Resettable pressure relief valve system and method for use when drilling with a rotating control device

Abstract

A pressure relieve valve (PRV) secures to the rotating control device (RCD) in a drilling operation. The PRV located at rig flowline secures to a PRV line, such as PRV piping that bypasses the MPD choke, MPD system, UBD systems, and other flow control device(s). The outlet of the RCD is routed via the pressure relief valve to discharge to a safe contained area. Such discharge relieves overpressure of the wellbore to a contained environment via the rig flowline.

Claims

1. A pressure relief system for a rotating control device (RCD) of a drilling operation for the flow of drilling fluid, the system comprising: a pressure relief valve (PRV) secured directly to a flange of the RCD; a PRV line connected to the PRV for flow of the drilling fluid to relieve pressure, wherein the PRV line bypasses a rig flowline isolation valve secured to the RCD; a return drilling mud system located downstream of the rig flowline isolation valve, wherein the PRV line directs the drilling fluid to a downstream side of the rig flowline isolation valve, wherein the drilling fluid flows through the PRV line to flow into the return drilling mud system to bypass the rig flowline isolation valve.

2. The system of claim 1, wherein the PRV line bypasses a managed pressure drilling system.

3. The system of claim 1, wherein the PRV line bypasses an underbalanced drilling system.

4. The system of claim 1, wherein the PRV line bypasses a flow control device.

5. The system of claim 1, wherein the PRV relieves pressure at a relief set point below a maximum allowable working pressure of the RCD; wherein the PRV closes below the relief set point.

6. The system of claim 1, wherein the PRV opens at a relief set point, wherein the relief set point is below a maximum allowable working pressure of the RCD; wherein the PRV closes below the relief set point.

7. The system of claim 1, wherein the PRV opens at a relief set point, wherein the relief set point is below a lowest pressure rated component in a path from the RCD to the rig flowline isolation valve, wherein the PRV closes below the relief set point.

8. The system of claim 1 further comprising: a relief path of the drilling fluid wherein the drilling fluid flows in the relief path through the PRV to the return drilling mud system without flowing through the rig flowline isolation valve; an operation path of the drilling fluid wherein the drilling fluid flows in the operation path through the rig flowline isolation valve to the rig flowline; wherein the PRV relieves pressure at a relief set point, wherein the PRV directs the drilling fluid through the relief path and the PRV line to relieve pressure, wherein the PRV directs the drilling fluid through the operation path if the pressure is below the relief set point; wherein the drilling fluid flowing through the relief path bypasses the rig flowline isolation valve when flowing to the return drilling mud system; wherein the PRV is located downstream of the RCD, wherein the drilling fluid flows from the RCD to the PRV into the relief path without flowing across a sensor when the drilling fluid flows between the RCD and the PRV.

9. A pressure relief system for a rotating control device (RCD) of a drilling operation for the flow of drilling fluid to a rig flowline, the system comprising: a pressure relief valve (PRV) connected to the RCD, wherein the PRV is located downstream of the RCD, wherein the drilling fluid flows from the RCD to the PRV without flowing across a sensor when the drilling fluid flows between the RCD and the PRV; a rig flowline isolation valve connected to the RCD, wherein the rig flowline isolation valve is located downstream of the PRV; a relief path of the drilling fluid wherein the drilling fluid flows in the relief path through the PRV to the rig flowline without flowing through the rig flowline isolation valve; an operation path of the drilling fluid wherein the drilling fluid flows in the operation path through the rig flowline isolation valve to the rig flowline; a PRV line connected to the PRV for flow of the drilling fluid to relieve pressure, wherein the PRV line directs drilling fluid through the relief path; wherein the PRV relieves pressure at a relief set point, wherein the PRV directs the drilling fluid through the relief path and the PRV line to relieve pressure, wherein the PRV directs the drilling fluid through the operation path if the pressure is below the relief set point.

