Water saturation distribution in a reservoir

The distribution of water saturation values within a reservoir depends on the height above free water, hydrocarbon type, pore throat-size distribution, and pore geometry. Mapping S_w distribution in a reservoir helps us predict trap boundaries.

Bvw[edit]

Bulk volume water (BVW) equals Φ × S_w. In zones with the same pore type and geometry, BVW is a function of the height above the free water level. Above the transition zone, BVW is fairly constant. Below the transition zone, BVW is variable.

A Buckles plot is a plot of S_w vs. porosity. Contours of equal BVW are drawn on the plot.

• Points plot on a hyperbolic BVW line where the formation is near immobile water if the points come from a reservoir with consistent pore type and pore geometry.
• Points scatter on a Buckles plot where the formation falls below the top of the transition zone.

The figure below shows how a Buckles plot relates to capillary pressure, fluid distribution, and fluid recovery in a reservoir.

Figure 9-40 See text for explanation.

Limitations of BVW[edit]

BVW and Buckles plots can be confusing in interbedded lithologies or in areas where facies changes occur because of changing pore types.

S_w—depth plots[edit]

S_w–depth plots are simple plots of S_w vs. depth. They illustrate how S_w varies within a hydrocarbon-bearing zone. Variations reflect different pore types and/or height above free water. An S_w–depth plot can be used to delineate three things:

• Transition and waste zones
• Flow units
• Containers

Individual plots can be prepared for wells along dip and strike and correlated to show S_w changes across a reservoir or field. Below is a hypothetical example of an S_w–depth plot with estimated S_w distribution curves for several flow units for a hydrocarbon-bearing zone in a well.

Figure 9-41 See text for explanation.

Height–s_w–pore type diagram[edit]

The empirical ternary diagram below is handy for estimating either height above free water, port type (r₃₅), or S_w for a flow unit when the other two variables are known. For example, if S_w for a flow unit is 20% and the pore type is macro with a port size of approximately 3μ, then the height above free water for the flow unit is approximately length::100 ft. Assumptions for the diagram include 30°API gravity oil, saltwater formation water, and water wet.

Figure 9-42 See text for explanation.

See also[edit]

• Interpreting water saturation
• Interpreting hydrocarbon shows
• Predicting hydrocarbon recovery

External links[edit]

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