WO2021165143A1 - Navire de forage en mer et installation pour réaliser des activités associées à un puits de forage sous-marin - Google Patents
Navire de forage en mer et installation pour réaliser des activités associées à un puits de forage sous-marin Download PDFInfo
- Publication number
- WO2021165143A1 WO2021165143A1 PCT/EP2021/053353 EP2021053353W WO2021165143A1 WO 2021165143 A1 WO2021165143 A1 WO 2021165143A1 EP 2021053353 W EP2021053353 W EP 2021053353W WO 2021165143 A1 WO2021165143 A1 WO 2021165143A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- carrier
- working deck
- heave compensation
- heave
- hull
- Prior art date
Links
- 238000005553 drilling Methods 0.000 title claims abstract description 49
- 238000009434 installation Methods 0.000 title claims description 21
- 230000000694 effects Effects 0.000 title claims description 14
- 239000000725 suspension Substances 0.000 claims abstract description 71
- 230000033001 locomotion Effects 0.000 claims abstract description 62
- 238000010304 firing Methods 0.000 claims abstract description 20
- 230000001360 synchronised effect Effects 0.000 claims abstract description 18
- 239000002356 single layer Substances 0.000 claims description 7
- 238000000034 method Methods 0.000 claims description 5
- 230000000712 assembly Effects 0.000 description 8
- 238000000429 assembly Methods 0.000 description 8
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 2
- 238000004873 anchoring Methods 0.000 description 1
- 229910052742 iron Inorganic materials 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 238000009420 retrofitting Methods 0.000 description 1
Classifications
-
- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21B—EARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
- E21B19/00—Handling rods, casings, tubes or the like outside the borehole, e.g. in the derrick; Apparatus for feeding the rods or cables
- E21B19/08—Apparatus for feeding the rods or cables; Apparatus for increasing or decreasing the pressure on the drilling tool; Apparatus for counterbalancing the weight of the rods
- E21B19/09—Apparatus for feeding the rods or cables; Apparatus for increasing or decreasing the pressure on the drilling tool; Apparatus for counterbalancing the weight of the rods specially adapted for drilling underwater formations from a floating support using heave compensators supporting the drill string
Definitions
- the invention relates to an offshore drilling vessel and installation for performing subsea wellbore related activities.
- US6095501 and US6094910 disclose an offshore drilling vessel with a RamRig drilling installation having tower that is positioned on the floating hull over or adjacent to the moonpool and with a main hoisting device.
- This main hoisting device comprises:
- travelling top drive carrier adapted to support a top drive and a drilling tubulars string extending along a firing line through said moonpool;
- top sheave assembly that is guided vertically relative to an elevated portion of the tower and comprises carrier suspension cable sheaves
- each carrier suspension cable having one end thereof secured to the travelling top drive carrier and extending over a respective sheave of the top sheave assembly to another end of the carrier suspension cable, said other end being connected to one of an anchor that is fixed in relation to the hull,
- a hydraulic circuit connected to said lift devices and including a hydraulic pump, said hydraulic circuit being configured to lift and lower the travelling top drive carrier by extension and retraction of the one or more lift devices.
- a prior art RamRig embodiment is represented in figures 1a,b and 2a, b of the present document.
- the heave compensation of the travelling top drive carrier is achieved by means of these lift devices.
- the hydraulic circuit includes a pressurized gas buffer connected via a piston accumulator to the hydraulic circuit. Active heave compensation is obtained by control of the hydraulic pumps on the basis of a heave sensor, which results in controlled extension and retraction of the lift devices. Passive heave compensation is done on the basis of the pressurized gas buffer as is known in the art. Effectively the piston rods of the lift devices rest on a gas spring. Hoisting and lowering is possible by means of control of the pumps.
- the winch can be embodied as the winch and/or the lift devices can be provided with heave compensation functionality. It is explained that, in an embodiment, the heave compensation as disclosed in US6095501 and US6094910 can be used for the lift devices, e.g. when handling a heavy load, whereas the winch can be operated to provide heave compensation when handling a lighter load.
