[First Hit]

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Estimation of Previous Hit3-DNext Hit Confidence Index for Consistent Integration of Previous HitSeismicNext Hit Previous HitDataNext Hit Into Reservoir Models

Abstract

3D Previous HitseismicNext Hit Previous HitdataNext Hit is routinely used to constrain Previous HitstructuralNext Hit and stratigraphic models as well as for property modelling. Previous HitSeismicNext Hit amplitudes, or more commonly facies or elastic parameters Previous HitfromNext Hit Previous HitseismicNext Hit Previous HitinversionNext Hit, act as local average trends in a version of co-simulation. Conventional workflows may fail to integrate Previous HitdataNext Hit properly for two main reasons: (1) well Previous HitdataNext Hit, especially Previous HitfromNext Hit horizontal wells, have not been properly tied to Previous HitseismicNext Hit; and (2) the simulation method does not account for spatial variations of Previous HitseismicNext Hit Previous HitdataNext Hit uncertainty. In this paper, we propose a novel methodology to correct for the former. We also address the second point by estimating a 3D confidence cube that can be used subsequently to properly weight the Previous HitseismicNext Hit information into the reservoir model. The first step of the workflow consists of running supervised electrofacies analysis using core facies description at well positions. The resulting facies logs are transformed to synthetic elastic logs based on statistical analysis of well Previous HitdataNext Hit, which are in turn interpolated on the reservoir grid, and upscaled to the Previous HitseismicNext Hit scale. Second, Previous HitseismicNext Hit facies analysis is performed on the Previous HitseismicNext Hit Previous HitinversionNext Hit results, before being converted to local facies proportions. These volumes are then mapped to synthetic elastic parameters using well statistical analysis results. Well trajectories are then shifted locally on the Previous HitseismicNext Hit cube to ensure an optimal correlation between Previous HitseismicNext Hit and well elastic parameters. At the tying position, a local correlation coefficient is estimated on a sliding window along the well trajectories and interpolated in the reservoir grid. The methodology has been tested and compared to existing models built on a given carbonate reservoir. The quality of the reservoir model was globally improved due to two elements: First, all the available well Previous HitdataNext Hit could be tied on Previous HitseismicNext Hit with a global matching index (correlation coefficient) generally above 80%, although locally, the confidence index varies significantly Previous HitfromNext Hit well to well and across stratigraphic units. Second, after interpolation by nonstationary kriging on the reservoir grid, the resulting confidence index has been used to weight optimally Previous HitseismicNext Hit Previous HitdataTop into the reservoir model.