Method and apparatus for autonomous oil and gas well down-hole pump leakage testing

US 8,844,626 B1
Filed: 09/22/2011
Issued: 09/30/2014
Est. Priority Date: 09/28/2010
Status: Active Grant

First Claim

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1. Method for autonomous testing of traveling valve assembly leakage, traveling valve assembly leakage comprising a combination of traveling valve leakage and pump running clearance leakage between a plunger and a working barrel, for an oil or gas rod pumped well installation, the rod pumped well installation comprising a surface unit that is not mechanically counterbalanced, a production tubing string, a polished rod, a sucker rod string, and a down-hole pump assembly, the down-hole pump assembly including a traveling valve and a standing valve, the method comprising:

a) autonomous stopping and holding by the surface unit of the polished rod stationary against gravity during an upstroke of the polished rod and the sucker rod string, the polished rod being stopped based upon an occurrence of a traveling valve test initiation event, the polished rod being stopped at a polished rod traveling valve test position, and the polished rod being held for an upstroke stop duration, the traveling valve test initiation event, the polished rod traveling valve test position, and the upstroke stop duration being determined based upon one or more traveling valve test criteria selected by a user;

b) autonomous measurement of total polished rod load exerted by the polished rod, the sucker rod string, the traveling valve, and a fluid column in the production tubing string above the traveling valve and being supported by the traveling valve for a traveling valve test duration;

c) determination of a rate of change in the total polished rod load;

d) determination of a traveling valve leakage factor based upon the rate of change in the total polished rod load.

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Abstract

A method for autonomous testing of traveling valve assembly leakage and standing valve leakage for an oil or gas rod pumped well installation, and for autonomous adjustment of one or more pump operation characteristics based upon the autonomous test results. Traveling valve assembly leakage testing includes autonomous stopping and holding of the polished rod during an upstroke, autonomous determination of a rate of change in the polished rod load, and autonomous determination of a traveling valve leakage factor. Standing valve leakage testing includes autonomous stopping and holding of the polished rod stationary during a down stroke after weight transfer, autonomous determination of a rate of change in the polished rod load, and autonomous determination of a standing valve leakage factor.

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52 Claims

1. Method for autonomous testing of traveling valve assembly leakage, traveling valve assembly leakage comprising a combination of traveling valve leakage and pump running clearance leakage between a plunger and a working barrel, for an oil or gas rod pumped well installation, the rod pumped well installation comprising a surface unit that is not mechanically counterbalanced, a production tubing string, a polished rod, a sucker rod string, and a down-hole pump assembly, the down-hole pump assembly including a traveling valve and a standing valve, the method comprising:
- a) autonomous stopping and holding by the surface unit of the polished rod stationary against gravity during an upstroke of the polished rod and the sucker rod string, the polished rod being stopped based upon an occurrence of a traveling valve test initiation event, the polished rod being stopped at a polished rod traveling valve test position, and the polished rod being held for an upstroke stop duration, the traveling valve test initiation event, the polished rod traveling valve test position, and the upstroke stop duration being determined based upon one or more traveling valve test criteria selected by a user;
  
  b) autonomous measurement of total polished rod load exerted by the polished rod, the sucker rod string, the traveling valve, and a fluid column in the production tubing string above the traveling valve and being supported by the traveling valve for a traveling valve test duration;
  
  c) determination of a rate of change in the total polished rod load;
  
  d) determination of a traveling valve leakage factor based upon the rate of change in the total polished rod load.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The method of claim 1 wherein the determination of the rate of change in the total polished rod load is autonomous.
  - 3. The method of claim 1 wherein the determination of the traveling valve leakage factor based upon the rate of change in the total polished rod load is autonomous.
  - 4. The method of claim 1, wherein the traveling valve test initiation event comprises the rod pumped well installation having completed a predetermined number of pump cycles.
  - 5. The method of claim 1, wherein the traveling valve test initiation event comprises the elapse of a predetermined time period.
  - 6. The method of claim 1, wherein the traveling valve test initiation event comprises a detection of a production rate change of a predetermined magnitude.
  - 7. The method of claim 1, wherein the traveling valve test initiation event comprises a manually initiated traveling valve test.
  - 8. The method of claim 1, further comprising storing the traveling valve leakage factor on an electronic storage medium.
  - 9. The method of claim 1, further comprising transmitting the traveling valve leakage factor to a remote observation site.
  - 10. The method of claim 1, further comprising transmitting the standing valve leakage factor to a remote observation site.
  - 11. The method of claim 1, wherein the traveling valve test position is varied for successive traveling valve leakage tests.