- a drill floor is stationary arranged above the moonpool, with a slip device being mounted on the drill floor as is common in the field.
- the slip device is configured to suspend a tubulars string in the firing line, e.g. when tripping in or tripping out a drill string from a subsea wellbore, or during an actual drilling process.
- the present invention aims to provide an enhanced drilling vessel, e.g. in view of enhanced performance in operations that required or would benefit from heave motion compensation.
- the present invention provides an offshore drilling vessel for performing subsea wellbore related activities according to the preamble of claim 1 , which is characterized in that a vertically mobile working deck is provided, which is vertically movable with respect to the tower and to the hull along the firing line within a motion range including a heave compensation motion range, wherein the working deck is provided with a slip device that is configured to suspend a tubulars string in said firing line, wherein the vertically mobile working deck is suspended from at least one working deck suspension cable, wherein said at least one working deck suspension cable is reeved independent from the one or more lift devices, so that vertical position and vertical motion of the working deck are independent of the operation of said one of more lift devices, and in that an integrated heave compensation system is provided that is configured to establish, in operation thereof, a heave compensated motion of the vertically mobile working deck relative to the tower and to the hull within said heave compensation motion range and a synchronous heave compensated motion of the travelling top drive carrier
- tripping a drill string into a wellbore can now be performed in full heave compensation mode, avoiding undue vertical motion of the drill string in the wellbore, e.g. thereby avoiding undue pressure variations in the wellbore which may occur when the slip device would not be heave compensated.
- the common heave compensation device is distinct from any heave compensation functionality of the one or more vertically oriented hydraulic piston-and- cylinder type lift devices as the one or more carrier suspension cables are reeved independent from the one or more lift devices, so that vertical position and vertical motion of the working deck are independent of the operation of said one of more lift devices.
- the common heave compensation device is directly connected to a common anchor for both the end(s) of the one or more carrier suspension cables and for the end(s) of the one or more working deck suspension cables.
- the common heave compensation device comprises one or more hydraulic piston-and-cylinder type compensator devices, each having a cylinder body and a piston rod, said compensator devices each having one of the cylinder and the piston rod thereof fixed in relation to the hull and the other one of the cylinder and the piston rod supporting the common anchor thereon.
- These one or more compensator devices are connected to a hydraulic circuit that includes a pressurized gas buffer as is known in the art.
- the integrated heave compensation system comprises a first heave compensation sheave assembly, distinct from the top sheave assembly, said first heave compensation sheave assembly comprising one or more sheaves along which the one or more carrier suspension cables pass, and a second heave compensation sheave assembly, comprising one or more sheaves along which the one or more working deck suspension cables pass, wherein the first heave compensation sheave assembly and the second heave compensation sheave assembly are mechanically interconnected and connected to the common heave compensation device so as to allow for synchronous motion thereof.
- the common heave compensation device is embodied as a winch that is common for all of the ends of the one or more carrier suspension cables and for the ends of the one or more working deck suspension cables.
- the winch is a single layer drum type winch, wherein all carrier suspension and working deck suspension cables are wound in a single layer, each onto a corresponding section of the drum.
- each working deck suspension cable has an end portion connected to the working deck that is suspended from a departure sheave that is mounted at a fixed height on the tower, preferably lower than the top sheave assembly.
- each working deck suspension cable has an end portion connected to the working deck that is suspended from a departure sheave that is mounted in the moonpool, e.g. with the working deck having a vertically extending support structure, e.g. as a hollow tube, that extends upward through the moonpool, e.g. to above the main drilling deck of the installation, with the slip device being mounted on top of said vertically extending support structure.
- the working deck may be rather small, e.g. just big enough to support the slip device thereon.
- the working deck simulates a drill floor, e.g. accessible for drilling personnel, e.g. with an iron roughneck device and/or other well center related equipment arranged thereon or arrangeable thereon.
