Archie Equation Petrophysics
INTRODUCTION
Archie Unleashed is an attempt to put the basic log analysis methodology for computing water saturation into a readable reference document. The beginning log analyst or petrophysicist should have little difficulty with the terms and concepts utilized in this paper, however, most terms are redefined in appendix A.
The basic outline of this document closely follows a previous work written for the casual interpeter in log analysis. Archie Unleashed is meant to carry that work one step further. Basic concepts are explained along with more detailed examples and explanations.
The personal computer has revolutionized the way we work and play. The kind and amount of data we work with in petrophysics can be easily handled in spread sheet programs that are under the full control of the user. The second section of Archie Unleashed examines several data sets and techniques for handling these data and defines a simple spreadsheet to do the calculations.
Section 1. The Archie Equation
-water saturation as a decimal fraction. -Resistivity of the 100% water saturated rock. -Resistivity of the rock-fluid system.
Equation 1.1 was empirically derived by G. E. Archie while working for Shell. This work was reported in in his famous 1942 paper. He plotted SW versus the ratio Rt/Ro (the Resistivity Index) on log-log paper, see Figure 1.1. This same technique is still used today to derive a value for n from core measurements.
The absolute value of n is commonly near 2 and is generally taken as equal to 2.00 when no laboratory determination of n is available. Accepting the convention of n = 2 allows the Archie equation to be written in the following forms:
These are equivalent expressions. Proper application will yield identical answers.
Critical Sw Values
The critical value of water saturation (Sw) is commonly taken as 50%. Sw must be less than the critical value for a zone to produce oil or gas without water
Archie Unleashed is an attempt to put the basic log analysis methodology for computing water saturation into a readable reference document. The beginning log analyst or petrophysicist should have little difficulty with the terms and concepts utilized in this paper, however, most terms are redefined in appendix A.
The basic outline of this document closely follows a previous work written for the casual interpeter in log analysis. Archie Unleashed is meant to carry that work one step further. Basic concepts are explained along with more detailed examples and explanations.
The personal computer has revolutionized the way we work and play. The kind and amount of data we work with in petrophysics can be easily handled in spread sheet programs that are under the full control of the user. The second section of Archie Unleashed examines several data sets and techniques for handling these data and defines a simple spreadsheet to do the calculations.
Section 1. The Archie Equation
-water saturation as a decimal fraction. -Resistivity of the 100% water saturated rock. -Resistivity of the rock-fluid system.
Equation 1.1 was empirically derived by G. E. Archie while working for Shell. This work was reported in in his famous 1942 paper. He plotted SW versus the ratio Rt/Ro (the Resistivity Index) on log-log paper, see Figure 1.1. This same technique is still used today to derive a value for n from core measurements.
The absolute value of n is commonly near 2 and is generally taken as equal to 2.00 when no laboratory determination of n is available. Accepting the convention of n = 2 allows the Archie equation to be written in the following forms:
These are equivalent expressions. Proper application will yield identical answers.
Critical Sw Values
The critical value of water saturation (Sw) is commonly taken as 50%. Sw must be less than the critical value for a zone to produce oil or gas without water