BR112019017630B1 - SYSTEM FOR PROVIDING PROTECTION TO ONE OR MORE EXPLORATION WELL COMPONENTS AND METHOD OF INSTALLING THE PROTECTION COMPONENT INSIDE AN EXPLORATION WELL - Google Patents

Abstract

A system includes a housing section (18, 20) positioned within a sump area (14), the housing section (18, 20) also includes a removable sump bushing (50) disposed over at least one engagement feature (28) of the housing section (18, 20). The system also includes a Christmas tree (22) including a treehead area (14), the treehead area (14) including a removable treehead bushing (80) disposed over at least one engagement feature (94) of the treehead area (14). The system also includes a tube (112) extending through the wellhead bushing (50) and the treehead bushing (80), the tube (112) including an installation and removal tool (116) adapted to remove at least one of the wellhead bushings (50) and the treehead bushing (80) during exploration well operations.

Description

CROSS REFERENCE TO RELATED ORDERS

[001] This application claims priority for US Provisional Patent Application No. 62/462,620, entitled “Dual Bit Run Bushing System”, filed on February 23, 2017, incorporated into this disclosure in its entirety by reference.

FUNDAMENTALS OF DISCLOSURE 1. Field of Disclosure

[002] The present disclosure relates, in general, to formation recovery and exploration systems and, more particularly, to hole protection systems.

2. Brief Description of the Related Art

[003] During downhole exploration operations, such as oil and gas drilling, several components may include one or more shoulders or surfaces that interact with associated components. For example, a pipe hanger may include a shoulder or boss that mates with an associated shoulder on the pipe to facilitate downhole recovery operations. In certain cases, these shoulders may be pressure containment or else configured to withstand a large amount of force from the associated equipment and, as a result, a tight fit between the components is desirable to facilitate successful downhole operations. Generally, however, multiple runs of equipment can be run through an exploration well, which can damage or impact shoulders or other areas within the exploration well. In certain systems, a bushing may be installed along a particular section of downhole components in order to at least partially protect one or more areas. However, these bushings are usually installed and removed with separate trips through the exploration well, which greatly increases the cost and time of recovery and exploration operations.

DISCLOSURE SUMMARY

[004] In one embodiment, a system for providing protection to one or more exploration well components includes a housing section positioned within an exploration wellhead area, the housing section comprising a removable wellhead bushing disposed over at least one housing engagement feature. The system also includes a Christmas tree including a treehead area, the treehead area comprising a removable treehead type bushing disposed over at least one engaging feature of the treehead area. The system further includes a pipe extending through both the downhole bushing and the treehead bushing, the pipe including an installation and removal tool adapted to remove at least one of the downhole and treehead bushings during exploration well operations.

[005] In one embodiment, a method of installing a protective component within an exploration well includes positioning the treehead type bushing within a treehead area of a Christmas tree, the treehead type extending along a length of the treehead area to cover at least one surface of the treehead area. The method includes positioning a wellhead bushing within a wellhead area of an exploration well, the Christmas tree being fluidly coupled to the exploration well, and the wellhead bushing extending along a length of the wellhead area to cover at least one surface of the wellhead area. The method also includes moving a tube through the treehead bushing, the tube comprising an installation and removal tool. The method additionally includes attaching the installation and removal tool to the wellhead bushing. The method also includes removing the downhole bushing from the exploration well by passing the downhole bushing through an inside diameter of the treehead bushing.

[006] In one embodiment, a method of installing the protective component within an exploration well includes installing a treehead bushing in an exploration well system, the treehead bushing disposed in a treehead area, and the wellhead bushing disposed in a wellhead area. The method also includes positioning an installation and removal tool next to at least one of the wellbore and treehead bushings, the installation and removal tool being part of a pipe extending into the exploration well. The method further includes attaching the installation and removal tool to at least one of the treehead and wellbore bushings. The method also includes removing at least one of the treehead and wellhead bushings from the exploration well by means of the installation and removal tool.

BRIEF DESCRIPTION OF THE FIGURES

[007] So that the manner in which the characteristics, advantages and objectives of the disclosure, as well as others that will become apparent, are achieved and can be understood in more detail, a more particular description of the disclosure briefly summarized above can be made by reference to the modality of the same that is illustrated in the attached figures, which figures form a part of this descriptive report. It should be noted, however, that the figures illustrate only one preferred mode of disclosure and, therefore, should not be considered limiting its scope, since the disclosure may admit other equally effective modalities.