- the vessel is provided with a heave motion compensating racker system comprising at least one racker device that is adapted to move a tubulars section, e.g. a drill pipe section, between a tubulars storage rack - that is mounted on the hull or tower vessel and subjected to heave motion - and a position wherein the tubulars section is in said firing line and between the vertically mobile working deck and the travelling top drive carrier, wherein said racker device comprises multiple racker assemblies, each of said racker assemblies having a motion arm and a gripper member at an end of said motion arm, said gripper member being adapted to grip a tubulars section, wherein said racker device further comprises an associated heave motion synchronization system configured to bring, in operation thereof, said racker assemblies in a heave compensation mode with respect to the tower so that a tubular section that has been retrieved from the storage rack by means of said racker assemblies of said racker device is brought into a vertical motion that is synchronous with the racker device
- the present invention also relates to a drilling installation comprising a tower, main hoisting device, and mobile working deck as described herein, configured for installation on the floating hull of a drilling vessel, e.g. in view of retrofitting existing drilling vessels.
- the present invention also relates to a method for performing a subsea wellbore related activity, wherein use is made of a vessel according to the invention.
- the activity is one of tripping in or tripping out a tubulars string.
- - figs. 1a, b show an offshore drilling vessel provided with a drilling installation according to the prior art
- - figs. 3a, b show an offshore drilling vessel provided with a drilling installation according to the invention
- - figs. 4a, b illustrate the operation of the integrated heave compensation system of the vessel of figures 3a, b, - figs. 5a, b illustrate a stage of tripping in a drill string with the vessel of figures 3a, b,
- - figs. 6a, b illustrate a later stage of tripping in a drill string with the vessel of figures 3a, b,
- - figs. 7a, b illustrate a later stage of tripping in a drill string with the vessel of figures 3a, b,
- FIG. 8 shows an alternative embodiment of an offshore drilling vessel provided with a drilling installation according to the invention
- FIG. 9 shows another alternative embodiment of an offshore drilling vessel provided with a drilling installation according to the invention.
- the vessel 1 has a floating hull 2 subjected to heave motion during drilling, here a mono-hull, comprising a moonpool 3.
- the vessel is a semi- submersible vessel having submergible pontoons (possibly an annular pontoon) with columns thereon that support an above-waterline deck box structure.
- the moonpool may then be arranged in the deck box structure.
- the figures 1a,b and 2a, b show a cross-section of the vessel 1 across the moonpool 3.
- a drilling tower 10 is positioned on the hull at or near the moonpool 3, so as to perform wellbore related operation along a firing line 4 through the moonpool 3.
- the vessel is equipped with a drilling tower 10 at or near the moonpool.
- the tower 10 is a gantry structure over the moonpool having two legs 11, 12 on opposite sides of the moonpool 3 and a gantry top over the moonpool 3.
- the tower 10 is embodied as a latticework.
- the tower could also be embodied as a singular structure along a side of the moonpool.
- this embodiment is provided as a latticework tower.
- the tower is a singular mast having a closed outer wall and having a top and a base.
- the base of the mast is secured to the hull.
- a drill floor 15 is stationary arranged above the moonpool 3.
- a slip device 20 is mounted on the drill floor 15 as is common in the field.
- the slip device 20 is configured to suspend a tubulars string in the firing line 4, e.g. when tripping in or tripping out a drill string from a subsea wellbore, or during an actual drilling process.
- the figures 1a,b and 2a, b show a main hoisting device 30 comprising a travelling top drive carrier 35 that is adapted to support a top drive 36 and a drilling tubulars string, e.g. via an elevator that is suspended from the top drive 36 or from the carrier 35 directly.
- the string extends along the firing line 4 through the moonpool 3.
- the carrier 35 is guided vertically along the tower 10 over one or more vertical guide rails 14, 15, e.g. one guide rail along each leg 11, 12 of the gantry type tower.
- the figures 1a,b and 2a, b show a top sheave assembly 40 that is guided vertically, e.g. on the same guide rails 14,15, relative to an elevated portion of the tower 10.
