Breccia interlayer effects on steam-assisted gravity drainage performance: experimental and numerical study

Currently, the reservoir heterogeneity is a serious challenge for developing oil sands with SAGD method. Nexen's Long Lake SAGD project reported that breccia interlayer was widely distributed in lower and middle part of reservoir, impeding the steam chamber expansion and heated oil drainage. In this paper, two physical experiments were conducted to study the impact of breccia interlayer on development of steam chamber and production performance. Then, a laboratory scale numerical simulation model was established and a history match was conducted based on the 3D experimental results. Finally, the sensitivity analysis of thickness and permeability of breccia layer was performed. The influence mechanism of breccia layer on SAGD performance was analyzed by comparing the temperature profile of steam chamber and production dynamics. The experimental results indicate that the existence of breccia interlayer causes a thinner steam chamber profile and longer time to reach the peak oil rate. And, the ultimate oil recovery reduced 15.8% due to much oil stuck in breccia interlayer areas. The numerical simulation results show that a lower permeability in breccia layer area has a serious adverse impact on oil recovery if the thickness of breccia layer is larger, whereas the effect of permeability on SAGD performance is limited when the breccia layer is thinner. Besides, a thicker breccia layer can increase the time required to reach the peak oil rate, but has a little impact on the ultimate oil recovery.

Automated summary

This study investigates the impact of breccia interlayer on SAGD performance through physical experiments and numerical simulations. The results show that the presence of breccia interlayer leads to a thinner steam chamber, longer production time, and reduced ultimate oil recovery. Moreover, lower permeability in thicker breccia layer areas has a significant adverse effect on oil recovery, while permeability has a limited impact on performance in thinner breccia layer areas.