The displacement of non-Newtonian power-law fluids in communicating stratified reservoirs with a log-normal permeability distribution is studied. Equations are derived for fractional oil recovery, water cut, injectivity ratio, and pseudorelative permeability functions, and the performance is compared with that for Newtonian fluids. Constant-injection-rate and constant-total-pressure-drop cases are studied.

The effects of the following factors on performance are investigated: the flow-behavior indices, the apparent mobility ratio, the Dykstra-Parsons variation coefficient, and the flow rate. It was found that fractional oil recovery increases for nw>no and decreases for nw<no, as compared with Newtonian fluids. For the same ratio of nw/no, oil recovery increases as the apparent mobility ratio decreases. The effect of reservoir heterogeneity in decreasing oil recovery is more apparent for the case of nw>no. Increasing the total injection rate increases the recovery for nw>no, and the opposite is true for nw<no. It also was found that the fractional oil recovery for the displacement at constant total pressure drop is lower than that for the displacement at constant injection rate, with the effect being more significant when nw<no.

Keywords:
flow in porous media, Upstream Oil & Gas, dimensionless time, drilling fluid chemistry, drilling fluid property, Fluid Dynamics, stratified reservoir, flow-behavior index, Newtonian fluid, enhanced recovery
Subjects:
Drilling fluid selection and formulation (chemistry, properties), Drilling Fluids and Materials, Flow in porous media, Improved and Enhanced Recovery, Reservoir Fluid Dynamics
Copyright 2006, Society of Petroleum Engineers
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