- the assembly 40 comprises one or more carrier suspension cable sheaves 41.
- the figures 1a,b and 2a, b show vertically oriented hydraulic piston-and-cylinder type lift devices 50, each having a cylinder body 51 and a piston rod 52.
- These lift devices 50 each having one of the cylinder and the piston rod thereof fixed in relation to the hull 2 and the other one of the cylinder and the piston rod supports the top sheave assembly 40 thereon so as to be vertically mobile relative to the tower.
- the figures 1a,b and 2a, b show carrier suspension cables 55, each carrier suspension cable having one end 56 thereof secured to the travelling top drive carrier 35.
- the cables 55 each extend over a respective sheave 41 of the top sheave assembly 40 to another end 57 of the carrier suspension cable.
- This other end 57 is connected to an anchor 60 that is fixed in relation to the hull, e.g. embodied as an equalizing anchor as described in US6095501.
- a hydraulic circuit 80 is connected to the lift devices 50.
- This circuit includes a hydraulic pump, e.g. multiple pumps in parallel, and is configured to lift and lower the travelling top drive carrier 35 by extension and retraction of the lift devices 50.
- the figures 1a, 2a show the lift devices 50 when fully retracted, and the figures 1b, 2b show the lift devices in extended position thereof.
- the lift devices 50 and the hydraulic circuit 80 form also a heave compensation system acting on the carrier suspension cables 55 and configured to provide for heave compensating motion of the travelling top drive carrier 35.
- the lift devices 50 can be operated in passive or active heave compensation mode by suitable operation of the circuit 80, and thereby the assembly 40 is heave compensated, which results in the carrier 35 being heave compensated.
- FIG. 1a,b and 2a, b now an offshore drilling vessel for performing subsea wellbore related activities will be discussed.
- This vessel T is equipped with an installation that includes many of the components as discussed above with reference to figures 1a,b and 2a, b. These components have been denoted with the same reference numerals.
- the drilling installation is provided with a vertically mobile working deck 70, which is vertically movable with respect to the tower 10 and to the hull 2 along the firing line 4 within a motion range including a heave compensation motion range.
- the deck 70 is guided by one or more vertical guide rails mounted on the tower and/or the hull, e.g. the same rails 14, 15 that are employed for the carrier 35.
- the slip device 20 is mounted on the working deck 70, e.g. recessed in the deck.
- multiple slip devices are arranged on the working deck, each displaceable between an operative position in the firing line and a remote, parked position.
- the vertically mobile working deck 70 is suspended from working deck suspension cables 75.
- Each of these working deck suspension cables 75 is reeved independent from the lift devices 50, so that vertical position and vertical motion of the working deck 70 are independent of the operation of the lift devices 50.
- each of the cables 75 has an end portion connected to the working deck 70 that is suspended from a departure sheave 76 that is mounted at a fixed height on the tower 10, preferably lower than the motion range of the top sheave assembly 40.
- An integrated heave compensation system is provided that is configured to establish, in operation thereof, a heave compensated motion of the vertically mobile working deck 70 relative to the tower 10 and to the hull 2 within the associated heave compensation motion range and a synchronous heave compensated motion of the travelling top drive carrier 35 in order to obtain synchronous heave compensated motions of the vertically mobile working deck 70 and the travelling top drive carrier 35.
- the heave compensation system is an integrated heave compensation system which comprises a common heave compensation device 90 that acts on both the carrier suspension cables 36 and the working deck suspension cables 75, so that when a load formed by a tubulars string 100 initially suspended from the travelling top drive carrier 35 is transferred to the slip device 20 or vice versa, the load on the common heave compensation device 90 remains substantially the same.
- the common heave compensation device 90 is embodied as one or more hydraulic piston-and-cylinder type compensator devices 91, 92, each having a cylinder body and a piston rod.
- These compensator devices 91, 92 each have one of the cylinder and the piston rod thereof fixed in relation to the hull and the other one of the cylinder and the piston rod supporting a common anchor 95 thereon.