10. The system of claim 9, wherein the PRV line bypasses a managed pressure drilling system in the operation path, wherein the PRV line directs the drilling fluid through the relief path without passing through the managed pressure drilling system; wherein the relief path directs the drilling fluid to a downstream side of the rig flowline isolation valve to bypass the rig flowline isolation valve and the managed pressure drilling system, wherein the drilling fluid flows through the PRV line and the relief path to bypass the rig flowline isolation valve and the managed pressure drilling system.

11. The system of claim 9, wherein the PRV line bypasses an underbalanced drilling system in the operation path, wherein the PRV line directs the drilling fluid through the relief path without passing through the underbalanced drilling system; wherein the relief path directs the drilling fluid to a downstream side of the rig flowline isolation valve to bypass the rig flowline isolation valve and the underbalanced drilling system, wherein the drilling fluid flows through the PRV line and the relief path to bypass the rig flowline isolation valve and the underbalanced drilling system.

12. The system of claim 9, wherein the PRV line bypasses a flow control device in the operation path, wherein the PRV line directs the drilling fluid through the relief path without passing through the flow control device; wherein the relief path directs the drilling fluid to a downstream side of the rig flowline isolation valve to bypass the rig flowline isolation valve and the flow control device, wherein the drilling fluid flows through the PRV line and the relief path to bypass the rig flowline isolation valve and the flow control device.

13. The system of claim 9, wherein the relief set point is below a maximum allowable working pressure of the RCD; wherein the PRV closes below the relief set point.

14. The system of claim 9 further comprising: a return drilling mud system located downstream of the rig flowline isolation valve, wherein the PRV line directs the drilling fluid to a downstream side of the rig flowline isolation valve, wherein the drilling fluid flows through the PRV line and relief path to the return drilling mud system and the drilling fluid bypasses the rig flowline isolation valve when flowing through the relief path to the return drilling mud system.

15. The system of claim 9, wherein the PRV attaches directly to a flange of the RCD.

16. A method of discharging well bore pressure of drilling fluid from a rotating control device (RCD) to a rig flowline, the method comprising: discharging the pressure through a pressure relief valve (PRV) connected to the RCD wherein the pressure is discharged to the rig flowline, wherein the PRV is located downstream of the RCD, wherein the drilling fluid flows from the RCD to the PRV without flowing across a sensor when the drilling fluid flows between the RCD and the PRV; wherein the PRV relieves pressure at a relief set point, wherein the PRV directs the drilling fluid through a relief path to relieve pressure, wherein the PRV directs the drilling fluid through an operating path if the pressure is below the relief set point; wherein the PRV is connected to the RCD; wherein a rig flowline isolation valve is connected to the RCD downstream of the PRV; wherein a PRV line connects to the PRV for flow of the drilling fluid to relieve pressure, wherein the PRV line bypasses the rig flowline isolation valve, wherein the PRV line directs drilling fluid to the rig flowline without passing through the rig flowline isolation valve; wherein the PRV directs the drilling fluid through the relief path to a downstream side of the rig flowline isolation valve, wherein the drilling fluid flows through the PRV line to flow into a return drilling mud system to bypass the rig flowline isolation valve.

17. The method of claim 16, wherein the PRV opens at a relief set point, wherein the relief set point is below a maximum allowable working pressure of the RCD; wherein the PRV closes below the relief set point.

18. The method of claim 17, wherein the PRV line bypasses a flow control device to direct the drilling fluid from the PRV to the rig flowline without passing through the flow control device.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) In the following drawings, which form a part of the specification and which are to be construed in conjunction therewith, and in which like reference numerals have been employed throughout wherever possible to indicate like parts in the various views:

(2) FIG. 1 is an environmental view of one embodiment of the present invention;

(3) FIG. 2 is a schematic view thereof;

(4) FIG. 3 is a schematic view of one embodiment of the present invention; and

(5) FIG. 4 is a schematic view of one embodiment of the present invention.

