Patent Application
20170175457
The present invention relates to a method and a system for performing several well activities, comprising a main platform with a main drilling unit with a drill floor and equipped with several distributed well centers on a wellhead spread.
In particular, the invention relates to a system for performing well operations in a plurality of hydrocarbon wells of a wellhead cluster, which system comprises a main drilling rig comprising a main drilling unit displaying a drill floor and comprising a drilling and hoisting system arranged to operate on the drill floor about a well center, wherein the main drilling unit is positioned at least partially vertically above the wellhead cluster enabling the drilling and hoisting system to perform well operations in the plurality of hydrocarbon wells.
The invention also relates to a related method of performing well operations in a plurality of hydrocarbon wells of a wellhead cluster.
In this application, the term “wellhead cluster” is used to denote a plurality of wellheads which are located on a common wellhead template, e.g. on a wellhead jacket platform or a wellhead spread, or within a limited geographical area without necessarily being located on a common wellhead template.
This invention relates to a novel method for well operations. More specifically, this invention relates to a method and apparatus for conducting simultaneous operations on several wells by utilizing one main drilling unit with several secondary drilling units, also known as “drilling pods”, positioned on distributed well centers. This can also be defined as Multi-well drilling, from one drilling unit.
For development drilling, multiple wells will normally be drilled from one platform or area. On shallow water drilling, wellhead jacket platforms are normally used. For some wellhead jackets it is normal to use a drilling module placed on an x-y skid module for moving between the different wells. For wellhead jacket platforms without drilling module or if the platform drilling module is removed after the wells are finished, or the drilling module is not fit for further use due to different reasons (regulations, certification, low efficiency), the use of a main drilling rig, such as a jack-up rig, may be a solution for further drilling, workover or plugging the wells on this platform.
This invention is intended to increase the efficiency of the work by being able to work on several wells at the same time by use of one main drilling unit positioned on an elevated drilling floor of the main drilling rig and one or several smaller secondary drilling units, or “drilling pods”, positioned on the wellhead jacket platform, and by this method reduce the time and cost for each well.
This invention uses two or more separate and independent secondary drilling units, which will also be referred to as “drilling pods” in the following description, comprising short hoisting masts situated on the different wells supported by a main drilling unit with an elevated drill floor such as a jack-up rig. The elevated drill floor can skid above the drilling pods and assist to improve efficiency or increase capacity of some operations like; trip in and out with drill pipe, run or pull large casings/tubings/conductors. The elevated drill floor can be equipped with large storage capacity and allow for offline activities.
A large main drilling rig, e.g. a jack-up rig with drill floor on the cantilever or an elevated drilling module, with reach to all or a portion of the well slot positions, is required to enable increased efficiency for the overall operation. The main drilling unit can handle the installation, and support the operation of the secondary drilling units or “drilling pods” with; accommodation, power, air, water, hydraulics, mud, cement, cuttings handling, bop control fluid and drain fluid handling in addition to tubular and well tools logistics. The drilling control system for the elevated main drilling rig can be arranged to take over the control for each secondary drilling unit or “drilling pod”. The elevated drill floor of the main drilling rig can have separate operation rooms from where the support of the secondary drilling units, or “drilling pods”, can be coordinated. Service companies can assist the simultaneous well operations from the drilling areas on the drilling unit or the wellhead deck or surroundings.
Each of the secondary drilling units, or “drilling pods”, can have its own driller/operator cabin, where full control of the operation shall be possible. The secondary drilling units can be made such as they are optimized for their intended purpose with an optimal footprint, height and weight allowing close by operations as well as easy mobilization by the main drilling unit on to the wellhead deck. Only a few lifts can be required to enable fast rig up of the secondary drilling units. The secondary drilling units can be able to trip to the specified depth, drill, ream, circulate and set plugs as a normal drilling rig as well as facilitating for other well operations such as wireline, coiled tubing, snubbing, etc. The BOP can be placed in the substructure of the secondary drilling units, and the kill and choke lines can be connected back to the main drilling unit by high pressure hoses. The main drilling unit as well as the secondary drilling units shall meet governmental regulations and international regulations for the equipment.
