Evaluation of nanopore confinement during CO2 huff and puff process in liquid-rich shale formations
CO 2 huff and puff (CO 2 huff-n-puff) with multistage hydraulic fracture has been proven to be a feasible approach to enhance oil recovery in shale/tight formations. The present study investigates the effect of pore confinement on the incremental recovery of the CO 2 huff-n-puff process in shale for...
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Published in | Computational geosciences Vol. 24; no. 3; pp. 1163 - 1178 |
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01.06.2020
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Abstract | CO
2
huff and puff (CO
2
huff-n-puff) with multistage hydraulic fracture has been proven to be a feasible approach to enhance oil recovery in shale/tight formations. The present study investigates the effect of pore confinement on the incremental recovery of the CO
2
huff-n-puff process in shale formation. The results demonstrate that neglecting nanopore confinement has a large impact on production forecasts from unconventional assets especially when the pore size is considerably less than 10 nm. Failure to correct the changes in fluid properties due to pore confinement might lead to errors in simulation results. Fine gridding plays an important role during simulation setup. Moreover, CO
2
molecular diffusion is the most important mechanism by which the gas tends to move from fractures into the matrix. Although a short injection time cannot increase oil recovery significantly, a long injection time (more than 5 months) might not be economically or technically feasible.
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AbstractList | CO2 huff and puff (CO2 huff-n-puff) with multistage hydraulic fracture has been proven to be a feasible approach to enhance oil recovery in shale/tight formations. The present study investigates the effect of pore confinement on the incremental recovery of the CO2 huff-n-puff process in shale formation. The results demonstrate that neglecting nanopore confinement has a large impact on production forecasts from unconventional assets especially when the pore size is considerably less than 10 nm. Failure to correct the changes in fluid properties due to pore confinement might lead to errors in simulation results. Fine gridding plays an important role during simulation setup. Moreover, CO2 molecular diffusion is the most important mechanism by which the gas tends to move from fractures into the matrix. Although a short injection time cannot increase oil recovery significantly, a long injection time (more than 5 months) might not be economically or technically feasible. CO 2 huff and puff (CO 2 huff-n-puff) with multistage hydraulic fracture has been proven to be a feasible approach to enhance oil recovery in shale/tight formations. The present study investigates the effect of pore confinement on the incremental recovery of the CO 2 huff-n-puff process in shale formation. The results demonstrate that neglecting nanopore confinement has a large impact on production forecasts from unconventional assets especially when the pore size is considerably less than 10 nm. Failure to correct the changes in fluid properties due to pore confinement might lead to errors in simulation results. Fine gridding plays an important role during simulation setup. Moreover, CO 2 molecular diffusion is the most important mechanism by which the gas tends to move from fractures into the matrix. Although a short injection time cannot increase oil recovery significantly, a long injection time (more than 5 months) might not be economically or technically feasible. Graphical abstract |
Author | Moradi, Babak Shabib-Asl, Abdolmohsen Plaksina, Tatyana |
Author_xml | – sequence: 1 givenname: Abdolmohsen surname: Shabib-Asl fullname: Shabib-Asl, Abdolmohsen email: abdolmohsen.shabibas@ucalgary.ca organization: Department of Chemical and Petroleum Engineering, University of Calgary – sequence: 2 givenname: Tatyana surname: Plaksina fullname: Plaksina, Tatyana organization: Department of Chemical and Petroleum Engineering, University of Calgary – sequence: 3 givenname: Babak surname: Moradi fullname: Moradi, Babak organization: Department of Technology, LEAP Energy |
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huff and puff (CO
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huff-n-puff) with multistage hydraulic fracture has been proven to be a feasible approach to enhance oil recovery in shale/tight... CO2 huff and puff (CO2 huff-n-puff) with multistage hydraulic fracture has been proven to be a feasible approach to enhance oil recovery in shale/tight... |
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SubjectTerms | Carbon dioxide Confinement Earth and Environmental Science Earth Sciences Economic conditions Geotechnical Engineering & Applied Earth Sciences Hydraulic fracturing Hydrogeology Injection Mathematical Modeling and Industrial Mathematics Molecular diffusion Oil recovery Original Paper Pore size Porosity Sedimentary rocks Shale Shales Simulation Soil Science & Conservation |
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Title | Evaluation of nanopore confinement during CO2 huff and puff process in liquid-rich shale formations |
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