Experimental and Numerical Study of Water-Gas Imbibition Phenomena in Vuggy Carbonates
- Patrick Egermann (Institute Francais du Petrol IFP) | Catherine Laroche (Institute Francais du Petrol IFP) | Emmanuel Manceau (Institute Francais du Petrol IFP) | Eric Delamaide (IFP Technologies Canada Inc.) | Bernard Jean Bourbiaux (Institute Francais du Petrol IFP)
- Document ID
- Society of Petroleum Engineers
- SPE Reservoir Evaluation & Engineering
- Publication Date
- February 2007
- Document Type
- Journal Paper
- 86 - 96
- 2007. Society of Petroleum Engineers
- 5.3.1 Flow in Porous Media, 5.8.7 Carbonate Reservoir, 4.3.4 Scale, 4.1.2 Separation and Treating, 5.2.1 Phase Behavior and PVT Measurements, 5.4.2 Gas Injection Methods, 5.1 Reservoir Characterisation, 5.3.2 Multiphase Flow, 5.5.8 History Matching, 5.8.6 Naturally Fractured Reservoir, 5.8.1 Tight Gas, 4.1.5 Processing Equipment, 1.2.3 Rock properties, 1.6.9 Coring, Fishing, 5.5.3 Scaling Methods, 5.5 Reservoir Simulation, 3.2.3 Hydraulic Fracturing Design, Implementation and Optimisation, 5.7.2 Recovery Factors
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Tight gas carbonate fields are often faced with early water breakthrough in the presence of fractures connected with an active aquifer. The recovery assessment from such fields requires us to take into account the role played by water imbibition of the matrix, which, depending on the fracture density and rock properties, can delay water breakthrough significantly. The prediction of such spontaneous-imbibition phenomena requires experimental measurements and modeling in the case of rocks of complex porous structure like vuggy carbonates. This paper gives the results of such an investigation on samples from a vuggy carbonate field. A thorough petrophysical characterization of the rock was carried out first, followed by water/gas imbibition experiments. Those experiments were finally simulated numerically to check the consistency of the experimental data set and further understand the fluid-flow behavior of those peculiar media.
The porous structure of several samples was characterized from capillary pressure and nuclear magnetic resonance (NMR) measurements. Spontaneous imbibition was found to be very slow, which required the implementation of a specific accurate measurement device. The slow kinetics was caused by the very low mobility of water, which was measured separately as well. To explain this flow behavior, the peculiarity of the porous structure of the rock-type studied—fairly large vugs dispersed within a tight matrix with very small pore thresholds—is invoked. Simulations on a representative pore-network model actually revealed that the flow ability of the water phase is considerably hindered in such a medium. Finally, the spontaneous-imbibition behavior was reproduced satisfactorily with single-porosity and dual-porosity models using the measured petrophysical parameters, thus showing the consistency of the measured data set.
Gas-production management from vuggy carbonate reservoirs subjected to water encroachment requires a specific evaluation of matrix-imbibition phenomenon because the latter is ruled by unconventional flow parameters linked to the complex two-phase-flow interactions between vugs and micropores in such media.
Significant gas reserves are contained in fractured vuggy carbonate reservoirs, which may be faced with early water production leading to well shut-in and low gas recovery. Several of these fractured carbonate gas fields are located in the foothills of the Rocky Mountains, with volumes in place exceeding 1 Tcf for the largest ones (Hnatiuk 1970; Davidson and Snowdon 1978; Thomas et al. 1996).
Reservoirs consist of tight dolomitized carbonates with a permeability generally less than 1 md. Fractures provide the main contribution to well productivities but are responsible for matrix gas bypassing and early water breakthroughs leading to premature well shut-in. Hence, most of these fields have now reached the phase of abandonment with abnormally low gas-recovery factors.
The key point in the understanding of these reservoirs is the natural water imbibition of the matrix that occurs with the fracture-network invasion by water. This natural imbibition plays a major role in the water breakthrough time prediction at the producers and also in the final gas-recovery estimation. This paper is a contribution to the understanding of these mechanisms in vuggy carbonate reservoirs, where the complex pore structure (vugs) can affect the production kinetics and the recovery from the matrix. The selected approach consists in first performing and analyzing laboratory experiments of natural imbibition mechanisms on representative core samples, then deriving the parameters involved from the numerical simulation of these experiments.
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