The disclosure herein relates to blowout preventers for use on oil rigs, and more particularly, but not by way of limitation, to blowout preventer head removal tools and methods.
In the early years of oil production it was not uncommon for a blowout on an oil well being drilled to occur. A blowout is an uncontrolled release of oil from an oil well or gas from a gas well. One may think of the classic picture of a gusher at Spindletop, Tex. throwing oil out of the top. Blowouts are both dangerous and wasteful. Blowouts would often push the drill string out of the well and injure or kill workers.
With the advent of rotary drilling techniques, which use the density of the drilling fluid, or “mud,” to overcome the downhole pressure of a penetrated zone, gushers became less frequent. At times, however, the fluid density was not adequate and a blowout would still occur. In the 1920s, blowout preventers (BOP) were developed to regulate the pressure at or near the wellhead and they soon became standard equipment. In recent times, blowout preventers have entered the news because of the alleged failure of the 300-ton blowout preventer on the Deepwater Horizon well off the coast of Louisiana. Three main manufacturers of blowout preventers today are Hydril, Cameron, and Shaffer.
In modern drilling operations, drill strings are placed through a blowout preventer stack before running toward the oil and gas reservoir. The drilling fluid (mud) is pumped through the drill string down to the drill bit and then returns up the space (annulus) between the outside of the drill pipe and the casing. When an excessive influx of pressure enters from the reservoir, automated systems or an operator activates the blowout preventer and the blowout preventer seals the annulus and stops the flow of fluids.
Because blowout preventers are so important to safety and protection of the environment, regulations and practices require that blowout preventers be inspected on a regular basis. For example, after drilling a well, the blowout preventer is typically tested to make sure that there are no leaks. Depending one wear and circumstances, the seals within the blowout preventer are replaced. To replace the seals, the blowout preventer is opened, and in particular the annular BOP head is removed. Conventionally, the studs in the annular head are turned manually using a pipe through the studs on the annular head and with the workers suspended in a basket. The process is more dangerous, difficult, and time consuming than desired.
According to an illustrative embodiment, a tool for removing a threaded, blowout-preventer head using a rotating device includes a longitudinal shaft having a first end and a second end, a lifting eye member coupled to the first end of the shaft, and a head-mounting member having a first side and a second side. The head-mounting member is coupled to the second end of the longitudinal shaft. The head-mounting member includes a plurality of apertures for receiving a plurality of studs on the threaded, blowout preventer head. The shaft and head-mounting member have a combined longitudinal length that allows a rotating device to be coupled to a portion of the shaft in order to rotate the shaft and remove the blowout preventer head.
According to another illustrative embodiment, a method for removing a threaded, blowout-preventer head from a blowout preventer includes providing a tool for removing the threaded, blowout-preventer head using a rotating device. The tool includes a longitudinal shaft having a first end and a second end, a lifting eye member coupled to the first end of the shaft, and a head-mounting member having a first side and a second side. The head-mounting member is coupled to the second end of the longitudinal shaft. The head-mounting member includes a plurality of apertures for receiving a plurality of studs on the blowout preventer head. The method further includes positioning the second side of the head-mounting member proximate to a first side of the threaded, blowout-preventer head; bolting the head-mounting member to the threaded, blowout-preventer head; providing a rotating device, wherein the shaft and head-mounting member have a combined longitudinal length that allows the rotating device to be coupled to a portion of the shaft in order to rotate the shaft and remove the blowout preventer head; coupling the rotating device to a portion of the shaft; and using the rotating device to rotate the shaft to cause the threaded, blowout-preventer head to be unscrewed from a mating portion of the blowout preventer.