The above described main drilling unit and the secondary drilling units, or “drilling pods”, can be able to skid independently between well slots and work independently in a planned pattern to obtain high efficiency for the work. By planning the well sequence, it can be possible that only one drilling unit at the time is working in the reservoir section. For some periods the main drilling unit can perform well operations adjacent to the secondary drilling units such as pulling and laying out conductors, which has already been cut below ground. At the same time the two or more secondary drilling units can be working on other wells. Even with two secondary drilling units this enables up to three well operations at the same time supported from one main drilling rig.
It may also be possible to initiate other well operations such as wireline operations or coiled tubing operations on wells not being operated on by the second drilling units, or “drilling pods”, in order to perform well killing, intervention or similar. If the main drilling rig needs repositioning to reach all wells on the wellhead spread, such operations may provide operational progress on the wells program until the weather allows the moving of the main drilling rig to a new position with an extended coverage of the wellhead spread platform.
By including other well service equipment and services such as wireline units, coil tubing units or more than two secondary drilling units, further efficiency can be achieved. The method according to the invention can be used for drilling, completion, intervention, plug and abandonment and other well operations. The space and capacities of the main drilling unit may be limiting the number of simultaneous operations which can be possible.
The operating concept of drilling from two drill floors at different elevations in the same well and on several wells simultaneously can ideally be realised by using a jack-up rig as a main drilling rig, but can alternatively be realised by using an elevated drilling rig on a fixed offshore installation or use of a land rig on elevated skid beams or similar as well as on subsea wells using a mobile offshore drilling rig, drill ship, drill barge or similar positioned above secondary drilling units, or “drilling pods”, situated below the main drilling rig.
The secondary drilling units can either be operated locally by an operator working at the secondary drilling unit or remotely from the main drilling rig.
It is a specific object of the invention to provide a novel method and apparatus utilizing a main drilling rig to support the operation of several well centers. The new idea of using two or more secondary drilling units optimized for size and weight supported from the main drilling unit of the main drilling rig with the necessary utilities, and to be able to position the main drilling unit directly above the secondary drilling units or drilling pods to assist with heavy lifts and long trips, compensating for the limited capabilities built into the secondary drilling units. The combination of the secondary drilling units and main drilling unit will by this obtain a considerably higher efficiency than the traditional drilling rig alone and will be able to work on simultaneous wells located on a relative narrow wellhead spread area.
It is another object of the invention to provide a novel method and apparatus for drilling several wells simultaneously by use of smaller secondary drilling units or pods assisted by an elevated high spec main drilling unit to increase the efficiency of the total operation by performing tubular operations in the bigger derrick of the main drilling unit and performing other well operations using the smaller secondary drilling units.
It is a related object of the invention to provide a novel drilling method and apparatus where the distributed well centers can be utilized to reduce the time consequence of equipment breakdown as progress can still be made with a functional secondary drilling unit or pod or the main drilling unit, and thus enhancing the reliability of the operation.
It is a further object of the invention to provide a novel drilling method and apparatus for shallow water drilling from a jack-up where the distributed well centers can be used to reduce the need to wait for a weather window for reposition the jack-up as the secondary drilling units or pods may be skidded beyond the reach of the jack-up and be used to continue well operations as well as tubular operations on such wells.
It is also an object of the invention to provide a novel drilling method and apparatus for drilling from a fixed offshore installation or land rig where the distributed well centers can be used to reduce time and cost for field development and well decommissioning (Plug & Abandonment).
The system according to the invention is characterised in that a plurality of secondary drilling units, each comprising its own drilling equipment for performing drilling operations, are positioned on the wellhead cluster below the main drilling unit for performing well operations in the plurality of hydrocarbon wells, wherein the main drilling unit and at least one of the plurality of secondary drilling units are arranged for performing alternating well operations in at least one of the plurality of hydrocarbon wells.
