Artificial intelligence (AI) tools are used to explore the influence of shale barriers on steam-assisted gravity drainage (SAGD) production. The data are derived from synthetic SAGD reservoir simulations based on petrophysical properties and operational constraints gathered from the Suncor's Firebag project, which is representative of Athabasca oil sands reservoirs. The underlying reservoir simulation model is homogeneous and two-dimensional. Reservoir heterogeneities are modeled by superimposing sets of idealized shale barrier configurations on this homogeneous reservoir model. The individual shale barriers are categorized by their location relative to the SAGD well pair and by their geometry. SAGD production for a training set of shale barrier configurations was simulated. A network model based on AI tools was constructed to match the output of the reservoir simulation for this training set of shale barrier configurations, with a focus on the production rate and the steam-oil ratio (SOR). Then the trained AI proxy model was used to predict SAGD production profiles for arbitrary configurations of shale barriers. The predicted results were consistent with the results of the SAGD simulation model with the same shale barrier configurations. The results of this work demonstrate the capability and flexibility of the AI-based network model, and of the parametrization technique for representing the characteristics of the shale barriers, in capturing the effects of complex heterogeneities on SAGD production. It offers the significant potential of providing an indirect method for inferring the presence and distribution of heterogeneous reservoir features from SAGD field production data.
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December 2018
Research-Article
A Proxy Model for Predicting SAGD Production From Reservoirs Containing Shale Barriers
Jingwen Zheng,
Jingwen Zheng
Department of Civil & Environmental Engineering,
University of Alberta,
Edmonton, AB T6G 1H9, Canada
University of Alberta,
Edmonton, AB T6G 1H9, Canada
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Juliana Y. Leung,
Juliana Y. Leung
Department of Civil & Environmental Engineering,
University of Alberta,
Edmonton, AB T6G 1H9, Canada
University of Alberta,
Edmonton, AB T6G 1H9, Canada
Search for other works by this author on:
Ronald P. Sawatzky,
Ronald P. Sawatzky
InnoTech Alberta,
Edmonton, AB T6N 1E4, Canada
Edmonton, AB T6N 1E4, Canada
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Jose M. Alvarez
Jose M. Alvarez
InnoTech Alberta,
Edmonton, AB T6N 1E4, Canada
Edmonton, AB T6N 1E4, Canada
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Jingwen Zheng
Department of Civil & Environmental Engineering,
University of Alberta,
Edmonton, AB T6G 1H9, Canada
University of Alberta,
Edmonton, AB T6G 1H9, Canada
Juliana Y. Leung
Department of Civil & Environmental Engineering,
University of Alberta,
Edmonton, AB T6G 1H9, Canada
University of Alberta,
Edmonton, AB T6G 1H9, Canada
Ronald P. Sawatzky
InnoTech Alberta,
Edmonton, AB T6N 1E4, Canada
Edmonton, AB T6N 1E4, Canada
Jose M. Alvarez
InnoTech Alberta,
Edmonton, AB T6N 1E4, Canada
Edmonton, AB T6N 1E4, Canada
Contributed by the Petroleum Division of ASME for publication in the JOURNAL OF ENERGY RESOURCES TECHNOLOGY. Manuscript received November 10, 2017; final manuscript received July 23, 2018; published online August 30, 2018. Assoc. Editor: Daoyong (Tony) Yang.
J. Energy Resour. Technol. Dec 2018, 140(12): 122903 (10 pages)
Published Online: August 30, 2018
Article history
Received:
November 10, 2017
Revised:
July 23, 2018
Citation
Zheng, J., Leung, J. Y., Sawatzky, R. P., and Alvarez, J. M. (August 30, 2018). "A Proxy Model for Predicting SAGD Production From Reservoirs Containing Shale Barriers." ASME. J. Energy Resour. Technol. December 2018; 140(12): 122903. https://doi.org/10.1115/1.4041089
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