The present disclosure is directed to systems, devices, and methods for the manipulation, assembly, moving, and detection of tubulars within a derrick or mast in oil and gas drilling systems. More specifically, the present disclosure is directed to systems and devices including a double layer racking board and methods for handing drill pipe and casing on a drilling rig.
The rise in cost for exploration and production of hydrocarbons has been a driving force for improved efficiencies in drilling operations. Current costs for the actual drilling of a well has increased over the past 10 years; gaining a greater percentage of the total cost of the well.
The efficiency of a particular drilling operation is impacted by the time required to manipulate, assemble, and break down drilling components such as drill pipe (forming a drill string) and casing. In drilling operations, casing is inserted into a borehole at periodic intervals as the borehole is drilled. Each time another stand of casing is lowered into the borehole, the drill string is tripped out of the borehole, and a stand of casing is assembled from casing tubulars for insertion. As the drill string is tripped out of the borehole it is broken down into stands and set aside, for example in a fingerboard. After the casing is inserted into the borehole, the drill string is reassembled and tripped back into the borehole.
Conventional casing operations do not occur until the drilling rig has completed tripping out of the hole. That is, currently drilling and casing operations cannot occur simultaneously on land-based mobile drilling rigs due to the limited size of the drill floor and use of a standard racking board for mobile rigs. The use of offline or safe zone stand building does not readily allow for use of both drill pipe and casing within the existing well floor.
Furthermore, differences in length between drill pipe and casing may cause problems with the single racking system, requiring adjustment of the height of the racking board during a drilling operation.
Recent inventions and development of automated racking operations for mobile rigs and small platform rigs open a new opportunity for increased efficiency in drilling operations. The present disclosure addresses one or more of these or other deficiencies in the prior art.
The present disclosure is best understood from the following detailed description when read with the accompanying figures. It is emphasized that, in accordance with the standard practice in the industry, various features are not drawn to scale. In fact, the dimensions of the various features may be arbitrarily increased or reduced for clarity of discussion.
It is to be understood that the following disclosure provides many different implementations, or examples, for implementing different features of various implementations. Specific examples of components and arrangements are described below to simplify the present disclosure. These are merely examples and are not intended to be limiting. In addition, the present disclosure may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various implementations and/or configurations discussed. Moreover, the formation of a first feature over or on a second feature in the description that follows may include implementations in which the first and second features are formed in direct contact, and may also include implementations in which additional features may be formed interposing the first and second features, such that the first and second features may not be in direct contact.
The systems, devices, and methods described herein relate to a drilling rig apparatus that includes a dual or double layer racking board. The double layer racking board may include a drill pipe racking board and a casing racking board. In some implementations, the drill pipe racking board and casing racking board are positioned at different levels to efficiently handle drill pipe and casing tubulars of different sizes. The double layer racking board may allow for the simultaneous performance of operations involving both drill pipe and casing, such as tripping in, tripping out, tubular stand make-up, tubular stand breakdown, casing stand make up, casing stand breakdown, or introducing casing stands to well center 117. The double layer racking board may improve efficiency of the drilling rig and lessen the physical requirements of derrick operators.
In the implementation shown, the drill floor 114 may be raised above ground level, and may be accessible by a pair of catwalks 118 and 122. In some implementations, catwalks 118 and 122 connect to the drill floor 114 on the same side of the drill floor 114 and may allow users to introduce materials to the drill floor 114. For example, a first set of tubulars (e.g., drill pipe tubulars) may be introduced to or removed from the drill floor 114 via the first catwalk 118, and a second set of tubulars (e.g., casing tubulars) may be introduced to or removed from the drill floor 114 via the second catwalk 122.
The drilling rig may include a mousehole 119 in the drill floor 114 which may be used for assembling and disassembling drill pipe 106 and casing 107 at a location spaced apart from the well center 117 so as to not interfere with drilling at the well center 117 in the rig floor 114. In some implementations, the mousehole 119 is located above a shallow hole below the rig floor 114 that is offline or laterally displaced from the well-center 117, where individual tubulars may be assembled together into stands, e.g. a plurality, such as three tubulars together that are then racked into a racking board (such as the double layer racking board 102) for later use or storage. The double layer racking board 102 is described in greater detail below.
