Method and system for controlling a mechanical pump to monitor and optimize both reservoir and equipment performance

US 5,006,044 A
Filed: 11/02/1989
Issued: 04/09/1991
Est. Priority Date: 08/19/1987
Status: Expired due to Fees

First Claim

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1. A method of preventing damage resultant from pump-off of well pump from pumping fluid from a well casing into which fluid from a surrounding earth formation fills to replenish the casing to a static fluid flow level, comprising the steps of:

measuring rate of flow of fluid pumped from the well casing and, in response, developing a fluid flow rate signal representing in real-time the instantaneous fluid flow rate of said flow of fluid;

processing said fluid flow rate signal during an initial interval of time to develop a constantly updated reference signal that varies over time in response to changes of said fluid flow rate signal;

processing said fluid flow rate signal over a latter interval of time to develop an average of said fluid flow rate signal;

comparing said average of said fluid flow rate signal with the reference signal to detect pump-off and, in response, developing a pump-off signal;

controlling said pump with said pump-off signal; and

monitoring pump duty cycle, and displaying monitored duty cycle.

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Abstract

Method and apparatus for optimizing the overall production efficiency of any pumping well based on accurate measurements of the time-averaged rate that fluid exists the wellhead. The improved apparatus includes temperature compensated, hermetically sealed electronic sensors that accurately measure the instantaneous rate of both pulsating and steady-state flow, and device for processing measured flow-rate information to ascertain the performance of downhole equipment and fluid reservoirs. The apparatus is self-calibrating on any well, and automatically compensates for normal changes in both downhole equipment and reservoir performance that typically limit the operation of conventional well-control devices. The apparatus may be easily installed at ground level without major changes to existing wellhead equipment, and readily adapts to the efficient control of pumping equipment utilized with any other type of fluid reservoir.

249 Citations

35 Claims

1. A method of preventing damage resultant from pump-off of well pump from pumping fluid from a well casing into which fluid from a surrounding earth formation fills to replenish the casing to a static fluid flow level, comprising the steps of:
- measuring rate of flow of fluid pumped from the well casing and, in response, developing a fluid flow rate signal representing in real-time the instantaneous fluid flow rate of said flow of fluid;
  
  processing said fluid flow rate signal during an initial interval of time to develop a constantly updated reference signal that varies over time in response to changes of said fluid flow rate signal;
  
  processing said fluid flow rate signal over a latter interval of time to develop an average of said fluid flow rate signal;
  
  comparing said average of said fluid flow rate signal with the reference signal to detect pump-off and, in response, developing a pump-off signal;
  
  controlling said pump with said pump-off signal; and
  
  monitoring pump duty cycle, and displaying monitored duty cycle.

2. A system for preventing damage resultant from pump-off of a well pump, comprising:
- measuring means for measuring in real-time fluid flow produced by said pump, to continuously develop a fluid flow rate signal representing the instantaneous fluid flow rate of said fluid flow;
  
  means for comparing said measured fluid flow rate signal with a previously developed and constantly updated fluid flow rate reference signal;
  
  means for developing a pump-off signal in response to a predetermined difference between said measured previously measured fluid flow rate reference signal;
  
  means responsive to said pump-off signal for controlling said pump; and
  
  means responsive to said measuring means for determining and displaying volumetric efficiency of the well pump and related equipment.

3. A system for preventing damage resultant from pump-off of a well pump, comprising:
- fluid flow measuring means for measuring in real-time fluid flow produced by said pump, to continuously develop a fluid flow rate signal representing the instantaneous fluid flow rate of said fluid flow;
  
  means for comparing said measured fluid flow rate signal with a previously developed and constantly updated first fluid flow rate reference signal;
  
  means for developing a pump-off signal in response to a predetermined difference between said measured and previously measured fluid flow rate reference signal;
  
  means responsive to said pump-off signal for controlling said pump;
  
  means for storing a second flow rate reference signal related to a flow rate corresponding to a particular installed pump displacement;
  
  means for comparing said fluid flow rate signal with said second flow rate reference signal and, in response, for de-energizing said pump; and
  
  pump recycle means for detecting a de-energization of said pump within a predetermined time interval and, in an absence of any said de-energizing, de-energizing said pump and thereafter energizing said pump to initialize said fluid flow