The main drilling unit may have a well operations capacity in at least one of said well operations which is higher than the well operations capacity of said at least one of the plurality of secondary drilling units.
The system may comprise at least one umbilical running from the main drilling unit to the wellhead cluster for providing drilling support to said plurality of secondary drilling units and/or for allowing control and operation of the plurality of secondary drilling units from the main drilling unit.
The main drilling unit may provide at least one of mud control, power supply and hydraulics supply to the wellhead cluster.
The main drilling unit may be movable in a plane above the wellhead cluster.
The main drilling rig may be any one of a jack-up rig, a drilling module, a drillship, a tension leg platform, a jacket, a land rig or a semi-submersible platform.
The system may be used for distributed well activities in said plurality of hydrocarbon wells.
The system according to the invention may be used for distributed well activities, comprising a main drilling rig with a main drilling unit, a drill floor equipped with one or more well centers, and one or more of set back/racking area, racking machines, catwalk machinery and iron roughnecks, wherein said main drilling unit is placed on a skiddable cantilever with a drilling mast and drilling machinery, wherein a wellhead spread is placed adjacent and below the cantilever of the main drilling rig, said wellhead spread comprising several secondary drilling units or pods, where each secondary drilling unit has its own drilling equipment for performing drilling operations, said secondary drilling units being arranged for simultaneously well operations in separate wells, while being supported by the main drilling unit.
The main drilling rig may comprise a skiddable cantilever comprising a drilling mast and drilling machinery, wherein said main drilling unit is placed on the skiddable cantilever, wherein the wellhead spread is placed adjacent and below the cantilever of the main drilling unit, said wellhead spread comprising said secondary drilling units, where each secondary drilling unit has its own drilling equipment for performing drilling operations, and each secondary drilling unit is arranged for simultaneously well operations in separate wells while being supported by the main drilling unit.
The wellhead spread may comprise distributed well centers comprising the secondary drilling units.
The main drilling rig may be a jack-up rig standing on support legs and comprising a barge that can be raised or lowered, the jack-up rig being further equipped with a cantilever comprising the main drilling unit, which cantilever can be driven or skidded out over water, such that the main drilling unit is above an operational area to perform desired drilling operations.
The secondary drilling units may each comprise a mast, drill floor and BOP, which mast comprises a rotary drilling machine, which is adapted to drive a tubular through the BOP and into a desired wellhead.
The main drilling unit may comprises a driller's cabin/control station which is connected by at least one umbilical to the equipment on the wellhead spread for control and operations of the secondary drilling units and equipment on the wellhead spread.
The main drilling unit may support the wellhead spread with at least one of mud control, power supply and hydraulics supply.
The method according to the invention is characterised by the steps of:
The method may further comprise the steps of:
The step of positioning a plurality of secondary drilling units at wellheads on the wellhead cluster may comprise deploying the plurality of secondary drilling units from a main drilling rig carrying the main drilling unit.
The method may be realised using a system comprising a main drilling rig comprising an elevated main drilling unit comprising a drill floor positioned on a skiddable cantilever, equipped with at least one main well center, and a wellhead spread placed adjacent and below the cantilever of the main drilling rig, wherein the method comprises the steps of:
(a) deploying, from the main drilling rig, several secondary drilling units onto a well deck of the wellhead spread,
(b) running well operations in a first well from the main well center through a first secondary drilling unit on the wellhead spread,
(c) breaking the connection between the main well center and the first secondary drilling unit,
(d) proceeding with drilling operations in the first well using the first secondary drilling unit,
(e) moving the main drilling rig to a position above a second secondary drilling unit on the wellhead spread,
(f) running well operations in a second well from the main well center through the second secondary drilling unit on the wellhead spread,
(g) breaking the connection between the main well center and the second secondary drilling unit, and
(h) proceeding with well operations in the second well using the second secondary drilling unit.
The main drilling unit may perform preparations for the next activity, such as making up bottom hole assembly or rack up or down casing, while not supporting one of the secondary drilling units.
