Elastic and flow properties of carbonate core derived from 3D X ray-CT images
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Knackstedt, Mark
Arns, Christoph
Madadi, Mahyar
Sheppard, Adrian
Latham, Shane
Sok, Robert
Bachle, Gregor
Eberli, Gregor
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Society of Exploration Geophysicists
Abstract
Carbonate rocks are extremely diverse and their pore spaces complex and heterogeneous. Large uncertainties in the petrophysical properties of carbonates are due to wide variations in pore type, pore shape and interconnectivity. Petrophysical properties such as acoustic velocity and permeability are directly correlated to the amount and type of porosity, the dominant feature size and the interconnectivity of different porosity types. Accurately measuring these attributes requires the quantitative 3D analysis of the pore structure of carbonates. In this abstract we describe the imaging and analysis of two types of carbonate core; a set of vuggy, recrystallized dolostones and a set of oomoldic limestones. The structure and topology of the pore space is accurately determined via micro-CT analysis and the porosity consistent with experimental data. Acoustic velocity-porosity, pore connectivity and porosity permeability relationships are derived directly on the image data via numerical simulation and compared with measured data on the same rock. Acoustic velocity:porosity trends are good. Pore structural properties (pore size, aspect ratios, pore and throat shape and connectivity) are determined. The correlations between pore geometry and topology and elastic and flow properties can now be directly probed in a systematic manner. Three dimensional imaging and analysis of carbonate core material can provide a basis for more accurate petrophysical modeling and improve carbonate reservoir characterization.
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78th Society of Exploration Geophysicists International Exposition and Annual Meeting, SEG 2008
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2099-12-31