4. A system for preventing damage resultant from pump-off of a well pump, comprising:
- means for measuring in real-time fluid flow produced by said pump to continuously develop a fluid flow rate signal representing the instantaneous fluid flow rate of said fluid flow;
  
  means for comparing said measured fluid flow rate signal with a previously developed and constantly updated fluid flow rate reference signal;
  
  means for developing a pump-off signal in response to a predetermined difference between said measured and previously measured fluid flow rate reference signal;
  
  means responsive to said pump-off signal for controlling said pump;
  
  storing means for storing a signal related to fluid flow rate corresponding to 100% pump efficiency;
  
  averaging means for obtaining an average fluid flow rate during a predetermined period of time following pump priming; and
  
  means responsive to said storing and averaging means for determining and displaying measured volumetric efficiency of the well pump and related equipment.means for processing said fluid flow rate signal to develop a constantly updated reference signal;
  
  means for comparing said fluid flow rate signal with said reference signal to develop a pump-off detection signal; and
  
  means responsive to said pump-off detection signal for controlling said pump.

5. A system for preventing damage resultant from pump-off of a well pump for pumping fluid from a well casing replenished by fluid from a surrounding earth formation, comprising:
- sensor means for measuring the rate of fluid flow produced by said pump, said sensor means comprising a housing having an internal chamber, and inlet and outlet ports for directing fluid through said chamber;
  
  a clapper having one end pivotably mounted in said chamber and exposed to fluid flowing therethrough, and angle of deflection of said clapper being related to the rate of flow of said fluid through said chamber;
  
  magnetic sensing means responsive to instantaneous angle of deflection of said clapper for developing a fluid flow rate signal;
  
  temperature responsive circuit means for temperature compensating said fluid flow signal;
  
  means for processing said fluid flow rate signal to develop a reference signal;
  
  means for comparing said fluid flow rate signal with said reference signal to develop a pump-off detection signal; and
  
  means responsive to said pump-off detection signal for controlling said pump.

6. A method of preventing damage resultant from pump-off of a well pump from pumping fluid from a well casing into which fluid from a surrounding earth formation fills to replenish the casing to a static fluid flow level, comprising the steps of:
- measuring rate of flow of fluid pumped from the well casing and, in response, developing a first fluid flow rate signal representing in real-time the instantaneous fluid flow rate of said flow of fluid;
  
  processing said fluid flow rate signal during an initial interval of time to develop a constantly updated reference signal that varies over time in response to changes of said fluid flow rate signal;
  
  processing said fluid flow rate signal over a latter interval of time to develop an average of said fluid flow rate signal;
  
  comparing said average of said fluid flow rate signal with the reference signal to detect pump-off and, in response, developing a pump-off signal;
  
  controlling said pump with said pump-off signal;
  
  storing as a reference signal the total fluid flow measured over a specified period of time immediately following priming of the pump to develop a second flow rate signal;
  
  comparing said second fluid flow rate signal with said reference signal to determine volumetric efficiency of the well pump and related equipment; and
  
  displaying said volumetric efficiency.

7. A method of preventing damage resultant from pump-off of a well pump from pumping fluid from a well casing into which fluid from a surrounding earth formation fills to replenish the casing to a static fluid flow level, comprising the steps of:
- measuring rate of flow of fluid pumped from the well casing and, in response, developing a fluid flow rate signal representing in real-time the instantaneous fluid flow rate of said flow of fluid;
  
  processing said fluid flow rate signal during an initial interval of time to develop a constantly updated reference signal that varies over time in response to changes of said fluid flow rate signal;
  
  processing said fluid flow rate signal over a latter interval of time to develop an average of said fluid flow rate signal;
  
  comparing said average of said fluid flow rate signal with the reference signal to detect pump-off and, in response, developing a pump-off signal;
  
  controlling said pump with said pump-off signal;
  
  establishing a time period corresponding to a priming mode;
  
  inhibiting any de-energizing of said pump during said priming mode following a start-up of said pump;
  
  detecting an initial fluid flow and, in response, generating a priming mode signal; and
  
  integrating said priming mode signal to a reference level and, in response, terminating said priming mode.

