Dielectric well logging system with at least three transmitter coils and at least two receiver coils for determining resistivity and dielectric constant of a subsurface formation adjacent a fluid invaded zone of the formation

US 4,609,873 A
Filed: 01/04/1980
Issued: 09/02/1986
Est. Priority Date: 01/04/1980
Status: Expired due to Term

First Claim

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1. A dielectric well logging apparatus for obtaining a plurality of amplitude ratios and phase differences between electromagnetic wave energy signals which have passed different distances through a subsurface formation adjecent a well borehole, so that an analyst may determine resistivity and dielectric constants for the different distances of travel through the formation comprising:

(a) sonde means for moving through the well borehole;

(b) at least three transmitter coils for emitting radio frequency energy into the formation at different depths in the borehole, said coils being spaced from each other in said sonde means for disposition at different depths in the borehole;

(c) control means for controlling the activation of said transmitter coils;

(d) a plurality of receiver coils for receiving energy from said transmitter coils after passage through the formation and borehole, said receiver coils being spaced from each other and from said transmitter coils in the sonde for disposition at different depths in the borehole;

(e) said receiver coils forming in groups of two different transmitter-receiver pairs, differently spaced from the other transmitter receiver pairs, with each of said transmitter coils;

(f) receiver circuit means for forming signals representing the electromagnetic wave energy received in said receiver coils; and

(g) processing circuit means for forming output signals representative of the phase difference and amplitude ratio for each of said different transmitter-receiver pairs so that the analyst may determine the resistivity and dielectric constants for the different distances of travel to determine if fluid invasion is present in the formation.

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Abstract

A dielectric well logging system is provided to determine dielectric constant and resistivity in formations invaded by water to determine oil and water saturations of the formations. Plural transmitters are activated in a time division multiplex manner and sensed by receiver coils. The amplitude ratio and phase difference between the signals sensed by the receiver coils are then used to determine dielectric constant and resistivity which may then be used to determine invasion characteristics.

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22 Claims

1. A dielectric well logging apparatus for obtaining a plurality of amplitude ratios and phase differences between electromagnetic wave energy signals which have passed different distances through a subsurface formation adjecent a well borehole, so that an analyst may determine resistivity and dielectric constants for the different distances of travel through the formation comprising:
- (a) sonde means for moving through the well borehole;
  
  (b) at least three transmitter coils for emitting radio frequency energy into the formation at different depths in the borehole, said coils being spaced from each other in said sonde means for disposition at different depths in the borehole;
  
  (c) control means for controlling the activation of said transmitter coils;
  
  (d) a plurality of receiver coils for receiving energy from said transmitter coils after passage through the formation and borehole, said receiver coils being spaced from each other and from said transmitter coils in the sonde for disposition at different depths in the borehole;
  
  (e) said receiver coils forming in groups of two different transmitter-receiver pairs, differently spaced from the other transmitter receiver pairs, with each of said transmitter coils;
  
  (f) receiver circuit means for forming signals representing the electromagnetic wave energy received in said receiver coils; and
  
  (g) processing circuit means for forming output signals representative of the phase difference and amplitude ratio for each of said different transmitter-receiver pairs so that the analyst may determine the resistivity and dielectric constants for the different distances of travel to determine if fluid invasion is present in the formation.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 2. The apparatus of claim 1, wherein said processing circuit means includes:
    - means for separating the signals from said receiver circuit means into channels according to the particular one of said transmitter coils emitting the energy.
  - 3. The apparatus of claim 1, further including:
    - means for forming a visible record of the output of said processing circuit means.
  - 4. The apparatus of claim 1, wherein said sonde is moved in the borehole by an electrically conductive wireline and further including:
    - means for transmitting the signals from said receiver circuit means through said wireline to said processing circuit means.
  - 5. The apparatus of claim 1, wherein said control means comprises:
    - (a) means for generating command codes specifying which of said transmitter coils is to be emitting;
      
      (b) means for converting the command codes into a serial command stream; and
      
      (c) means for transmitting the serial command stream to said transmitter coils.
  - 6. The apparatus of claim 5, further including transmitter circuit means in said sonde, comprising:
    - (a) transmitter converter means for converting the serial command stream into command codes; and
      
      (b) means for driving said transmitter coils in response to the command codes.
  - 7. The apparatus of claim 1, further including:
    - means for optically coupling said control means and said transmitter coils.
  - 8. The apparatus of claim 1, wherein said control means includes:
    - means for forming a frequency-shift keyed signal.
  - 9. The apparatus of claim 8, further including transmitter circuit means in said sonde, comprising:
    - (a) transmitter converter means for converting the said command stream into command codes; and
      
      (b) means for driving said transmitter coils in response to the command codes.
  - 10. The apparatus of claim 9, wherein said transmitter converter means comprisesdemodulator means in said transmitter circuit means for decoding the frequency-shift keyed signal.
  - 11. The apparatus of claim 10, further including:
    - means for optically coupling said demodulator means and said means for applying.
  - 12. The apparatus of claim 1, wherein said control means includes:
    - a time division multiplex generator of command codes for activating said transmitter coils in a timed sequence.
  - 13. The apparatus of claim 12, wherein said processing circuit means includes:
    - a time division demultiplexer responsive to the command codes of said control means for separating the signals from said receiver circuit means into channels according to the ones of said transmitter coils emitting the energy.
  - 14. The apparatus of claim 12, further including transmitter activator means in said sonde including:
    - a time division multiplexer responsive to the command codes of said control means for activating said transmitter coils in a timed sequence.
  - 15. The apparatus of claim 1 wherein said receiver circuit means comprises:
    - (a) local oscillator means for forming a reference frequency signal;
      
      (b) plural mixer means, one connected to each of said receiver coils, to form a product signal between the reference frequency signal and the output of said receiver connected therewith.
  - 16. The apparatus of claim 15, further including:
    - means for modulating the product signal from each of said plural mixer means onto a different frequency carrier signal.
  - 17. The apparatus of claim 16, further including:
    - means for combining the modulated carrier signals from said means for modulating.
  - 18. The apparatus of claim 1, wherein each of said transmitter coils emits electromagnetic waves at a common frequency.