DETAILED DESCRIPTION

(6) The present invention provides a pressure relief system 100 with a pressure relief valve (PRV 104) secured to the rotating control device (RCD 102) as shown in FIGS. 1 and 2. The PRV 104 is resettable to allow for continued drilling operations.

(7) During any drilling operation that uses an RCD 102, a potential risk of an overpressure event exists. The overpressure event may be caused by human error, equipment failure, or debris return in the flow from the wellbore being drilled. Such debris potentially blocks a valve or choke/flow control device in the line. In MPD/UBD systems, the blockage could occur when debris potentially blocks the MPD/UBD system or when a smaller ID high pressure flowline is routed to an MPD/UBD system.

(8) Any such overpressure event can cause a failure of the RCD element. Failure of the RCD element potentially leads to pressurized drilling fluid being released below the rig floor in the area of the rotary table.

(9) Such events could result in rig floor deck plates and even the rotary bushings being lifted out of place. These events potentially injure personnel on the rig floor and could have fatal consequences if the person/personnel was in the wrong place at the time of failure.

(10) FIG. 2 shows one embodiment in which the RCD 102 has two outlets. The PRV 104 connects to one outlet of the RCD 102. The Rig Flowline Isolation Valve 108 connects to another outlet of the RCD 102. As shown in FIG. 3, the PRV 104 and Rig Flowline Isolation Valve 108 may be connected to the same outlet of the RCD 102. The resettable PRV 104 is physically located on the RCD bowl 102 (body). Such positioning of the PRV 104 on the RCD 102 protects the RCD elements from any downstream blockage event, including accidental closure of valve 108. The PRV 104 must have a set point that is designed to protect the maximum allowable working pressure (MAWP) of the RCD or the lowest pressure rated component in the system 100.

(11) The PRV 104 secures to the rotating control device (RCD). The PRV 104 located at rig flowline enables the system to bypass any MPD choke and UBD system that attaches at flange 110. The outlet of the RCD 102 is routed via the pressure relief valve 104 to discharge to a safe contained area through the rig flowline 112. Such discharge enables the PRV system 100 to relieve overpressure of the wellbore to a contained environment to reduce the likelihood of harm to drilling personnel and to reduce damage to the equipment. In one embodiment, the relief valve 104 directs the discharge to the downstream side of the isolation valve 108 to the return drilling mud system at the rig flowline 112.

(12) The pressure relief valve 104 and PRV line 106 relieve pressure to the side of the RCD 102. The pressure relief valve 104 and PRV line 106 discharge the pressure from the wellbore to the side of the RCD 102. Such discharge may be needed under the situations involving deadhead of the rig flowline isolation valve, unplanned choke, flow control device plugging, operator error, and equipment failure.

(13) During conventional drilling the Rig Flowline Isolation Valve 108 should remain open. However, the Rig Flowline Isolation Valve 108 may accidentally close or the incorrect valve line up. The rig flowline isolation valve 108 could become blocked, clogged, or otherwise closed, such as deadhead. Such blockage, clog, other inadvertent closing, or deadhead of the rig flowline isolation valve 108 potentially causes the pressure in the well bore to rise rapidly and could cause RCD seal element failure.

(14) The PRV 104 and PRV line 106 also discharge pressure from the wellbore during MPD and UBD operations. During MPD or UBD operations, a flow control device, such as a choke, is used downstream of a second RCD outlet 110. Unplanned choke/flow control device plugging, operator error or equipment failure again could lead to pressure in the well bore increasing rapidly and potentially causing RCD seal element failure.

(15) In the Examples above, the present invention implements a resettable Pressure Relief Valve 104 set to relieve pressure at a predetermined set point below the MAWP of the RCD 102. The PRV 104 discharge is routed to divert flow to the downstream side of the Rig Flowline Isolation Valve 108 to reduce the likelihood of catastrophic RCD element failures and associated risks. The PRV 104 of one embodiment is resettable as if the PRV 104 failed open during MPD or UBD operations. Such opening of the PRV 104 allows discharge of the overpressured wellbore. The PRV 104 closes again once the pressure is returned to operable conditions in which the pressure has returned to the proper pressure range. Leaving the PRV 104 open, such as during underbalanced mud weight drilling, could lead to an undesirable well control influx event.

