Simulation of Drilling Fluid Filtrate Invasion Near an Observation Well (SPE 154014)

Description: We use a commercial reservoir simulator to study first the dissipation of aqueous drilling fluid filtrate invasion around a cased observation well in an oil-saturated formation under the action of capillary pressure, and then the interaction of a waterflood front with the cased well and remaining invaded zone. Hysteretic behaviour of the capillary pressure and relative permeabilities is critically important to these processes and is taken into account using the Killough model, with the various bounding drainage and imbibition curves computed from a pore network model. Application: Filtrate invasion into a hydrocarbon formation influences the readings of well logging tools. Although this phenomenon has been known, and corrected for, for many years, uncertainty remains with regard to the long-time behaviour of invasion around observation wells where no flow in or out of the formation occurs after completion and to the influence of formation wettability. Results: After sufficient time the invaded zone dissipates completely in a water-wet formation, but some invasion always remains in the oil-wet case. Non-wetting-phase trapping, manifested through relative permeability hysteresis, is the cause. Because trapping affects the values and the end points of the relative permeability curves, a waterflood front passing across an observation well is more distorted in the oil-wet case. Significance: The simulation results allow us to understand how logging tool measurements made in cased observation wells are influenced by drilling fluid invasion and will therefore lead to improved interpretation. This study shows strong links between the wettability of the formation and persistence of invaded zone saturation, and between invaded zone saturation and the distortion of subsequent flood fronts.