1. Capillary Pressure: Reservoir Seal Capillary Pressure / Saturation Relationship (Sw* Model).

2. Sw* Power Law Model Power Law Model (log-log straight line)
“Best fit” of any data set with a straight line model can be used to determine two unknown parameters. For this case:
slope gives l
intercept gives Pd
Swi must be determined independently
it can be difficult to estimate the value of Swi from cartesian Pc vs. Sw plot, if the data set does not clearly show asymptotic behavior

3. Type Curves A Type Curve is a dimensionless solution or relationship
Dimensionless means that it applies for any values of specific case parameters
Petroleum Engineers often use type curves to determine model parameters
well test analysis
well log analysis
production data analysis
analysis of capillary pressure data

4. Type Curves Process of type curve matching
Step 1: observed data is plotted using an appropriate format
The data and type curve must be plotted using the same sized grid (ie. 1 log cycle = 1 log cycle)
Step 2: a “match” is found between observed data and a dimensionless solution by sliding the data plot over the type curve plot (horizontal and vertical sliding only)
Step 3: the “match” is used to determine model parameters for the observed data
Often values are recorded from an arbitrary “match point” on both the data plot and type curve plot

5. Brooks and Corey Type Curve
Dimensionless variable definitions
Dimensionless Capillary Pressure
Dimensionless Wetting Phase Saturation
Restating Sw* Model (Type Curve Plot)

6. Brooks and Corey Type Curve
Type Curve Plot
By matching the type curve, we can solve for all three Sw* Model parameters: Pd , Swi , and l
curve matched gives, l
vertical slide gives: Pd
horizontal slide gives: Swi

7. Brooks and Corey Type Curve
Data Plot, Pc vs. (1-Sw )
Grid must be same size as Type Curve Plot
Any pressure unit can be used for plotting Pc
Pd will be in same unit

8. Brooks and Corey Type Curve
Example Data, Cottage Grove #5 Well
lithology: sandstone
porosity: 0.28 fraction
permeability: 127 md
fluid system: brine/air
swg: 72 dyne/cm

9. Brooks and Corey Type Curve
Step 1: Plot data on same sized grid
Plots are shown overlayed

10. Brooks and Corey Type Curve
Step 2: Slide data plot to obtain the best match
Only horizontal and vertical sliding is allowed
Best match is with the l=1.0 curve
Actual value of l is slightly less than 1.0

11. Brooks and Corey Type Curve
Step 3: Pick an arbitrary match point and record values from both curves
For this particular type curve, the “best” arbitrary match point is where PcD=1 and SwD=1
At this match point, Pc=2.0 psia and (1–Sw)=0.77
Match Point

12. Brooks and Corey Type Curve
Using dimensionless variable definitions
Dimensionless Capillary Pressure
When PcD = 1.0, from match point Pc=2.0
Since by definition, PcD=Pc/Pd , then Pd=2.0
Dimensionless Wetting Phase Saturation
When SwD = 1.0, from match point (1-Sw)=0.77
Since by definition, SwD=(1-Sw)/(1-Swi), then (1-Swi)=0.77
Therefore, Swi=0.23
Model Parameters: l=1.0, Pd=2.0, Swi=0.23
The Sw* log-log plot should be used to verify these values
This would allow a more precise determination of l than “slightly less than 1.0”