Simulation of Geological Storage of Carbon Dioxide in ... - CO2CRC

More documents

Recommendations

Info

List of Figures1 Vertical cross-section of gas saturation in the base case for theradial model after 20 years of injection at 1 million tonnes peryear. The radial distance is 1000m. The top of the modelcorresponds to a depth of 1200m, and the bottom to 2000m.Red corresponds to high gas saturation and blue to zero gassaturation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72 Vertical cross-section of gas saturation in the base case for theradial model 180 years after the end of the injection phase.The radial distance is 1000m. The top of the model correspondsto a depth of 1200m, and the bottom to 2000m. Redcorresponds to high gas saturation and blue to zero gas saturation.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83 Vertical cross-section of gas saturation in the base case for theradial model 1980 years after the end of the injection phase.The radial distance is 1000m. The top of the model correspondsto a depth of 1200m, and the bottom to 2000m. Redcorresponds to high gas saturation and blue to zero gas saturation.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84 Vertical cross-section of gas saturation in the high permeabilitycase for the radial model after 20 years of injection at 1million tonnes per year. The radial distance is 1000m. Thetop of the model corresponds to a depth of 1200m, and thebottom to 2000m. Red corresponds to high gas saturationand blue to zero gas saturation. . . . . . . . . . . . . . . . . . 95 Vertical cross-section of gas saturation in the high permeabilitycase for the radial model 180 years after the end of theinjection phase. The radial distance is 1000m. The top of themodel corresponds to a depth of 1200m, and the bottom to2000m. Red corresponds to high gas saturation and blue tozero gas saturation. . . . . . . . . . . . . . . . . . . . . . . . . 106 Vertical cross-section of gas saturation in the high permeabilitycase for the radial model 1980 years after the end of theinjection phase. The radial distance is 1000m. The top of themodel corresponds to a depth of 1200m, and the bottom to2000m. Red corresponds to high gas saturation and blue tozero gas saturation. . . . . . . . . . . . . . . . . . . . . . . . . 10ii
7 Vertical cross-section of one realisation of the stochastic distributionof shales for a 3D grid. The lateral width is 3000m.The shale units are 200m by 100m laterally. The top of themodel corresponds to a depth of 1200m, and the bottom to2000m. The shales are in red, the Cattamarra formation is inyellow, the Cadda is in olive, and the Yarragadee is in green. . 118 Horizontal cross-section at a depth of 1710m (bottom of theCadda formation) of one realisation of the stochastic distributionof shales for a 3D grid. The lateral width is 3000m inboth directions. The shale units are 200m by 100m laterally.The shales are in red . . . . . . . . . . . . . . . . . . . . . . . 129 Vertical cross-section of gas saturation for a 3D grid with astochastic distribution of flow barriers after 20 years of injectionat 1 million tonnes per year. The lateral width is 3000m.The shale units are 200m by 100m laterally. The top of themodel corresponds to a depth of 1200m, and the bottom to2000m. Red corresponds to high gas saturation and blue tozero gas saturation. . . . . . . . . . . . . . . . . . . . . . . . . 1310 Horizontal cross-section at a depth of 1710m of gas saturationfor a 3D grid with a stochastic distribution of flow barriersafter 20 years of injection at 1 million tonnes per year. Thelateral width is 3000m. The shale units are 200m by 100mlaterally. Red corresponds to high gas saturation and blue tozero gas saturation. . . . . . . . . . . . . . . . . . . . . . . . . 1411 Vertical cross-section of gas saturation for a 3D grid with astochastic distribution of flow barriers 180 years after the endof injection. The lateral width is 3000m. The shale units are200m by 100m laterally. The top of the model corresponds toa depth of 1200m, and the bottom to 2000m. Red correspondsto high gas saturation and blue to zero gas saturation. . . . . 1512 Horizontal cross-section at a depth of 1510m of gas saturationfor a 3D grid with a stochastic distribution of flow barriers at200 years after 20 years of injection at 1 million tonnes peryear. The lateral width is 3000m. The shale units are 200mby 100m laterally. Red corresponds to high gas saturation andblue to zero gas saturation. . . . . . . . . . . . . . . . . . . . . 16iii
Page 1: Simulation of Geological Storage of
Page 4 and 5: Cooperative Research Centre for Gre
Page 8 and 9: 13 Vertical cross-section of gas sa
Page 10 and 11: 1 Executive SummaryNumerical simula
Page 12 and 13: 3 Simulation capabilitiesThe simula
Page 14 and 15: the injection area (as well as spre
Page 16 and 17: Figure 1: Vertical cross-section of
Page 24 and 25: Figure 11: Vertical cross-section o
Page 30 and 31: Figure 18: Horizontal cross-section
Page 32 and 33: Figure 20: Horizontal cross-section
Page 34 and 35: ReferencesBattistelli A, Calore C a

Simulation of Geological Storage of Carbon Dioxide in ... - CO2CRC

Create successful ePaper yourself

Delete template?

Save as template?