- Each common anchor 95 is connected to an end of the one or more carrier suspension cables 36 and to an end of the one or more working deck suspension cables 75.
- the compensator devices 91 , 92 are connected to a hydraulic circuit that includes a pressurized gas buffer.
- Figures 4a, b illustrate that the synchronized heave motion compensation of the carrier 35 and of the working deck 70 does not involve the lift devices 50.
- Figure 4a illustrates a situation wherein the compensator devices 91, 92 are fully extended, and in figure 4b these devices are fully retracted, thereby providing a heave compensation motion range for both of the carrier 35 and the working deck (including the slip device 20 thereon) in synchronicity with one another.
- a tubulars string 100 is suspended from slip device 20, e.g. the string 100 passing through a riser into the wellbore.
- slip device 20 e.g. the string 100 passing through a riser into the wellbore.
- a new section 101 e.g. a multi-joint stand of drill pipes, is to be added to the string 100.
- the new section 101 is presented, see figure 5a, by a racker device into alignment with the firing line 4, above the top end of the string 100 held by the slip device 20.
- the carrier 35 has been moved, by operation of the lift devices 50, sufficiently high to place the new section 101 between the working deck 70 and the carrier 35 and top drive 36 and/or elevator carried thereby.
- Figure 5b illustrates that the new section 101 has been connected, e.g. screwed, onto the string 100 at its lower end. This may involve the use of a roughneck device as is known in the art, e.g. mounted on the working deck 70.
- Figure 6a corresponds to figure 5b.
- the carrier 35 is lowered so as to allow the top end of new section 101 to become connected thereto, e.g. to the top drive 36 or to an elevator that is connected to the top drive 36 or that is directly connected to the carrier 35.
- the lowering of the carrier 35 is done by means of suitable operation of hydraulic circuit 80 so as to retract the lift devices 50. This does not have an effect on the support of the working deck 70.
- the slip device 20 can be released from the tubulars string 100 to which the new section 101 has been connected, see the figure 7a.
- this involves transfer of the load of the string 100 from the slip device 20 to the carrier 35, e.g. by means of slightly raising the carrier 35.
- the lift devices 50 are operated to lower the entire string 100, now including new section 101, along the firing line 4. This is done until the slip device 20 can be brought into engagement with an upper end portion of the string 100. The lowering is shown in figure 7b.
- the integrated heave compensation system is operable, e.g. in a passive heave compensation mode, during the entirety of the cycle described above, with synchronized heave compensation of the carrier 35 and the working deck 70.
- the compensator device 91 , 92 are each loaded by both the carrier 35 and the working deck 70, and by any vertical load on the carrier 35 and the working deck 70, the moments of transfer of load between the carrier 35 and the working deck 70 do not have a noticeable effect on the load on the compensator devices 91, 92.
- This is very advantageous, e.g. in view of speed of tripping, e.g. as it avoids the need to adjust settings (e.g. pressure settings) at each time a load transfer is made.
- the vessel is provided with a heave motion compensating pipe racker system comprising at least one racker device that is adapted to move a tubulars section 101 , e.g. a drill pipe section, between a tubulars storage rack - that is mounted on the hull or tower vessel and subjected to heave motion - and a position wherein the tubulars section is in said firing line and between the vertically mobile working deck 70 and the travelling top drive carrier 35.
- the racker device comprises multiple racker assemblies, each of said racker assemblies having a motion arm and a gripper member at an end of said motion arm, said gripper member being adapted to grip a tubulars section.
- the racker device further comprises an associated heave motion synchronization system configured to bring, in operation thereof, the racker assemblies in a heave compensation mode with respect to the tower so that a tubular section 101 that has been retrieved from the storage rack by means of the racker assemblies of the racker device is brought into a vertical motion that is synchronous with the heave motion of the mobile working deck and of the slip device provided on said mobile working deck.
