Closure Member Position Indicator System for Use in A Blowout Preventer

Abstract

A system and method for detecting a position of a blowout preventer's closure members makes use of an indicator rod connected to a piston of the operator system and an electronic position sensor located entirely outside of a pressurized chamber of the operator system and arranged to detect a linear movement of the indicator rod.

Claims

1. A blowout preventer comprising: an indicator rod arranged in sliding sealed relationship to an operator system housing of the blowout preventer, a first end of the indicator rod being in communication with a closure member housed by the operator system housing, a second end of the indicator rod being located outside of the operator system housing; and an electronic position sensor positioned relative to the second end of the indicator rod to detect a linear movement of the indicator rod.

2. A blowout preventer according to claim 1 wherein the electronic position sensor is located entirely outside of a pressurized chamber of the blowout preventer.

3. A blowout preventer according to claim 1 wherein the electronic position sensor is located on the indicator rod.

4. A blowout preventer according to claim 1 wherein the first end of the indicator rod is connected to a piston of an operator system for the closure member.

5. A blowout preventer according to claim 1 further comprising a clearance groove in the operator system housing, the clearance groove being arranged to receive a portion of the indicator rod.

6. A method for detecting a position of a closure member of a blowout preventer, the method comprising the step of: monitoring a linear position of an indicator rod having a first end in communication with the closure member housed by the operator system and a second end located outside of an operator system housing of the blowout preventer and another, the monitoring step being performed by an electronic position sensor arranged to detect a linear movement of the indicator rod; and inferring a position of the closure member based upon the detected linear movement of the indicator rod.

7. A method according to claim 6 wherein the detected linear movement is visually detected.

8. A method according to claim 6 wherein the electronic position sensor is located entirely outside of a pressurized chamber the blowout preventer.

9. A method according to claim 6 wherein the electronic position sensor is located on the indicator rod.

10. A method according to claim 6 wherein the first end of the indicator rod is connected to a piston of an operator system for the closure member.

11. A method according to claim 6 wherein a portion of the indicator rod is received by a clearance groove of the operator system housing.

12. A method according to claim 6 further comprising the steps: removing the indicator rod, sealing assembly and electronic sensor; and installing a blanking cap.

13. A blowout preventer comprising: an indicator rod having a first end in communication with a closure member housed by an operator system housing of the blowout preventer; and an electronic position sensor positioned relative to a second end of the indicator rod to detect a linear movement of the indicator rod, the electronic position sensor being located entirely outside of a pressurized chamber of the blowout preventer.

14. A method for detecting a position of a closure member of a blowout preventer, the method comprising the step of: monitoring a linear position of an indicator rod having a first end in communication with the closure member, the monitoring step being performed by an electronic interface arranged entirely outside of a pressurized chamber of the blowout preventer to visually detect a linear movement of the indicator rod; and inferring a position of the closure member based upon the visually detected linear movement of the indicator rod.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 is a cross-sectional view of an hydraulic operator of a ram-type blowout preventer (BOP) when in the extended (closed) position. The position of each closure member is indicated by a rod having one end located within a pressure chamber of the operator system housing and connected to the closure member and the other end located outside the bonnet flange plate. An electronic sensor mounted on or within the rod, or outside the bonnet flange plate or operator housing, detects any movement of the rod and reports the rod's position.

[0010] FIG. 2 is a detailed cross-sectional view of the hydraulic operator of FIG. 1.

[0011] FIG. 3 is a cross-sectional view of the hydraulic operator of FIG. 1 in a retracted (open) position.

[0012] FIG. 4 is a detailed cross-sectional view of the hydraulic operator of FIG. 3. The exposed rod end can ride in a clearance groove machined into the top of the lock housing (see also FIG. 2).

[0013] FIG. 5 is an end view of the hydraulic operator taken along section line 5-5 of FIG. 3. One end of the indicator rod is located outside of the bonnet flange plate.

