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Predicting sandstone reservoir porosity (view source)
Revision as of 15:44, 28 August 2014
, 15:44, 28 August 2014no edit summary
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file:predicting-reservoir-system-quality-and-performance_fig9-55.png|{{figure number|2}}Flow chart to predict the effect of original sediment composition on subsequent diagenesis. Copyright: Surdam et al.;<ref name=Surdam>Surdam, R. C., T. L. Dunn, D. B. MacGowan, and H. P. Heasler, 1989, Conceptual models for the prediction of porosity evolution with an example from the Frontier Sandstone, Bighorn basin, Wyoming, in E. B. Coalson, S. S. Kaplan, C. W. Keighin, L. A. Oglesby, and J. W. Robinson, eds., Sandstone Reservoirs: Rocky Mountain Association of Geologists, p. 7–21.</ref> courtesy RMAG.
file:predicting-reservoir-system-quality-and-performance_fig9-55.png|{{figure number|2}}Flow chart to predict the effect of original sediment composition on subsequent diagenesis. Copyright: Surdam et al.;<ref name=Surdam>Surdam, R. C., T. L. Dunn, D. B. MacGowan, and H. P. Heasler, 1989, Conceptual models for the prediction of porosity evolution with an example from the Frontier Sandstone, Bighorn basin, Wyoming, in E. B. Coalson, S. S. Kaplan, C. W. Keighin, L. A. Oglesby, and J. W. Robinson, eds., Sandstone Reservoirs: Rocky Mountain Association of Geologists, p. 7–21.</ref> courtesy RMAG.
file:predicting-reservoir-system-quality-and-performance_fig9-56.png|{{figure number|3}}. Copyright: Surdam et al.;<ref name=Surdam /> courtesy RMAG.
file:predicting-reservoir-system-quality-and-performance_fig9-56.png|{{figure number|3}}Flow chart to estimate the effects of near-surface diagenesis (depth to point where temperature reaches [[temperature::80°C]]. Copyright: Surdam et al.;<ref name=Surdam /> courtesy RMAG.
file:predicting-reservoir-system-quality-and-performance_fig9-57.png|{{figure number|4}}. Copyright: Surdam et al.;<ref name=Surdam /> courtesy RMAG.
file:predicting-reservoir-system-quality-and-performance_fig9-57.png|{{figure number|4}}Flow chart to predict the effects of mechanical diagenesis on sandstone porosity. Copyright: Surdam et al.;<ref name=Surdam /> courtesy RMAG.
file:predicting-reservoir-system-quality-and-performance_fig9-58.png|{{figure number|5}}. Copyright: Wilson;<ref name=Wilson>Wilson, M. D., 1994, Assessing the relative importance of diagenetic processes and controls, in M. D. Wilson, ed., Reservoir Quality Assessment and Prediction in Clastic Rocks: SEPM Short Course 30, p. 259–276.</ref> courtesy SEPM.
file:predicting-reservoir-system-quality-and-performance_fig9-58.png|{{figure number|5}}Diagram showing diagenetic and burial history for the Brent Group Sandstones, North Sea. Line thicknesses indicate relative abundance of diagenetic components. Copyright: Wilson;<ref name=Wilson>Wilson, M. D., 1994, Assessing the relative importance of diagenetic processes and controls, in M. D. Wilson, ed., Reservoir Quality Assessment and Prediction in Clastic Rocks: SEPM Short Course 30, p. 259–276.</ref> courtesy SEPM.
file:predicting-reservoir-system-quality-and-performance_fig9-59.png|{{figure number|6}}. From Hayes, 1983; courtesy AAPG.
file:predicting-reservoir-system-quality-and-performance_fig9-59.png|{{figure number|6}}Example of sandstone porosity prediction using burial history. From Hayes;<ref name=Hayes>Hayes, J. B., 1983, Sandstone diagenesis as an exploration tool: AAPG Clastic Diagenesis School, June 27–July 1, Monterey, California.</ref> courtesy AAPG.
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