Screening Geostatistical Realizations for SAGD Reservoir Simulation

Date
2014-05-02
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Abstract
Economic feasibility of bitumen recovery using the steam-assisted gravity drainage (SAGD) process strongly depends on the heterogeneities that exist in the petrophysical properties of the reservoir. Petrophysical properties and geological features are normally estimated based on known well data and modeled using geostatistical techniques. However, the statistical nature of the geostatistical methods yields many different possible distributions of reservoir properties. As these static models have the same spatial continuity and honor known data, they are called realizations. Flow simulation of these realizations results in translation of dissimilarities in the static models into a range of dynamic performance responses such as the fluid production rate, cumulative production, and recovery. One option to capture the entire range of dynamic responses is to conduct numerical simulation on all the realizations. Clearly, this is a laborious and impractical task particularly for SAGD, which is a computationally burdensome and complicated modeling process. Another alternative would be to screen and rank realizations prior to detailed flow simulation. In this research, some of the published connectivity-based ranking methods were applied to synthetic SAGD datasets. After testing the applicability and effectiveness of the existing methods, a new ranking measure based on the static reservoir properties was introduced. The method established a reliable measure to successfully rank realizations based on both cumulative oil production and steam injection. The ranking method was further validated by using two realistic SAGD datasets from the fields located in the northern Alberta with one of the datasets containing multiple well pairs in the model. Despite the extent and complexities of the real models, the method was demonstrated to be strongly correlated to SAGD reservoir performance indicators. Moreover, the correlation was stable over time as long as gravity drainage was dominated. The proposed method is robust in identifying extreme performing realizations, can be easily applied to large models, and runs much faster than the existing in-house ranking methods. It can categorize realizations with similar performance characteristics into one group and discern groups that exhibit different responses. In this way, a few representative realizations from each category can be selected for detailed flow simulation studies. This reduces the uncertainty assessment time for SAGD process from months to just a few days.
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Keywords
Engineering--Petroleum
Citation
Majdi Yazdi, M. (2014). Screening Geostatistical Realizations for SAGD Reservoir Simulation (Doctoral thesis, University of Calgary, Calgary, Canada). Retrieved from https://prism.ucalgary.ca. doi:10.11575/PRISM/27717