In step (b) the main drilling unit may be arranged for tripping in with bottom-hole assembly through the first secondary drilling unit's rotary bushing and BOP, and when reaching TD the drill string may be landed in said secondary drilling unit's rotary bushing and an iron roughneck machine on the secondary drilling unit may be arranged to break the connection freeing the main drilling unit for other operations.
The main drilling unit may be arranged to move over to the second secondary drilling unit immediately after breaking the connection between the main well center and the first secondary drilling unit to assist the second secondary drilling unit while the first secondary drilling unit is drilling ahead using local pipe storage.
In step (f) the main drilling unit may be arranged for tripping in with the bottom hole assembly to TD through the second secondary drilling unit, and when reaching TD the string may be landed out in the rotary bushing on the second secondary drilling unit and an iron roughneck may be arranged to break the connection releasing the drill string from the main well center, while the second secondary drilling unit starts drilling using its own local drill pipe storage.
The main drilling rig may be arranged to prepare the casing section for the first secondary drilling unit, move over and, when ready, pull out the drill string from the first secondary drilling unit and then run in the casing section through the secondary drilling unit's rotary bushing and BOP.
When the run is close to be completed, the casing landing string may be transferred to the secondary drilling unit which is landing out the casing.
A preferred embodiment of the invention which is intended to accomplish at least some of the foregoing objects comprises distributing well activities to secondary drilling units, or “drilling pods”, to carry out several simultaneous drilling or well operations supported from one main drilling rig, such as a jack-up, drilling module, drillship, tension leg platform, jacket, land rig or semi submersible.
The distributed well activities are obtained by placing the secondary drilling units on the wellhead platform (wellhead spread), jacket or similar in order to carry out well operations such as drilling, reaming, milling and similar from the “drilling pod”. The secondary drilling units may be supported by umbilicals and service loops from the main drilling unit in order to provide the necessary power and utilities from the main drilling unit to the distributed well centers.
The above mentioned objects are achieved with a system for distributed well activities, comprising a first, main drilling rig comprising a main drilling unit comprising a drill floor equipped with one or more of well centers, set back/racking area, racking machines, catwalk machinery and iron roughnecks, said main drilling unit is positioned on a skiddable deck or cantilever, wherein a wellhead spread is placed adjacent and below the cantilever or skiddable deck of the main drilling rig, said wellhead deck comprises several secondary drilling units or pods, where each secondary drilling unit or pod has its own drilling equipment for performing well operations, and each secondary drilling unit or pod is being arranged for simultaneous well operations in separate wells, while being supported by the main drilling unit.
Similarly the same can be achieved for subsea wellhead templates by using a floating main drilling rig comprising the main drilling unit and suitable secondary drilling units or pods positioned on the subsea wellhead template.
The wellhead platform spread may comprise distributed well centers, i.e. drilling pods.
The main drilling rig can be a jack-up rig standing on support legs and comprising a barge that can be raised or lowered, said jack-up rig further being equipped with a cantilever comprising the main drilling unit, where the cantilever can be driven or skidded out over water, such that the main drilling unit can be positioned above an operational area to perform desired well operations.
The main drilling rig can alternatively be any other type of structure comprising an elevated movable drilling unit which is capable of working above the secondary drilling units or pods.
The secondary drilling units or pods can each comprise a mast, drill floor and BOP, and in the mast of the secondary drilling unit there can be a rotary drilling machine, which is adapted to drive a tubular through the BOP and into a desired wellhead.
The main drilling unit can comprise a driller's cabin/control station connected by umbilicals to the equipment on the wellhead deck, for control and operations of the secondary drilling units and other equipment on the wellhead deck.
The main drilling unit can support the secondary drilling units and other equipment on the wellhead deck with all main services and utilities, such as mud, power, hydraulics and similar.
