WO2014108542A2 - Plateforme de forage - Google Patents

Plateforme de forage Download PDF

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Publication number
WO2014108542A2
WO2014108542A2 PCT/EP2014/050510 EP2014050510W WO2014108542A2 WO 2014108542 A2 WO2014108542 A2 WO 2014108542A2 EP 2014050510 W EP2014050510 W EP 2014050510W WO 2014108542 A2 WO2014108542 A2 WO 2014108542A2
Authority
WO
WIPO (PCT)
Prior art keywords
equipment
drilling rig
drill floor
well centre
floor deck
Prior art date
Application number
PCT/EP2014/050510
Other languages
English (en)
Other versions
WO2014108542A3 (fr
Inventor
Michael Kannegaard
Allan MCCOLL
Original Assignee
A. P. Møller - Mærsk A/S
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US13/772,709 external-priority patent/US9458680B2/en
Application filed by A. P. Møller - Mærsk A/S filed Critical A. P. Møller - Mærsk A/S
Priority to US14/760,449 priority Critical patent/US9624739B2/en
Priority to PCT/EP2014/050510 priority patent/WO2014108542A2/fr
Priority to GB1521178.2A priority patent/GB2530440B/en
Priority to NO20151648A priority patent/NO347453B1/en
Priority to US14/891,808 priority patent/US9834998B2/en
Priority to PCT/CA2014/050465 priority patent/WO2014186889A1/fr
Priority to MX2015015973A priority patent/MX365791B/es
Publication of WO2014108542A2 publication Critical patent/WO2014108542A2/fr
Publication of WO2014108542A3 publication Critical patent/WO2014108542A3/fr
Priority to DK201500775A priority patent/DK201500775A1/en
Priority to US15/813,268 priority patent/US10233703B2/en

Links

Classifications

    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B15/00Supports for the drilling machine, e.g. derricks or masts
    • E21B15/02Supports for the drilling machine, e.g. derricks or masts specially adapted for underwater drilling
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING 
    • B63B35/00Vessels or similar floating structures specially adapted for specific purposes and not otherwise provided for
    • B63B35/44Floating buildings, stores, drilling platforms, or workshops, e.g. carrying water-oil separating devices
    • B63B35/4413Floating drilling platforms, e.g. carrying water-oil separating devices
    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B19/00Handling rods, casings, tubes or the like outside the borehole, e.g. in the derrick; Apparatus for feeding the rods or cables
    • E21B19/14Racks, ramps, troughs or bins, for holding the lengths of rod singly or connected; Handling between storage place and borehole
    • E21B19/143Racks, ramps, troughs or bins, for holding the lengths of rod singly or connected; Handling between storage place and borehole specially adapted for underwater drilling
    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B19/00Handling rods, casings, tubes or the like outside the borehole, e.g. in the derrick; Apparatus for feeding the rods or cables
    • E21B19/14Racks, ramps, troughs or bins, for holding the lengths of rod singly or connected; Handling between storage place and borehole
    • E21B19/15Racking of rods in horizontal position; Handling between horizontal and vertical position
    • E21B19/155Handling between horizontal and vertical position

Definitions

  • the invention generally relates to offshore drilling rigs, such as semi- submersible drilling rigs, drillships or other offshore drilling platforms.
  • Offshore drilling rigs are widely used in the exploration and exploitation of hydrocarbon reservoirs under the sea floor.
  • One type of drilling structure is the semi-submersible drilling rig that typically obtains its buoyancy from ballasted, watertight pontoons located below the ocean surface and wave action.
  • the operating deck can be located high above the sea level due to the high stability of the design, and therefore the operating deck is kept well away from the waves.
  • Structural columns connect the pontoons and operating deck.
  • Other examples of offshore drilling rigs include drillships.
  • US 6,766,860 discloses an offshore drilling rig of the semi-submersible type comprising two load paths within the same derrick.
  • the derrick floor is elevated above the rest of the drilling deck.
  • Rotary tables are positioned in the drill deck below the primary and secondary hoisting paths.
  • drill pipe and the drill bit is made up and run through the water column to the sea bed where it is rotated by either the rotary table and/or a rotating mechanism (top drive) suspended in the derrick. Later, casing tubulars are assembled in one of the hoisting paths and run into the hole. Ramps feed pipes to the primary and secondary hoisting paths respectively.
  • auxiliary equipment may have to be lowered through the well centre.
  • auxiliary equipment may include logging-while-drilling equipment, measuring-while-drilling equipment, coiled tubing equipment, etc. and similar equipment other than the tubulars making up the drill string, well casing/lining or risers and other than heavy subsea equipment such as BOPs and Christmas trees.
  • an offshore drilling rig comprising a drill floor deck having a hole defining a first well centre.
  • Embodiments of the drilling rig further comprise a first hoisting system configured for hoisting and lowering tubular equipment through the first well centre.
  • Embodiments of the drilling rig further comprise first pipe handling equipment for presenting tubular equipment to the first hoisting system so as to allow the first hoisting system to hoist or lower the tubular equipment through the first well centre.
  • Embodiments of the drilling rig further comprise a support structure and a mounting structure, separate from the first hoisting system, for suspending suspendable equipment from an elevated position above the drill floor deck; wherein the mounting structure is connectable to the support structure at least at said elevated position such that the support structure supports the mounting structure and the suspended equipment at least at the elevated position; and wherein the mounting structure is movable between at least a lower position for rigging up equipment to the mounting structure and said elevated position.
  • a mounting structure for suspending suspendable auxiliary equipment and/or a protective curtain/barrier and/or other suspendable equipment from an elevated position above the drill floor deck.
  • a mounting structure may allow auxiliary equipment, such as coiled tubing, to be lowered or hoisted through the first well centre while suspended from the mounting structure at the elevated position.
  • auxiliary equipment such as coiled tubing
  • Examples of such auxiliary equipment may include logging-while-drilling equipment, measuring- while-drilling equipment, coiled tubing equipment, etc.
  • auxiliary equipment may comprise on-deck auxiliary equipment and suspendable auxiliary equipment such as down-hole equipment that may be hoisted through the well centre.
  • auxiliary equipment may comprise a suspendable component and an on-deck component e.g. a reel on which coiled tubing or wire is spooled for use for suspending the suspendable component through the well centre.
  • on-deck auxiliary components comprise supply and/or similar support components for supplying the suspendable component with energy or other supplies that otherwise support the suspendable equipment.