[008] Figure 1 is a schematic cross-sectional view of an embodiment of an exploration well system with a pair of bushings, in accordance with embodiments of the present disclosure;

[009] Figure 2 is a schematic cross-sectional view of an embodiment of a wellhead area, in accordance with embodiments of the present disclosure;

[010] Figure 3 is a schematic cross-sectional view of one embodiment of a treehead area, in accordance with embodiments of the present disclosure;

[011] Figure 4 is a schematic cross-sectional view of one embodiment of an exploration well system, in accordance with embodiments of the present disclosure;

[012] Figure 5 is a schematic cross-sectional view of one embodiment of an exploration well system including a casing hanger, in accordance with embodiments of the present disclosure;

[013] Figure 6 is a schematic cross-sectional view of an embodiment of a wellhead area including a wellhead casing and bushing system, in accordance with embodiments of the present disclosure;

[014] Figure 7 is a schematic cross-sectional view of one embodiment of an exploration well system, in accordance with embodiments of the present disclosure;

[015] Figure 8A is a schematic cross-sectional view of one embodiment of an exploration well system, in accordance with embodiments of the present disclosure;

[016] Figure 8B is a schematic cross-sectional view of one embodiment of an exploration well system, in accordance with embodiments of the present disclosure;

[017] Figure 8C is a schematic cross-sectional view of one embodiment of an exploration well system, in accordance with embodiments of the present disclosure;

[018] Figure 8D is a schematic cross-sectional view of one embodiment of an exploration well system, in accordance with embodiments of the present disclosure;

[019] Figure 8E is a schematic cross-sectional view of one embodiment of an exploration well system, in accordance with embodiments of the present disclosure;

[020] Figure 8F is a schematic cross-sectional view of an embodiment of an exploration well system, in accordance with embodiments of the present disclosure;

[021] Figure 8G is a schematic cross-sectional view of an embodiment of an exploration well system, in accordance with embodiments of the present disclosure;

[022] Figure 9 is a flowchart of an embodiment of a method for installing bushings in an exploration well system, in accordance with embodiments of the present disclosure; It is

[023] Figure 10 is a flowchart of an embodiment of a method for installing bushings in an exploration well system, in accordance with embodiments of the present disclosure.

DETAILED DESCRIPTION OF THE PREFERRED MODALITY

[024] The foregoing aspects, features and advantages of the present disclosure will be further appreciated when considered with reference to the following description of embodiments and attached figures. In describing the embodiments of the disclosure illustrated in the accompanying figures, specific terminology will be used for the sake of clarity. However, the disclosure is not intended to be limited to the specific terms used, and it is to be understood that each specific term includes equivalents that operate in a similar manner to accomplish a similar purpose.

[025] When elements of various embodiments of the present disclosure are introduced, the articles "a", "an", "the", "the", "said" and "said" are intended to mean that there is (are) one or more of the elements. The terms "comprising", "including" and "with" are intended to be inclusive and mean that there may be additional elements other than the listed elements. Any examples of operational parameters and/or environmental conditions are not exclusive to other parameters/conditions of the disclosed embodiments. Additionally, it is to be understood that references to "an embodiment", "an embodiment", "certain embodiments" or "other embodiments" of the present disclosure are not to be construed as excluding the existence of additional embodiments that also embody the enumerated features. In addition, references to terms such as "above", "below", "superior", "inferior", "lateral", "front", "posterior" or other terms relating to orientation or direction are made with reference to the embodiments illustrated and are not intended to limit or exclude other orientations or directions.

