Method for surveying fluid transmission pipelines

US 4,799,391 A
Filed: 03/31/1988
Issued: 01/24/1989
Est. Priority Date: 12/18/1986
Status: Expired due to Fees

First Claim

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1. A method for determining a change in curvature of a fluid transmission pipeline comprising the steps of:

providing means comprising a pipeline pig having a body and support means for supporting said body in said pipeline in a predetermined position with respect to a longitudinal central axis of said pipeline, said pig including an inertial reference unit mounted on said body and including at least one of means for sensing accelerations normal to said longitudinal axis and means for sensing angular velocities normal to said longitudinal axis, means for generating signals related to at least one of said accelerations and said angular velocities, and means for recording further signals related to said signals generated by said means for generating signals;

reading signals generated by said at least one of said means for sensing accelerations and said means for sensing angular velocities at a rate which exceeds the natural frequency of vibration of said pig with respect to said pipeline; and

determining at least one of an acceleration and angular velocity, respectively, in at least one of a vertical plane and a tangential plane normal to said vertical plane, said planes passing through said longitudinal axis, and from said readings of said signals, respectively, for detecting a change in curvature of said pipeline.

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Abstract

A pipeline survey pig including an onboard inertial reference unit and signal processing units for receiving acceleration and angular velocity signals generated by the inertial reference unit, calculating resultant values of angular velocity and accelerations and averaging the calculated values to provide recordable signals related to the position of the pig and changes in curvature of the pipe. The pig is supported by a plurality of resilient cup shape support members which have a stiffness characteristic whereby the natural frequency of vibration which may cause lateral excursions of the pig is less than the signal generating rate yet greater than the frequency of the signal to be measured. The center of stiffness and the center of gravity of the pig are disposed along the central axis of the pig and the pipeline section being measured and are preferably coincident with each other. The inertial reference unit includes three accelerometers and three gyroscopes oriented orthogonally and may have their axes oriented to intersect at the center of gravity and center of stiffness.

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10 Claims

1. A method for determining a change in curvature of a fluid transmission pipeline comprising the steps of:
- providing means comprising a pipeline pig having a body and support means for supporting said body in said pipeline in a predetermined position with respect to a longitudinal central axis of said pipeline, said pig including an inertial reference unit mounted on said body and including at least one of means for sensing accelerations normal to said longitudinal axis and means for sensing angular velocities normal to said longitudinal axis, means for generating signals related to at least one of said accelerations and said angular velocities, and means for recording further signals related to said signals generated by said means for generating signals;
  
  reading signals generated by said at least one of said means for sensing accelerations and said means for sensing angular velocities at a rate which exceeds the natural frequency of vibration of said pig with respect to said pipeline; and
  
  determining at least one of an acceleration and angular velocity, respectively, in at least one of a vertical plane and a tangential plane normal to said vertical plane, said planes passing through said longitudinal axis, and from said readings of said signals, respectively, for detecting a change in curvature of said pipeline.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method set forth in claim 1 including the step of:
    - averaging a selected member of values of said at least one of said acceleration and said angular velocity in said at least one of said vertical plane and said tangential plane; and
      
      recording averaged values of said at least one of said acceleration and said angular velocity in said at least one of said vertical plane and said tangential plane.
  - 3. The method set forth in claim 1 wherein:
    - said support means are provided such that the natural frequency of vibration of said pig with respect to said pipe is less than about one-half the rate at which signals are read from said at least one of said means for sensing accelerations and said means for sensing angular velocities.
  - 4. The method set forth in claim 1 wherein:
    - said support means are provided to locate the center of stiffness of said pig substantially along said longitudinal axis.
  - 5. The method set forth in claim 1 wherein:
    - said support means are provided such that the center of stiffness of said pig is located substantially coincident with the center of gravity of said pig in said pipeline.
  - 6. The method set forth in claim 1 wherein:
    - said support means comprise a plurality of generally cupped shaped members supporting said body and formed of a resilient material; and
      
      said inertial reference unit is mounted in said body such that the means for sensing accelerations and the means for sensing angular velocities are adapted to sense accelerations and velocities along axis which intersect at the center of stiffness of said pig.
  - 7. The method set forth in claim 1 including the step of:
    - placing the center of gravity of said pig spaced from said longitudinal axis a distance of less than about five percent of the diameter of said pipeline when said pig is disposed in said pipeline.

8. A method for determining a change in curvature of a fluid transmission pipeline comprising the steps of:
- providing means comprising a pipeline pig having a body and support means for supporting said body in said pipeline generally in a predetermined position with respect to a longitudinal central axis of said pipeline, said pig including an inertial reference unit mounted on said body and including means for sensing accelerations normal to said longitudinal axis, means for sensing angular velocities normal to said longitudinal axis and means for generating signals related to said accelerations and said angular velocities, and means for recording further signals related to said signals generated by said acceleration sensing and angular velocity sensing means, said signal generating means being operable to generate signals at a rate which substantially exceeds the frequency of vibration of said pig in said pipeline during traversal therethrough;
  
  reading signals generated by said means for sensing accelerations and said means for sensing angular velocities at a rate which exceeds the frequency of vibration of said pig with respect to said pipeline; and
  
  determining accelerations and angular velocities, respectively, in a vertical plane and a tangential plane normal to said vertical plane from said readings of said signals, respectively, said planes being disposed in predetermined positions with respect to said longitudinal axis, for detecting a change in curvature of said pipeline.
- View Dependent Claims (9, 10)
- - 9. The method set forth in claim 8 including the step of:
    - selecting certain values of acceleration and angular velocities in said vertical plane and said tangential plane, respectively, based on said determined accelerations and angular velocities; and
      
      recording said certain values in said means for recording.
  - 10. The method set forth in claim 8 including the step of:
    - placing said inertial reference unit on said body in such a way that the axes normal to said longitudinal axis with respect to which said accelerations and angular velocites are sensed pass through the center of stiffness of said pig with respect to said pipeline.

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Current Assignee
Atlantic Richfield Company Incorporated (BP PLC)
Original Assignee
Atlantic Richfield Company Incorporated (BP PLC)
Inventors
Lara, Pedro F.
Primary Examiner(s)
Noland, Tom

Application Number

US07/175,973
Time in Patent Office

299 Days
Field of Search

73/865.8, 73/866.5, 73/151, 324/220, 324/221, 33/544, 33/542, 33/302, 33/310, 33/313, 33/304, 33/533, 33/1 H, 33/178 F
US Class Current

73/865.8
CPC Class Codes

E21B 47/022 of the borehole, e.g. using...

Method for surveying fluid transmission pipelines

First Claim

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Abstract

32 Citations

10 Claims

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Method for surveying fluid transmission pipelines

First Claim

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Accused Products

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Abstract

32 Citations

10 Claims

Specification

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Solutions

Use Cases

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