Seal capacity and two-phase hydrocarbon columns

Seal capacity depends on both the hydrocarbon phase and the physical character of the top seal. Since displacement pressure is a function of the seal and the coefficient of interfacial tension of the hydrocarbon phase beneath the seal, it is possible to trap a thicker two-phase hydrocarbon column than oil alone or gas alone.^[1] The gas in contact with the base of the seal determines the displacement pressure (P_d) of the seal. The buoyant effect of the oil column, however, is less than that of a pure gas column, and a greater total hydrocarbon column can be trapped.

Figure 1 compares the seal capacity of a top seal with a single-phase oil accumulation, a single-phase gas accumulation, and a two-phase accumulation with both an oil leg and a gas cap. The largest hydrocarbon column is sealed by the two-phase accumulation. This best applies to traps with a geometry such that only the gas column is in contact with the seal. It also applies to fault traps.

• Seal capacity
• Seal capacity of different rock types
• Seal capacity variation with depth and hydrocarbon phase
• Seal thickness
• Fault-dependent leak points, continuity, and charge

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