ELEMENTS AND NUMBERING USED IN THE DRAWINGS AND DETAILED DESCRIPTION

[0014] 10 Blowout preventer (BOP) [0015] 20 Body [0016] 21 Cavities [0017] 23 Bore [0018] 30 Bonnet [0019] 31 Bonnet flange [0020] 40 Operator system [0021] 41 Hydraulic piston [0022] 43 Cylinder [0023] 47 Lock housing or operator housing [0024] 49 Clearance groove [0025] 51 Close chamber [0026] 53 Slack chamber (which may or not be required) [0027] 55 Open chamber [0028] 55 Closure member [0029] 60 Closure member position-indicator system [0030] 70 Indicator rod [0031] 71 First end (connected to 45) [0032] 75 Second end (exposed end) [0033] 81 Electronic position sensor

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0034] The preferred embodiments described below provide examples of a closure member position indicator system and method of its use, made according to this invention.

[0035] The system preferably includes both a visual and an electronic indication of the closure member's position as the closure member moves between a fully retracted and fully extended position. The electronic indication is accomplished without any electronic penetration of a pressure chamber of the blowout preventer (BOP).

[0036] Referring now to the drawing figures, a ram-type BOP 10 includes a body 20 having cavities 21 and a bore 23, bonnets 30 connected to the body 20, and operator systems 40 mounted to the bonnets 30. The operator systems 40 use an hydraulic piston 41 and cylinder 43 arrangement to move a respective closure member 60 through cavities 21 and into and out of bore 23.

[0037] Typically, the operator systems 40 include three hydraulically isolated pressure chambers, a close chamber 51, an optional slack fluid chamber 53, and an open chamber 55. In general, the extend and retract chambers 51, 55 are in fluid communication with an hydraulic fluid supply regulated by a control system. Slack fluid chamber 53 may be pressure balanced with the surrounding environment, left open to the surrounding environment, coupled to a pressure compensation system that maintains the balanced pressure within the chamber 53, or connected to a control system.

[0038] Additional details on the construction and operation of a ram-type BOP and BOP stack can be found, for example, in U.S. Pat. No. 7,533,865 B2 to Whitby et al. and US 2014/0064029 A1 to Jaffrey (Jaffrey), both hereby incorporated by reference.

[0039] A closure member position indicator system 70 provides a visual indication of the position of piston 41and, therefore, the position of the closure member 60as well as an electronic indication of the piston's 41 position without electronic penetration of any of the pressure chambers 51, 53, 55. When piston 41 is in a fully open position, the closure members 60 are ready to deploy. When piston 41 is in a fully closed position, the closure members 60 have been fully deployed.

[0040] Visual indication of the piston's 41 position is provided by an indicator rod 71 arranged in a sliding sealed relationship to the operator system housing 47. In a preferred embodiment, the rod 71 is sealed relative to the bonnet flange 31 using sealing means well-known in the art and can ride, if desired, in a clearance groove 49 of the lock or operator housing 47 (depending on its configuration). One end 73 of the indicator rod 71 is connected to the piston 41 (and therefore resides entirely within a pressurized chamber 51, 53, 55 of housing 47) and the other end 75 is located outside of the housing 47.

[0041] An electronic position or position measuring sensor 81 is also located outside of the lock or operator housing 47 and positioned relative to the indicator rod 71 to detect a linear movement of the indicator rod 71. Preferably, the sensor 81 is mounted or connected to the rod 71. The sensor 81 can be in communication with, and a part of, a subsea electronic information system like that disclosed by Jaffrey (referenced earlier).

[0042] Jaffrey's system includes a subsea-located sensor interface box that includes a processor and a memory device capable of receiving and storing sensor measurement data like that provided by electronic position sensor 81. Additionally, the sensor interface box is in data and power communication with the sensor 81. A subsea retrievable data capsule may be used in connection with the box and recovered from subsea (independently of the other elements of the information system) for forensic analysis of the recorded data.

[0043] The indicator rod 71, seal assembly, and sensor 81 can be removed and replaced with a blanking cap (not shown) in order to return to conventional operations and position monitoring.

[0044] A method for detecting a position of the closure members 60 includes the steps of monitoring a linear position of the indicator rod 71 using the electronic position sensor 81 and then inferring a position of the closure members 60 based upon a visually detected linear movement of the indicator rod 71. The method can also include the steps of removing the rod 71, seal assembly, and sensor 81 and installing a blanking cap.