[026] The embodiments of the present disclosure are directed to systems and methods to facilitate the protection of exploration well components. In various embodiments, one or more bushings can be installed at different locations within the exploration well to protect surfaces, such as sealing surfaces or threads, from potential damage due to the installation of tools within the exploration well. For example, a treehead bushing can be installed in a treehead area to protect portions of a Christmas tree from damage caused by travel in and out of the exploration well. Additionally, wellhead bushings can be installed in areas of the wellhead to protect components within the wellhead, such as load bearing bosses. In several embodiments, an outside diameter of the wellhead bushing is smaller than an inside diameter of the treehead bushing, thereby allowing installation and removal of the wellhead bushing without removing the treehead bushing. As a result, multiple exploration well runs can be reduced, thereby reducing the costs and time associated with exploration well operations. In various embodiments, an exploration well tube may be installed within the installation well that includes one or more installation and removal tools. These tools can be used to engage bushing components to facilitate installation and removal through axial movement along an exploration well axis. In certain embodiments, the assembly of the installation and removal tools may be particularly selected to engage both the treehead bushing and the wellhead bushing at approximately the same time (e.g., without changing the axial position of the pipe) or with little delay between engagement. Consequently, the bushings can be removed at the same time, thereby reducing the number of trips down the exploration well to retrieve the bushings. It should be noted that the systems and methods of embodiments disclosed in this document can be used to remove and/or install one or more bushings while reducing a number of trips in the exploration well.

[027] Figure 1 is a schematic cross-sectional side elevation view of an exploration well system 10 including a wellhead area 12 and a treehead area 14. In the illustrated embodiment, the exploration well system 10 includes a platform 16 and the wellhead area 12 includes a low pressure housing 18 and a high pressure housing 20. The system 10 further includes a Christmas tree 22 forming at least a portion of the area of treehead 14. As illustrated, the wellhead area 12 extends into an exploration well 24 formed in a formation 26. It should be noted that the embodiments of the present disclosure may be utilized in both subsea and onshore exploration and production operations.

[028] In various embodiments, the treehead area 14, the wellhead area 12 and the like may include one or more areas that may receive other components associated with the exploration well system 10. For example, shoulders, notches, threads, grooves and the like may be arranged along an internal hole to facilitate coupling with other components. In the illustrated embodiment, the wellhead area 12 includes a shoulder 28, which may, in various embodiments, be used to receive a casing hanger, a pipe hanger, or the like. Additionally, in the illustrated embodiment, the wellhead area 12 includes struts 30 disposed on the borehole surface of the shoulder 28. As will be seen, during exploration well operations, tools can be installed through the Christmas tree 22 and into the exploration well 24. These tools may include components with hard edges, such as drill bits, which can damage the shoulder 28 and/or the struts 30. As a result, later operations utilizing these features may be unsuccessful. s as a sealing surface or the like can be damaged by tools. Similar features are also illustrated in the treehead area 14, such as notches 32 formed along the hole. As will be described below, systems and methods of the present disclosure are aimed at bushings to protect these tooling components while also reducing the number of trips to install and remove the bushings.

[029] Figure 2 is a schematic cross-sectional side elevation view of one embodiment of the wellhead area 12 including the low pressure housing 18 and the high pressure housing 20. As described above, the wellhead area 12 includes a plurality of features, such as the shoulder 28, and the slings 30, which can be used to connect or otherwise interact with different components within the system 10. Since these components can provide a load bearing surface or For sealing purposes, the illustrated embodiment includes a wellhead bushing 50 positioned within a hole 52 of the wellhead area 12. The illustrated wellhead bushing 50 extends a length 54 and, in the embodiment shown in Figure 2, covers the shoulder 28 and the studs 30. However, it should be noted that the length 54 of the wellhead bushing 50 may vary based on operating conditions, the size of the wellhead area 12 , in hole size 52, and the like.

[030] In the illustrated embodiment, the wellhead bushing 50 has an inside diameter 56 that is smaller than an inside diameter 58 of the hole 52. Consequently, tools and other equipment that extend through the wellhead bushing 50 will have a diameter no greater than the diameter of the wellhead bushing 56. In certain embodiments, the wellhead bushing 50 may include one or more catches to facilitate connection to an installation and recovery tool. For example, catches can engage and/or disengage through rotation of the installation and retrieval tool. Accordingly, the wellhead bushing 50 can be inserted or withdrawn from the exploration well 24 as required. Furthermore, the wellhead hose 50 can be replaced if it becomes damaged or rendered inoperable.