  • a mounting structure as described herein may be used in combination with various embodiments of a drilling rig e.g. an offshore drilling rig comprising a drill floor deck having a hole defining a first well centre; a first mast upwardly extending relative to the drill floor deck, and a first hoisting system supported by the first mast and configured for hoisting and lowering tubular equipment through the first well centre; and first pipe handling equipment for moving tubular equipment to the first hoisting system so as to allow the first hoisting system to hoist or lower the tubular equipment through the first well centre; wherein the first hoisting system is displaced from and located on a first side of the first well centre.
  • a drilling rig e.g. an offshore drilling rig comprising a drill floor deck having a hole defining a first well centre; a first mast upwardly extending relative to the drill floor deck, and a first hoisting system supported by the first mast and configured for hoisting and lowering tubular equipment through the first well centre; and first pipe handling equipment for moving
  • various embodiments of such a drilling rig may comprise a mounting structure for suspending suspendable auxiliary equipment from an elevated position above the drill floor deck, allowing the auxiliary equipment to be lowered or hoisted through the first well centre; wherein the mounting structure is movable between a lower position for rigging up auxiliary equipment to the mounting structure, and an elevated position allowing lowering or hoisting of auxiliary equipment suspended from the mounting structure through the first well centre.
  • the mounting structure may extend between support structures located on respective sides of the first well centre.
  • the mounting structure may extend along the longitudinal direction from a first mast that is longitudinally displaced from the well centre as described herein.
  • the mounting structure may comprise devices, such as one or more hooks, sheaves, pulleys, guide members such as guide arches, banana-sheaves and/or one or more other connection mechanisms and/or devices for supporting cables or wires or coiled tubing for on-deck connecting auxiliary equipment positioned on the drill floor deck, e.g. on the open drill floor deck areas with suspendable auxiliary equipment such as down-hole tools to be advanced towards the seafloor.
  • the mounting structure is different from the hoisting system and preferably operable independently of the hoisting system.
  • the mounting structure - i.e. its vertical projection onto the drill floor deck - defines a perimeter at least partially surrounding the first well centre and defining a work area around the well centre that is at least partly enclosed or delimited from other work areas by the perimeter.
  • the shortest horizontal distance between the perimeter defined by the mounting structure and the first well centre may be more than 0.5 m, such as more than 1 m, such as more than 2 m, such as more than 3 m, such as more than 4 m, such as more than 5 m, such as more than 6 m, such as more than 7 m, such as more than 10 m, such as more than 15 m, such as more than 20 m.
  • the perimeter may be defined by the mounting structure and the support structure to which the mounting structure is attached, e.g. the mast.
  • the mounting structure and the support structure together may define a perimeter that substantially completely encloses the well centre.
  • the perimeter may be large enough so as to allow the top drive of the hoisting system to be lowered and raised within the perimeter defined by the mounting structure.
  • the drilling rig may comprise a protective curtain or barrier suspendable from the mounting structure for preventing, when the mounting structure is positioned at the elevated position, tubulars or other items handled above the well centre from falling onto adjacent deck areas.
  • the protective structure and/or the mounting structure may have such a shape so as to direct large falling objects such as tubulars in a specific, controlled direction to minimise risk of personal injury and material damage.
  • the mounting structure may comprise one or more retaining portions operable to receive falling tubulars and to retain at least an upper portion (above the centre of mass) of the tubular in a substantially fixed upright or slanted position.
  • the retaining portion may e.g. be V-shaped or U-shaped or another shape open towards the well centre and the work area surrounded by the mounting structure.
  • the retaining portion may provide two generally opposing contact surfaces, e.g. converging contact surfaces, for retaining a tubular between the contact surfaces.
  • the portions of the mounting structure adjacent the retaining portion may be formed so as to converge towards the retaining portion so as to guide a falling tubular towards and into the retaining portion.
  • a protective barrier e.g. a Kevlar sheet
  • hanging (or otherwise extending downwards) from the mounting structure may at least partially surround a well-centre or delimit the well centre from other work areas, e.g. so as to allow manual work processes to take place at one well centre while other operations (such as drilling or drilling operations) occur at another, adjacent well centre.
  • the mounting structure and/or the protective barrier may allow work in other parts of the drill floor deck, e.g.
  • the protective barrier described herein it is possible to work anywhere in the vicinity of the well centre that is protected by the barrier with reduced risk of dropped object incidents etc.
  • the size of the work area enclosed by the barrier e.g. as defined by the perimeter defined by the mounting structure, may be selected according to the specific needs.
  • the mounting structure and/or the protective barrier are configured to allow the running of equipment suspended from the mounting structure while protecting at least a part of the well centre area by a protective barrier that is simultaneously installed.
  • mounting structure may comprise separate suspension devices for suspending auxiliary equipment and suspension devices for attaching the barrier.
  • the barrier may be provided as multiple barrier segments that may be separately attached to the mounting structure while leaving a gap between adjacent segments where auxiliary equipment may be suspended.
  • edges of adjacent segments may be provided with connecting members so as to allow at least portions of the adjacent segments to be attached to each other so as to cause the gap to only extend along a part of the height of the barrier.
  • Such a segmented design may also facilitate a partial enclosure of selected part of the perimeter around the well centre by a barrier.
  • the protective barrier may also provide a working environment inside the barrier that is shielded/protected from environment conditions outside the barrier, e.g. weather, nearby hazardous work, operations at the other well centre.
  • the protective barrier and the mounting structure may be operable to various degrees of enclosure so that it is possible to partially close off the well centre depending on where and what needs to be isolated from the rest of the drill floor deck.
  • the barrier may be installed permanently or temporarily.
  • the barrier may be installed e.g. by means of a roller system and be rolled out when needed, or it may be stowed in a suitable container which is stowed away when it is not needed.
  • suspendable equipment such as a protective barrier or auxiliary equipment to be lowered through the well centre may conveniently, efficiently and safely be prepared, rigged up and brought into an operational position without the need for human operators climbing at unsafe heights.
  • a connection mechanism of the mounting structure for connecting auxiliary equipment to the mounting structure is made conveniently accessible to human operators from the drill floor deck; generally, the lower position is lower than the elevated position; for example, the lower position may be no more than 3 m, such as no more than 2.5 m above drill floor deck, such as no more than 2 m, such as no more than 1 .5 m.