The above mentioned objects are also achieved with a method for distributed well activities realised by a system comprising a main drilling rig comprising an elevated main drilling unit positioned on a skiddable cantilever equipped with one or several well centers, and a wellhead spread positioned adjacent and below the cantilever of the main drilling rig, wherein the method comprises the steps of: (a) deploying, from the elevated main drilling unit, several secondary drilling units or pods onto a well deck of the wellhead spread; (b) running well operations in a first well from the main drilling unit through a first secondary drilling unit or pod on the wellhead spread; (c) breaking the connection between the main drilling unit and the first secondary drilling unit; (d) proceeding with drilling operations in the first well using the first secondary drilling unit; (e) moving the main drilling unit to a position above a second secondary drilling unit or pod on the wellhead spread; (f) running well operations in a second well from the main drilling unit through the second secondary drilling unit on the wellhead spread; (g) breaking the connection between the main drilling unit and the second secondary drilling unit; and (h) proceeding with drilling operations in the second well using the second secondary drilling unit.
The elevated drilling unit can perform preparations for the next activity, such as making up bottom hole assembly or rack up or down casing, while not supporting one of the secondary drilling units.
In step (b), the elevated main drilling unit can be tripping in with a bottom-hole assembly through the first secondary drilling unit's rotary bushing and BOP, and when reaching total well depth (TD) the drill string can be landed in said secondary drilling unit's rotary bushing and an iron roughneck machine on the secondary drilling unit can break the connection freeing the main drilling unit for other operations.
Immediately after the connection between the main drilling unit and the first secondary drilling unit is broken, the main drilling unit can move over to the second secondary drilling unit to assist the second secondary drilling unit while the first secondary drilling unit is drilling ahead using local pipe storage.
In step (f), the elevated main drilling unit can be tripping in with the bottom hole assembly to TD through the second secondary drilling unit, and when reaching TD the string can be landed in the rotary bushing of the second drilling unit and an iron roughneck can break the connection releasing the drill string from the elevated main well center, while the second secondary drilling unit starts drilling using its own local drill pipe storage.
The elevated main drilling unit can prepare the casing section for the first secondary drilling unit, move over and when ready, pull out the drill string from the first secondary drilling unit and then run in the casing section through the secondary drilling unit's rotary bushing and BOP.
When the run is close to be completed, the casing landing string can be transferred to the secondary drilling unit which is landing out the casing.
In the following, the basic principles of the present invention will be discussed in more detail with reference to
The inventive concept of the present invention is equally applicable to both of the above-described wellhead configurations, and for the purpose of this specification the term “wellhead cluster” 104 will be used to comprise any one of a plurality of wellheads which are located on a common wellhead template, e.g. on a wellhead jacket platform or a wellhead spread, or within a limited geographical area without necessarily being located on a common wellhead template.
A plurality of drilling units, or drilling pods 105, is associated with the wellhead cluster 104. Each drilling unit 105 comprises equipment for performing well operations or well activities, e.g. drilling, milling and jarring, pumping and cementing and wireline operations. Such equipment are known in the art and will not be descried in any detail here, but may typically include a rotary support table, a drilling mast or derrick and a rotary drilling and hoisting machine.
At least one of the drilling units 105 may be movable between different wellheads 101 of the wellhead cluster 104. If the wellheads 101 are located on a wellhead template 102, it may be advantageous to position the drilling units 105 on an x-y skid (not indicated in the drawings).
The drilling unit 107 is movably mounted on the drilling rig 106 such that it can be moved or repositioned along the plane of the drilling floor or deck 108. Such movement or repositioning can be achieved by skidding the drilling unit 107 in orthogonal x and y directions, as is indicated by reference characters X and Y in
The drilling unit 107 comprises the equipment and facilities necessary for the drilling and hoisting system 109 to perform the well operations or activities. Within the art, such equipment is known as such and will not be discussed in any detail here. However, the equipment and facilities may advantageously comprise a stand building area or position 111 where operations can be performed to prepare the drilling and hoisting system 109 for a subsequent well operation, a rail system 112 for catwalk machinery, a set back or racking area 113, a racking machine 114, iron roughnecks 115 and a driver's cabin or control station 116. To implement the actual well operation or activity, the drilling and hoisting system 109 comprises a support table 117, a guide structure 118 and a rotary drilling and hoisting machine 119 (cf.
