Methods for evaluating rock properties while drilling using drilling rig-mounted acoustic sensors

US 9,074,467 B2
Filed: 07/20/2012
Issued: 07/07/2015
Est. Priority Date: 09/26/2011
Status: Active Grant

First Claim

Patent Images

1. A method of identifying rock properties in real-time during drilling, the method comprising the steps of:

providing an acoustic signal recording and transmitting system including an acoustic sensor;

connecting the acoustic sensor to one of the following;

(i) a drive shaft of a drill rig, the drive shaft having a plurality of extensions and (ii) an extension of the plurality of extensions of the drive shaft, the drive shaft connected to a drill string, a drill bit connected to the downhole end of the drill string;

operably coupling a computer to one or more components of the acoustic signal recording and transmitting system to establish communications therebetween;

receiving an acoustic sensor data signal from the acoustic signal recording and transmitting system by the computer, the acoustic sensor data signal representing an acoustic signal generated real-time by the acoustic sensor as a result of rotational contact of the drill bit with rock during drilling; and

analyzing the acoustic sensor data signal by the computer to determine, in real-time, one or more of the following;

(i) lithology type, and (ii) one or more petrophysical properties of rock engaged by the drill bit during drilling operations, the analyzing the acoustic sensor data signal comprising the steps of;

deriving a plurality of acoustic characteristics from the acoustic sensor data signal, the plurality of acoustic characteristics including mean frequency, mean amplitude, normalized deviation of frequency, normalized deviation of amplitude, and apparent power, andcorrelating the mean frequency, the mean amplitude, the normalized deviation of frequency, the normalized deviation of amplitude, and the apparent power with the same types of the acoustic characteristics of a rock sample of known lithology type to identify, in real-time, one or more of the following;

the lithology type and one or more petrophysical properties of the rock engaged by the drill bit during drilling operations.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

Methods for identifying rock properties in real-time during drilling, are provided. An example of an embodiment of such a method includes positioning one or more acoustic sensors to detect drill sounds emanating from the drill bit and the rock encountered during drilling operations, connecting the sensors to select components of a drilling rig to maximally pick up the drill sounds of the drill bit engaging rock during drilling operations. The method also includes providing and deploying an inductive telemetry, wireless telemetry, or wired transmitting system. The method also includes providing and configuring a computer to analyze the “raw” acoustic signals received from the acoustic sensors through the respective transmitting system.

Citations

22 Claims

1. A method of identifying rock properties in real-time during drilling, the method comprising the steps of:
- providing an acoustic signal recording and transmitting system including an acoustic sensor;
  
  connecting the acoustic sensor to one of the following;
  
  (i) a drive shaft of a drill rig, the drive shaft having a plurality of extensions and (ii) an extension of the plurality of extensions of the drive shaft, the drive shaft connected to a drill string, a drill bit connected to the downhole end of the drill string;
  
  operably coupling a computer to one or more components of the acoustic signal recording and transmitting system to establish communications therebetween;
  
  receiving an acoustic sensor data signal from the acoustic signal recording and transmitting system by the computer, the acoustic sensor data signal representing an acoustic signal generated real-time by the acoustic sensor as a result of rotational contact of the drill bit with rock during drilling; and
  
  analyzing the acoustic sensor data signal by the computer to determine, in real-time, one or more of the following;
  
  (i) lithology type, and (ii) one or more petrophysical properties of rock engaged by the drill bit during drilling operations, the analyzing the acoustic sensor data signal comprising the steps of;
  
  deriving a plurality of acoustic characteristics from the acoustic sensor data signal, the plurality of acoustic characteristics including mean frequency, mean amplitude, normalized deviation of frequency, normalized deviation of amplitude, and apparent power, andcorrelating the mean frequency, the mean amplitude, the normalized deviation of frequency, the normalized deviation of amplitude, and the apparent power with the same types of the acoustic characteristics of a rock sample of known lithology type to identify, in real-time, one or more of the following;
  
  the lithology type and one or more petrophysical properties of the rock engaged by the drill bit during drilling operations.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 2. A method as defined in claim 1, wherein the step of analyzing further comprises the steps of:
    - deriving a frequency distribution from acoustic data contained within the acoustic sensor data signal; and
      