According to another illustrative embodiment, a tool for removing a threaded, blowout-preventer head using a rotating device includes: a longitudinal shaft having a first end and a second end, wherein the shaft is at least 8 feet (2.4 meters) long and is less than 25 feet (7.62 meters) long, wherein the shaft is a pipe having an outside diameter greater than four inches (10.2 centimeters) and less than 10 inches (25.4 centimeters) and a wall thickness greater than ½ inch (1.3 inches) and less than three inches (7.6 centimeters); a lifting eye member coupled to the first end of the shaft, wherein the lifting eye member comprises a lifting eye plate coupled to a base plate; a head-mounting member having a first side and a second side, wherein the head-mounting member is coupled to the second end of the longitudinal shaft, wherein the head-mounting member includes a plurality of apertures for receiving a plurality of studs on the blowout preventer head; wherein the shaft and head-mounting member have a combined longitudinal length that allows a rotating device to be coupled to a portion of the shaft in order to rotate the shaft and remove the blowout preventer head; wherein the head-mounting member comprises: a mounting plate having the plurality of apertures and having a first side and a second side, a plurality of gussets having a first edge and a second edge, wherein the second edges of the plurality of gussets are coupled to the first side of the mounting plate, and a torque plate having a first side and a second side, wherein the first edges of the plurality of gussets are coupled to the second side of the torque plate; a first torque arm pivotally coupled to the first side of the head-mounting member, the first torque arm having a first end and a second end; a second torque arm pivotally coupled to the first side of the head-mounting member and spaced approximately 180 degrees from the first torque arm, the second torque arm having a first end and a second end; an anchor bar coupled to a medial portion of the shaft on an exterior, the anchor bar having a first extension with an aperture and as second extension with an aperture; wherein the first end of the first torque arm has an aperture and a first anchor shackle in the aperture, wherein the first send of the second torque arm has an aperture and a second anchor shackle in the aperture; wherein the second end of the first torque arm is coupled to a first hinge that is coupled to the first side of the head-mounting member; wherein the second end of the second torque arm is coupled to a second hinge that is coupled to the first side of the head-mounting member; wherein the anchor bar is positioned and configured such that the aperture in the first extension mates with the first anchor shackle on the first torque arm to hold the first torque arm in a stored position and configured so that the aperture in the second extension mates with the second anchor shackle on the second torque arm to hold the second torque arm in a stored position; wherein a first plurality of apertures is formed proximate the second end of the first torque arm for aligning with a first plurality of apertures formed in the torque plate when the tool is in the torque position; wherein a second plurality of apertures is formed proximate the second end of the second torque arm for aligning with a second plurality of apertures formed in the torque plate when the tool is in the torque position; a first plurality of brace members coupled to the first side of the head-mounting member to form a first torque-arm-receiving channel for receiving a portion of the first torque arm when the tool is in a torque position; and a second plurality of brace members coupled to the first side of the head-mounting member to form a second torque-arm-receiving channel for receiving a portion of the second torque arm when the tool is in a torque position.
Other features and advantages of the illustrative embodiments will become apparent with reference to the drawings and the detailed description that follow.
Illustrative embodiments are described in detail below with reference to the attached drawing figures, which are incorporated by reference herein and wherein:
In the following detailed description of the preferred embodiments, reference is made to the accompanying drawings that form a part hereof, and in which is shown, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention, and it is understood that other embodiments may be utilized and that logical structural, mechanical, electrical, and chemical changes may be made without departing from the spirit or scope of the invention. To avoid detail not necessary to enable those skilled in the art to practice the invention, the description may omit certain information known to those skilled in the art. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims.
Referring now to the drawings and initially to
In a typical oil rig, the casing extends from the wellhead into the ground and the drill string 16 with a drill bit is placed through the casing and into the ground. Usually on top of the wellhead is at least one blowout preventer 14 as previously discussed. The drilling platform is over that with the derrick extending vertically to facilitate the addition of the drill string 16.
There are a number of manufacturers of blowout preventers. For illustration purposes, a HYDRIL blowout preventer, e.g., a GK or GX Series blowout preventer, is presented. It should be understood that the tool 10 could be used with any blowout preventer 14 having a threaded, blowout preventer head 12 that is removed for gaining access to an interior portion and some BOP without threads. The blowout preventer 14 has a body 18. In
The tool 10 includes a longitudinal shaft 24 having a first end 26 and a second end 28. The longitudinal shaft 24 may be a pipe shaft or could be a solid shaft. The shaft 24 may take any appropriate size, but in one embodiment is between five feet (1.52 meters) and 20 feet (6.1 meters) in length. A lifting eye member 30 is coupled, e.g., welded or drilled and tapped with a bolt, to the first end 26 of the shaft 24. The lifting eye member 30 may be any device to facilitate lifting of the tool 10 using an air hoist line, main hoist, elevator, or other lifting device. For example, as shown in
The head-mounting member 38 has a first side 40 and a second side 42. The first side 40 of the head-mounting member 38 is coupled to the second end 28 of the longitudinal shaft 24 in some embodiments (
Referring now primarily to
Referring now primarily to
Referring now primarily to
Regardless of the specific embodiment of the head-mounting member 38, the shaft 24 and head-mounting member 38 have a combined longitudinal length that allows a rotating device, e.g., top drive, kelly, or rotary table, to be coupled to a portion of the shaft 24 in order to rotate the shaft 24 and remove the blowout preventer head 12.