The system also comprises a wellhead cluster 104 which comprises first, second and third wellheads 101a, 101b, 101c of first, second and third hydrocarbon wells 120a, 120b, 120c. First and second secondary drilling units 105a, 105b are positioned over the first and second wellheads 101a and 101b, respectively. Each secondary drilling unit 105a, 105b comprises a support table 121 and may advantageously also comprise a drilling mast or derrick 122 and a rotary drilling and hoisting machine 123.
The main drilling unit 107 is positioned above the wellhead cluster 104 and is movably mounted onto the drilling rig 106 such that the well center 110 can be positioned vertically above any of the wellheads 101a, 101b, 101c, allowing the drilling and hoisting system 109 to perform well operations and activities in the hydrocarbon wells 120a, 120b, 120c. In other words, the main drilling unit 107 is arranged such that the drilling floor 108 can be moved above the wellhead cluster 104. If the wellheads 101a, 101b, 101c are arranged on a wellhead template, it may be advantageous if the main drilling unit 107 is arranged such that the plane defined by the drilling floor 108 is parallel to the plane defined by the wellhead template, i.e. the plane in which the wellheads are arranged.
The drilling and hoisting system 109 is supported by the apparatuses, sub-systems and equipment of the main drilling unit 107. Consequently, the main drilling unit 107 will have a well operations capacity which is higher than the well operations capacity of the secondary drilling units 105a, 105b. In other words, the drilling and hoisting system 109 can perform well operations faster and more efficiently than the secondary drilling units 105a, 105b. There may also be some well operations which the main drilling unit 107 but not the secondary drilling units 105a, 105b can perform.
According to the method of the invention, each hydrocarbon well 120a, 120b, 120c can be operated on alternatingly by the main drilling unit 107 and a secondary drilling unit 105a, 105b. This will allow well operations to be allocated to the main drilling unit 107 and the secondary drilling units 105a, 105b in an efficient manner. It will also allow the main drilling unit 107 to perform well operations in one hydrocarbon well at the same time as at least one of the secondary drilling unit 105a, 105b performs well operations in another hydrocarbon well, thus allowing well operations to be performed on at least two wells at the same time.
A typical sequence of operations according to the inventive method will now be disclosed in more detail with reference to
The main drilling unit 107 is positioned above the wellhead cluster 104 such that the well center 110 becomes positioned vertically above the first wellhead 101a allowing the drilling and hoisting system 109 to perform a first well operation in the first hydrocarbon well 120a. In the illustrated embodiment, the drilling and hoisting system 109 performs the first well operation through the support table 121 of the first secondary drilling unit 105a.
When the first well operation is completed, the connection between the drilling and hoisting system 109 and the first secondary drilling units 105a is broken and the main drilling unit 107 is repositioned such that the well center 110 becomes positioned vertically above the second wellhead 101b of the wellhead cluster 104.
Once the connection between the drilling and hoisting system 109 and the first drilling units 105a is broken, the first secondary drilling unit 105a is free to perform a second well operation in the first hydrocarbon well 120a, and once the drilling and hoisting system 109 is in position above the second wellhead 101b, and the drilling and hoisting system 109 is free to perform a first well operation in the second hydrocarbon well 120b, as is disclosed in
Once the first well operation in the second hydrocarbon well 120b is completed, the main drilling unit 107 can be repositioned to another well, or back to the first well 120a, to perform further well operations, and the second secondary drilling unit 105b can proceed with a second well operation in the second well 120b.
As discussed above, demanding well operations are advantageously allocated to the main drilling unit 107 while less demanding well operations are allocated to the secondary drilling units 105a, 105b.
It may be advantageous if at least one of the secondary drilling units 105a, 105b can be repositioned between the wellheads such that all hydrocarbon wells on the wellhead cluster can be reached by at least one secondary drilling unit even if the number of secondary drilling units is less than the number of wellheads.