  • the elevated position may be at least, 3 m, 5 m, or 10 m above the drill floor deck, such as at least 15 m above the drill floor deck, e.g. at least 20 m above the drill floor deck, e.g. at least 30 m above the drill floor deck, e.g. at least 40 m above the drill floor deck.
  • the mounting structure may be lowered, if not all the way, so at least to a reduced height allowing a safer and more efficient rigging up of equipment.
  • the mounting structure comprises a beam or similar elongated member and banana-sheaves or other suspension device for removably attaching equipment.
  • the banana-sheaves or other suspension device are arranged to hang below the beam arranged so that, when the beam is lowered to its lower position, they may reach a deck-level working height.
  • the mounting structure may also be positioned so that it is easily reached by a workbasket which is a relatively safe alternative. Lowering the mounting structure will make working with hooking up tubulars easier as the distance between a reel position on deck and the basket is reduced.
  • the mounting structure When the mounting structure is arranged horizontally (longitudinally and/or transversely) displaced from the well centre, e.g. connected to one of the corners or sides of the mast facing an open drill floor deck area, the preparation of the auxiliary equipment and its connection to the mounting structure may conveniently be performed from the first open drill floor deck area without or at least with minimal interference with any ongoing drilling operation.
  • the horzontal displacement is more than 0.5 m, such as more than 1 m, such as more than 2 m, such as more than 3 m, such as more than 4 m, such as more than 5 m, such as more than 6 m, such as more than 7 m, such as more than 10 m, such as more than 15 m, such as more than 20 m; at the same time less than 100 m, such a less than 75 m, such as less than 50 m, such as less than 25 m, such as less than 15 m, such as less than 10m, such as less than 7 m, such as less than 5 m, such as less than 3 m, such as less than 2 m, such as less than 7 m.
  • the height of the support structure and the horizontal displacement from the well centre are arranged to allow a suitable angle and/or bend radius for suspended wire connecting the suspendable auxiliary equipment through the well centre.
  • the first open drill floor deck area allows a spacing of any on-deck auxiliary equipment, such as reels of spooled wire or coiled tubing or other on-deck components supporting the suspendable auxiliary equipment, from the support structure (measured on the drill floor deck) of more than 1 m , such as more than 2 m, such as more than 3 m, such as more than 4 m, such as more than 5 m, such as more than 6 m, such as more than 7 m, such as more than 10 m, such as more than 15 m, such as more than 20 m.
  • the support structure may include the mast and/or a separate structure such as a support structure of a setback area.
  • the mast comprises guides and/or other receiving members at both sides of the well centre so as to allow the mounting structure to be attached to the mast while defining a perimeter at least partially surrounding the well centre.
  • the mounting structure comprises one or more connecting members operable for attachment to the support structure, such as flanges, bolts, hooks, dolleys, eyes, etc.
  • the support structure may comprise one or more mating receiving members and/or guide members, such as holes, recesses, hooks, flanges, and/or one or more upwardly extending guides such as rails, tracks, shafts, or the like.
  • the mounting structure may be permanently but movably attached to the support structure, e.g. attached to guides, so as to allow the mounting structure to be elevated/lowered and secured at least at the elevated position.
  • the mounting structure may be removably attachable to the support structure, e.g. so as to allow the mounting structure to be detached from and moved away from the mounting structure when in the lower position. This may allow rigging up of equipment to the mounting structure at a distance from the well centre.
  • the mounting structure may be movable between the lower and the elevated position along one or more upwardly extending guide members such as rails, tracks or other suitable guides along which the mounting structure may be elevated to a desired height, thus allowing for an efficient and secure operation.
  • the mounting structure may e.g. comprise a frame, e.g. including a beam or similar elongated structure.
  • the mounting structure may be slidably arranged on rails or tracks on the mast and/or on a corresponding support structure, e.g. a pipe storage structure, on a second side of the well centre opposite a first side where the mast is located.
  • Such frame, beam or elongated structure may extend in the longitudinal direction or along the transverse direction.
  • the mounting structure may be part of or separate from a guard structure as described herein.
  • the elongated structure extends on a second side of the well centre opposite to a first side on which the first mast is located.
  • the elongated structure may be attached to the rails via connecting arms extending between the elongated structure and the first mast.
  • Suspension devices such as hooks, pulleys, banana- sheaves, pad-eyes, or the like may be arranged at one or more fixed suspension positions along the beam or even movable along the beam, e.g. along a track or rail.
  • the mounting structure may be raised and lowered using the hoisting system such as via the one or both of the top-drives.
  • the mounting structure may be provided with pad eyes arranged to allow hooking-up to the top drive so that load of the beam, including any equipment hooked up to the beam, can suitably be distributed.
  • the pad eyes will be upwardly extending from the mounting structure and, when the mounting structure comprises an elongated beam, be located towards the ends of the beam and arranged so that when the beam is loaded (i.e. equipment is hooked up) the load on the mounts of the beam in the rails is minimized. This will in some embodiment entail lifting in the centre of gravity when viewed in the cross section along the direction intersecting the hoisting system and the well centre.
  • the mounting structure may then be attached to the mast or similar support structure at the elevated position, e.g. via hydraulically actuated, spring- loaded bolts or clamps engaging corresponding receiving members, such that the support structure and the weight of the suspended equipment are supported by the support structure without the need for the top drive.
  • the attachment of the mounting structure may be performed or assisted by manual operations, e.g. when the mounting structure is installed or mounted to receiving members on the mast at the desired height by means of manual handling and installation, such as by personnel utilising rope access to rig in and fix the structure.
  • lifting of the beam may be provided by a winch mounted at the mast or located on the deck with the lifting wire hooked up via a pulley in the derrick to provide an overhead lift that is more flexible than that available from the top-drive.
  • winches are typically referred to as a tugger.
  • lifting may be carried out by mounting the beam on a rack and pinion system at one or both sides of the either side.
  • the mounting structure may be lifted by a crane and attached to the support structure at the elevated position, or the mounting structure may be supported on upwardly extending cylinders or similar actuators.
  • the top drive may perform drilling operations or other operations involving tubulars being lowered through the well centre.
  • the load bearing structure of the first hoisting system is displaced from and located on a first side of the first well centre.