Referring again to
For the embodiment of
The tool 10 may include one or more devices for holding the torque arms 78, 84 in a stored position when the tool 10 is being positioned or is not being used. For example, the first end 80 of the first torque arm 78 may be formed with an aperture 102 and a first anchor shackle 104 may be placed in the aperture 102. Then, when in the stored position, the first anchor shackle 104 may be used in conjunction with an anchor bar 106 (or anchor plate) on a medial portion 108 of the shaft 24 to secure the first torque arm 78 in a stored position as shown in
Referring to
In operation according to one embodiment, an upper stack (not shown) is removed from the top of the blowout preventer 14 to expose the first side 20 of the threaded, blowout preventer head 12. One of the tools 10 for removing the threaded, blowout-preventer head 12 using a rotating device previously discussed is provided. The tool 10 is raised to the driller floor by attaching an air hoist line to the lifting eye member 30 and raising the tool 10. Once the tool 10 has been lifted to the driller floor, the air hoist line may be removed and then an elevator line or main hoist line may be attached to the tool 10 on the shaft 24 or lifting eye member 30.
The tool 10 is then moved through the turn table of the rig and positioned such that the second side 42 of the head-mounting member 38 is proximate the first side 20 of the threaded, blowout preventer head 12. The tool 10 is then bolted to the threaded, blowout preventer head 12 using studs 22. Then the rotating device, e.g., kelly or top drive, may be coupled to a portion of the shaft 24 to provide a rotating force to the tool 10. Supplemental torque may be provided by using tongs and a winch line or automatic rough neck (e.g., ST-80 Iron Roughneck from National Oilwell Varco of Houston, Tex.). The turning motion loosens the threaded, blowout preventer head 12 and allows the threaded, blowout preventer head 12 to be unscrewed and removed.
If the threaded, blowout preventer head 12 is too difficult to remove as describe, the initial turn of the threaded, blowout preventer head 12 may be accomplished with additional torque. In such a case, one or more torque arms 78, 84 may be rotated into the torque position, bolted down using apertures 94, 98 in the torque arms 94, 98 and apertures 96, 100 in the torque plate 60, and then force may be applied to provide additional torque. The additional force applied to the torque arms 78, 84 may be applied directly by human operators or may be applied using a pulling device, e.g., a come along winch, air or electric tugger hoist, air or electric winch, or other pulling device. As an alternative, a separate torque arm may be simply placed over apertures 96 or 100 and bolted into to position before having a force applied. As another alternative, a cable may be bolted to one of the apertures 44 not be occupied by a stud 22 or through an aperture in the torque plate (e.g., aperture 100) and then a force applied to the cable by a pulling device.
Once the threaded, blowout preventer head 12 is unscrewed from the mating threads of the blowout preventer 14, the threaded, blowout preventer head 12 may be lifted through the turn table of the rig and placed on the driller floor. The threaded, blowout preventer head 12 may remain attached to the tool 10 until the seals are replaced or other maintenance on the blowout preventer is complete. The threaded, blowout preventer head 12 may be set on the driller floor. After this, the tool 10 is used to lower the threaded, blowout preventer head 12 through the turn table and back onto the blowout preventer body 18. The rotating device may then be used to rotate the threaded, blowout preventer head 12 back onto the mating threads of the blowout preventer 14. The tool 10 is then unbolted and removed. The stack can then be attached to the threaded, blowout preventer head 12 and any lines attached.
Although the present invention and its advantages have been disclosed in the context of certain illustrative, non-limiting embodiments, it should be understood that various changes, substitutions, permutations, and alterations can be made without departing from the scope of the invention as defined by the appended claims. It will be appreciated that any feature that is described in a connection to any one embodiment may also be applicable to any other embodiment.
The present application claims the benefit, under 35 U.S.C. §119(e), of the filing of U.S. Provisional Patent Application Ser. No. 61/511,832, entitled “Annular Seal Removing Tool Using Top Drive or Kelly,” filed Jul. 26, 2011, and which incorporated herein by reference for all purposes.
Number | Date | Country | |
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61511832 | Jul 2011 | US |