12. Method for autonomous testing of standing valve leakage for an oil or gas rod pumped well installation, the rod pumped well installation comprising a surface unit that is not mechanically counterbalanced, a production tubing string, a polished rod, a sucker rod string, and a down-hole pump assembly, the down-hole pump assembly including a traveling valve and a standing valve, the method comprising:
- a) autonomous stopping and holding by the surface unit of the polished rod stationary against gravity during a down stroke of the polished rod and sucker rod string, the polished rod being stopped at a polished rod standing valve test position after weight transfer to the production tubing string has occurred, the polished rod being stopped based upon an occurrence of a standing valve test initiation event, and the polished rod being held for a down stroke stop duration, the standing valve test initiation event, the polished rod standing valve test position, and the down stroke stop duration being determined based upon one or more standing valve test criteria selected by a user;
  
  b) autonomous measurement of an initial total polished rod load exerted by the polished rod, the sucker rod string, and the traveling valve, without a fluid column load, weight transfer to the production tubing string having occurred and being supported by the standing valve;
  
  c) autonomous measurement of the total polished rod load for a standing valve test duration, any polished rod load increases being due to standing valve leakage which results in traveling valve closure and the fluid column load being transferred back onto the polished rod and the sucker rod string and being supported by the traveling valve;
  
  d) determination of a rate of change in the total polished rod load; and
  
  e) determination of a standing valve leakage factor based on the rate of change in the total polished road load.
- View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
- - 13. The method of claim 12 wherein the determination of the rate of change in the total polished rod load is autonomous.
  - 14. The method of claim 12 wherein the determination of the standing valve leakage factor based upon the rate of change in the total polished rod load is autonomous.
  - 15. The method of claim 12, wherein the standing valve test initiation event comprises the rod pumped well installation having completed a predetermined number of pump cycles.
  - 16. The method of claim 12, wherein the standing valve test initiation event comprises the elapse of a predetermined time period.
  - 17. The method of claim 12, wherein the standing valve test initiation event comprises a detection of a production rate change of a predetermined magnitude.
  - 18. The method of claim 12, wherein the standing valve test initiation event comprises a manually initiated standing valve test.
  - 19. The method of claim 12, wherein the polished rod standing valve test position is varied based upon one or more weight transfer positions from prior pump cycles.
  - 20. The method of claim 12, further comprising storing the standing valve leakage factor on an electronic storage medium.
  - 21. The method of claim 12, wherein the standing valve test position is varied for successive standing valve leakage tests.

22. Method for autonomous adjustment of one or more pump operation characteristics, including one or more of dwell time, polished rod travel, and pump cycle rate, based upon an autonomously determined traveling valve leakage factor, for a rod pumped oil or gas well installation, the rod pumped well installation comprising a surface unit that is not mechanically counterbalanced, a production tubing string, a polished rod, a sucker rod string, and a down-hole pump assembly, the down-hole pump assembly including a traveling valve and a standing valve, the method comprising:
- a) autonomous stopping and holding by the surface unit of the polished rod stationary against gravity during an upstroke of the polished rod and the sucker rod string, the polished rod being stopped based upon an occurrence of a traveling valve test initiation event, the polished rod being stopped at a polished rod traveling valve test position, and the polished rod being held for an upstroke stop duration, the traveling valve test initiation event, the polished rod traveling valve test position, and the upstroke stop duration being determined based upon one or more traveling valve test criteria selected by a user;
  
  b) autonomous measurement of total polished rod load exerted by the polished rod, the sucker rod string, the traveling valve, and a fluid column in the production tubing string above the traveling valve and being supported by the traveling valve for a traveling valve test duration;
  
  c) autonomous determination of a rate of change in the total polished rod load;
  
  d) autonomous determination of the traveling valve leakage factor based upon the rate of change in the total polished rod load;
  
  e) autonomous adjustment of one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the traveling valve leakage factor.
- View Dependent Claims (23, 24, 25, 26, 27, 28, 29)
- - 23. The method of claim 22, further comprising determining a weight transfer position from one or more weight transfer tests for one or more pump cycles of the down-hole pump and autonomously adjusting one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the weight transfer position.
  - 24. The method of claim 23, further comprising autonomously determining respective successive weight transfer positions from a plurality of successive weight transfer tests for successive pump cycles of the down-hole pump, determining a weight transfer position variance from the respective successive weight transfer positions, and autonomously adjusting one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the weight transfer position variance.
  - 25. The method of claim 22, wherein a detected weight transfer position variance from successive weight transfer position tests is used to adjust one or more of the pump operation characteristics.
  - 26. The method of claim 22, wherein the traveling valve test initiation event comprises the rod pumped well installation having completed a predetermined number of pump cycles.
  - 27. The method of claim 22, wherein the traveling valve test initiation event comprises the elapse of a predetermined time period.
  - 28. The method of claim 22, wherein the traveling valve test initiation event comprises a detection of a production rate change of a predetermined magnitude.
  - 29. The method of claim 22, wherein the traveling valve test initiation event comprises a manually initiated traveling valve test.

