Abstract
There have been a number of somehow contradictory reports in the literature on the effect of temperature on oil and water relative permeabilities. Although some authors have reported the dependence of relative permeability curves on temperature, others have attributed these dependencies to artifacts inherent in unsteady-state method of relative permeability measurement. In order to further investigate the impact of temperature changes on the relative permeability data, we have conducted laboratory core flooding experiments on heavy oil systems. The porous media used was glass bead packs, and the Athabasca type bitumen with varying viscosities was displaced by hot water. The history matching technique was conducted on production and pressure differential data to get the relative permeability curves. Results indicated that generally the increase in initial water saturation and the decrease in residual oil saturation are expected by increasing temperature. However, viscous instabilities can rule out the above mentioned trends. No temperature dependency of either oil or water relative permeability can be justified in our tests. The changes in relative permeabilities by temperature are probably related to experimental artifacts, viscous fingering and changes in oil to water viscosity ratio and not fundamental flow properties.
Highlights
The modeling of heavy oil production by thermal methods requires an in depth understanding of the rock-fluid interaction parameters for these types of reservoirs
Some authors have reported the dependence of relative permeability curves on temperature, others have attributed these dependencies to artifacts inherent in unsteady-state method of relative permeability measurement
The porous media used in this study were artificial core plugs made of glass beads (GB) packed inside the rubber sleeve
Summary
The modeling of heavy oil production by thermal methods requires an in depth understanding of the rock-fluid interaction parameters for these types of reservoirs. Some authors have reported an increase in the irreducible water saturation (Swi) and a decrease in residual oil saturation (Sor) as the temperature of the system increases This shift in the saturations results in some changes in the value of kr as well. The effect of temperature on the end point saturations (Swi and Sor) has been reported by several authors (Edmondson, 1965; Combarnous & Pavan, 1968; Poston et al, 1970; Sinnokrot, 1971; Lo & Mungan, 1973; Weinbrandt et al, 1975; Abasov et al, 1976; Maini & Batycky, 1985; Torabzadeh & Handy, 1984; Bennion et al, 1985). The two latter have concluded that the previously reported temperature dependant behaviors of relative permeability and residual saturations might have been affected by viscous instabilities, capillary end effects and / or difficulties in maintaining material balance (Polikar et al, 1990)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
