Method for detecting an operating condition on a valve assembly and implementation thereof

US 9,719,610 B2
Filed: 10/02/2014
Issued: 08/01/2017
Est. Priority Date: 04/07/2014
Status: Active Grant

First Claim

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1. A method for detecting cycling of a closure member relative to a seat on a valve assembly, said method comprising:

receiving an input with data in a pattern that reflects movement of the closure member;

comparing the data to a boundary criteria, the boundary criteria defining a first boundary value and a second boundary value separated by a boundary interval, wherein each of the first boundary value and the second boundary value is proximate, but larger than, a value for a closed position at which the closure member is in contact with the seat, and wherein the first boundary value and the second boundary value are arrived at by,determining a value for a minimum position that corresponds with a smallest value in the pattern; and

assigning the first boundary value and the second boundary value relative to this minimum position by applying a factor to the minimum position to arrive at the first boundary value and the second boundary value, wherein the factor includes a first factor and a second factor for use with, respectively, the first boundary value and the second boundary value, and wherein the first factor is different from the second factor;

incrementing a cycle count each time the pattern changes from a first value to a second value that is separated from the first value by at least the boundary interval; and

generating an output that reflects the cycle count.

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Abstract

A method to detect cycling of components that result from use of a tight shut-off mode on a valve assembly. Embodiments of the method use operating data from the valve assembly. This operating data includes data that reflects a position for the closure member relative to the seat. This position often corresponds with a measured position of one or more components (e.g., the valve stem) on the valve assembly. In one embodiment, the method includes steps for comparing the measured position to a boundary criteria that defines one or more boundary values proximate, and often equal to, the threshold levels of the tight shut-off mode. The method can also includes steps for identifying patterns in the data that indicate that the closure member is cycling from its closed position to a second position due to tight shut-off mode.

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20 Claims

1. A method for detecting cycling of a closure member relative to a seat on a valve assembly, said method comprising:
- receiving an input with data in a pattern that reflects movement of the closure member;
  
  comparing the data to a boundary criteria, the boundary criteria defining a first boundary value and a second boundary value separated by a boundary interval, wherein each of the first boundary value and the second boundary value is proximate, but larger than, a value for a closed position at which the closure member is in contact with the seat, and wherein the first boundary value and the second boundary value are arrived at by,determining a value for a minimum position that corresponds with a smallest value in the pattern; and
  
  assigning the first boundary value and the second boundary value relative to this minimum position by applying a factor to the minimum position to arrive at the first boundary value and the second boundary value, wherein the factor includes a first factor and a second factor for use with, respectively, the first boundary value and the second boundary value, and wherein the first factor is different from the second factor;
  
  incrementing a cycle count each time the pattern changes from a first value to a second value that is separated from the first value by at least the boundary interval; and
  
  generating an output that reflects the cycle count.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method of claim 1, further comprising:
    - reducing the cycle count by one-half; and
      
      comparing the cycle count to a pattern value that defines a number of closure member cycles, wherein the output reflects a relationship between the cycle count and the pattern value.
  - 3. The method of claim 1, wherein the first boundary value is calculated in accordance with,
    BL₁=M_T+R₁,wherein BL₁is the first boundary value, M_Tis the value for the minimum position, and R₁is the first factor that is selected to space the first boundary value from the minimum position.
  - 4. The method of claim 1, wherein the second boundary value is calculated in accordance with,
    BL₂=M_T+R₂,wherein BL₂is the second boundary value, M_Tis the value for the minimum position, and R₂is the second factor.
  - 5. The method of claim 1, wherein the data corresponds with pressure of incoming instrument gas.
  - 6. The method of claim 1, further comprising:
    - using historical data to characterize the pattern as non-anomalous behavior.
  - 7. The method of claim 1, further comprising:
    - comparing the cycle count to a pattern value that defines a number of closure member cycles, wherein the output reflects a relationship between the cycle count and the pattern value.

8. A valve assembly, comprising:
- an actuator;
  
  a valve stem coupled with the actuator;
  
  a valve coupled with the valve stem, the valve comprising a closure member and a seat, wherein the closure member is configured to move relative to the seat; and
  
  a valve positioner coupled with the valve assembly, the valve positioner comprising a processor with access to a memory that has one or more executable instructions stored thereon, the executable instructions comprising one or more instructions for,receiving an input with data in a pattern that reflects movement of the closure member,comparing the data to a boundary criteria, the boundary criteria defining a first boundary value and a second boundary value separated from one another by a boundary interval, wherein each of the first boundary value and the second boundary value is proximate, but larger than, a value for a closed position at which the closure member is in contact with the seat, and wherein the first boundary value and the second boundary value are arrived at by,determining a value for a minimum position that corresponds with a smallest value in the pattern; and
  
  assigning the first boundary value and the second boundary value using this minimum position by applying a factor to the minimum position to arrive at the first boundary value and the second boundary value, wherein the factor includes a first factor and a second factor for use with, respectively, the first boundary value and the second boundary value, and wherein the first factor is different from the second factor;
  