  • the first hoisting system comprises one or more sheaves, one or more hoisting lines extending over the sheaves and operable to carry the tubular equipment when raised or lowered through the first well centre; and at least two support members extending upwardly relative to the drill floor deck and configured to carry the sheaves and weight of the tubular equipment transferred by the hoisting lines and the sheaves; wherein the first hoisting system is displaced from and located on a first side of the first well centre, defining a longitudinal direction between the first well centre and the first hoisting system; and wherein the two support members are positioned spaced apart from each other so as to form a gap between the two support members through which gap tubular equipment is movable towards the first well centre from the first side along the longitudinal direction.
  • the offshore drilling rig further comprises a first mast upwardly extending relative to the drill floor deck and configured to support the hoisting system, e.g. the sheaves and the support members against lateral forces and/or bending.
  • the first mast may be displaced from and located on the first side of the first well centre. Consequently, access to the well centre is facilitated not only for human operators but also for equipment, including tubular equipment and other large equipment that does not have to be manoeuvred through openings of the mast structure in order to have access to the well centre. In particular, access to the well centre is facilitated from at least three sides other than the first side. This is in contrast to conventional derrick structures that surround the well centre, i.e.
  • the first mast may comprise an opening aligned with a gap of the load bearing structure of the hoisting system, e.g. the gap between the support members, and shaped and sized so as to allow tubulars to be fed through the opening in the mast and through the gap to the well centre.
  • the first hoisting system and, optionally, the first mast are configured to allow tubular equipment to be moved towards the first well centre, e.g. along the longitudinal direction, from the first side, i.e. the same side on which the hoisting system is located. Consequently, in some embodiments, tubular equipment may be moved to the well centre from both sides of the well centre (in the longitudinal direction), thus allowing tubular equipment from multiple storage areas, and using different pipe handling equipment, to be moved while keeping the open drill floor deck area free.
  • the first hoisting system and, optionally, the first mast may define an opening through which tubular equipment is movable towards the first well centre from the first side.
  • the tubular equipment may be at least partly moved underneath the load bearing structure, e.g.
  • the first hoisting system comprises a plurality of cylinders or other support members extending upwards relative to the drill floor deck, wherein the support members are arranged as two or more groups of support members that are laterally spaced apart from each other so as to allow tubular equipment to be moved towards the well centre from the first side along the longitudinal direction through a gap between the two groups of support members.
  • the cylinders may be positioned elevated relative to the drill floor on foundation, and the tubulars may be moved through a gap in the foundation.
  • one or more of the support members may be displaced from each other in the longitudinal direction. It will be appreciated that a gap in the load bearing structure, e.g.
  • the gap is shaped and sized so as to allow tubular equipment to be fed through the gap.
  • the gap is at least 0.5 m, such as at least 1 m wide, such as at least 2 m wide, such as at least 3 m wide. Consequently, a central and direct pipe feeding path for tubulars to the well centre is provided. Tubulars may be fed through the gap and presented to a top drive in a single forward and/or upward motion path
  • Each group of support members may comprise one or more cylinders or other support members, e.g. 2, 3, or even more cylinders, typically depending on the desired hoist capacity.
  • the well centre may be longitudinally displaced from an area between the two groups of support members so as to allow access to the well centre also from the transverse direction.
  • the well centre may be displaced from each axis connecting two of the support members.
  • the support members may support one or more sheaves whose axis extends in the direction connecting the groups of support members.
  • the drilling rig may thus comprise a storage structure for storing tubular equipment and/or pipe handling equipment positioned longitudinally displaced from the first well centre on the first side of the first well centre.
  • risers and/or another type of tubulars may be stored on the first side of the well centre (e.g.
  • tubulars such as drill pipes and/or casings
  • other types of tubulars such as drill pipes and/or casings
  • the storage and/or stand-building of drill pipes and/or casings may be performed at a position transversely displaced from the well centre.
  • the pipe storage structure on the first side is to support heavier tubular equipment such as riser sections and/or casing.
  • drill pipe and/or casing, and or stands of drill pipe or casings may be stored in the storage structure on the first side of the well centre (e.g.
  • first and second sides may be distinguished by an axis through the first well centre dividing the first and the second side form each other where the load bearing structure of the hoisting system intersects the plane defined by the drill floor deck only on the first side.
  • the pipe storage structure on the first side is arranged to store tubulars in vertical position.
  • the pipe storage structure may be located at the same level as the drill floor deck or at least partially at a different level, e.g. a lower level so as to allow tubulars to be advanced along a sloping direction through the opening/gap in the hoisting system.
  • the term "mast" refers to a support structure upwardly extending relative to the drill floor deck and supporting a hoisting system for hoisting and lowering tubulars (such as drill strings, casings and/or risers) towards the seabed e.g. such that drilling into the seabed can be performed.
  • the mast may extend from the drill floor deck or from a deck different from the drill floor deck.
  • the mast including the load bearing structure of the hoisting system defines a footprint on the drill floor deck or at least within a plane defined by the drill floor deck.
  • the footprint may be defined as the space in the plane defined by the drill floor deck that is occupied or enclosed by the mast structure and the load bearing structure of the hoisting system, i.e. as a cross-section of the mast and the load bearing structure of the hoisting system in the plane of the drill floor deck.
  • the position of the mast may be defined by a geometrical centre of the footprint.
  • the hoisting system may be a hydraulic hoisting system comprising upwardly extending cylinders or other actuators for carrying the load to be hoisted or lowered typically via large sheaves mounted on top of the cylinders.
  • the load bearing structure of a cylinder rig thus comprises the cylinders and the one or more sheaves which may be in the form of a sheave cluster.
  • the footprint of such cylinders in the plane of the drill floor deck is also part of the mast footprint.
  • the cylinders may extend from the drill floor deck or from a foundation below or elevated above the drill floor deck.
  • the loads exerted on the hoisting system during lowering or hoisting of equipment in or out of the well centre can be said to be at least partially transferred to the drilling rig via cylinders.
  • the mast predominantly supports the hoisting systems in the horizontal direction while the load is carried by the cylinders.
  • the hoisting system may be a draw-works system.
  • the sheaves are carried by other suitable support members such as upwardly extending columns and/or other load-bearing parts of the mast structure.
  • loads are transferred to the drilling rig via the support members.
  • the load bearing structure comprises the sheaves and the support members that carry the sheaves and any load suspended from the sheaves.
  • the load bearing structure transfers substantially the entire weight of the hoisting system and of the load suspended from it to parts of the drilling rig at or below the drill floor deck level.
  • one end of the hoisting line is anchored on one side of the load bearing structure, opposite the side on which the first well centre is located, e.g. such that the forces transferred via the sheaves and the support members carrying the sheaves are substantially vertical.
