Reza Rezaee scite author profile

Structural trapping, the most important CO2 geostorage mechanism during the first decades of a sequestration project, hinges on the traditional assumption that the caprock is strongly water wet. However, this assumption has not yet been verified; and it is indeed not generally true as we demonstrate here. Instead, caprock can be weakly water wet or intermediate wet at typical storage conditions; and water wettability decreases with increasing pressure or temperature. Consequently, a lower storage capacity can be inferred for structural trapping in such cases.

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Tight gas sands permeability estimation from mercury injection capillary pressure and nuclear magnetic resonance data

Rezaee

Saeedi

Clennell

2012

Journal of Petroleum Science and Engineering

323

156

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Nanoscale pore structure characterization of the Bakken shale in the USA

Liu

Ostadhassan

Zhou

et al. 2017

Fuel

242

142

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Multifractal analysis of gas adsorption isotherms for pore structure characterization of the Bakken Shale

Liu

Ostadhassan

Zou

et al. 2018

Fuel

107

135

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Understanding pore heterogeneity can enable us to obtain a deeper insight into the flow and transport processes in any porous medium. In this study, multifractal analysis was employed to analyze gas adsorption isotherms (CO2 and N2) for pore structure characterization in both a source (Upper-Lower Bakken) and a reservoir rock (Middle Bakken). For this purpose, detected micropores from CO2 adsorption isotherms and meso-macropores from N2 adsorption isotherms were analyzed separately. The results showed that the generalized dimensions derived from CO2 and the N2 adsorption isotherms decrease as q increases, demonstrating a multifractal behavior followed by f(α) curves of all pores exhibiting a very strong asymmetry shape. Samples from the Middle Bakken demonstrated the smallest average H value and largest average α10-α10+ for micropores while samples from the Upper Bakken depicted the highest average α10-α10+ for the meso-macropores. This indicated that the Middle Bakken and the Upper Bakken have the largest micropore and meso-macropore heterogeneity, respectively. The impact of rock composition on pore structures showed that organic matter could increase the micropore connectivity and reduce micropore heterogeneity. Also, organic matter will reduce meso-macropore connectivity and increase mesomacropore heterogeneity. We were not able to establish a robust relationship between maturity and pore heterogeneity of the source rock samples from the Bakken.

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Reza Rezaee

Evaluation of pore size spectrum of gas shale reservoirs using low pressure nitrogen adsorption, gas expansion and mercury porosimetry: A case study from the Perth and Canning Basins, Western Australia

CO₂ wettability of caprocks: Implications for structural storage capacity and containment security

Tight gas sands permeability estimation from mercury injection capillary pressure and nuclear magnetic resonance data

Nanoscale pore structure characterization of the Bakken shale in the USA

Multifractal analysis of gas adsorption isotherms for pore structure characterization of the Bakken Shale

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About

Reza Rezaee

Evaluation of pore size spectrum of gas shale reservoirs using low pressure nitrogen adsorption, gas expansion and mercury porosimetry: A case study from the Perth and Canning Basins, Western Australia

CO2 wettability of caprocks: Implications for structural storage capacity and containment security

Tight gas sands permeability estimation from mercury injection capillary pressure and nuclear magnetic resonance data

Nanoscale pore structure characterization of the Bakken shale in the USA

Multifractal analysis of gas adsorption isotherms for pore structure characterization of the Bakken Shale

Contact Info

Product

Resources

About

CO₂ wettability of caprocks: Implications for structural storage capacity and containment security