Permeability Characterization and Its Correlation with Pore Microstructure of Stress-Sensitive Tight Sandstone: Take Chang 6 in Ordos Basin for Example

Tight reservoirs are sensitive to stress changes during fracturing and oil and gas production. Facing different production modes, the variation characteristics of rock permeability and pore structure need to be further clarified. In this study, using a self-built high temperature and pressure physic...

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Published in	Geofluids Vol. 2022; pp. 1 - 16
Main Authors	Chang, Yilin, Yang, Zhengming, Zhang, Yapu, Niu, Zhongkun, Chen, Xinliang
Format	Journal Article
Language	English
Published	Chichester Hindawi 12.12.2022 John Wiley & Sons, Inc Wiley
Subjects	Compression Crude oil Cyclic loading Cyclic loads Damage Deformation Gas production High temperature Load distribution Loading rate Membrane permeability Microstructure Natural gas NMR Nuclear magnetic resonance Oil and gas production Permeability Physical simulation Pore size Pressure Repeated loading Rocks Salinity Sandstone Sedimentary rocks Seepage Working conditions China Ordos Basin
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Abstract	Tight reservoirs are sensitive to stress changes during fracturing and oil and gas production. Facing different production modes, the variation characteristics of rock permeability and pore structure need to be further clarified. In this study, using a self-built high temperature and pressure physical simulation device and NMR equipment, the influence of the stress loading method, cyclic loading, and loading rate on rock permeability and pore characteristics were analyzed, and the relationship between them was clarified. The permeability sensitivity under variable confining pressure (63.3%) was greater than that of variable flow pressure (46.4%). The damage rate decreased with repeated loading (63.3%-35.8%) and increased loading rate (53.1%-42.3%). As for the pore features, when the net stress increased, the volume variation range of micropores was greater than that of mesopores. The damage rate of permeability (63.3%) was obviously larger than that of pore volume (10.4%). The slope of the fitted curve of permeability and pore volume decreased evidently with loading times. The structure deformation of rock skeleton and the migration of cement had a great influence on permeability in the first loading. Later, it was mainly the bulk deformation of rock particles, the particles’ contact surface increasing and the seepage space shrinking slowly. Eventually, the permeability remained stable due to the limited pore compression. This study can provide a reference for designing reasonable production parameters and reducing formation damage.
AbstractList	Tight reservoirs are sensitive to stress changes during fracturing and oil and gas production. Facing different production modes, the variation characteristics of rock permeability and pore structure need to be further clarified. In this study, using a self-built high temperature and pressure physical simulation device and NMR equipment, the influence of the stress loading method, cyclic loading, and loading rate on rock permeability and pore characteristics were analyzed, and the relationship between them was clarified. The permeability sensitivity under variable confining pressure (63.3%) was greater than that of variable flow pressure (46.4%). The damage rate decreased with repeated loading (63.3%-35.8%) and increased loading rate (53.1%-42.3%). As for the pore features, when the net stress increased, the volume variation range of micropores was greater than that of mesopores. The damage rate of permeability (63.3%) was obviously larger than that of pore volume (10.4%). The slope of the fitted curve of permeability and pore volume decreased evidently with loading times. The structure deformation of rock skeleton and the migration of cement had a great influence on permeability in the first loading. Later, it was mainly the bulk deformation of rock particles, the particles' contact surface increasing and the seepage space shrinking slowly. Eventually, the permeability remained stable due to the limited pore compression. This study can provide a reference for designing reasonable production parameters and reducing formation damage.
Audience	Academic
Author	Chang, Yilin Zhang, Yapu Yang, Zhengming Niu, Zhongkun Chen, Xinliang
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Copyright	Copyright © 2022 Yilin Chang et al. COPYRIGHT 2022 John Wiley & Sons, Inc. Copyright © 2022 Yilin Chang et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. https://creativecommons.org/licenses/by/4.0
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SubjectTerms	Compression Crude oil Cyclic loading Cyclic loads Damage Deformation Gas production High temperature Load distribution Loading rate Membrane permeability Microstructure Natural gas NMR Nuclear magnetic resonance Oil and gas production Permeability Physical simulation Pore size Pressure Repeated loading Rocks Salinity Sandstone Sedimentary rocks Seepage Working conditions
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Title	Permeability Characterization and Its Correlation with Pore Microstructure of Stress-Sensitive Tight Sandstone: Take Chang 6 in Ordos Basin for Example
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