  incrementing a cycle count each time the pattern changes from a first value to a second value that is separated from the first value by at least the boundary interval; and
  
  generating an output that reflects the cycle count.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The valve assembly of claim 8, wherein the executable instructions include instructions for:
    - reducing the cycle count by one-half; and
      
      comparing the cycle count to a pattern value that defines a number of closure member cycles, wherein the output reflects a relationship between the cycle count and the pattern value.
  - 10. The valve assembly of claim 8, wherein the executable instructions include instructions for:
    - assigning the first boundary value in accordance with,
      BL₁=M_T+R₁,wherein BL₁is the first boundary value, M_Tis the value for the minimum position, and R₁is the first factor that is selected to space the first boundary value from the minimum position.
  - 11. The valve assembly of claim 8, wherein the executable instructions include instructions for:
    - assigning the second boundary value in accordance with,
      BL₂=M_T+R₂,wherein BL₂is the second boundary value, M_Tis the value for the minimum position, and R₂is the second factor.
  - 12. The valve assembly of claim 8, wherein the data corresponds with pressure of incoming instrument gas.
  - 13. The valve assembly of claim 8, wherein the executable instructions include instructions for:
    - using historical data to characterize the pattern as non-anomalous behavior.
  - 14. The valve assembly of claim 8, wherein the executable instructions include instructions for:
    - comparing the cycle count to a pattern value that defines a number of closure member cycles, wherein the output reflects a relationship between the cycle count and the pattern value.

15. A valve positioner for use on a valve assembly having a closure member that moves relative to a seat, said valve positioner comprising:
- a processor;
  
  a memory coupled with the processor; and
  
  one or more executable instructions stored in the memory and configured to be executed by the processor, the executable instruction comprising one or more instruction for,receiving an input with data in a pattern that reflects movement of the closure member,comparing the data to a boundary criteria, the boundary criteria defining a first boundary value and a second boundary value separated from one another by a boundary interval, wherein each of the first boundary value and the second boundary value is proximate, but larger than, a value for a closed position at which the closure member is in contact with the seat, and wherein the first boundary value and the second boundary value are arrived at bydetermining a value for a minimum position that corresponds with a smallest value in the pattern; and
  
  assigning the first boundary value and the second boundary value using the minimum position by applying a factor to the minimum position to arrive at the first boundary value and the second boundary value, wherein the factor includes a first factor and a second factor for use with, respectively, the first boundary value and the second boundary value, and wherein the first factor is different from the second factor;
  
  incrementing a cycle count each time the pattern changes from a first value to a second value that is separated from the first value by at least the boundary interval; and
  
  generating an output that reflects the cycle count.
- View Dependent Claims (16, 17, 18, 19, 20)
- - 16. The valve positioner of claim 15, wherein the executable instructions include instructions for:
    - reducing the cycle count by one-half; and
      
      comparing the cycle count to a pattern value that defines a number of closure member cycles, wherein the output reflects a relationship between the cycle count and the pattern value.
  - 17. The valve positioner of claim 15, wherein the executable instructions include instructions for:
    - assigning the first boundary value in accordance with,
      BL₁=M_T+R₁,wherein BL₁is the first boundary value, M_Tis the value for the minimum position, and R₁is the first factor that is selected to space the first boundary value from the minimum position; and
      
      assigning the second boundary value in accordance with,
      BL₂=M_T+R₂,wherein BL₂is the second boundary value, M_Tis the value for the minimum position, and R₂is the second factor.
  - 18. The valve positioner of claim 15, wherein the data corresponds with pressure of incoming instrument gas.
  - 19. The valve positioner of claim 15, wherein the executable instructions include instructions for:
    - using historical data to characterize the pattern as non-anomalous behavior.
  - 20. The valve positioner of claim 15, wherein the executable instructions include instructions for:
    - comparing the cycle count to a pattern value that defines a number of closure member cycles, wherein the output reflects a relationship between the cycle count and the pattern value.

Specification

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Current Assignee
Dresser, LLC (GE Aerospace)
Original Assignee
Dresser Incorporated (Nagano Keiki Company Limited)
Inventors
Prescott, Robert Claude, Shriver, Justin Scott, Wheeler, Frederick Wilson
Primary Examiner(s)
Bui, Bryan

Application Number

US14/505,108
Publication Number

US 20150285397A1
Time in Patent Office

1,034 Days
Field of Search
US Class Current
CPC Class Codes

F16K 37/0041   for measuring valve paramet...

F16K 37/0083   by measuring valve parameters

Y10T 137/8225   Position or extent of motio...

Method for detecting an operating condition on a valve assembly and implementation thereof

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

11 Citations

20 Claims

Specification

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Method for detecting an operating condition on a valve assembly and implementation thereof

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

11 Citations

20 Claims

Specification

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Solutions

Use Cases

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