[031] In various modalities, the well -mouth bushing can be positioned in particularly selected locations within the well -locked mouth area. For example, the 52 hole may include a 60 -grooving 62 nullity grooving from the well -to -doller mouth. Desired location. Furthermore, in the illustrated embodiment, the retaining features 64 are disposed downhole from the downhole bushing 50. The retaining features 64 may at least partially form the shoulder 28, in the illustrated embodiment, which may be used to hold the wellhead bushing 50 in place and block axial movement in at least one direction. Additionally, the boss 28 can provide an indication to an operator when the wellhead bushing 50 is positioned in the targeted location. Accordingly, the wellhead bushing 50 can be disposed within the area of the wellhead 12 to protect certain components from potential damage during further exploration well operations.

[032] Figure 3 is a schematic side elevation view of one embodiment of the treehead area 14 including a treehead type bushing 80. In the illustrated embodiment, the treehead area 14 is towards an upper portion 82 of the Christmas tree 22. In certain embodiments, one or more tools can be sent through the Christmas tree 22, past the treehead area 14, and into the exploration well 24. As a result, the interior surfaces of a hole in the treehead bushing 84 may be susceptible to damage from tools as they are shipped in and out of exploration well 24. The illustrated treehead bushing 80 is disposed within bore 84 to protect surfaces and/or features.

[033] In the illustrated embodiment, the treehead bushing 80 includes a hole 86 with an inside diameter 88 that is smaller than an inside diameter 90 of the hole 84. As a result, tools that extend through the treehead area 14 will have a diameter that is no larger than the treehead bushing hole 86. As described above, in various embodiments, the treehead bushing 80 may include a catch or feature to facilitate coupling to an installation tool and removal, for example by turning the tool, implementing clamps or the like.

[034] In various embodiments, the treehead bushing 80 is placed on a shoulder 92 within the treehead area 14 and/or includes one or more retention features 94 that extend outwardly into a groove 96 formed within the treehead area 14. As a result, the treehead bushing 80 can be installed within the treehead area 14 and lateral movement along an exploration well axis can be limited or otherwise blocked by at least one direction. That is, the treehead bushing 80 can remain substantially in place once installed until the installation and removal tool is used to remove the treehead bushing 80 from the treehead area 14. Consequently, the inner hole 86 can be protected during trips through the Christmas tree 22.

[035] Figure 4 is a schematic side elevation view of an embodiment of the exploration well system 10 including the wellhead bushing 50 and the treehead type bushing 80 installed within the wellhead area 12 and the treehead area 14, respectively. As described above, the position of respective 50, 80 allows tools to be sent in and out of exploration well 24 while providing protection to certain interior components. In the illustrated embodiment, a drill bit 110 on a drill string 112 is lowered into the wellbore. The drill bit 110 is through the wellhead bushing 50 and has passed through the treehead bushing 80, in the illustrated embodiment. As shown, an outside diameter 114 of the drill string 112 is less than the diameter 88 of the treehead bushing 80 and less than the diameter 56 of the wellhead bushing 50. Consequently, the drill string 112 can pass freely into the exploration well 24.

[036] In various embodiments, the drill string 112 additionally includes an installation and removal tool 116. Consequently, one or more of the wellhead bushing 50 and/or the treehead bushing 80 can be removed or moved several times during drilling operations. For example, the wellhead bushing 50 can be removed after drilling operations are completed. By removing or moving the dowels 50, 80 in the same trip that the drill bit 110 is disposed within the exploration well 24, at least one trip in and out of the exploration well 24 can be eliminated, thereby reducing the time and costs associated with carrying out exploration well operations.

[037] It should be noted that, in various embodiments, an outside diameter of the wellhead bushing 50 may be smaller than the diameter 88 of the treehead bushing 80. Accordingly, the wellhead bushing 50 can be removed through the opening of the treehead bushing 80 without removing the treehead bushing 80. treehead type 80 so that the removal of the wellhead bushing 50 is accompanied by the removal of the treehead type bushing 80.