      correlating the frequency distribution of the acoustic sensor data signal with a frequency distribution of a rock sample of known lithology type to identify, real-time, the lithology type of rock engaged by the drill bit during drilling operations.
  - 3. A method as defined in claim 1, wherein the step of analyzing further comprises the steps of:
    - deriving a petrophysical properties evaluation algorithm to predict one or more petrophysical properties of rock engaged by the drill bit during drilling operations;
      
      encoding the derived petrophysical properties evaluation algorithm in a computer program; and
      
      employing the computer program encoding the derived petrophysical properties evaluation algorithm to predict the one or more petrophysical properties of rock engaged by the drill bit during drilling operations from the acoustic data contained within the acoustic sensor data signal.
  - 4. A method as defined in claim 1, wherein the acoustic sensor has a built in amplifier.
  - 5. A method as defined in claim 1,wherein the plurality of extensions include a packing box which rotates with the drive shaft;
    - andwherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to the packing box to pick up drill sounds of the drill bit engaging rock during drilling operations.
  - 6. A method as defined in claim 1, wherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to an outer surface of the drive shaft to pick up drill sounds of the drill bit engaging rock during drilling operations.
  - 7. A method as defined in claim 6, wherein the plurality of extensions includes a rotary manifold operably coupled to and substantially surrounding a portion of the drive shaft, and wherein the acoustic sensor is connected to the outer surface of the drive shaft at a location between the rotary manifold and a joint connecting the drive shaft to the drill string.
  - 8. A method as defined in claim 1,wherein the plurality of extensions include a packing box which rotates with the drive shaft;
    - wherein the acoustic signal recording and transmitting system includes a plurality of acoustic sensors; and
      
      wherein a first of the plurality of acoustic sensors is connected to the packing box and a second of the plurality of acoustic sensors is connected to an outer surface of the drive shaft.
  - 9. A method as defined in claim 1,wherein the plurality of extensions include a packing box which rotates with the drive shaft and an upper bearing cup positioned adjacent the packing box and stationary with respect to the drive shaft;
    - andwherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to an upper surface of the upper bearing cup to pick up drill sounds of the drill bit engaging rock during drilling operations.
  - 10. A method as defined in claim 1,wherein the plurality of extensions include a rotary manifold;
    - andwherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to the rotary manifold to pick up drill sounds of the drill bit engaging rock during drilling operations.
  - 11. A method as defined in claim 10, wherein the acoustic sensor is connected to a lower surface of the rotary manifold.
  - 12. A method as defined in claim 1,wherein the plurality of extensions include an upper bearing cup which is stationary with respect to the drive shaft and a rotary manifold which is stationary relative to the drive shaft during drilling;
    - wherein the acoustic signal recording and transmitting system includes a plurality of acoustic sensors; and
      
      wherein a first of the plurality of acoustic sensors is connected to the upper bearing cup and a second of the plurality of acoustic sensors is connected to the rotary manifold.
  - 13. A method as defined in claim 1,wherein the acoustic signal recording and transmitting system comprises an inductive telemetry system;
    - wherein the plurality of extensions include a packing box which rotates with the drive shaft;
      
      wherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to the packing box; and
      
      wherein the inductive telemetry system includes;
      
      a rotating induction loop encircling a portion of the packing box,a stationary pickup configured to receive an acoustic signal from the acoustic sensor through an electromagnetic coupling with the rotating induction loop and to supply electric power to the acoustic sensor via the electromagnetic coupling between the induction loop and the pickup, anda receiver positioned to receive the acoustic signal from the pickup and to transmit the acoustic signal to a data acquisition unit, andthe data acquisition unit positioned to receive the acoustic signal from the receiver and configured to sample the received acoustic signal from the receiver and to digitize the sampled acoustic signal and to transmit the digitized acoustic signal to the computer.
  - 14. A method as defined in claim 1,wherein the acoustic signal recording and transmitting system comprises an inductive telemetry system;
    - wherein the plurality of extensions includes a rotary manifold;
      
      wherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to an outer surface of the drive shaft between the rotary manifold and a joint between the drive shaft and the drill string; and
      
      wherein the inductive telemetry system includes;
      
