Dataset.
[Dataset] Numerical models for the simulation of potential CO2 leakage through shaly caprocks over geological time scales
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/261845
Digital.CSIC. Repositorio Institucional del CSIC
- Vilarrasa, Víctor
This dataset contains the input files for numerical assessment of the risk of CO2 leakage from gigatonne-scale geologic carbon storage sites over geological time scales. Numerical models are one-dimensional and evaluate vertical transport of CO2 through a multilayered sedimentary basin comprising a sequence of aquifers and caprocks. The caprocks are assumed to be of either high or low sealing capacity, corresponding respectively to best-case and worst-case scenarios for CO2 migration. Accordingly, the dataset has two folders, each containing data for a leakage assessment scenario: - “Best_case_scenario.gid” in which the considered caprocks have low intrinsic permeability k=1·10-20 m2, high capillary entry pressure p0=2.5 MPa, and high powerlaw exponent n=6 for relative permeabilities - and - “Worst_case_scenario.gid” in which the caprocks have high permeability k=1·10-16 m2, low capillary entry pressure p0=0.1 MPa and low powerlaw exponent n=3 for relative permeabilities. In each folder, there is a file with the name of the folder ended as “_gen.dat” which contains the input data of the model, including material properties, initial and boundary conditions and the time intervals. There is also a file ended as “_gri.dat” that includes the information on the mesh. The file “root.dat” includes the name of the model. To run the simulation, execute the Code_Bright executable “Cb_v9_3.exe” in a folder that contains the three input files and the executable., This dataset contains the input files for numerical assessment of the risk of CO2 leakage from gigatonne-scale geologic carbon storage sites over geological time scales. Numerical models are one-dimensional and evaluate vertical transport of CO2 through a multilayered sedimentary basin comprising a sequence of aquifers and caprocks., Peer reviewed
DOI: http://hdl.handle.net/10261/261845
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/261845
HANDLE: http://hdl.handle.net/10261/261845
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/261845
Ver en: http://hdl.handle.net/10261/261845
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/261845
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2 Versiones
2 Versiones
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/252456
Dataset. 2021
[DATASET] NUMERICAL MODELS FOR THE SIMULATION OF SEDIMENTARY GEOTHERMAL SYSTEMS AND THE POTENTIAL FOR INDUCED SEISMICITY
Digital.CSIC. Repositorio Institucional del CSIC
- Kivi, Iman Rahimzadeh
- Pujades, Estanislao
- Rutqvist, Jonny
- Vilarrasa, Víctor
This dataset comprises the input files for numerical simulation of 30-years cold water reinjection through a doublet for geothermal exploitation of a hot sedimentary aquifer (HSA) and the associated risk for reactivating distant faults. Numerical models explore the effect of fault permeability on the governing thermo-hydro-mechanical (THM) processes and the geomechanical response of the system. The models are 2D plane strain including a homogeneous and isotropic HSA laterally bounded by two opposite dipping normal faults. Following this brief explanation, the dataset has two folders, each containing data for a distinct model: - “THM_k=1e-19.gid” for simulating the geothermal system with the embedded faults having low permeability k=1·10-19 m2 - and - “THM_k=1e-16.gid” for simulating the geothermal system featured with high fault permeability k=1·10-16 m2. In each folder, there is a file with the name of the folder ended as “_gen.dat” which contains the input data of the model, including material properties, initial and boundary conditions and the time intervals. There is also a file ended as “_gri.dat” that includes the information on the mesh. The file “root.dat” includes the name of the model. To run the simulation, execute the Code_Bright executable “Cb_v9_3.exe” in a folder that contains the three input files and the executable., This dataset comprises the input files for numerical simulation of 30-years cold water reinjection through a doublet for geothermal exploitation of a hot sedimentary aquifer (HSA) and the associated risk for reactivating distant faults. Numerical models explore the effect of fault permeability on the governing thermo-hydro-mechanical (THM) processes and the geomechanical response of the system. The models are 2D plane strain including a homogeneous and isotropic HSA laterally bounded by two opposite dipping normal faults. Following this brief explanation, the dataset has two folders, each containing data for a distinct model: - “THM_k=1e-19.gid” for simulating the geothermal system with the embedded faults having low permeability k=1·10-19 m2 - and - “THM_k=1e-16.gid” for simulating the geothermal system featured with high fault permeability k=1·10-16 m2. In each folder, there is a file with the name of the folder ended as “_gen.dat” which contains the input data of the model, including material properties, initial and boundary conditions and the time intervals. There is also a file ended as “_gri.dat” that includes the information on the mesh. The file “root.dat” includes the name of the model. To run the simulation, execute the Code_Bright executable “Cb_v9_3.exe” in a folder that contains the three input files and the executable., Peer reviewed
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/261845
Dataset. 2022
[DATASET] NUMERICAL MODELS FOR THE SIMULATION OF POTENTIAL CO2 LEAKAGE THROUGH SHALY CAPROCKS OVER GEOLOGICAL TIME SCALES
Digital.CSIC. Repositorio Institucional del CSIC
- Vilarrasa, Víctor
This dataset contains the input files for numerical assessment of the risk of CO2 leakage from gigatonne-scale geologic carbon storage sites over geological time scales. Numerical models are one-dimensional and evaluate vertical transport of CO2 through a multilayered sedimentary basin comprising a sequence of aquifers and caprocks. The caprocks are assumed to be of either high or low sealing capacity, corresponding respectively to best-case and worst-case scenarios for CO2 migration. Accordingly, the dataset has two folders, each containing data for a leakage assessment scenario: - “Best_case_scenario.gid” in which the considered caprocks have low intrinsic permeability k=1·10-20 m2, high capillary entry pressure p0=2.5 MPa, and high powerlaw exponent n=6 for relative permeabilities - and - “Worst_case_scenario.gid” in which the caprocks have high permeability k=1·10-16 m2, low capillary entry pressure p0=0.1 MPa and low powerlaw exponent n=3 for relative permeabilities. In each folder, there is a file with the name of the folder ended as “_gen.dat” which contains the input data of the model, including material properties, initial and boundary conditions and the time intervals. There is also a file ended as “_gri.dat” that includes the information on the mesh. The file “root.dat” includes the name of the model. To run the simulation, execute the Code_Bright executable “Cb_v9_3.exe” in a folder that contains the three input files and the executable., This dataset contains the input files for numerical assessment of the risk of CO2 leakage from gigatonne-scale geologic carbon storage sites over geological time scales. Numerical models are one-dimensional and evaluate vertical transport of CO2 through a multilayered sedimentary basin comprising a sequence of aquifers and caprocks., Peer reviewed
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