In some implementations, drill stands comprise three drill pipe tubulars with a length of about 27-32 feet, such that the drill stands have a length of about 81-90 feet. In some implementations, the drill stands have a length of about 93 feet. Other lengths of drill pipe 106 and stands are contemplated. Casing may also be assembled into stands which may include two casing tubulars 107. In some implementations, the casing 107 tubulars have a length of about 43-45 feet, such that the casing stands have a length about 86-90 feet. Other lengths of casing 107 and stands are contemplated. In some cases, the drill pipe racking board 302 and the casing racking board 304 are set at different heights to accommodate the different lengths of the drill stands and the casing stands. For example, the drill pipe racking board 302 may be placed at a first height A with respect to the drill floor 114 and the casing racking board 304 may be placed at a second height B with respect to the drill floor 114 that is less than the first height A. In some implementations, the first height A of the drill pipe racking board 302 is about from about 86 feet to 90 feet while the second height B of the casing racking board 304 is about 81 to 88 feet. In other implementations, the first height A of the drill pipe racking board 302 is up to about 93 feet while the second height B of the casing racking board 304 is up to about 90 feet. These heights represent an improvement from existing drilling rigs because it is safer and more comfortable for a derrick man to be able to push drill stands or casing stands at chest level without having to bend his back. The double layer racking board 102 allows easy access to both sets of stands without requiring the derrick man to reach or stoop for access. For example, the drill pipe racking board 302 and the casing racking board 304 may be connected with stairs or a ladder to facilitate access to the different levels.
The double layer racking board 102 may provide improved efficiency for a drilling rig as compared to existing drilling systems because it may allow for simultaneous racking of drill pipe 106 and casing 107 on the drilling rig 100. This may allow stands of drill pipe 106 or casing 107 to be assembled or disassembled at the same time as a drilling operation, such as tripping in or out, or running in casing. The capacity to make and rack casing stands while tripping out is performed may reduce casing running time by at least 30%. Furthermore, the double layer racking board may provide for reduction in the amount of time required to run casing to the bottom of the wellbore which in turn may reduce risks from other problems associated with the wellbore (such as ingress of material into the wellbore).
In some implementations, one or more diving boards 306 may be used to access the racking boards 302, 304. The diving boards 306 may be disposed between the drill pipe racking board 302 and the casing racking board 304. In some implementations, the one or more diving boards 306 are vertically movable relative to the double layer racking board 102 (as indicated by the dashed arrows in
A mousehole 119 in the drill floor 114 is also shown in
The drill floor 114 may include a setback area 312. The setback area 312 may provide an area for drill pipe 106 or casing 107 tubulars to be manipulated while being assembled or disassembled into stands, for example, by racking device 305. The racking device 305 may then place the drill pipe 106 or casing 107 stands in the drill pipe racking board 302 or casing racking board 304, respectively. In some implementations, the setback area 312 has sufficient capacity to rack drill pipe 106 and casing 107 simultaneously. This may occur for example, by building doubles of casing while drilling or disassembling the drill string while placing casing in the wellbore.
A diving board 306 is also shown in
With reference to
As shown in
At 814, if the drill string 104 is not fully tripped out of wellbore 116, the method 800 returns to step 806, and the method proceeds from that point. In this way, the drill string 104 is disassembled stand by stand until the entire drill string is tripped out of the wellbore 116. In some implementations, other components such as various subs may also be removed from the drill string 104 as they are tripped out of the well using any appropriate means. Furthermore, BHA 110 and drill bit 112 at the end of drill string 104 may be removed as necessary when the end of drill string 104 is tripped out of the wellbore 116. If at 814 the drill string 104 has been fully tripped out of the wellbore 116, the method 800 ends. At this point, another drilling operation may commence.
Steps 852 begins operation B where it is determined that more drill pipe stands need to be added to drill string 104. A drill pipe stand may be accessed and removed from the drill pipe racking board 302 and moved over well center 117, for example with the use of a racking device as described above.
At 854, the drill pipe stand is positioned over the drill string 104. At 856, the drill pipe stand is connected to the drill string 104. At 858, the drill string 104, now with an added drill pipe stand, is advanced into the wellbore 116.