      a rotating induction loop encircling a portion of the drive shaft or a cylindrically shaped rotating component adjacent to the acoustic sensor,a stationary pickup configured to receive an acoustic signal from the acoustic sensor through an electromagnetic coupling with the rotating induction loop and to supply electric power to the acoustic sensor via the electromagnetic coupling between the induction loop and the pickup, anda receiver positioned to receive the acoustic signal from the pickup and to transmit the acoustic signal to a data acquisition unit, andthe data acquisition unit positioned to receive the acoustic signal from the receiver and configured to sample the received acoustic signal received from the receiver, to digitize the sampled acoustic signal, and to transmit the digitized acoustic signal to the computer.
  - 15. A method as defined in claim 1,wherein the acoustic signal recording and transmitting system comprises a wireless telemetry system;
    - wherein the plurality of extensions include a packing box which rotates with the drive shaft;
      
      wherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to the packing box; and
      
      wherein the wireless telemetry system includes;
      
      a wireless transmitter operably connected to or integral with the acoustic sensor to thereby define a wireless acoustic sensor, anda wireless gateway configured to receive an acoustic signal from the wireless acoustic sensor and to transmit the acoustic signal or a digitized form of the acoustic signal to the computer.
  - 16. A method as defined in claim 15, wherein the wireless telemetry system further includes a data acquisition unit positioned to receive and configured to sample the acoustic signal received from the wireless gateway, to digitize the sampled acoustic signal, and to transmit the digitized acoustic signal to the computer.
  - 17. A method as defined in claim 1,wherein the acoustic signal recording and transmitting system comprises a wireless telemetry system;
    - wherein the plurality of extensions includes a rotary manifold;
      
      wherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to an outer surface of the drive shaft between the rotary manifold and a joint between the drive shaft and the drill string; and
      
      wherein the wireless telemetry system includes;
      
      a wireless transmitter operably connected to or integral with the acoustic sensor to thereby define a wireless acoustic sensor,a wireless gateway configured to receive an acoustic signal from the wireless acoustic sensor and to transmit the acoustic signal or a digitized form of the acoustic signal to the computer.
  - 18. A method as defined in claim 17, wherein the wireless telemetry system further includes a data acquisition unit positioned to receive and configured to sample the acoustic signal received from the wireless gateway, to digitize the sampled acoustic signal, and to transmit the digitized acoustic signal to the computer.
  - 19. A method as defined in claim 1,wherein the acoustic signal recording and transmitting system comprises a wired transmitting system;
    - wherein the plurality of extensions include a packing box which rotates with the drive shaft and an upper bearing cup positioned adjacent the packing box and stationary with respect to the drive shaft;
      
      wherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to the upper bearing cup; and
      
      wherein the wired transmitting system includes;
      
      a data acquisition unit configured to digitize acoustic signals received from the acoustic sensor and to send the digitized acoustic signals to the computer, anda wire extending between the acoustic sensor and the data acquisition unit, the wire secured inside a service loop of a drill rig supporting the drive shaft.
  - 20. A method as defined in claim 1,wherein the acoustic signal recording and transmitting system comprises a wired transmitting system;
    - wherein the plurality of drive shaft extensions include a rotary manifold which is stationary relative to the drive shaft during drilling;
      
      wherein the step of connecting the acoustic sensor comprises connecting the acoustic sensor to the rotary manifold; and
      
      wherein the wired transmitting system includes;
      
      a data acquisition unit configured to digitize acoustic signals received from the acoustic sensor and to send the digitized acoustic signals to the computer, anda wire extending between the acoustic sensor and the data acquisition unit, the wire is secured inside a service loop of a drill rig supporting the drive shaft.

21. A method of identifying rock properties in real-time during drilling, the method comprising the steps of:
- providing an acoustic signal recording and transmitting system including an acoustic sensor;
  
  connecting the acoustic sensor to one or more of the following;
  
  (i) a drive shaft of a drill rig, the drive shaft having a plurality of extensions and (ii) an extension of the plurality of extensions of the drive shaft, the drive shaft connected to a drill string, a drill bit connected to the downhole end of the drill string;
  
  operably coupling a computer to one or more components of the acoustic signal recording and transmitting system to establish communications therebetween;
  
  receiving an acoustic sensor data signal from the acoustic signal recording and transmitting system by the computer, the acoustic sensor data signal representing an acoustic signal generated real-time by the acoustic sensor as a result of rotational contact of the drill bit with rock during drilling;
  
  deriving a plurality of acoustic characteristics from the acoustic sensor data signal, the plurality of acoustic characteristics including mean frequency, normalized deviation of frequency, mean amplitude, normalized deviation of amplitude, and apparent power; and
  
  correlating the mean frequency, the normalized deviation of frequency, mean amplitude, the normalized deviation of amplitude, and apparent power with the same types of the acoustic characteristics of a rock sample of known lithology type to identify, in real-time, one or more of the following;
  
  (i) the lithology type, and (ii) one or more petrophysical properties of the rock engaged by the drill bit during drilling operations, the steps of receiving, deriving, and correlating performed substantially continuously during drill bit steering.