19. An apparatus for electromagnetic logging of a well borehole to obtain the resistivity and dielectric contant of the formation surrounding the borehole, said apparatus comprising:
- a logging tool adapted for lowering into the borehole and having at least five spaced coils disposed thereon for disposition at spaced positions from each other at different depths in the borehole;
  
  one coil being a transmitter coil and at least two others of said coils being receiver coils to form a first transmitter-receiver pair with a first spacing for transmitting and receiving electromagnetic wave energy signals;
  
  at least two additional ones of said coils forming second and third transmitter-receiver pairs with second and third spacings, different from each other and from said first spacing, for transmitting and receiving electromagnetic wave energy signals into the formation at different depths in the borehole;
  
  a power source having a frequency between twenty and sixty megahertz, said power source being coupled to said transmitter coil to provide electromagnetic wave energy thereto;
  
  a phase measuring circuit, said phase measuring circuit forming for each of said three transmitter-receiver pairs a measure of the phase difference between the electromagnetic wave energy signals received therein;
  
  a ratio measuring circuit for forming for each of said three transmitter-receiver pairs a measure of the amplitude ratio of the signals received from said transmitter coil of said transmitter-receiver pairs;
  
  means for recording as a function of logging tool depth in the borehole the phase difference and the amplitude ratio measures formed in said phase measuring circuit and said ratio measuring circuit so that the analyst may determine the resistivity and dielectric constant for the different depths of the formation in the borehole.
- View Dependent Claims (20)
- - 20. The apparatus of claim 19, further including:
    - at least two additional of said coils being transmitter coils.

21. An apparatus for electromagnetic logging of a formation adjacent a well borehole to obtain amplitude ratio and phase difference readings for different distances of travel of electromagnetic wave energy through the formation so that an analyst may determine the resistivity and dielectric constants of the formation through the different distances and analyze the extent of fluid invasion of the formation, said apparatus comprising:
- a logging tool adapted for lowering into the borehole and having at least five spaced coils disposed thereon for disposition at spaced positions from each other at different depths in the borehole;
  
  one coil being a transmitter coil and at least two others of said coils being receiver coils to form a first transmitter-receiver pair with a first spacing for transmitting and receiving electromagnetic wave energy signals;
  
  at least two additional ones of said coils forming second and third transmitter-receiver pairs with second and third spacings, different from each other and from said first spacing, for transmitting and receiving electromagnetic wave energy signals;
  
  a phase measuring circuit, said phase measuring circuit forming for each of said first, second and third transmitter-receiver pairs a measure of the phase difference between the electromagnetic wave energy signals received therein;
  
  a ratio measuring circuit for forming for each of said first, second and third transmitter-receiver pairs a measure of the amplitude ratio of the signals received from said transmitter coils of said transmitter-receiver pairs;
  
  means for recording as a function of logging tool depth in the borehole each of the phase difference and the amplitude ratio measures formed in said phase measuring circuit and said ratio measuring circuit so that the analyst may determine from the resistivity and dielectric constants if fluid invasion is present in the formation.

22. An apparatus for electromagnetic logging of a well borehole to obtain the resistivity and dielectric contant of the formation surrounding the borehole, said apparatus comprising:
- a logging tool adapted for lowering into the borehole and having at least five spaced coils disposed thereon for disposition at spaced positions from each other at different depths in the borehole;
  
  at least one coil being a transmitter coil and at least two others of said coils being receiver coils to form a first transmitter-receiver pair with a first spacing for transmitting and receiving electromagnetic wave energy signals;
  
  said at least five coils further being electrically connectable to form at least two other different transmitter-receiver pairs, at different spacings from other transmitter-receiver pairs, and being comprised of one transmitter coil and two receiver coils for transmitting and receiving electromagnetic wave energy;
  
  a phase measuring circuit, said phase measuring circuit forming for each of said three transmitter-receiver pairs a measure of the phase difference between the electromagnetic wave energy signals received therein;
  
  a ratio measuring circuit for forming for each of said three transmitter-receiver pairs a measure of the amplitude ratio of the signals received from said transmitter coil of said transmitter-receiver pairs;
  
  means for recording as a function of logging tool depth in the borehole the phase difference and the amplitude ratio measures formed in said phase measuring circuit and said ratio measuring circuit so that the analyst may determine the resistivity and dielectric constant of the formation.

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Current Assignee
Texaco Incorporated (Chevron Corp.)
Original Assignee
Texaco Incorporated (Chevron Corp.)
Inventors
Cox, Percy T., Savage, Kerry D., Meador, Richard A., Riedesel, Roland G. Jr.
Primary Examiner(s)
Strecker, Gerard R.

Application Number

US06/109,691
Time in Patent Office

2,433 Days
Field of Search

324/323, 324/334, 324/338-341, 324/339, 324/371, 340/853, 340/854, 340/856-858, 340/861
US Class Current

324/338
CPC Class Codes

G01V 3/28 using induction coils

Dielectric well logging system with at least three transmitter coils and at least two receiver coils for determining resistivity and dielectric constant of a subsurface formation adjacent a fluid invaded zone of the formation

First Claim

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Dielectric well logging system with at least three transmitter coils and at least two receiver coils for determining resistivity and dielectric constant of a subsurface formation adjacent a fluid invaded zone of the formation

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Abstract

43 Citations

22 Claims

Specification

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Solutions

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