8. A system for preventing damage resultant from pump-off of a well pump for pumping an essentially incompressible fluid mixture made up of a substantially homogeneous mingling of solids, liquids and gases, said liquids constituting the major portion of said mixture, from a well casing replenished by the fluid mixture from a surrounding earth formation, comprising:
- housing means having an internal fluid passageway, and inlet and outlet ports, said passageway for directing said fluid mixture between said inlet and outlet ports;
  
  a flow-sensing element pivotally mounted within said passageway and operative between first and second positions, said element oriented to assure that the angle of deflection of said element from said first position is proportional to the velocity of said mixture as said mixture passes through said passageway from said inlet port to said outlet port;
  
  transducer means for producing an electrical fluid flow rate signal that is continuously proportional to the angular deflection of said sensing element;
  
  signal-compensating means for adjusting the magnitude of said electrical fluid flow rate signal to take into account variations in at least one of the pressure, temperature, density and viscosity of said fluid mixture;
  
  means for processing said fluid flow rate signal to develop a reference signal;
  
  means for comparing said fluid flow rate signal with said reference signal to develop a pump-off detection signal; and
  
  means responsive to said pump-off detection signal for controlling said pump.

9. A system for preventing damage resultant from pump-off of a well pump for pumping an essentially incompressible fluid mixture made up of a substantially homogeneous mingling of solids, liquids and gases, said liquids constituting the major portion of said mixture, from a well casing replenished by the fluid mixture from a surrounding earth formation, comprising:
- housing means having an internal fluid passageway, and inlet and outlet ports, said passageway for directing said fluid mixture between said inlet and outlet ports;
  
  a flow-sensing element pivotally mounted within said passageway and operative between first and second positions, said element oriented to assure that the angle of deflection of said element from said first position is proportional to the velocity of said mixture as said mixture passes through said passageway from said inlet port to said outlet port;
  
  transducer means for producing an electrical fluid flow rate signal that is continuously proportional to the angular deflection of said sensing element;
  
  compensating means for adjusting said fluid flow rate signal to produce a calibrated output signal that is linearly related to the volumetric flow rate of the fluid mixture as it passes through said passageway;
  
  means for rendering said compensating means insensitive to ambient temperature outside of said housing and to the temperature of the fluid mixture;
  
  means for processing said fluid flow rate signal to develop a reference signal;
  
  means for comparing said fluid flow rate signal with said reference signal to develop a pump-off detection signal; and
  
  means responsive to said pump-off detection signal for controlling said pump.

10. A system for detecting pump-off of a well pump, comprising:
- means for measuring fluid flow produced by the pump and, in response, continuously developing a fluid flow rate dependent signal representing the instantaneous fluid flow rate of said fluid flow;
  
  a first analog signal storage circuit and a second analog storage circuit having a higher time constant than that of said first analog signal storage circuit;
  
  means for applying different portions of said fluid flow rate dependent signal to said first and second analog signal storage circuits;
  
  a first comparator for comparing outputs of said first and second analog signal storage circuits;
  
  a second comparator for comparing the output of said second analog signal storage circuit and a portion of the output of said first analog signal storage circuit;
  
  the output of said second comparator being applied to said second analog signal storage circuit; and
  
  means for detecting the output of said first comparator, said output of said first comparator constituting a pump-off dependent signal.
- View Dependent Claims (11)
- - 11. A system as recited in claim 10, including means for integrating said pump-off dependent signal to filter pump-off transients.