- an associated heave motion synchronization system configured to bring, in operation thereof, the racker assemblies in a heave compensation mode with respect to the tower so that a tubular section 101 that has been retrieved from the storage rack by means of the racker assemblies of the racker device is brought into a vertical motion that is synchronous with the heave motion of the mobile working deck and of the slip device provided on said mobile working deck.
- Figure 8 illustrates an embodiment, wherein the ends of the cables 55, 70 are connected to a fixedly arranged anchor 60’ on the hull, or the tower, of the vessel.
- the depicted integrated heave compensation system comprises a first heave compensation sheave assembly, distinct from the top sheave assembly, said first heave compensation sheave assembly comprising one or more sheaves 96 along which the one or more carrier suspension cables 55 pass, and a second heave compensation sheave assembly, comprising one or more sheaves 97 along which the one or more working deck suspension cables 75 pass.
- the first heave compensation sheave assembly and the second heave compensation sheave assembly are mechanically interconnected, e.g. one set of sheaves 96 above another set of sheaves 97, and are connected to the common heave compensation device, here devices 91 , 92, so as to allow for synchronous motion thereof.
- FIG. 9 illustrates an embodiment, wherein the common heave compensation device is embodied as one or more heave compensated winches 200, e.g. having electronic and/or hydraulic control having heave motion compensation functionality.
- each of said winches 200 is common for the ends of the one or more carrier suspension cables 55 and for the ends of the one or more working deck suspension cables 70 so that each winch is loaded by both the carrier 35 and the deck 70.
- each winch 200 is embodied as a single layer drum type winch, wherein all carrier suspension and working deck suspension cables are wound in a single layer, each onto a corresponding section of the drum.
- one or more operable anchoring devices can be combined with the embodiment of figure 9, allowing to retain the cables 55, 75 intermediate the winch 200 and the carrier 35 and deck 70.
- the moments of transfer of load between the carrier 35 and the working deck 70 do not have a noticeable effect on the load on the winches 200.
- This is very advantageous, e.g. in view of speed of tripping, e.g. as it avoids the need to adjust settings (e.g. pressure settings) at each time a load transfer is made.
- the carrier 35 can be raised and lowered independently by operation of the one or more pumps in hydraulic circuit 80.
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- Life Sciences & Earth Sciences (AREA)
- Geology (AREA)
- Mining & Mineral Resources (AREA)
- Mechanical Engineering (AREA)
- Physics & Mathematics (AREA)
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Abstract
La présente invention concerne un navire de forage en mer comprenant une coque flottante, un puits central et une tour de forage. Un dispositif de levage principal comprend un support d'entraînement supérieur mobile, un ensemble poulie supérieure avec des poulies de câble de suspension de support, et des dispositifs de levage de type piston-cylindre hydrauliques orientés verticalement. Les câbles de suspension de support ont une extrémité fixée au support et s'étendent sur une poulie respective à une autre extrémité reliée à une ancre ou à un treuil fixé par rapport à la coque. Un pont de travail mobile verticalement est pourvu d'un dispositif de glissement qui est conçu pour suspendre un train de tubes dans la ligne de tir. Le pont de travail est suspendu à un câble de suspension de pont de travail qui est enroulé indépendamment des dispositifs de levage. L'invention concerne également un système de compensation de pilonnement intégré qui est conçu pour établir, lors du fonctionnement de celui-ci, un mouvement compensé de pilonnement du pont de travail et un mouvement compensé de pilonnement synchrone du support afin d'obtenir des mouvements compensés de pilonnement synchrones du pont de travail et du support. Le système comprend un dispositif de compensation de pilonnement commun qui agit sur les câbles de suspension de support et les câbles de suspension de pont de travail de telle sorte que lorsqu'une charge formée par un train de tubes initialement suspendu à partir du support est transférée au dispositif de glissement ou vice versa, la charge sur le dispositif de compensation de pilonnement commun reste sensiblement la même.