22. A method of identifying rock properties in real-time during drilling, the method comprising the steps of:
- providing an acoustic signal recording and transmitting system including an acoustic sensor;
  
  connecting the acoustic sensor to one or more of the following;
  
  (i) a drive shaft of a drill rig, the drive shaft having a plurality of extensions and (ii) an extension of the plurality of extensions of the drive shaft, the drive shaft connected to a drill string, a drill bit connected to the downhole end of the drill string;
  
  operably coupling a computer to one or more components of the acoustic signal recording and transmitting system to establish communications therebetween;
  
  receiving an acoustic sensor data signal from the acoustic signal recording and transmitting system by the computer, the acoustic sensor data signal representing an acoustic signal generated real-time by the acoustic sensor as a result of rotational contact of the drill bit with rock during drilling;
  
  deriving a petrophysical properties evaluation algorithm to predict one or more petrophysical properties of rock engaged by the drill bit during drilling operations and encoding the derived petrophysical properties evaluation algorithm into a subroutine for a petrophysical properties analyzing program, the petrophysical properties evaluation algorithm including the steps of;
  
  transforming acoustic signal data using a Fast Fourier Transformation thereby to convert the acoustic signal data to frequency domain data, andfiltering the frequency domain data to remove frequency domain data produced from sources other than rock engaged by the drill bit during drilling operations thereby to create filtered data; and
  
  deriving a plurality of acoustic characteristics from the filtered data, the plurality of acoustic characteristics including mean frequency, mean amplitude, normalized deviation of frequency, normalized deviation of amplitude, and apparent power, andcorrelating the mean frequency, the mean amplitude, the normalized deviation of frequency, the normalized deviation of amplitude, and the apparent power with the same types of the acoustic characteristics of a rock sample of a known lithology type to identify, in real-time, one or more of the following;
  
  the lithology type and the one or more petrophysical properties of the rock engaged by the drill bit during drilling operations; and
  
  employing the encoded petrophysical properties evaluation algorithm to predict the one or more petrophysical properties of rock engaged by the drill bit during drilling operations from the acoustic data contained within the acoustic sensor data signal.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Saudi Arabian Oil Company (Government of Saudi Arabia)
Original Assignee
Saudi Arabian Oil Company (Government of Saudi Arabia)
Inventors
Yang, Yunlai, Luo, Yi
Primary Examiner(s)
MICHENER, BLAKE E

Application Number

US13/554,470
Publication Number

US 20130075157A1
Time in Patent Office

1,082 Days
Field of Search

166/250.01, 175/40, 175/50, 731/524.7, 731/521.6, 181/102, 340/854.4, 340/856.4, 367/82
US Class Current

1/1
CPC Class Codes

E21B 47/00   Survey of boreholes or well...

E21B 47/095   by detecting an acoustic an...

E21B 47/107   using acoustic means

E21B 47/13   by electromagnetic energy, ...

E21B 47/16   through the drill string or...

G01V 1/003   Seismic data acquisition in...

G01V 1/30   Analysis G01V1/50 takes pre...

G01V 1/306   for determining physical pr...

G01V 1/40   specially adapted for well-...

G01V 1/50   Analysing data

G01V 2200/16   Measure-while-drilling or l...

G01V 2210/1299   Subsurface, e.g. in borehol...

G01V 2210/21   Frequency-domain filtering,...

G01V 2210/6161   Seismic or acoustic, e.g. l...

Methods for evaluating rock properties while drilling using drilling rig-mounted acoustic sensors

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

Citations

22 Claims

Specification

Solutions

Use Cases

Quick Links

Methods for evaluating rock properties while drilling using drilling rig-mounted acoustic sensors

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

22 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links