12. A system for preventing damage resultant from pump-off of a well pump, comprising:
- measuring means for measuring in real-time fluid flow produced by said pump, to continuously develop a fluid flow rate signal representing the instantaneous fluid flow rate of said fluid flow;
  
  means for comparing said measured fluid flow rate signal with a previously developed and constantly updated fluid flow rate reference signal;
  
  means for developing a pump-off signal in response to a predetermined difference between said measured and previously measured fluid flow rate reference signal;
  
  means responsive to said pump-off signal for controlling said pump; and
  
  means for monitoring variations in fluid flow measured by said measuring means over a period of time and, in response, identifying any faults in said measuring means.
- View Dependent Claims (13, 14, 15, 16, 17, 18)
- - 13. A system as recited in claim 12, including means for integrating said pump-off signal to filter short duration pump-off signals.
  - 14. A system as recited in claim 12, wherein said pump-controlling means includes means for de-energizing said pump.
  - 15. A system as recited in claim 14, including means for establishing a predetermined time period corresponding to pump priming, means for disabling normal pump de-energization during said time period, and means for early termination of said time period upon confirmation of a consistent flow rate achieved during said time period.
  - 16. A system as recited in claim 12, including pump recycle means for detecting a de-energizing of said pump within a predetermined time interval and, in an absence of any said de-energization, de-energizing said pump, and thereafter energizing said pump to initialize said fluid flow measuring means.
  - 17. A system as recited in claim 12, including means for monitoring and displaying duty cycle of said pump.
  - 18. A system as recited in claim 12, including means for integrating said flow rate signal to filter out short duration pump-off signals.

19. A system for preventing damage resultant from pump-off of a well pump, comprising:
- means for measuring in real-time fluid flow produced by said pump to continuously develop a fluid flow rate signal representing the instantaneous fluid flow rate of said fluid flow;
  
  means for comparing said measured fluid flow rate signal with a previously developed and constantly updated fluid flow rate reference signal;
  
  means for developing a pump-off signal in response to a predetermined difference between said measured and previously measured fluid flow rate reference signal;
  
  means responsive to said pump-off signal for controlling said pump;
  
  means for storing a predetermined reference flow rate signal corresponding to a minimum acceptable efficiency of the well pump and related equipment;
  
  means for comparing a time-averaged fluid flow over a predetermined period of time with said reference signal; and
  
  means for de-energizing said pump when said time-averaged fluid flow signal and said reference signal have a
- View Dependent Claims (20, 21, 22, 23)
- - 20. A system as recited in claim 19, including recycle means for automatically re-energizing said pump after a predetermined time following de-energizing thereof.
  - 21. A system as recited in claim 20, including means for counting operations of said recycle means and, in response, to a predetermined recycle count, disabling said recycling means.
  - 22. A system as recited in claim 21, including manual override means for re-enabling said recycling means.
  - 23. A system as recited in claim 19, including an alarm and means for operating said alarm when said reference signal and said fluid flow rate signal have said predetermined relationship.

24. A system for preventing damage resultant from pump-off of a well pump for pumping fluid from a well casing replenished by fluid from a surrounding earth formation,sensor means for measuring the instantaneous rate of fluid flow produced by said pump, said sensor means comprising a housing having an internal chamber, and inlet and outlet ports for directing fluid through said chamber;
- a clapper having one end pivotably mounted in said chamber and exposed to fluid flowing therethrough, and angle of deflection of said clapper being related in real-time to the rate of flow of said fluid through said chamber;
  
  magnetic sensing means responsive to instantaneous angle of deflection of said clapper for developing a corresponding instantaneous fluid flow rate signal;
  
  means for processing said fluid flow rate signal to develop a constantly updated reference signal;
  
  means for comparing said fluid flow rate signal with said reference signal to develop a pump-off detection signal; and
  
  means responsive to said pump-off detection signal for controlling said pump.
- View Dependent Claims (25, 26, 27)
- - 25. A system as recited in claim 24, wherein said pump-controlling means includes means for de-energizing said pump in response to pump-off.
  - 26. A system as recited in claim 24, including means for monitoring changes in said flow rate signal over a period of time and means responsive thereto for detecting clapper faults.
  - 27. A system as recited in claim 24, including trimmer circuit means for setting output signal zero offset and span adjustment.