(16) PRV 104 secures to a flange of the RCD 102 to provide a bypass of at least one flow control device, including chokes, MPD systems, and UBD systems. The PRV 104 enables drilling fluid to bypass the valve 108 and any MPD/UBD systems secured at flange 110. The PRV 104 directs drilling fluid to the PRV line 106. The PRV line 106 secures to the rig flowline 112 to direct the drilling fluid to the mud system. The PRV line 106 and PRV 104 bypass the valve 108 and any system connected to flange 110. Such PRV line 106 and PRV 104 direct the pressurized drilling fluid to the side to a contained environment through the Rig Flowline 112.

(17) FIG. 3 shows another embodiment of the present invention in which the PRV 104 and the Rig Flowline Isolation Valve 108 are connected to the same outlet of the RCD 102. The flow of the drilling fluid and/or pressure flows from the RCD 102 to a spool 114, or other device that can direct the drilling fluid in two different paths. One path directs the drilling fluid and/or pressure through the Rig Flowline Isolation Valve 108 to the rig flowline 112. The other path directs the drilling fluid and/or pressure through the PRV 104 to the rig flowline 112 without passing through the Rig Flowline Isolation Valve 108.

(18) FIG. 4 shows the first path 116, such as a relief path, of the drilling fluid and/or pressure that directs the drilling fluid and/or pressure through the PRV 104 and PRV line 106 to the rig flowline 112. The PRV opens upon when the pressure reaches a relief set point. Upon reaching the pressure of the relief set point, the PRV 104 opens to direct the drilling fluid and/or pressure through the PRV line 106 to the Rig Flowline 112 for relieving the pressure. Once the pressure decreases below the relief set point, the PRV 104 closes.

(19) FIG. 4 also shows the second path of the drilling fluid and/or pressure through the second path 118, such as an operation path, that directs the drilling fluid and/or pressure through the Rig Flowline Isolation Valve 108. The drilling fluid travels through second path 118, such as the operation path, during drilling operations. The drilling fluid travels through the Rig Flowline Isolation Valve 108, such as an MPD system, a UBD system, a flow control device, or other component of the drilling system, to the rig flowline 112.

(20) The first path 116, such as the relief path, allows for unclogging of the second path 118. A pump positioned in the second path 118 may clear the second path 118. The pump directs the drilling fluid and/or clog through the rig flowline isolation valve 108 to unclog the second path 118.

(21) As shown in FIG. 4, the first path 116 and the second path 118 flow from the RCD 102. In one embodiment, the PRV 104 and the Rig Flowline Isolation Valve 108 may be connected to different outlets of the RCD 102. The first path 116 may be connected to one outlet of the RCD 102 and the second path 118 may be connected to another outlet of the RCD 102.

(22) In another embodiment, the PRV 104 and the Rig Flowline Isolation Valve 108 may be connected to the same outlet of the RCD 102. A spool or other device that allows the drilling fluid to flow in two different paths is connected upstream of the PRV 104 and the Rig Flowline Isolation Valve 108. The first path 116 may be connected to one outlet of the spool and the second path 118 may be connected to another outlet of the spool.

(23) From the foregoing, it will be seen that the present invention is one well adapted to obtain all the ends and objects herein set forth, together with other advantages which are inherent to the structure.

(24) It will be understood that certain features and subcombinations are of utility and may be employed without reference to other features and subcombinations. This is contemplated by and is within the scope of the claims.

(25) As many possible embodiments may be made of the invention without departing from the scope thereof, it is to be understood that all matter herein set forth or shown in the accompanying drawings is to be interpreted as illustrative and not in a limiting sense.