[038] Figure 5 is a schematic cross-sectional side elevation view of an embodiment of the exploration well system 10 in which the wellhead bushing 50 is removed while the treehead bushing 80 remains in place in the treehead area 14. As described above, in various embodiments, the installation and removal tool 116 can be used to remove one or both of the illustrated bushings 50, 80 during different stages of exploration well operations. In the illustrated embodiment, the wellhead bushing 50 can be removed through the treehead bushing 80 due to the difference in diameters, as described above. By keeping the treehead bushing 80 in place, the treehead hole 84 is protected from bumps or scratches when other equipment is sent into the exploration well 24, such as the casing lifter 130 illustrated. In the illustrated embodiment, the casing hanger 130 has an outside diameter 132 that is smaller than the diameter 88 of the treehead bushing 80, thereby facilitating passage into the exploration well 24. As shown, the casing hanger 130 is positioned next to the high pressure housing 20, close to the location where the wellhead bushing 50 previously protected features associated with the high pressure housing 20. Consequently, the shoulder 66 it positioned previously in place, the manhole bushing 50 can now be used to retain the casing hanger 130. Advantageously, the manhole bushing 50 may have protected the boss 66 from damage during other operations, thereby maintaining the integrity of the seal between the casing hanger 130 and the boss 28.

[039] Figure 6 is a schematic cross-sectional side elevation view of an embodiment of the exploration well system 10 in which a wellhead protection bushing 140 is installed next to the casing hanger 130 in order to protect one or more shoulders 142 of the casing hanger 130. In various embodiments, the bushings described in this document can be used to protect additional components installed inside the exploration well 24, such as the casing hanger 130 illustrated. In the illustrated embodiment, the manhole shield 140 extends at least partially into the casing hanger hole 130 and also along the manhole hole 52. As such, multiple components can be protected, via insulation, from running tools extending through the exploration shaft 24.

[040] In various embodiments, the installation and removal tool 116 is sent into the exploration well 24 with the wellhead protection bushing 140. The wellhead protection bushing 140 illustrated has an outside diameter 144 smaller than the diameter 88 of the treehead bushing 80, thereby allowing installation without removing the treehead bushing 80. In operation, the wellhead protection bushing 140 is coupled to the installation and removal tool 116 (for example, by means of clamps that engage the receptacles on an interior portion of the bushing 140) and lowered into the exploration well 24. Upon reaching the casing hanger 130, the installation and removal tool 116 disengages from the wellhead protection bushing 140. In various embodiments, the wellhead protection bushing 140 rests on the shoulder 142, thereby limiting ing axial movement of the wellhead guard bushing 140 in at least one direction. Consequently, downhole operations can begin, such as drilling, while the casing hanger 130 is in position and protected from potential damage due to tools traveling in and out of the exploration well 24. In the illustrated embodiment, the second outside diameter 146 of the casing hanger 130 is less than at least one first inside diameter 148 of the casing hanger 130. Consequently, the likelihood of the downhole tools slipping or tipping towards the casing hanger 130 is less. is reduced, which additionally protects the casing lifter 130.

[041] Figure 7 is a schematic cross-sectional side elevation view of an embodiment of the exploration well system 10 in which the treehead type bushing 80 and the wellhead protection bushing 140 are engaged with an independent installation and removal tool 116a, 116b to facilitate removal of the exploration well 24. In various embodiments, the location of the installation and removal tools 116a, 116b can be particularly selected along of the drill string 112 in order to remove the bushings 80, 140 in a predetermined order. Furthermore, in the embodiments, the location can be particularly selected to remove the bushings 80, 140 at approximately the same time. For example, the dowels 80, 140 can be engaged by means of installation and removal tool clamps 116a, 116b that are deployed as the drill string 112 rotates. Consequently, aligning the tools 116a, 116b to deploy the clamps approximately simultaneously can simplify removal of the respective dowels 80, 140.

[042] Figures 8A-8G illustrate a sequence for installing and removing various bushings 50, 80 and 140 from the exploration well 24. Figure 8A illustrates the exploration well system 10 including both the wellhead bushing 50 and the treehead bushing 80. In various embodiments, one or more of the wellhead bushings 50 and the treehead bushing 80 can be pre-installed prior to interaction with the well 24. That is, when the high pressure housing 20 is shipped to the exploration well 24, there may also be the wellhead bushing 50 installed. Consequently, at least one trip to exploration well 24 can be saved, thereby reducing the cost and time associated with drilling operations. Figure 8B illustrates an exploration well operation, such as a drilling operation through the drill string 112 and the drill bit 110 starting through the exploration well 24. As illustrated, the bushings 50, 80 remain in place to block potential damage to one or more surfaces due to the installation of the drill string 112. In the illustrated embodiment, the installation and removal tool 116 is coupled to the drill string 112. Figure 8C illustrates the drill string 112. drill hole 112 being removed from exploration well 24 and removing the wellhead bushing 50 as the drill bit 110 is removed from the exploration well 24. In several embodiments, the installation and removal tool 116 engages the wellhead bushing 50 so that the wellhead bushing 50 is moved axially within the exploration well 24 along with the drill string 112. 8D illustrates the installation of additional exploration well components, which in this embodiment is the casing hanger 130. As described above, the casing hanger can be installed through the treehead bushing 80, thereby eliminating the need to remove the treehead bushing 80 before conducting further downhole operations.