28. A system for preventing damage resultant from pump-off of a well pump for pumping fluid from a well casing replenished by fluid from a surrounding earth formation, comprising:
- sensor means for measuring the rate of fluid flow produced by said pump, said sensor means comprising a housing having an internal chamber, and inlet and outlet ports for directing fluid through said chamber;
  
  a clapper having one end pivotably mounted in said chamber and exposed to fluid flowing therethrough, and angle of deflection of said clapper being related to the rate of flow of said fluid through said chamber;
  
  magnetic sensing means responsive to instantaneous angle of deflection of said clapper for developing a fluid flow rate signal;
  
  said magnetic sensing means includes a Hall effect sensor, and including Zener diode circuit means having a temperature coefficient matched to that of said Hall effect sensor for temperature compensation thereof;
  
  means for processing said fluid flow rate signal to develop a reference signal;
  
  means for comparing said fluid flow rate signal with said reference signal to develop a pump-off detection signal; and
  
  means responsive to said pump-off detection signal for controlling said pump.
- View Dependent Claims (29, 30, 31)
- - 29. A system as recited in claim 28, including a temperature-controlled oven for temperature stabilizing an output of said magnetic sensing means and further including amplifier means for amplifying an output of said magnetic sensing means, said amplifier means located in said oven for minimizing drift in said amplifier means.
  - 30. A system as recited in claim 29, including first trimmer means in circuit with said amplifier means for zeroing an output of said amplifier means.
  - 31. A system as recited in claim 30, including second trimmer means in circuit with said amplifier means for calibrating a composite response of said magnetic sensing means and said amplifier means.

32. A system for preventing damage resultant from pump-off of a well pump for pumping an essentially incompressible fluid mixture made up of a substantially homogeneous mingling of solids, liquids and gases, said liquids constituting the major portion of said mixture, from a well casing replenished by the fluid mixture from a surrounding earth formation, comprising:
- housing means having an internal fluid passageway, and inlet and outlet ports, said passageway for directing said fluid mixture between said inlet and outlet ports;
  
  a flow-sensing element pivotally mounted within said passageway and operative between first and second positions, said element oriented to assure that the angle of deflection of said element from said first position is proportional to the velocity of said mixture as said mixture passes through said passageway from said inlet port to said outlet port;
  
  transducer means for producing an electrical fluid flow rate signal that is continuously proportional to the angular deflection of said sensing element and indicative of the instantaneous fluid flow rate of said mixture;
  
  means for processing said fluid flow rate signal to develop a constantly updated reference signal;
  
  means for comparing said fluid flow rate signal with said reference signal to develop a pump-off detection signal; and
  
  means responsive to said pump-off detection signal for controlling said pump.
- View Dependent Claims (33, 34, 35)
- - 33. A system as recited in claim 32, wherein said pump-controlling means includes means for de-energizing said pump in response to pump-off.
  - 34. The flow rate sensor of claim 32, wherein said flow-sensing element is in said first position when the velocity of mixture is at zero.
  - 35. The flow rate sensor of claim 32, wherein said angle of deflection is linearly relates to said velocity of said mixture.

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Litigation Campaign Assessment

Current Assignee
Frank J. Walker Jr, Frank J. Walker Sr
Original Assignee
Frank J. Walker Jr, Frank J. Walker Sr
Inventors
Walker, Frank J. Jr., Walker, Frank J. Sr.
Primary Examiner(s)
Smith, Leonard E.

Application Number

US07/430,418
Time in Patent Office

523 Days
Field of Search

417/12, 417/43, 417/53, 417/63, 73/151, 73/861.75, 73/861.76, 200/81.9 M
US Class Current

417/12
CPC Class Codes

E21B 47/009 Monitoring of walking-beam ...

F02B 2075/027 four

Method and system for controlling a mechanical pump to monitor and optimize both reservoir and equipment performance

First Claim

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Accused Products

Abstract

249 Citations

35 Claims

Specification

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Method and system for controlling a mechanical pump to monitor and optimize both reservoir and equipment performance

First Claim

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0 Petitions

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Accused Products

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Abstract

249 Citations

35 Claims

Specification

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Solutions

Use Cases

Quick Links