Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6633049 | Fuel | 2016 | 17 Pages |
Abstract
The numerical simulation results suggest that the fishbone well pattern could extend the steam distribution and that polymer injection is able to prevent heat from leaking into the top water zone. Compared to the conventional SAGD process in an oil sands reservoir with a top water zone, the optimal case using a one-fishbone well pattern and polymer injection could enhance the oil production significantly. Under these conditions, the oil recovery factor in this study increased from 10.58% to 59.02%; the cumulative steam oil ratio decreased from 10.44Â m3/m3 to 3.85Â m3/m3; and the cumulative injected energy oil ratio decreased from 24.00Â GJ/m3 to 8.87Â GJ/m3. This indicates that the SAGD process with the one-fishbone well pattern and polymer injection is able to improve SAGD performance in oil sands with a top water zone.
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Authors
Xiang Zhou, Fanhua Zeng, Liehui Zhang,