[043] Figure 8E illustrates the installation of the wellhead protection bushing 140 close to and partially extending in the casing hanger 130. It should be noted that, in certain embodiments, the wellhead protection bushing 140 can be installed on the same trip in the exploration well 24 as the casing hanger 130. Additionally, in the embodiments, the wellhead protection bushing 140 is installed during a separate journey in the exploration well 24. As described above, the wellhead guard bushing 140 may be installed to at least partially protect the surfaces of the casing hanger 130 during travel in and out of the exploration well 24. Figure 8F illustrates a downhole operation within the exploration well 24, such as a drilling operation, as described above. As illustrated, both the treehead bushing 80 and the wellhead bushing 140 remain in place as the drill bit 110 is brought into the exploration well 24 and drilling operations are performed. Figure 8G illustrates the removal of the treehead bushing 80 and the wellhead bushing 140. As described above, in certain embodiments, the drill string 112 includes a pair of installation and removal tools 116 that allow simultaneous or nearly simultaneous removal of the bushings 80, 140. However, it should be noted that, in other embodiments, the bushings 80, 140 can be removed in any order and can also be removed individually. Furthermore, the locations of respective installation and removal tools 116 can be alternated so that one of the bushings 80, 140 is particularly removed or dismounted while the other remains in place. In this manner, the number of trips in exploration well 24 can be reduced while maintaining protective coverings over multiple components within the exploration well.

[044] Figure 9 is a flowchart illustrating a method 160 for installing a pair of bushings within an exploration well. It should be noted that the method steps may be performed in parallel or in a different order, unless explicitly stated otherwise. In several embodiments, the treehead bushing 80 is installed within the treehead area 14 (block 162). This installation can be performed before attaching the Christmas tree 22 to the exploration well 24 or it can be performed after the Christmas tree 22 is in place. Additionally, in several embodiments, the method includes installing the wellhead bushing 50 (block 164). Similar to the treehead type bushing 80, the wellhead bushing 50 can be installed either before the housing is installed into the exploration well 24 or afterwards. Furthermore, embodiments of the method include performing downhole operations through each of the bushings 50, 80 (block 166). Downhole operations can include drilling, logging, penetration, recovery and the like. Then at least one of the bushings 50, 80 is removed (block 168). In several embodiments, the wellhead bushing 50 is removed, for example, by means of the installation and removal tool 116. Further, in the embodiments, the treehead bushing 80 is removed while the wellhead bushing 50 remains in position. Additionally, in certain embodiments, both the wellhead bushing 50 and the treehead bushing 80 can be removed. As described above, in certain embodiments, the bushings 50, 80 can be removed simultaneously or nearly simultaneously. That is, the bushings 50, 80 can be removed on the same trip out of exploration well 24. In this way, operations inside well 24 can be conducted while two bushings are present, thereby reducing the likelihood of damage to downhole components during journeys into and out of exploration well 24.

[045] Figure 10 is a flowchart of an embodiment of a method 180 for installing one or more bushings within an exploration well system 10. In several embodiments, the treehead type bushing 80 is installed in the treehead area 14 (block 182) and the wellhead bushing 50 is installed in the wellhead area 12 (block 184). As described above, in various embodiments, one or more of the bushings 50, 80 may be installed prior to coupling the associated equipment. That is, the bushings 50, 80 can be installed before attaching the Christmas tree 22 and/or the high pressure housing 20 to other equipment. Exploration well operations can be carried out after bushings 50, 80 are in place (block 186). These operations may include drilling or the like, as described in detail above. Thereafter, the wellhead bushing 50 can be removed (block 188). For example, in several embodiments, the wellhead bushing 50 can be removed through the treehead bushing 80 to make room for other equipment. For example, in several embodiments, the associated downhole equipment can be installed in place of the wellhead bushing 50 (block 190). In the embodiments illustrated herein, the associated downhole equipment may include the casing hanger 130. Then the wellhead bushing 140 may be installed (block 192). Installation can be performed through the treehead bushing 80, thereby reducing a trip to the exploration well to remove the treehead bushing 80. After that, further exploration well drilling operations can be performed (block 194). Then at least one of the bushings 50, 140 can be removed (block 196). In certain embodiments, the bushings 50, 140 are removed simultaneously or nearly simultaneously. In other embodiments, one or more installation or removal tools 116 can be alternated in a particularly arranged manner in order to remove bushings 50, 140 separately. In this way, downhole operations can be conducted with a reduced risk of damaging associated equipment while also reducing a number of trips to install and/or remove bushings.