30. Method for autonomous adjustment of one or more pump operation characteristics, including one or more of dwell time, polished rod travel, and pump cycle rate, based upon an autonomously determined standing valve leakage factor for a rod pumped oil or gas well installation, the rod pumped well installation comprising a surface unit that is not mechanically counterbalanced, a production tubing string, a polished rod, a sucker rod string, and a down-hole pump assembly, the down-hole pump assembly including a traveling valve and a standing valve, the method comprising:
- a) autonomous determination of a weight transfer position from one or more weight transfer tests for one or more pump cycles of the down-hole pump;
  
  b) autonomous stopping and holding by the surface unit of the polished rod stationary against gravity during a down stroke of the polished rod and sucker rod string, the polished rod being stopped at a polished rod standing valve test position after weight transfer to the production tubing string has occurred, the polished rod being stopped based upon an occurrence of a standing valve test initiation event, and the polished rod being held for a down stroke stop duration, the standing valve test initiation event, the polished rod standing valve test position, and the down stroke stop duration being determined based upon one or more standing valve test criteria selected by a user;
  
  c) autonomous measurement of an initial total polished rod load exerted by the polished rod, the sucker rod string, and the traveling valve, without a fluid column load, weight transfer to the production tubing string having occurred and being supported by the standing valve;
  
  d) autonomous measurement of the total polished rod load for a standing valve test duration, any polished rod load increases being due to standing valve leakage which results in traveling valve closure and the fluid column load being transferred back onto the polished rod and the sucker rod string and being supported by the traveling valve;
  
  e) autonomous determination of a rate of change in the total polished rod load;
  
  f) autonomous determination of the standing valve leakage factor based on the rate of change in the total polished road load; and
  
  g) autonomous adjustment of one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the standing valve leakage factor.
- View Dependent Claims (31, 32, 33, 34, 35, 36, 37, 38)
- - 31. The method of claim 30 further comprising autonomously adjusting one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the weight transfer position.
  - 32. The method of claim 31, further comprising autonomously determining respective successive weight transfer positions from a plurality of successive weight transfer tests for successive pump cycles of the down-hole pump, determining a weight transfer position variance from the respective successive weight transfer positions, and autonomously adjusting one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the weight transfer position variance.
  - 33. The method of claim 30, wherein a detected weight transfer position variance from successive weight transfer position tests is used to adjust one or more of the pump operation characteristics.
  - 34. The method of claim 30, wherein the standing valve test initiation event comprises the rod pumped well installation having completed a predetermined number of pump cycles.
  - 35. The method of claim 30, wherein the standing valve test initiation event comprises the elapse of a predetermined time period.
  - 36. The method of claim 30, wherein the standing valve test initiation event comprises a detection of a production rate change of a predetermined magnitude.
  - 37. The method of claim 30, wherein the standing valve test initiation event comprises a manually initiated standing valve test.
  - 38. The method of claim 30, wherein the polished rod standing valve test position is varied based upon one or more weight transfer positions from prior pump cycles.

39. Method for autonomous adjustment of one or more pump operation characteristics, including one or more of dwell time, polished rod travel, and pump cycle rate, for a rod pumped oil or gas well installation, the rod pumped well installation comprising a surface unit that is not mechanically counterbalanced, a production tubing string, a polished rod, a sucker rod string, and a down-hole pump assembly, the down-hole pump assembly including a traveling valve and a standing valve, the method comprising:
- a) autonomous determination of a weight transfer position from one or more weight transfer tests for one or more pump cycles of the down-hole pump; and
  
  b) autonomous adjustment of one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the weight transfer position.
- View Dependent Claims (40)
- - 40. The method of claim 39, further comprising autonomously determining respective successive weight transfer positions from a plurality of successive weight transfer tests for successive pump cycles of the down-hole pump, determining a weight transfer position variance from the respective successive weight transfer positions, and autonomously adjusting one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the weight transfer position variance.