  • the hoisting line may be wound around a draw-works drum.
  • the draw-works drum and/or motor may be completely or partially encapsulated by the mast structure.
  • the hoisting lines may be anchored to the drilling rig via a number of anchoring members such as compensators, e.g. a number of cylinders.
  • anchoring members may be arranged in two groups of anchoring members so as to form a gap between the two groups of anchoring members where the gap is aligned with the gap between the support members so as to allow tubulars to be fed through the gap between the groups of anchoring members.
  • the hoisting line or lines may be attached to the anchoring members via a yoke extending across the gap between the anchoring members at a height above the drill floor deck sufficient to allow tubulars to be fed through the gap between the anchoring members and below the yoke.
  • a hoisting system supported by the mast not only refers to embodiments where the mast carries a part of the weight of the hoisting system (and/or any load carried by the hoisting system), but also to embodiments where the mast supports the hoisting system only, or at least predominantly, against lateral/horizontal forces.
  • a longitudinal direction may be defined in the plane of the drill floor deck as a direction extending through the first well centre and through the position of the first hoisting system.
  • the position of the first hoisting system within the plane of the drill floor deck may be defined as a position of a centre of mass of the top sheave(s) of the first hoisting system over which the hoisting lines of the first hoisting system are run.
  • the top sheave is a traveling sheave or cluster of sheaves supported and pushed upwards by the cylinders. In draw-works system the top is typically fixed to support members at a fixed vertical position relative to the mast.
  • the rig is equipped with a top drive arranged to rotate drill strings and lower them through the first well centre; the top drive is arranged to be lifted by the first hoisting system.
  • a guide-dolly is typically arranged to slide along vertically extending guides, e.g. rail or rails while being connected to the top drive.
  • the rails may be part of or attached to the first mast.
  • the longitudinal direction may thus be defined in the plane of the drill floor deck as a direction extending through the first well centre and through the position of the this rail or, in case of multiple rails, a centre point of said rails.
  • the centre point is calculated by weighing the position of each of the rails with a fraction of the rotational force from the top drive that the rails absorb.
  • a transverse direction may be defined within the plane of the drill floor deck as extending normal to the longitudinal direction.
  • the first mast defines a footprint on the drill floor deck, where the drill floor deck extends outside the footprint.
  • the drill floor deck area extending outside the footprint of the first mast may be sized and shaped so as to allow installation of skid beams for skidding equipment and/or for a forklift or other vehicles to operate on the drill floor deck area outside the mast footprint.
  • skid beams are installed on the drill floor deck.
  • the drill floor deck area outside the mast footprint may be at least 200 m 2 , such as at least 500 m 2 , such as at least 1000 m 2 , such as at least 2000 m 2 , e.g. at least 5000 m 2 .
  • the first well centre may be located outside the footprint defined by the first mast, and the first well centre may be displaced from the footprint along the longitudinal direction.
  • the drill floor deck comprises one or more open drill floor deck areas not otherwise obstructed by fixed installations such as the first mast, further masts, pipe handling equipment, and/or the like, as will be described in more detail below.
  • the drill floor deck and, in particular, the part in direct proximity to the well centre is stationary without the need to hoist or lower parts of the drill floor deck to allow running (i.e. lowering) the blow-out preventer (BOP) and/or other heavy subsea equipment (e.g. the Christmas tree).
  • BOP blow-out preventer
  • the BOP and/or other heavy subsea equipment is stored on a deck below the drill floor deck. Consequently, such subsea equipment does not take up space on the drill floor deck.
  • the term well centre refers to a hole in the drill floor deck through which the drilling rig is configured to lower tubulars towards the seabed and, in particular, through which tubulars may be lowered all the way to the seabed.
  • a well centre is sometimes also referred to as a drilling centre.
  • the drill floor deck may comprise additional holes such as foxholes and mouseholes that may e.g. be used for building stands of tubulars but through which the drilling rig cannot lower tubulars to the seabed and/or through which the drilling rig cannot perform drilling into the seabed e.g. by lacking a system arranged to rotate a drill string with sufficient force such as a top-drive or a rotary table.
  • such an additional hole is a hole in the drill floor deck through which the drilling rig cannot progress a drill string through a riser system.
  • a well centre is differentiated from an additional hole by having a diverter and/or a diverter housing arranged below so that drill string passed through the well centre extends through said diverter or diverter housing.
  • the offshore drilling rig may be a semi-submersible drilling rig, i.e. it may comprise one or more buoyancy pontoons located below the ocean surface and wave action, and an operation platform elevated above the ocean surface and supported by one or more column structures extending from the buoyancy pontoon to the operation platform.
  • the offshore rig may be of a different type of drilling vessel, such as a jack-up drilling rig or a drill ship.
  • the first pipe handling equipment defines a first pipe feeding path along which tubular equipment is moved towards the first well centre.
  • the first pipe feeding path may intersect the first well centre; the first pipe handling equipment may be configured to move tubular equipment towards the well centre from the first side or from a second side of the well centre, opposite the first side on which the mast is located.
  • the first pipe feeding path may be a straight path or it may have a different shape, e.g. comprise multiple path sections, one, some or all of which may be straight.
  • the first pipe feeding path extends substantially along the longitudinal direction (at least proximal to the well centre such as e.g.
  • lateral drill floor deck areas extending transversely adjacent the well centre may be kept free of pipe handling equipment, such as pipe rackers, iron roughnecks etc. and, in particular, free of horizontal pipe handling equipment such as tubular feeding machines, e.g. catwalk machines.
  • pipe handling equipment such as pipe rackers, iron roughnecks etc.
  • horizontal pipe handling equipment such as tubular feeding machines, e.g. catwalk machines.
  • the drilling rig comprises further well centre(s) arranged along the transverse direction arranging the pipe handling equipment on the second side may allow pipe handling equipment to service more than one well centre and/or pipe handling equipment servicing the first well centre may cooperate with the pipe racking equipment servicing a second well centre.
  • first pipe feeding path extends substantially along the transverse direction
  • drill floor deck areas extending longitudinally adjacent the well centre may be kept free of pipe handling equipment.
  • tubulars are typically moved from a storage area located at the first side and/or transversely located relative to the well centre.
  • substantially along the longitudinal direction or transverse direction is intended to refer to a direction parallel to said direction and directions slightly deviating from said direction such as within +/- 30°, e.g. +/- 20°, +/- 10°, such as +/- 5°.