[046] Although the embodiments of the disclosure have been shown or described only in some of its forms, it will be evident to those skilled in the art that it is not so limited, but is susceptible to various changes without departing from the scope of the disclosure.

Claims (19)

1. System for providing protection to one or more exploration well components, the system characterized in that it comprises: a housing section (18, 20) positioned within a wellhead area (12), the housing section (18, 20) comprising a removable wellhead bushing (50) disposed over at least one engagement feature (28, 64) of the housing section (18); a Christmas tree (22) including a treehead area (14), the treehead area (14) comprising a removable treehead type bushing (80) disposed over at least one engagement feature (94) of the treehead area (14); and a tube (112) extending through both the manhole bushing (50) and the treehead bushing (80), the tube (112) including an installation and removal tool (116) adapted to remove at least one of the manhole bushings (50) and the treehead bushing (80) during exploration well operations. 2. System according to claim 1, characterized in that it additionally comprises: a wellhead protection bushing (140) installed within the wellhead area, the wellhead protection bushing (140) positioned to protect at least a portion of the housing section (18). 3. System according to claim 1, characterized in that it additionally comprises: a protrusion (62, 94) formed in at least one of the wellhead bushings (50) and the treehead bushing (80), the protrusion (62, 94) fitted with a groove (60, 96) formed in at least one of the wellhead area (12) and the treehead area (14) to attach to at least one of the wellhead bushing (50) and the treehead bushing (80) into position. 4. System according to claim 1, characterized in that it additionally comprises: a shoulder (28) arranged in the wellhead area (12), the shoulder (28) positioned to receive the wellhead bushing (50) and block the axial movement of the wellhead bushing (50) in at least one direction. 5. System, according to claim 1, characterized in that an internal diameter (88) of the treehead bushing (80) is greater than an external diameter (56) of the wellhead bushing (50) so that the wellhead bushing (50) can cross the internal diameter (88) of the treehead bushing (80). 6. System according to claim 1, characterized in that it further comprises: a second installation and removal tool (116) arranged in the tube (112), in which the installation and removal tool (116) and the second installation and removal tool (116) are configured to engage a respective treehead type bushing (80) or well mouth bushing (50) and remove the respective treehead type bushing (80) and the wellhead bushing (50) ) from the exploration well (24) at substantially the same time. 7. System according to claim 1, characterized in that it additionally comprises: a wellhead protection bushing (140) positioned within the wellhead area (12), in which the wellhead protection bushing (140) is installed through an internal diameter (88) of the treehead type bushing (80). 8. System according to claim 1, characterized in that the tube (112) is a drill string comprising a drill bit (10). 9. Method of installing the protective component within an exploration well, the method characterized in that it comprises: positioning a treehead bushing (80) within a treehead area (14) of a Christmas tree (22), the treehead bushing (80) extending along a length of the treehead area (14) to cover at least a portion of a surface of the treehead area (14); positioning a wellhead bushing (50) within a wellhead area (12) of an exploration well (24), the Christmas tree (22) being fluidly coupled to the exploration well (24), and the wellhead bushing (50) extending along a length of the wellhead area (12) to cover at least one surface of the wellhead area (14); moving a tube (112) through the treehead bushing (80), the tube (112) comprising an installation and removal tool (116); coupling the installation and removal tool (116) to the wellhead bushing (50); and removing the wellhead bushing (50) from the exploration well (24) by passing the wellhead bushing (50) through an inside diameter (88) of the treehead bushing (80). 10. Method according to claim 9, characterized in that it further comprises: installing a downhole component (130) into the exploration well (24) after the wellhead bushing (50) is removed from the exploration well (24), the downhole component (130) being disposed within the wellhead area (12); and installing a downhole bushing (140) into the well surface of the downhole component (130), the downhole bushing (140) being installed through the inside diameter (88) of the treehead bushing (80) and positioned to cover at least a portion of the downhole area (12) and a portion of the downhole component (130). 