Abstract
Carbonate rocks often show nontrivial flow behavior because of their multimodal pore structure. The
pore size distribution and pore space topology, the latter describing also how pores are interconnected, can provide
much information about the hydraulic behavior of these rocks. Pore Network Modeling (PNM) is an effective
method for evaluating petrophysical parameters, including especially the permeability. Pore networks can be
generated directly from microCT images to obtain such information as the pore-size distribution, the pore body
and pore throat radii distributions, and relevant coordination numbers. The purpose of this paper is to combine
microCT, nuclear magnetic resonance (NMR) and mercury intrusion (MICP) techniques to obtain information
about petrophysical properties that are not easily measured directly. We were especially interested in comparing
microCT, NMR and MICP results, assessing the multi-porosity nature of the coquinas, correlating the permeability
with porosity, and obtaining capillary pressure–fluid saturation (Pc-S) relationships. Results were to provide
important information about the generally highly heterogeneous nature of carbonate rocks, with as ultimate goal
to improve petroleum recovery from oil-bearing carbonate reservoirs. For our study we used four coquina samples
from the Morro do Chaves Formation, considered a close analogue of Brazilian Pre-Salt facies. The samples were
subjected to routine core analysis, NMR, MICP and microCT scans. The samples had very similar porosities
(between 10 and 16%), but different absolute permeabilities (between 5 and 245 mD). Results indicated good
correlations, especially between the NMR and microCT data. We further used the mercury intrusion results to
obtain estimates of the Pc–S curves. As an example, sample 136.85 showed excellent cross-correlation between
the NMR and MICP data, and a well-defined curve of the MICP-derived Pc–S functions for air-water. Plots of the
mercury intrusion data and the fitted van Genuchten hydraulic functions indicated a double porosity pore structure.
pore size distribution and pore space topology, the latter describing also how pores are interconnected, can provide
much information about the hydraulic behavior of these rocks. Pore Network Modeling (PNM) is an effective
method for evaluating petrophysical parameters, including especially the permeability. Pore networks can be
generated directly from microCT images to obtain such information as the pore-size distribution, the pore body
and pore throat radii distributions, and relevant coordination numbers. The purpose of this paper is to combine
microCT, nuclear magnetic resonance (NMR) and mercury intrusion (MICP) techniques to obtain information
about petrophysical properties that are not easily measured directly. We were especially interested in comparing
microCT, NMR and MICP results, assessing the multi-porosity nature of the coquinas, correlating the permeability
with porosity, and obtaining capillary pressure–fluid saturation (Pc-S) relationships. Results were to provide
important information about the generally highly heterogeneous nature of carbonate rocks, with as ultimate goal
to improve petroleum recovery from oil-bearing carbonate reservoirs. For our study we used four coquina samples
from the Morro do Chaves Formation, considered a close analogue of Brazilian Pre-Salt facies. The samples were
subjected to routine core analysis, NMR, MICP and microCT scans. The samples had very similar porosities
(between 10 and 16%), but different absolute permeabilities (between 5 and 245 mD). Results indicated good
correlations, especially between the NMR and microCT data. We further used the mercury intrusion results to
obtain estimates of the Pc–S curves. As an example, sample 136.85 showed excellent cross-correlation between
the NMR and MICP data, and a well-defined curve of the MICP-derived Pc–S functions for air-water. Plots of the
mercury intrusion data and the fitted van Genuchten hydraulic functions indicated a double porosity pore structure.
Original language | English |
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Title of host publication | Proceedings of the joint XLIII Ibero-Latin-American Congress on Computational Methods in Engineering |
Subtitle of host publication | XLIII CILAMCE, 21-25, November, 2022, Foz do Iguaçu - PR - Brazil |
Publisher | CILAMCE |
Pages | 1-9 |
Publication status | Published - 25 Nov 2022 |
Event | The XLIII Ibero-Latin American Congress on Computational Methods in Engineering - Foz do Iguaçu, Brazil Duration: 21 Nov 2022 → 25 Nov 2022 |
Publication series
Name | Proceedings of the Ibero-Latin-American Congress on Computational Methods in Engineering |
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Publisher | CILAMCE |
ISSN (Print) | 2675-6269 |
Conference
Conference | The XLIII Ibero-Latin American Congress on Computational Methods in Engineering |
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Abbreviated title | XLIII CILAMCE |
Country/Territory | Brazil |
City | Foz do Iguaçu |
Period | 21/11/22 → 25/11/22 |
Keywords
- Carbonate Rocks
- MicroCT
- NMR
- MICP
- Pose-scale Network Modeling