It may be advantageous if the power and utilities necessary to operate the secondary drilling units 105a, 105b are provided from the drilling rig 106 or the main drilling unit 107. For example, it may be advantageous if such power and utilities are provided via umbilicals and service loops 124 running from the main drilling unit 107 to the wellhead cluster 104.
In offshore applications, where the wellhead cluster 104 is typically arranged on a wellhead template located on a wellhead platform, the drilling rig 106 may typically be a jack-up rig, a drillship, a semi-submersible platform or a tension leg platform. However, the drilling structure may be any type of structure which is capable of movably supporting a main drilling unit over a wellhead cluster. The main drilling unit 107 may typically be mounted on a skiddable cantilever, allowing the main drilling unit to be moved between different hydrocarbon wells of the wellhead cluster.
According to one embodiment of the invention, the drilling structure 106 is a jack-up rig.
A jack-up rig or a self-elevating unit is a type of mobile platform that consists of a buoyant hull fitted with a number of movable legs, capable of raising its hull over the surface of the sea. The buoyant hull enables transportation of the unit and all attached machinery to a desired location. Once on location the hull is raised to the required elevation above the sea surface supported by the sea bed. The legs of such units may be designed to penetrate the sea bed, may be fitted with enlarged sections or footings, or may be attached to a bottom mat. A jack-up rig is regarded as well known to a skilled person and is therefore not described in detail, but a typical jack-up rig is in general discussed later in the description.
A jack-up is a floating barge fitted with long support legs that can be raised or lowered. The jack-up is maneuvered (self-propelled or by towing) into location with its legs up and the hull floating on the water. Upon arrival at the work location, the legs are jacked down onto the seafloor. Then “preloading” takes place, where the weight of the barge and additional ballast water are used to drive the legs securely into the sea bottom so they will not penetrate further while operations are carried out. After preloading, the jacking system is used to raise the entire barge above the water to a predetermined height or “air gap”, so that wave, tidal and current loading acts only on the relatively slender legs and not on the barge hull.
Modern jacking systems use a rack and pinion gear arrangement where the pinion gears are driven by hydraulic or electric motors and the rack is affixed to the legs.
Jack-up rigs can only be placed in relatively shallow waters, generally less than 120 meters (390 ft) of water. However, specialized classes of jack-up rigs known as premium or ultra-premium jack-ups are known to have operational capability in water depths ranging from 150 to 190 meters (500 to 625 feet).
Further, the drill floor 28 is equipped with a set back/racking area 62 and, as shown, with two racking machines 64 placed in front of the set back/racking area 62. Running longitudinal on the drill floor 28 are two rails 66 for catwalk machinery. Between the rails 66 is a main well center 68, to the right in the drawing, and an auxiliary stand building area 70, to the left in the drawing, each equipped with an iron roughneck 72. At the end of the rails, the drilling machine 26 of the main drilling unit 22 is shown.
Consequently, the drill floor 28 and the equipment thereon form an elevated main drilling unit 22 which is carried by the cantilever 20, which main drilling unit 22 generally has the same configuration and the same equipment as the main drilling unit 107 disclosed in
The sequence of operation and distribution of tasks between the elevated main drilling unit 22 and the distributed well centers on the wellhead platform 50 is set up so that any tripping activities or similar where there is a significant efficiency gain to have a tall derrick and large setback area is performed by the elevated main drilling unit 22. All slow progressing activities such as drilling ahead, milling, circulating and so on where there is little difference between a high spec and a low spec unit can be carried out in the distributed well centers. A typical sequence is illustrated in
By using this principle two or more wells can be drilled simultaneously from one main drilling unit by use of two or more distributed well centers keeping the well control for the well at all times. The size of the distributed well centers can be kept small as the main drilling unit is supplying services including mud, power, hydraulics and so on. Furthermore the main drilling unit can be utilized to time optimize operations or operations requiring increased capabilities such as tripping in and out of the hole and running or pulling casings.
| Number | Date | Country | Kind |
|---|---|---|---|
| 20151749 | Dec 2015 | NO | national |