41. Method for autonomous adjustment of one or more pump operation characteristics, including one or more of dwell time, polished rod travel, and pump cycle rate, based upon an autonomously determined traveling valve leakage factor and an autonomously determined standing valve leakage factor for a rod pumped oil or gas well installation, the rod pumped well installation comprising a surface unit that is not mechanically counterbalanced, a production tubing string, a polished rod, a sucker rod string, and a down-hole pump assembly, the down-hole pump assembly including a traveling valve and a standing valve, the method comprising:
- a) autonomous stopping and holding by the surface unit of the polished rod stationary against gravity during an upstroke of the polished rod and the sucker rod string, the polished rod being stopped based upon an occurrence of a traveling valve test initiation event, the polished rod being stopped at a polished rod traveling valve test position, and the polished rod being held for an upstroke stop duration, the traveling valve test initiation event, the polished rod traveling valve test position, and the upstroke stop duration being determined based upon one or more traveling valve test criteria selected by a user;
  
  b) autonomous measurement of total polished rod load exerted by the polished rod, the sucker rod string, the traveling valve, and a fluid column in the production tubing string above the traveling valve and being supported by the traveling valve for a traveling valve test duration;
  
  c) autonomous determination of a rate of change in the total polished rod load for the traveling valve test;
  
  d) autonomous determination of the traveling valve leakage factor based upon the rate of change in the total polished rod load for the traveling valve test;
  
  e) autonomous determination of a weight transfer position from one or more weight transfer tests for one or more pump cycles of the down-hole pump;
  
  f) autonomous stopping and holding by the surface unit of the polished rod stationary against gravity during a down stroke of the polished rod and sucker rod string, the polished rod being stopped at a polished rod standing valve test position after weight transfer to the production tubing string has occurred, the polished rod being stopped based upon an occurrence of a standing valve test initiation event, and the polished rod being held for a down stroke stop duration, the standing valve test initiation event, the polished rod standing valve test position, and the down stroke stop duration being determined based upon one or more standing valve test criteria selected by a user;
  
  g) autonomous measurement of an initial total polished rod load exerted by the polished rod, the sucker rod string, and the traveling valve, without a fluid column load, weight transfer to the production tubing string having occurred and being supported by the standing valve;
  
  h) autonomous measurement of the total polished rod load for a standing valve test duration, any polished rod load increases being due to standing valve leakage which results in traveling valve closure and the fluid column load being transferred back onto the polished rod and the sucker rod string and being supported by the traveling valve;
  
  i) autonomous determination of a rate of change in the total polished rod load for the standing valve test;
  
  j) autonomous determination of the standing valve leakage factor based on the rate of change in the total polished road load; and
  
  k) autonomous adjustment of one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the traveling valve leakage factor and the standing valve leakage factor.
- View Dependent Claims (42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52)
- - 42. The method of claim 41, further comprising autonomously adjusting one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the weight transfer position.
  - 43. The method of claim 42, further comprising autonomously determining respective successive weight transfer positions from a plurality of successive weight transfer tests for successive pump cycles of the down-hole pump, determining a weight transfer position variance from the respective successive weight transfer positions, and autonomously adjusting one or more of the pump operation characteristics for successive pump cycles of the down-hole pump installation based upon the traveling valve leakage factor, the standing valve leakage factor, and the weight transfer position variance.
  - 44. The method of claim 41, wherein the traveling valve test initiation event comprises the rod pumped well installation having completed a predetermined number of pump cycles.
  - 45. The method of claim 41, wherein the traveling valve test initiation event comprises the elapse of a predetermined time period.
  - 46. The method of claim 41, wherein the traveling valve test initiation event comprises a detection of a production rate change of a predetermined magnitude.
  - 47. The method of claim 41, wherein the traveling valve test initiation event comprises a manually initiated traveling valve test.
  - 48. The method of claim 41, wherein the standing valve test initiation event comprises the rod pumped well installation having completed a predetermined number of pump cycles.
  - 49. The method of claim 41, wherein the standing valve test initiation event comprises the elapse of a predetermined time period.
  - 50. The method of claim 41, wherein the standing valve test initiation event comprises a detection of a production rate change of a predetermined magnitude.
  - 51. The method of claim 41, wherein the standing valve test initiation event comprises a manually initiated standing valve test.
  - 52. The method of claim 41, wherein the polished rod standing valve test position is varied based upon one or more weight transfer positions from prior pump cycles.

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Current Assignee
Rodmax Oil & Gas, Inc.
Original Assignee
Rodmax Oil & Gas, Inc.
Inventors
Krug, David A.
Primary Examiner(s)
Stephenson, Daniel P

Application Number

US13/200,444
Time in Patent Office

1,104 Days
Field of Search

166/250.01, 166/250.08, 166/335, 166/336, 166/337, 73/40, 702/47, 702/51, 702/1, 702/127, 702/187, 702/189
US Class Current

166/250.08
CPC Class Codes

E21B 43/127   Adaptations of walking-beam...

F04B 47/02   the driving mechanisms bein...

F04B 47/026   Pull rods, full rod compone...

F04C 13/008   Pumps for submersible use, ...

Method and apparatus for autonomous oil and gas well down-hole pump leakage testing

First Claim

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Abstract

59 Citations

52 Claims

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Method and apparatus for autonomous oil and gas well down-hole pump leakage testing

First Claim

1 Assignment

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Abstract

59 Citations

52 Claims

Specification

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