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP21703735.7A EP4107359A1 (fr) | 2020-02-17 | 2021-02-11 | Navire de forage en mer et installation pour réaliser des activités associées à un puits de forage sous-marin |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NL2024928 | 2020-02-17 | ||
NL2024928A NL2024928B1 (en) | 2020-02-17 | 2020-02-17 | Offshore drilling vessel and installation for performing subsea wellbore related activities. |
Publications (1)
Publication Number | Publication Date |
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WO2021165143A1 true WO2021165143A1 (fr) | 2021-08-26 |
Family
ID=70805157
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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PCT/EP2021/053353 WO2021165143A1 (fr) | 2020-02-17 | 2021-02-11 | Navire de forage en mer et installation pour réaliser des activités associées à un puits de forage sous-marin |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP4107359A1 (fr) |
NL (1) | NL2024928B1 (fr) |
WO (1) | WO2021165143A1 (fr) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2024068366A1 (fr) | 2022-09-28 | 2024-04-04 | Itrec B.V. | Navire de forage en mer et installation servant à réaliser des activités associées à un puits de forage sous-marin |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6094910A (en) | 1995-12-22 | 2000-08-01 | Maritime Hydraulics As | Apparatus and method for raising and lowering a piston in a piston cylinder arrangement in a derrick |
US6095501A (en) | 1995-12-27 | 2000-08-01 | Maritime Hydraulics As | Stretch compensation in a hoisting system for a derrick |
WO2015133895A1 (fr) | 2014-03-03 | 2015-09-11 | Itrec B.V. | Bateau de forage en mer et procédé associé |
WO2016062812A1 (fr) * | 2014-10-24 | 2016-04-28 | Itrec B.V. | Système de forage en mer, navire et procédé associés |
WO2017192046A1 (fr) | 2016-05-06 | 2017-11-09 | Mhwirth As | Système de levage |
WO2019160414A1 (fr) * | 2018-02-19 | 2019-08-22 | Itrec B.V. | Navire et procédé pour effectuer des activités associées à un puits sous-marin, par exemple des activités de reconditionnement, une maintenance de puits, l'installation d'un objet sur un puits de forage sous-marin |
-
2020
- 2020-02-17 NL NL2024928A patent/NL2024928B1/en active
-
2021
- 2021-02-11 WO PCT/EP2021/053353 patent/WO2021165143A1/fr unknown
- 2021-02-11 EP EP21703735.7A patent/EP4107359A1/fr active Pending
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6094910A (en) | 1995-12-22 | 2000-08-01 | Maritime Hydraulics As | Apparatus and method for raising and lowering a piston in a piston cylinder arrangement in a derrick |
US6095501A (en) | 1995-12-27 | 2000-08-01 | Maritime Hydraulics As | Stretch compensation in a hoisting system for a derrick |
WO2015133895A1 (fr) | 2014-03-03 | 2015-09-11 | Itrec B.V. | Bateau de forage en mer et procédé associé |
WO2016062812A1 (fr) * | 2014-10-24 | 2016-04-28 | Itrec B.V. | Système de forage en mer, navire et procédé associés |
WO2017192046A1 (fr) | 2016-05-06 | 2017-11-09 | Mhwirth As | Système de levage |
WO2019160414A1 (fr) * | 2018-02-19 | 2019-08-22 | Itrec B.V. | Navire et procédé pour effectuer des activités associées à un puits sous-marin, par exemple des activités de reconditionnement, une maintenance de puits, l'installation d'un objet sur un puits de forage sous-marin |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2024068366A1 (fr) | 2022-09-28 | 2024-04-04 | Itrec B.V. | Navire de forage en mer et installation servant à réaliser des activités associées à un puits de forage sous-marin |
NL2033170B1 (en) | 2022-09-28 | 2024-04-05 | Itrec Bv | Offshore drilling vessel and installation for perforing subsea wellbore related activities |
Also Published As
Publication number | Publication date |
---|---|
NL2024928B1 (en) | 2021-09-16 |
EP4107359A1 (fr) | 2022-12-28 |
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