11. Method according to claim 10, characterized in that it additionally comprises: attaching a second installation and removal tool (116) to the tube (112); arrange the installation and removal tool (116) close to the wellhead protection bushing (140); arrange the second installation and removal tool (116) next to the treehead bushing (80); engaging both the wellhead protection bushing (140) and the treehead bushing (80) while maintaining an axial position of the tube (112); and removing both the treehead bushing (80) and the wellhead bushing (140) from the exploration well (24). 12. Method according to claim 10, characterized in that it additionally comprises: attaching a second installation and removal tool (116) to the tube (112); arrange the installation and removal tool (116) close to the wellhead protection bushing (140); engage the well mouth protection bushing (140) by means of the installation and removal tool (116); arrange the second installation and removal tool (116) next to the treehead bushing (80); engaging the treehead bushing (80) through the second installation and removal tool (116); and removing both the treehead bushing (80) and the wellhead bushing (140) from the exploration well (24). 13. Method according to claim 9, characterized in that it additionally comprises: attaching a second installation and removal tool (116) to the tube (112); arrange the installation and removal tool (116) next to the wellhead bushing (50); arrange the second installation and removal tool (116) next to the treehead bushing (80); engaging both the wellhead bushing (50) and the treehead bushing (80) while maintaining an axial position of the pipe (112); and removing both the treehead bushing (80) and the downhole bushing (50) from the exploration well (24). 14. Method according to claim 9, characterized in that it further comprises: attaching a second installation and removal tool (116) to the tube (112); arrange the installation and removal tool (116) next to the wellhead bushing (50); engaging the wellhead bushing (50) by means of the installation and removal tool (116); arrange the second installation and removal tool (116) next to the treehead bushing (80); engaging the treehead bushing (80) through the second installation and removal tool (116); and removing both the treehead bushing (80) and the downhole bushing (50) from the exploration well (24). 15. Method according to claim 9, characterized in that it further comprises: attaching a drill bit (110) to the tube (112); installing the drill bit (11) into the exploration well (24), wherein the drill bit (11) passes through both the treehead bushing (80) and the wellhead bushing (50); and carry out drilling operations inside the exploration well (24). 16. Method of installing the protective component within an exploration well characterized in that the method comprises: installing a treehead type bushing (80) and a wellhead bushing (50) in an exploration well system (10), the treehead type bushing (80) arranged in a treehead area (14) and the wellhead bushing (50) arranged in a wellhead area (14); positioning an installation and removal tool (116) next to at least one of the treehead bushings (80) and the wellhead (50), the installation and removal tool (116) being part of a tube (112) that extends into the exploration well (24); coupling the installation and removal tool (116) to the wellhead bushing (50); and removing the wellhead bushing (50) from the exploration well (24) by means of the installation and removal tool (116) through an inside diameter of the treehead bushing (80) while the treehead bushing remains in the treehead area (14); install a downhole component through the inside diameter of the treehead bushing; and installing a downhole bushing proximate the downhole component, the downhole bushing covering at least a portion of a housing and at least a portion of the downhole component. 17. Method, according to claim 16, characterized in that it further comprises: positioning the installation and removal tool (116) close to the treehead type bushing (80); coupling the installation and removal tool (116) close to the treehead type bushing (80); and removing the treehead bushing (80) from the treehead area (14) while the wellhead protection bushing (50) is in the exploration well (50). 18. Method according to claim 16, characterized in that it further comprises: installing a tube (112) through both the treehead bushing (80) and the wellhead bushing (50), wherein the tube (112) comprises a drill string with a drill bit (110). 19. Method, according to claim 16, characterized in that it further comprises: simultaneously removing both the treehead bushing (80) and the wellhead bushing (50) from the exploration well (24), in which removal comprises changing an axial position of the treehead bushing (80) and the wellhead bushing (50).