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Collaborating Authors
Results
Abstract Depth to Surface Resistivity (DSR) has been shown to be effective at mapping CO2, water flood, and residual oil aerially and vertically. Provided there is sufficient resistivity contrast between injected and in-situ fluids and subject to the reservoir depth and overburden resistivity, the technique is applicable for monitoring IOR/EOR fields. This information can be used to evaluate cap rock integrity, fluid loss to faults, and migration paths. The following paper presents a study of a CO2 flood followed by water alternating gas (WAG) injection.
chemical flooding methods, co 2, correspond, depth-to-surface resistivity method, enhanced recovery, fault block, field example, fluid injection, injection, injector, mapping co2 flood, miscible method, Petroleum Engineer, reservoir, Reservoir Depth, resistive co 2, resistivity, sensor, survey area, Upstream Oil & Gas
Oilfield Places:
- North America > United States > Texas > Vicksburg Formation (0.94)
- North America > United States > Texas > Frio Formation (0.94)
SPE Disciplines: Reservoir Description and Dynamics > Improved and Enhanced Recovery > Chemical flooding methods (1.00)