Reservoir system

In this discussion, a reservoir system is a water–hydrocarbon system contained within the pores of a rock unit. A reservoir system has three main components: a reservoir, an aquifer, and a transition zone (interface) between the two.

• A reservoir is a porous and permeable rock saturated with oil or gas in buoyancy pressure equilibrium with a free water level (zero buoyancy pressure). It has one or more containers and is located below a seal.
• A transition zone is the interval of rock separating the reservoir from the aquifer; it is less than 100% saturated with water.
• An aquifer is a porous and permeable rock 100% saturated with water. It has one or more containers that may or may not be shared with a reservoir.

The diagram in Figure 1 illustrates the major components of a conventional reservoir system.

A waste zone may be found at the top of a reservoir, just below the seal, if there is a decrease in the size of the pore throat radii of the reservoir. It generally produces hydrocarbon and water on a production test.^[1]

A transition zone is located at the base of a reservoir and forms as a result of a loss of buoyancy pressure in the hydrocarbon phase. Pore throat diameter and fluid densities determine its thickness. It generally produces hydrocarbon and water on a production test.

The free water level is located at the base of a hydrocarbon column and the transition zone. Above this level, the reservoir produces water alone, hydrocarbon and water, or hydrocarbon alone on a production test. Below this level lies the aquifer of a water-drive reservoir system. It produces water only. Zero buoyancy pressure exists at this level or below.

• Analyzing a reservoir system
• Defining flow units and containers
• Reservoir drive mechanisms
• Predicting reservoir drive mechanism

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