Multiple frequency electric excitation method and identifying complex lithologies of subsurface formations

US 4,686,477 A
Filed: 09/30/1985
Issued: 08/11/1987
Est. Priority Date: 09/30/1985
Status: Expired due to Fees

First Claim

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1. A method for identifying complex lithologies of a rock formation comprising the steps of:

(a) exciting at least a portion of said rock formation with a multi-frequency electric current, containing a plurality of frequencies such that all of said frequencies simultaneously excite said portion of said rock formation(b) measuring the resulting voltage in said portion of said rock formation,(c) determining the phase and amplitude of the measured voltage at each of the plurality of simultaneous frequencies included in said multi-frequency electric current,(d) determining the resistivity of said portion of said rock sample at each plurality of simultaneous frequencies from the amplitude of said multi-frequency current at each of said plurality of simultaneous frequencies and said determinations of phase and amplitude for said measured voltage,(e) recording said resistivity and said phase as a function of frequency,(f) characterizing said rock formation as a clean rock when said resistance remains constant and said phase is negligible as a function of exciting current frequency,(g) characterizing said rock formation as a low resistivity, high surface area, clay bearing rock when said resistance remains constant and said phase is a negative value which decreases in magnitude as said exciting current frequency increases, and(h) characterizing said rock formation as a low resistivity, pyrite-bearing rock when said resistance decreases as said exciting current frequency increases and said phase is a negative value which increases in magnitude as said exciting current frequency increases.

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Abstract

A method of identifying complex lithologies of subsurface rock formations includes the excitation of at least a portion of the rock formation with a multi-frequency electric current. The voltage resulting in the rock is measured and the phase and amplitude of such voltage is determined for each of the included frequencies. The resistivities are determined for each of the frequencies and are plotted as a function of frequency. The complex lithology of the rock formation is characterized by such plot.

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13 Claims

1. A method for identifying complex lithologies of a rock formation comprising the steps of:
- (a) exciting at least a portion of said rock formation with a multi-frequency electric current, containing a plurality of frequencies such that all of said frequencies simultaneously excite said portion of said rock formation(b) measuring the resulting voltage in said portion of said rock formation,(c) determining the phase and amplitude of the measured voltage at each of the plurality of simultaneous frequencies included in said multi-frequency electric current,(d) determining the resistivity of said portion of said rock sample at each plurality of simultaneous frequencies from the amplitude of said multi-frequency current at each of said plurality of simultaneous frequencies and said determinations of phase and amplitude for said measured voltage,(e) recording said resistivity and said phase as a function of frequency,(f) characterizing said rock formation as a clean rock when said resistance remains constant and said phase is negligible as a function of exciting current frequency,(g) characterizing said rock formation as a low resistivity, high surface area, clay bearing rock when said resistance remains constant and said phase is a negative value which decreases in magnitude as said exciting current frequency increases, and(h) characterizing said rock formation as a low resistivity, pyrite-bearing rock when said resistance decreases as said exciting current frequency increases and said phase is a negative value which increases in magnitude as said exciting current frequency increases.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The method of claim 1 wherein said excitation is by means of an electric current comprised of white noise.
  - 3. The method of claim 2 wherein all frequencies of said white noise electric current are of the same amplitude.
  - 4. The method of claim 1 wherein said excitation is by means of an electric current comprised of a plurality of discrete sine waves.
  - 5. The method of claim 4 wherein all frequencies of said discrete sine waves are of the same amplitude.
  - 6. The method of claim 1 wherein said plurality of frequencies are in phase.
  - 7. The method of claim 5 wherein said multi-frequency electric current, I(t), is represented by the following expression:
    - ##EQU5## where I_O =D.C. current component,A=gain x amplitudes,φ
      
      =phase-angle.
  - 8. The method of claim 4 wherein said excitation is by means of an electric current which is frequency modulated with said plurality of discrete sine waves.
  - 9. The method of claim 1 wherein said multi-frequency electric current comprises a band width of from about 0.001 hertz to about 20 kilohertz.
  - 10. The method of claim 9 wherein said multi-frequency electric current comprises a plurality of sine waves at discrete decade frequencies.

11. The method of claim 11 wherein said discrete decade frequencies include 1 hertz, 10 hertz, 100 hertz, 1 kilohertz, and 10 kilohertz.

12. A method for producing a multi-frequency electric log of a subsurface rock formation surrounding a borehole, comprising the steps of:
- (a) traversing said borehole with a logging tool housing a multi-frequency electric current generator which simultaneously generates a plurality of frequencies,(b) introducing said multi-frequency electric current from said generator into said rock formation through a pair of in-situ current electrodes as said tool traverses the borehole,(c) measuring the resulting voltage in said rock formation through a pair of in-situ voltage electrodes, said voltage representing the reactive component of the electrical impedance of said rock formation,(d) determining the phase and amplitude of said measured voltage at each of the plurality of simultaneous frequencies included in said multi-frequency electric current,(e) determining the resistivity of said rock formation at each of said plurality of simultaneous frequencies included in said multi-frequency electric current,(f) plotting said resistivity, and phase as a function of frequency,(g) characterizing said rock formation as a clean rock when said resistance remains constant and said phase is negligible as a function of exciting current frequency,(h) characterizing said rock formation as a low resistivity, high surface area, clay bearing rock when said resistance remains constant and said phase is a negative value which decreases in magnitude as said exciting current frequency increases, and(i) characterizing said rock formation as a low resistivity, pyrite-bearing rock when said resistance decreases as said exciting current frequency increases and said phase is a negative value which increases in magnitude as said exciting current frequency increases.
- View Dependent Claims (13)
- - 13. The method of claim 12 wherein the logging speed of said tool is selected so that the low frequency end of the band width of said multi-frequency electric current is established in accordance with the following expression:
    - space="preserve" listing-type="equation">f=LS/60×
      
      Δ
      
      ρ
      
      ,
      wheref=frequency in hertz,LS=logging speed in feet per minute, andΔ
      
      ρ
      
      =depth increment.

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Current Assignee
Mobil Oil Corporation (Exxon Mobil Corporation)
Original Assignee
Mobil Oil Corporation (Exxon Mobil Corporation)
Inventors
Givens, Wyatt W., Bowden, Edgar A.
Primary Examiner(s)
Strecker, Gerard R.

Application Number

US06/781,628
Time in Patent Office

680 Days
Field of Search

324/357, 324/362, 324/364, 324/366, 324/371, 324/64, 324/335
US Class Current

324/366
CPC Class Codes

G01V 3/24 using ac

Multiple frequency electric excitation method and identifying complex lithologies of subsurface formations

First Claim

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Abstract

70 Citations

13 Claims

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Multiple frequency electric excitation method and identifying complex lithologies of subsurface formations

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

70 Citations

13 Claims

Specification

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Solutions

Use Cases

Quick Links