Effects of Enzymatically Induced Carbonate Precipitation on Capillary Pressure–Saturation Relations
Leakage mitigation methods are an important part of reservoir engineering and subsurface fluid storage, in particular. In the context of multi-phase systems of subsurface storage, e.g., subsurface CO2 storage, a reduction in the intrinsic permeability is not the only parameter to influence the poten...
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| Published in | Minerals (Basel) Vol. 12; no. 10; p. 1186 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Basel
MDPI AG
01.10.2022
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2075-163X 2075-163X |
| DOI | 10.3390/min12101186 |
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| Abstract | Leakage mitigation methods are an important part of reservoir engineering and subsurface fluid storage, in particular. In the context of multi-phase systems of subsurface storage, e.g., subsurface CO2 storage, a reduction in the intrinsic permeability is not the only parameter to influence the potential flow or leakage; multi-phase flow parameters, such as relative permeability and capillary pressure, are key parameters that are likely to be influenced by pore-space reduction due to leakage mitigation methods, such as induced precipitation. In this study, we investigate the effects of enzymatically induced carbonate precipitation on capillary pressure–saturation relations as the first step in accounting for the effects of induced precipitation on multi-phase flow parameters. This is, to our knowledge, the first exploration of the effect of enzymatically induced carbonate precipitation on capillary pressure–saturation relations thus far. First, pore-scale resolved microfluidic experiments in 2D glass cells and 3D sintered glass-bead columns were conducted, and the change in the pore geometry was observed by light microscopy and micro X-ray computed tomography, respectively. Second, the effects of the geometric change on the capillary pressure–saturation curves were evaluated by numerical drainage experiments using pore-network modeling on the pore networks extracted from the observed geometries. Finally, parameters of both the Brooks–Corey and Van Genuchten relations were fitted to the capillary pressure–saturation curves determined by pore-network modeling and compared with the reduction in porosity as an average measure of the pore geometry’s change due to induced precipitation. The capillary pressures increased with increasing precipitation and reduced porosity. For the 2D setups, the change in the parameters of the capillary pressure–saturation relation was parameterized. However, for more realistic initial geometries of the 3D samples, while the general patterns of increasing capillary pressure may be observed, such a parameterization was not possible using only porosity or porosity reduction, likely due to the much higher variability in the pore-scale distribution of the precipitates between the experiments. Likely, additional parameters other than porosity will need to be considered to accurately describe the effects of induced carbonate precipitation on the capillary pressure–saturation relation of porous media. |
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| AbstractList | Leakage mitigation methods are an important part of reservoir engineering and subsurface fluid storage, in particular. In the context of multi-phase systems of subsurface storage, e.g., subsurface CO2 storage, a reduction in the intrinsic permeability is not the only parameter to influence the potential flow or leakage; multi-phase flow parameters, such as relative permeability and capillary pressure, are key parameters that are likely to be influenced by pore-space reduction due to leakage mitigation methods, such as induced precipitation. In this study, we investigate the effects of enzymatically induced carbonate precipitation on capillary pressure–saturation relations as the first step in accounting for the effects of induced precipitation on multi-phase flow parameters. This is, to our knowledge, the first exploration of the effect of enzymatically induced carbonate precipitation on capillary pressure–saturation relations thus far. First, pore-scale resolved microfluidic experiments in 2D glass cells and 3D sintered glass-bead columns were conducted, and the change in the pore geometry was observed by light microscopy and micro X-ray computed tomography, respectively. Second, the effects of the geometric change on the capillary pressure–saturation curves were evaluated by numerical drainage experiments using pore-network modeling on the pore networks extracted from the observed geometries. Finally, parameters of both the Brooks–Corey and Van Genuchten relations were fitted to the capillary pressure–saturation curves determined by pore-network modeling and compared with the reduction in porosity as an average measure of the pore geometry’s change due to induced precipitation. The capillary pressures increased with increasing precipitation and reduced porosity. For the 2D setups, the change in the parameters of the capillary pressure–saturation relation was parameterized. However, for more realistic initial geometries of the 3D samples, while the general patterns of increasing capillary pressure may be observed, such a parameterization was not possible using only porosity or porosity reduction, likely due to the much higher variability in the pore-scale distribution of the precipitates between the experiments. Likely, additional parameters other than porosity will need to be considered to accurately describe the effects of induced carbonate precipitation on the capillary pressure–saturation relation of porous media. |
| Author | Hommel, Johannes Weinhardt, Felix Steeb, Holger Gehring, Luca Ruf, Matthias |
| Author_xml | – sequence: 1 givenname: Johannes orcidid: 0000-0002-2061-0303 surname: Hommel fullname: Hommel, Johannes – sequence: 2 givenname: Luca surname: Gehring fullname: Gehring, Luca – sequence: 3 givenname: Felix orcidid: 0000-0002-1758-9427 surname: Weinhardt fullname: Weinhardt, Felix – sequence: 4 givenname: Matthias orcidid: 0000-0003-0299-5921 surname: Ruf fullname: Ruf, Matthias – sequence: 5 givenname: Holger orcidid: 0000-0001-7602-4920 surname: Steeb fullname: Steeb, Holger |
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| CitedBy_id | crossref_primary_10_1016_j_advwatres_2024_104860 crossref_primary_10_1038_s41598_023_37523_0 crossref_primary_10_3390_app13127035 crossref_primary_10_3390_min12101186 |
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| SubjectTerms | Capillary pressure Carbon dioxide Carbonates Chemical precipitation Computed tomography Contact angle Glass Leakage Light microscopy Mathematical models Membrane permeability Microfluidics Microscopy Mineralization Mitigation Modelling Multiphase flow Optical microscopy Parameterization Parameters Permeability Porosity Porous media Potential flow Precipitates Precipitation Pressure Reduction Reservoir engineering Saturation Sintering (powder metallurgy) Storage Tomography |
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