validated numerical results indicate favourable sub-critical CO2 geosequestration under a positive pressure gradient across Opalinus Clay. In the absence of a positive pressure gradient, a peak CO2 concentration of 5% has been recorded, which increases substantially (above 90%) as the pressure gradient across the sample increases.

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Section: Introductionmentioning

confidence: 99%

Effects of CO2 Geosequestration on Opalinus Clay

Asim,

Hawez

2024

Energies

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A fully coupled model for predicting geomechanical and multiphase flow behaviour in fractured rocks

Hawez,

Asim,

Fazio

2024

Unconventional Resources

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Recent Developments in Hydrocyclone Technology for Oil-in-Water Separation from Produced Water

Ekechukwu,

Asim,

Hawez

2024

Energies

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The treatment of produced water is a major challenge faced by oil and gas industries worldwide. As a result of the increase in industrial activities, the generation of produced water has increased significantly. The most commonly used method for produced water oil–water separation is de-oiling hydrocyclone technology due to its simple construction, compact design, easy maintenance, and high efficiency. A wide breadth of scientific research studies has been carried out on performance evaluation, design optimisation, geometric parametrisation, external interventions, etc., to enhance the performance of hydrocyclones. These studies mostly rely on either experimental data obtained from the field, in laboratories under a controlled environment, or the application of numerical techniques for oil-in-water separation. Considering the extensive research studies published on hydrocyclone technology, this study aims to provide a comprehensive review of recent technological advancements in hydrocyclone technology in order to identify key areas where scientific research efforts should be concentrated. This will help make well-informed decisions for strategic investments in this wide area of research. Furthermore, it will widen the scope of applicability of hydrocyclones in the industrial sector.

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Impact of Regional Pressure Dissipation on Carbon Capture and Storage Projects: A Comprehensive Review

Cited by 3 publications

References 187 publications

Effects of CO2 Geosequestration on Opalinus Clay

Effects of CO2 Geosequestration on Opalinus Clay

A fully coupled model for predicting geomechanical and multiphase flow behaviour in fractured rocks

Recent Developments in Hydrocyclone Technology for Oil-in-Water Separation from Produced Water

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