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Spatial modeling of discontinuity intensity from borehole observations at El Teniente mine, Chile
AbstractThis work addresses the problem of predicting the discontinuity intensity P32 (discontinuity area per unit volume of rock mass) in space and of quantifying the uncertainty in the true P32 values, using information from observed discontinuities intersecting boreholes. This problem is relevant in various fields of engineering, including mining applications, hydrocarbon extraction, groundwater modeling and civil works. The main idea is to calculate experimental P32 values for borehole segments (composites), based on a Terzaghi weighting of the discontinuities that intersect the boreholes. A validation exercise performed on simulated discrete fracture networks demonstrates that the calculated P32 values provide unbiased predictions of the true P32, at both global and local scales, and can therefore be used as experimental data for spatial interpolation purposes.By using geostatistical simulation techniques, the spatial prediction of the P32 and the corresponding measures of uncertainty can be obtained on a block-by-block basis. This methodology is applied to a data set from the El Teniente copper mine, Codelco-Chile. The objective is to map the expected values of the intensity of stockwork veins with a weak infill mineral assemblage and a typical thickness greater than 1mm, which are referred to as weak veins. Confidence limits on this intensity and its probability of exceeding given critical values are also estimated. The quality of the prediction and of the uncertainty quantification is checked by leave-one-out cross-validation. The resulting confidence limits and probability maps can be used as indicators to define geotechnical domains in the rock mass.
HighlightsDiscontinuity intensity (P32) is commonly used to describe rock mass fracturing.The Terzaghi correction allows calculating composited P32 values along boreholes.These values can be interpolated in space with geostatistical simulation.Simulation yields outcomes that allow mapping P32 and quantifying its uncertainty.The proposal is applied to model the stockwork vein intensity in El Teniente mine.
Spatial modeling of discontinuity intensity from borehole observations at El Teniente mine, Chile
AbstractThis work addresses the problem of predicting the discontinuity intensity P32 (discontinuity area per unit volume of rock mass) in space and of quantifying the uncertainty in the true P32 values, using information from observed discontinuities intersecting boreholes. This problem is relevant in various fields of engineering, including mining applications, hydrocarbon extraction, groundwater modeling and civil works. The main idea is to calculate experimental P32 values for borehole segments (composites), based on a Terzaghi weighting of the discontinuities that intersect the boreholes. A validation exercise performed on simulated discrete fracture networks demonstrates that the calculated P32 values provide unbiased predictions of the true P32, at both global and local scales, and can therefore be used as experimental data for spatial interpolation purposes.By using geostatistical simulation techniques, the spatial prediction of the P32 and the corresponding measures of uncertainty can be obtained on a block-by-block basis. This methodology is applied to a data set from the El Teniente copper mine, Codelco-Chile. The objective is to map the expected values of the intensity of stockwork veins with a weak infill mineral assemblage and a typical thickness greater than 1mm, which are referred to as weak veins. Confidence limits on this intensity and its probability of exceeding given critical values are also estimated. The quality of the prediction and of the uncertainty quantification is checked by leave-one-out cross-validation. The resulting confidence limits and probability maps can be used as indicators to define geotechnical domains in the rock mass.
HighlightsDiscontinuity intensity (P32) is commonly used to describe rock mass fracturing.The Terzaghi correction allows calculating composited P32 values along boreholes.These values can be interpolated in space with geostatistical simulation.Simulation yields outcomes that allow mapping P32 and quantifying its uncertainty.The proposal is applied to model the stockwork vein intensity in El Teniente mine.
Spatial modeling of discontinuity intensity from borehole observations at El Teniente mine, Chile
Hekmatnejad, Amin (Autor:in) / Emery, Xavier (Autor:in) / Brzovic, Andrés (Autor:in) / Schachter, Paulina (Autor:in) / Vallejos, Javier A. (Autor:in)
Engineering Geology ; 228 ; 97-106
31.07.2017
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Spatial modeling of discontinuity intensity from borehole observations at El Teniente mine, Chile
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