  • the first pipe handling equipment is operable to move tubular equipment at least partly underneath the load bearing structure and/or through a gap formed in said load bearing structure.
  • tubular equipment is intended to refer to tubular equipment that is advanced through the well centre towards the sea floor during one or more stages of the drilling operation.
  • tubular equipment refers to straight tubular elements that can be joined to form a string of tubular equipment.
  • the tubular equipment may be selected from drill pipes and/or other tubular elements of the drill string, risers, liners and casings. Examples of tubular elements of the drill string include drill pipes, drill collars, etc. For the purpose of the present descriptions these will also generally be referred to as tubulars.
  • Tubulars may have varying lengths and diameters.
  • Joints of drill pipe typically have lengths between 33' to 45' and diameters of up to 19" or even 20".
  • joints of drill pipe Prior to advancement through the well centre, joints of drill pipe are normally assembled to stands of two, three or even four joints of drill pipe, so-called doubles, triples etc.
  • the building of stands is performed by dedicated stand-building equipment and/or by a hoisting system. Once assembled, the stands are normally stored in a set-back area, typically in upright position supported by e.g. fingerboards.
  • Riser joints typically have lengths between 50' and 90' and diameters of up to 70".
  • the first pipe handling equipment comprises first horizontal pipe handling equipment for handling horizontally oriented tubular equipment, and first vertical pipe handling equipment for handling at least vertically oriented tubular equipment. Consequently, the first pipe handling equipment allows tubulars from different storage/setback areas for storing tubulars at different orientations to be moved to the well centre and/or between one or more storage areas using a common pipe feeding path, thus allowing other drill floor deck areas to be kept free of pipe handling equipment.
  • the first horizontal pipe handling equipment may be configured to move tubular equipment along a first pipe feeding path towards the first well centre, e.g. along a first straight pipe feeding path.
  • tubulars may be moved from a horizontal storage area by means of the horizontal pipe handling equipment and raised into a vertical orientation by means of the vertical pipe handling equipment, the hydraulic hoisting system, the horizontal pipe handling equipment, and/or by two or more of such devices cooperating with one another.
  • tubulars from a vertical storage position may be moved to the well centre by the vertical pipe handling equipment.
  • the horizontal pipe handling equipment may be any suitable apparatus or device for moving tubulars in a horizontal orientation and/or for raising - alone or in cooperation with other pipe handling equipment - tubular equipment from a horizontal to a vertical orientation. Examples of horizontal pipe handling equipment include catwalk machines, such as catwalk shuttles.
  • the vertical pipe handling equipment may be any suitable apparatus or device for moving tubulars in a vertical orientation and/or for changing - alone or in cooperation with other pipe handling equipment - the orientation of tubular equipment, e.g. between a horizontal and a vertical orientation.
  • Examples of vertical pipe handling equipment include column rackers, hydrarackers, and other types of rackers, hydraulic arms, etc. or combinations thereof.
  • the first vertical pipe handling equipment is movable between at least a first position on the first pipe feeding path between the first horizontal pipe handling equipment and the first well centre and a second position laterally displaced relative to the first pipe feeding path.
  • the first vertical and horizontal pipe handling equipment may cooperate with each other and/or with the hoisting system of the first mast to perform a variety of pipe handling operations.
  • the pipe handling operations do not occupy unnecessary drill floor deck area and do not affect operations that are simultaneously performed at other drill floor deck areas, thus leaving one or more drill floor deck areas free of pipe operations such as an open drill floor deck area as discussed below.
  • the vertical pipe handling equipment when the vertical pipe handling equipment is at the first position it may be configured to receive tubular equipment from the first horizontal pipe handling equipment.
  • the horizontal pipe handling equipment may be movable, e.g. on rails or skid beams or another suitable guide, along the first pipe feeding path to and away from the first well centre.
  • the horizontal pipe handling equipment may be located on the drill floor deck, i.e. on the same level as the drill floor deck. Furthermore, the horizontal pipe handling equipment may be surrounded by drill floor deck areas shaped and sized to allow human operators and/or movable equipment such as forklifts and/or skiddable equipment to move alongside (i.e. parallel to the long side of the pipe when handled by the horizontal pipe handling equipment) and/or around the horizontal pipe handling equipment and/or between the horizontal pipe handling equipment and other parts of the drill floor deck including the well centre. Due to the absence of height differences such movement is further possible in a safe and efficient manner.
  • the term drill floor deck is intended to refer to the deck of an operating platform of an offshore drilling rig immediately above which joints of tubulars are assembled to form the drill string which is advanced through the well centre towards the seabed.
  • the part of the drill floor deck in immediate proximity of the well centre is normally referred to as the drill floor, which is the primary work location for the rig crew and/or machines performing similar functions, such as iron roughnecks.
  • the drill floor normally comprises a rotary table for rotating the drill string.
  • the term drill floor deck includes the drill floor located directly under/next to the mast and surrounding the well centre as well as deck areas on the same level as and connected with the drill floor by uninterrupted floor area on the same level, i.e.
  • the drill floor deck is typically the floor of a platform, e.g. the lowest platform, above the diverter system.
  • Diverter systems for offshore drilling rigs are typically provided beneath the drilling rig rotary table. Such a diverter system provides a vent line and ensures that the flow may be directed away from the drilling rig.
  • the offshore drilling rig comprises a diverter system under the first well centre.
  • the drill floor deck may be formed by the roof of a housing or enclosure accommodating mud mixing equipment and/or other operational equipment of the drilling rig, thus allowing for a compact and space-saving arrangement of equipment on the drilling rig.
  • the drill floor deck may comprise a storage area for storing tubular equipment such as drill pipes, casings, risers, etc., e.g. a storage area for storing tubular equipment in horizontal orientation.
  • the storage area may be located next to the horizontal pipe handling device or, if this is movable, next to the pipe feeding path along which the horizontal pipe handling device may travel.
  • the pipe storage area and/or horizontal pipe handling equipment may be partially or completely surrounded by open drill floor deck area, e.g.
  • the drill floor deck comprises at least a first open or unobstructed drill floor deck area located adjacent to the first mast, e.g. in the longitudinal or transverse direction of the first mast, other than any drill floor deck area used for movement of tubular equipment to the first well centre, and free of any mast or tubular storage structures or other fixed installations.
