10,372
edits
Changes
Jump to navigation
Jump to search
Line 62:
Line 62: + + + + + + + + + + + + +
Rock physics analysis for reservoir identification (view source)
Revision as of 21:11, 20 April 2022
, 21:11, 20 April 2022no edit summary
==References==
==References==
Goodway, B., Chen, T. and Downton, J., 1997, Improved AVO Fluid Detection and Lithology Discrimination using Lamé Petrophysical Parameters; “λρ”, “μρ”, and “λ/μ fluid stack”, from P and S Inversions, SEG Technical Program Expanded Abstracts, pp. 183-186.
Goodway, B., Chen, T. and Downton, J., 1997, Improved AVO Fluid Detection and Lithology Discrimination using Lamé Petrophysical Parameters; “λρ”, “μρ”, and “λ/μ fluid stack”, from P and S Inversions, SEG Technical Program Expanded Abstracts, pp. 183-186.
Gassmann, F., 1951, Elastic Waves Through a Packing of Spheres, Geophysics, 16(4), pp. 673-685.
Gassmann, F., 1951, Elastic Waves Through a Packing of Spheres, Geophysics, 16(4), pp. 673-685.
Dvorkin, J., Mavko, G. and Gurevich, B., 2007, Fluid Substitution in Shaley Sediment Using Effective Porosity, Geophysics, 72(3), pp. O1-O8.
Dvorkin, J., Mavko, G. and Gurevich, B., 2007, Fluid Substitution in Shaley Sediment Using Effective Porosity, Geophysics, 72(3), pp. O1-O8.
Avseth, P., Janke, A. and Horn, F., 2016, AVO Inversion in Exploration – Key Learnings from a Norwegian Sea Prospect, The Leading Edge, 35(5), pp. 405-414.
Avseth, P., Janke, A. and Horn, F., 2016, AVO Inversion in Exploration – Key Learnings from a Norwegian Sea Prospect, The Leading Edge, 35(5), pp. 405-414.
Sams, M., Begg, P. and Manapov, T., 2017, Seismic Inversion of a Carbonate Buildup: A Case Study, Interpretation 5(4), pp. T641-T652.
Sams, M., Begg, P. and Manapov, T., 2017, Seismic Inversion of a Carbonate Buildup: A Case Study, Interpretation 5(4), pp. T641-T652.
Aki, K. and Richards, P. G., 1980, Quantitative Seismology: Theory and Methods, W. H. Freeman and Co.
Aki, K. and Richards, P. G., 1980, Quantitative Seismology: Theory and Methods, W. H. Freeman and Co.
Shuey, R. T., 1985, A Simplification of the Zoeppritz Equations, Geophysics, 50(4), pp. 609-614.
Shuey, R. T., 1985, A Simplification of the Zoeppritz Equations, Geophysics, 50(4), pp. 609-614.
Fatti, J. L., Smith, G. C., Vail, P. J., Strauss, P. J. and Levitt, P. R., 1994, Detection of Gas in Sandstone Reservoirs Using AVO Analysis: A 3-D Seismic Case History Using the Geostack Technique, Geophysics, 59(9), pp. 1362-1376.
Fatti, J. L., Smith, G. C., Vail, P. J., Strauss, P. J. and Levitt, P. R., 1994, Detection of Gas in Sandstone Reservoirs Using AVO Analysis: A 3-D Seismic Case History Using the Geostack Technique, Geophysics, 59(9), pp. 1362-1376.
Dvorkin, J. and Nur, A., 1996, Elasticity of High-Porosity Sandstones: Theory for Two North Sea Data Sets, Geophysics, 61(5), pp. 1363-1370.
Dvorkin, J. and Nur, A., 1996, Elasticity of High-Porosity Sandstones: Theory for Two North Sea Data Sets, Geophysics, 61(5), pp. 1363-1370.
Avseth, P., Mukerji, T, Mavko, G. and Dvorkin, J., 2010, Rock-Physics Diagnostics of Depositional Texture, Diagenetic Alterations, and Reservoir Heterogeneity in High-Porosity Siliciclastic Sediments and Rocks – A Review of Selected Models and Suggested Work Flows, Geophysics, 75(5), pp. 75A31-75A47.
Avseth, P., Mukerji, T, Mavko, G. and Dvorkin, J., 2010, Rock-Physics Diagnostics of Depositional Texture, Diagenetic Alterations, and Reservoir Heterogeneity in High-Porosity Siliciclastic Sediments and Rocks – A Review of Selected Models and Suggested Work Flows, Geophysics, 75(5), pp. 75A31-75A47.
Dvorkin, J., Nur, A. and Yin, H., 1994, Effective Properties of Cemented Granular Material, Mechanics of Materials, 18, pp. 351-366.
Dvorkin, J., Nur, A. and Yin, H., 1994, Effective Properties of Cemented Granular Material, Mechanics of Materials, 18, pp. 351-366.
Avseth, P., Dvorkin, J., Mavko, G. and Rykkje, J., 2000, Rock Physics Diagnostic of North Sea Sands: Link Between Microstructure and Seismic Properties, Geophysical Research Letters, 27, pp. 2761-2764.
Avseth, P., Dvorkin, J., Mavko, G. and Rykkje, J., 2000, Rock Physics Diagnostic of North Sea Sands: Link Between Microstructure and Seismic Properties, Geophysical Research Letters, 27, pp. 2761-2764.
Avseth, P., 2000, Combining Rock Physics and Sedimentology for Seismic Reservoir Characterization of North Sea Turbidite Systems, Ph.D Dissertation, Stanford University.
Avseth, P., 2000, Combining Rock Physics and Sedimentology for Seismic Reservoir Characterization of North Sea Turbidite Systems, Ph.D Dissertation, Stanford University.
Hossain, Z. and MacGregor, L., 2014, Advanced Rock-Physics Diagnostic Analysis: A New Method for Cement Quantification, The Leading Edge, 33(3), pp. 310-316.
Hossain, Z. and MacGregor, L., 2014, Advanced Rock-Physics Diagnostic Analysis: A New Method for Cement Quantification, The Leading Edge, 33(3), pp. 310-316.
Antariksa, G., Muammar R. and Lee, J., 2021, Performance Evaluation of Machine Learning-based Classification with Rock-Physics Analysis of Geological Lithofacies in Tarakan Basin, Indonesia, Journal of Petroleum Science and Engineering.
Antariksa, G., Muammar R. and Lee, J., 2021, Performance Evaluation of Machine Learning-based Classification with Rock-Physics Analysis of Geological Lithofacies in Tarakan Basin, Indonesia, Journal of Petroleum Science and Engineering.