Moving to decision block 860, if more drill pipe stands need to be added to drill string 104, the method 850 returns to step 854 and proceeds accordingly. If additional drill pipe stands are not needed to be added to the drill string 104, the method 850 ends. At this point, another drilling operation may commence.
Returning to operation C and step 818, when it is determined that casing is needed in wellbore 116, a first casing tubular may be removed from the catwalk. At 820, the first casing tubular may be lowered into the mousehole. In some implementations, equipment such as an automatic racking device may be used to receive the first casing tubular and to move the first casing tubular into the mousehole.
At 822, a second a second casing tubular may be removed from the catwalk. At 824, the second casing tubular may be positioned over the first casing tubular that is already in the mousehole. The casing tubulars may then be connected at 826, for example, with the aid of an iron roughneck.
At 827, if a casing stand has not been completely made-up, the method returns to block 820 and proceeds from that point to provide an additional casing tubular. In this way, a casing stand may be assembled by attaching casing tubulars to each other and lowering the resultant partial casing stand further into the mousehole so that another casing tubular may be added to the top until a casing stand is completed. If at 827 the casing stand has been completed, method 800 progresses to 828.
At 828, the now made-up casing stand is removed, from the mousehole and racked into the casing racking board. In some implementations, this may be done with the aid of a racking device, such as the racking device 305 as shown in
At 829, if more casing stands are needed, the method returns to block 818 and assembly of another casing stand proceeds from that point. If no more stands are needed, the method 810 ends. Other casing operations may proceed at this point. For example, casing may be introduced to the wellbore 116, for example, if the tripping operation beginning at step 804 has been completed.
Here, the method 830 begins with operation D. When it is determined that more drill pipe stands need to be assembled, a first drill pipe tubular may be removed from the catwalk in step 832. At 834, the first drill pipe tubular is lowered into the mousehole. In some implementations, equipment such as an automatic racking device may be used to move the first drill pipe tubular into the mousehole.
At 836, a second drill pipe tubular may be removed from the catwalk. At 838, the second drill pipe tubular may be positioned over the first drill pipe tubular that is already in the mousehole. The second drill pipe tubular may then be connected to the first drill pipe tubular that is already in the mousehole. At 840, this may be done, for example, with the aid of an iron roughneck.
At 842, if a drill pipe stand has not been completed, the method 830 returns to block 836 and proceeds from that point. In this way, a drill pipe stand may be assembled by attaching drill pipe tubulars to each other and lowering the resultant partial drill pipe stand further into the mousehole so that another drill pipe tubular may be added to the top until a drill pipe stand is completed. If at 840 the drill pipe stand has been completed, method 830 progresses to 842.
At 844, the drill pipe stand may be moved from the mousehole 119 and racked into the drill pipe racking board 302. This may be done, for example, with the aid of a racking device that may be an automatic racking device as described above.
At 846, if more drill pipe stands are needed, the method 830 returns to block 832 and assembly of another drill pipe stand may proceed from that point. If no more stands are needed, the method 830 ends. At this point, another drilling operation may commence.
The method 870 is an alternative casing operation which may be performed in method 800 in place of assembling casing stands. Accordingly, the method 870 replaces steps 818-829 of
Beginning from step 802 of method 800 of
At 874, the casing stand is positioned onto a casing string. In a casing string does not yet exist, the first casing stand begins the casing string. At 876, the casing stand is connected to the casing string.
At 878, the casing string, now with an added casing stand, is lowered into the wellbore 116.
At 880, if more casing stands need to be added to casing string, the method 870 returns to step 874 and proceeds accordingly. If no more casing stands need to be added to the casing string, the method 870 moves to 882. At 882, once the casing string is cemented into place to provide casing for the wellbore 116. At this point, another casing operation may commence.
Referring now to all of
In view of all of the above and the figures, one of ordinary skill in the art will readily recognize that the present disclosure introduces a land-based drilling apparatus, including: a drill floor including a well center bore and a mousehole; a mast extending above the drill floor; a double layer racking board connected to the mast, the double layer racking board comprising: a drill pipe racking board including a first plurality of fingers and configured to receive drill pipe tubulars, wherein the drill pipe racking board is disposed at a first height with respect to the drill floor; and a casing racking board including a second plurality of fingers and configured to receive casing tubulars, wherein the casing racking board is disposed at a second height with respect to the drill floor, wherein the first height is greater than the second height.