  • the open drill floor deck area extends outside the mast structure. Consequently, the drilling rig provides an open or free drill floor deck area for placing and/or moving auxiliary equipment and/or for handling and/or operating such auxiliary equipment while at the same time allowing efficient and safe access to the well centre.
  • auxiliary equipment examples include logging-while-drilling equipment, measuring-while-drilling equipment, coiled tubing equipment, etc. and similar equipment other than the tubulars making up the drill string, well casing/lining or risers and other than heavy subsea equipment such as BOPs and Christmas trees.
  • auxiliary equipment may comprise on-deck auxiliary equipment and suspendable auxiliary equipment such as down-hole equipment that may be hoisted through the well centre from a gantry or mounting structure.
  • auxiliary equipment may comprise a suspendable component and an on- deck component e.g. a reel on which coiled tubing or wire is spooled for use for suspending the suspendable component through the well centre.
  • on-deck auxiliary components comprise supply and/or similar support components for supplying the suspendable component with energy or other supplies that otherwise support the suspendable equipment.
  • the drilling rig is configured to perform movement of tubular equipment, in particular risers, casing, liner, elements of the drill string, to the first well centre along a first pipe feeding path that only crosses drill floor deck areas outside the first open drill floor deck area. Consequently, handling and/or operation of the auxiliary equipment may be performed with limited or even without interfering with the running of the tubular equipment through the well centre, i.e. away from the critical path of the drilling operation. Handling of auxiliary equipment may e.g. include preparation of suspendable auxiliary equipment such as sensors, robots, drones that are to be lowered into the drilled well at a later point in time.
  • the offshore drilling rig may thus be configured, during all movement of tubular equipment to the first well centre, to keep the first open drill floor deck area free of said tubular equipment being moved to the first well centre.
  • the first open drill floor deck area is not occupied and/or cannot be occupied by neither a horizontal pipe handling equipment or by vertical pipe handling equipment.
  • the open drill floor deck areas are free of any rails, guides or skid beams of the catwalk machine or other tubular feeding machines. Handling of auxiliary equipment may further be performed in a safe manner sufficiently remote from the normal drilling operation.
  • An open drill floor deck area may even be sized and shaped to allow on-deck auxiliary equipment to be fixedly installed, i.e. during the entire drilling operation or at least stages thereof.
  • the first open drill floor deck area may be larger than 1 m in both directions (e.g. 1 m by 1 m or 1 m by 5 m), such as larger than 2m in both directions, such as larger than 3m in both directions, such as larger than 4m in both directions, such as more than 5m in both directions.
  • the first open drill floor deck area may be at least 4m 2 large, e.g. at least 10m 2 , e.g. at least 15m 2 , e.g. at least 25m 2 , e.g. at least 35m 2 , e.g. at least 50m 2 , e.g. at least 65m 2 , e.g.
  • the open drill floor deck area may cover at least a sector of a circle around the well centre having a radius of at least 2m, such as 3m, such as 4m, such as 5m, such as 6 m, such as 8m, such as 9m, such as 10m, such as 15m, such as 20m, such as 30m, the sector having a central angle of at least 50°, such as at least 60°, such as at least 90°, e.g. at least 120°, e.g.
  • one or more of the open drill floor deck areas are accessible with a crane, such as a knuckle boom crane, so that relatively large equipment may be lifted on or off the open drill floor deck area.
  • the drilling rig comprises such a crane.
  • Such equipment may be auxiliary equipment as discussed below.
  • the open drill floor deck area has a free height of at least 3 m, such as at least 5m, such as at least 10 m, such as at least 20 m, e.g. at least 30 m.
  • the term open drill floor deck area is intended to refer to a part of the drill floor deck that is free of pipe handling equipment, at least fixedly installed pipe handling equipment, during normal drilling operation such as drilling, making and breaking stands, running and tripping tubulars.
  • Pipe handling equipment refers to equipment for drilling, making and breaking stands, running and tripping tubulars.
  • the term normal drilling operation is further intended to refer to operations other than exceptional operations such as repair, maintenance work, or the like.
  • the term fixedly installed equipment is intended to refer to equipment that is not movable during normal operation of the drilling rig, e.g. not skiddable or otherwise displacable. In some
  • the open drill floor deck area is further free of coiled tubing equipment, at least fixedly installed coiled tubing equipment, during normal drilling operation.
  • the open drill floor deck area is further free of heavy subsea equipment during normal drilling operation.
  • subsea equipment refers to equipment such as blow out preventers or Christmas trees or similar assembly of valves, spools, and fittings that are installed under the drilling rig during the drilling operation.
  • the open drill floor deck area is not used during normal drilling operation for moving tubular equipment, coiled tubing and/or heavy subsea equipment to/from the well centre.
  • first open drill floor deck area comprises an access path to the first well centre, which access path extends outside the footprint of the first mast, auxiliary equipment may easily be moved to/from the first well centre.
  • the access path may allow free access from the entire first open drill floor deck area to the first well centre without entering the footprint of the mast.
  • the access path may provide a free height of at least 3 m, such as at least 5 m, such as at least 7 m such as at least 10 m, such as at least 15m, such as at least 20 m thus allowing even tall items to be moved.
  • the open drill floor deck area is generally free of pipe handling equipment during normal drilling operations, in certain exceptional situations it may be desirable to move tubular equipment such as risers to the open drill floor deck area, e.g. for repair or maintenance work. Such operations may thus be performed conveniently and safely without interfering with the normal drilling operation.
  • the access path is a straight path, e.g. extending in the longitudinal or transverse direction, particularly convenient access is provided.
  • the access path is short, e.g. less than 20 m such as less than 10 m, efficient access is provided.
  • the access path When the access path is wide enough to allow vehicles such as forklifts and/or skiddable items moving along skid beams to move between the open drill floor deck area and the well centre, the efficiency of the drilling rig is increased.
  • the access path may be at least 2 m wide, such as at least 3 m e.g. at least 5 m wide.
  • the drilling rig comprises access paths to the well centre from two, three or even from all four sides, i.e. from both longitudinal directions and from both transverse directions.
  • at least a part of the mounting structure may extend across the access path.
  • the protective barrier can be used to restrict these access paths for safety concerns; i.e. when an operation is ongoing, the protective barrier may restrict access when e.g. a safety critical operation is being performed at one end of the access path, for instance at the well centre or otherwise on the drill floor deck in proximity of the well centre. This barrier may serve to assist in avoiding issues with for instance simultaneous operations in close proximity.
