Paper No. 3
Presentation Time: 2:30 PM
EFFICIENCY ANALYSIS OF STEAM OVER SOLVENT INJECTION IN FRACTURED RESERVOIRS (SOS FR) METHOD FOR HEAVY OIL RECOVERY
BABADAGLI, Tayfun and AL BAHLANI, Al Muatasim Mohammad, U of Alberta, Edmonton, AB T6G 2R3, Canada, ershaghi@usc.edu
Heavy‑oil recovery from fractured carbonates is a real challenge, yet no proven technology exists as an efficient solution. Reservoir heating is generally inevitable and steam injection is the only effective way to heat heavy‑matrix oil using the fracture network distributing steam. We propose a new method minimizing heat needed for efficient heavy‑oil recovery from oil‑wet fractured rocks by adding solvent component. Efficiency is a critical issue in this process as it involves a costly application. The new technique called Steam‑Over‑Solvent in Fractured Reservoirs (SOS‑FR), consists of cyclical injection of steam and solvent in the following manner: Phase‑1: Steam injection to heat up the matrix and recover oil mainly by thermal expansion, Phase‑2: Solvent injection to produce matrix oil through diffusion‑imbibition‑drainage processes, and Phase‑3: Steam injection to retrieve injected solvent and recover more heavy‑oil. We performed static and dynamic experiments by immersing samples into hot‑water and different hydrocarbon solvents or injecting hot water and heptane alternatively to displace heavy‑oil. We showed that, under very unfavorable conditions (oil‑wet, 4,000cp crude), oil recovery at the end of Phase‑3 was around 85‑90% OOIP with 80‑85% solvent retrieval. The dynamic experimental results were matched to a single matrix/single fracture numerical model and parameters needed for field scale simulation (matrix‑fracture thermal diffusion, solvent diffusion and dispersion coefficients) were obtained. Using the data obtained through matching, field scale simulations were performed for efficiency analysis and to identify the optimal injection schemes (soaking time for cyclic and injection rate for continuous injection) and durations, and surface steam quality. Specific conclusions as to how to apply this technique efficiently in the field considering the cost of the process were reported.