In some implementations, the drilling apparatus further includes a diving board disposed between the drill pipe racking board and the casing racking board. The diving board may be movable in a vertical direction such that the diving board provides access the drill pipe racking board and the casing racking board. The drilling apparatus may also include a first diving board connected to the drill pipe racking board and a second diving board connected to the casing racking board. The drill pipe racking board may be directly connected to the casing racking board.
In some implementations, the drill pipe racking board and the casing racking board are cantilevered, such an end of the drill pipe racking board and an end of the casing racking board are connected to the mast. The drill pipe racking board and the casing racking board may be independently connected to the mast. The first height of the drill pipe racking board may be between 86 and 90 feet. The second height of the casing racking board may be between 81 and 88 feet. In some implementations, the drill pipe racking board is configured to receive drill pipe stands comprising three drill pipe tubulars, wherein the casing racking board is configured to receive casing stands comprising two casing tubulars.
A method is also provided, which may include: performing a first drilling operation on a land-based drilling rig by introducing or removing drill pipe stands from a wellbore; and performing a second drilling operation on the land-based drilling rig at a same time as the first drilling operation, the second drilling operation comprising introducing or removing casing stands from a casing racking board of the drilling rig, the casing racking board having a first height less than the height of a drill pipe racking board on the land-based drilling rig with respect to a drill floor of the drilling rig.
In some implementations, the first drilling operation is one of tripping in, tripping out, or drilling. The tripping out may include: removing a portion of the drill string from a well bore; removing a plurality of drill pipe stands from the drill string; and introducing the drill pipe stands to the drill pipe racking board. In some implementations, the second drilling operation is one of casing stand make up, casing stand breakdown, or introducing casing stands to well center bore. The casing stand make up may include: introducing a first casing tubular into a mousehole on the drill floor of the drilling rig; positioning a second casing tubular over the first casing tubular; connecting the first and second casing tubulars to form a casing stand; and introducing the casing stand to the casing racking board of the drilling rig.
A double layer racking board of a land-based drilling rig is also provided, including: a drill pipe racking board connected to a mast of the drilling rig, the drill pipe racking board comprising a first plurality of fingers spaced to receive a plurality of drill pipe stands; and a casing racking board connected to the mast of the drilling rig, the casing racking board comprising a second plurality of fingers spaced to receive a plurality of casing stands, wherein the drill pipe racking board is positioned at a first height with respect to a drill floor of the drilling rig, wherein the casing racking board is disposed at a second height with respect to the drill floor, wherein the first height is greater than the second height.
In some implementations, the first plurality of fingers faces the second plurality of fingers. The double layer racking board may further include a diving board disposed between the drill pipe racking board and the casing racking board. The drill pipe racking board and the casing racking board may be cantilevered, such an end of the drill pipe racking board and an end of the casing racking board are connected to the mast. The drill pipe racking board and the casing racking board may be independently connected to the mast.
The foregoing outlines features of several implementations so that a person of ordinary skill in the art may better understand the aspects of the present disclosure. Such features may be replaced by any one of numerous equivalent alternatives, only some of which are disclosed herein. One of ordinary skill in the art should appreciate that they may readily use the present disclosure as a basis for designing or modifying other processes and structures for carrying out the same purposes and/or achieving the same advantages of the implementations introduced herein. One of ordinary skill in the art should also realize that such equivalent constructions do not depart from the spirit and scope of the present disclosure, and that they may make various changes, substitutions and alterations herein without departing from the spirit and scope of the present disclosure.
The Abstract at the end of this disclosure is provided to comply with 37 C.F.R. § 1.72(b) to allow the reader to quickly ascertain the nature of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims.
Moreover, it is the express intention of the applicant not to invoke 35 U.S.C. § 112(f) for any limitations of any of the claims herein, except for those in which the claim expressly uses the word “means” together with an associated function.
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Number | Date | Country | |
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20200308916 A1 | Oct 2020 | US |