  • the drilling rig comprises a guard structure - e.g. separate from, combined with, or even embodied as the mounting structure described herein - configured to prevent tubular equipment operated above the first well centre from falling onto the drill floor deck area in a direction away from the first mast.
  • the guard structure may be configured to guard at least part of (such as all of) the first open drill floor deck area from such falling tubular equipment.
  • the guard structure may be a lateral guard structure extending, e.g. along the longitudinal direction, between support structures located on respective sides of the first well centre; one of the support structures may be the first mast. Consequently, even during ongoing drilling operations, auxiliary equipment may be handled and/or placed safely within the first open drill floor deck area.
  • the guard structure may be formed completely or partially from one or more beams, chains, or similar structures; it may be located at a suitable elevation above the drill floor deck, low enough to allow tubular equipment to be caught and in some embodiments high enough to allow auxiliary equipment to be moved underneath.
  • the guard structure may comprise guards arranged at respective heights and/or guards that are movable between respective heights e.g. to allow catching of tubular equipment of various length such as pipes and stands.
  • the guard structure may be elevated above the drill floor deck at least 2 m, such as at least 3 m, such as at least 5 m, such as at least 7 m, such as at least 10 m, such as at least 15m, such as at least 20 m, such as at least 30 m, such as at least 40 m; the guard structure may be elevated less than 30m, such as less than 25m, such as less than 20 m, such as less than 15 m, such as less than 10 m, such as less than 7 m, such as less than 5 m, such as less than 3 m.
  • the guard structure may extend between and be connected to the first mast and the pipe storage structure.
  • the guard structure may be movable between a closed position where it prevents tubular equipment operated above the first well centre from falling onto the first open drill floor deck area and an open position where it allows increased lateral access, e.g. without height restriction, to the first well centre from the area which it is configured to guard.
  • the guard structure may be hinged or horizontally or vertically slidable.
  • the guard structure may comprise parts at various heights, some or all of which may be opened.
  • the guard structure may be operable to be moved to different elevations.
  • the guard structure may be implemented as a mounting structure as described herein.
  • the guard structure and the mounting structure may be separate structures.
  • the guard structure may comprise a retaining portion as described herein.
  • the drilling rig may further comprise a pipe storage structure, e.g. providing a setback area for storing assembled stands of pipes, positioned on a second side of the first well centre opposite the first side.
  • this pipe storage structure may be located at the same level as the drill floor deck or at least partially at a different level, e.g. a lower level so as to allow tubulars to be advanced along a sloping direction.
  • movable equipment may be moved around the first open drill floor deck area and around the setback area from one lateral side of the well centre to the other side without interfering with the drilling operation.
  • the drilling rig is a dual (or even multiple) activity rig where more than one main or auxiliary drilling operations may be performed through two or even more separate work centres, one, some or all of which may be well centres.
  • an additional work centre may be a hole in the drill floor through which tubulars may be lowered but through which tubulars may not necessarily be lowered all the way to the seabed.
  • Such a work centre may even comprise a bottom which prevents tubulars from inadvertently fall to the seabed.
  • one or more additional work centres may be well centres as described above.
  • the offshore drilling rig further comprises a second work centre such as a second well centre displaced from the first well centre, optionally a second mast upwardly extending relative to the drill floor deck, and a second hoisting system supported by the second mast and configured for hoisting and lowering tubular equipment through the second work centre.
  • a second work centre such as a second well centre displaced from the first well centre, optionally a second mast upwardly extending relative to the drill floor deck, and a second hoisting system supported by the second mast and configured for hoisting and lowering tubular equipment through the second work centre.
  • the position of the second work centre is place substantially along the longitudinal direction; the first and second masts may be arranged opposite each other, e.g. in a face-to-face or a back-to-back configuration.
  • first well centre and the second work centre may conveniently be monitored and/or controlled, e.g. from a single driller's cabin having a direct line of sight to both the first well centre and the second work centre.
  • first well centre and the second work centre may be used as back-up / replacement for each other in a convenient manner, because storage areas, pipe handling equipment etc. serving both the first well centre and the second work centre may be arranged to efficiently serve/cooperate with both the first well centre and the second work centre. This is particularly the case when the second work centre is operable as a well centre. It will be appreciated that, during operation of embodiments of a drilling rig with two (or more) well centres, not all well centres may necessarily be capable of simultaneously accessing the same bore well.
  • the drilling rig comprises a guard structure extending between the first well centre and the second work centre, e.g. a second well centre, and configured to prevent tubular equipment operated above the first well centre from falling onto the second work centre.
  • the guard structure may be a lateral guard structure extending in a direction transverse to the direction connecting the first well centre and the second work centre between support structures located on respective sides of the first well centre and the second work centre; one of the support structures may be the mast.
  • the guard structure may be configured to be brought into a retracted configuration allowing tubulars to be transferred between the first well centre and the second work centre.
  • the guard structure may have the form of a dividing barrier structure such as a wall, fence or curtain that may be rolled up around a horizontal or vertical axis or otherwise brought into a compacted, inactive configuration.
  • the guard structure may have a height corresponding to the length of the largest tubulars handled by the drilling rig, e.g. at least 50% such as at least 75% such as at least 100% of the height of the largest tubulars. It will be appreciated that such a guard structure may be implemented on any drilling rig having two or more hoisting systems and work centres.
  • the guard structure may be a suitable protective barrier suspended from a raisable mounting structure as described herein.
  • the raisable mounting structure may be sized and shaped so as to allow equipment to be suspended above or adjacent to each of the well centres.
  • the drilling rig may comprise a separate mounting structure associated with each well centre such that the mounting structures may be raised and lowered independently from another.
  • the capacity of the equipment related to the first well centre and the second work centre e.g. the respective masts, parts of a common mast, hoisting systems, etc., may be different e.g. they may have different hoist capacity, or they may have equal hoist capacity and/or be otherwise identical or at least interchangeably usable for drilling operations.
  • the equipment related to the second work centre may comprise and/or cooperate with the same or corresponding features, elements, components or devices already discussed in connection with the first mast and/or the first well centre.
  • the second mast may comprise or cooperate with a guard structure and/or a mounting structure as described herein.
  • the first and second masts may be separate structures or combined as a single mast structure.
  • the first and second masts may be embodied as a combined mast supporting first and second hoisting systems.
  • the term main drilling operation is intended to refer to the actual drilling operation where the drill string is advanced through a riser to and into the sea floor.
  • Auxiliary drilling operations may include the building up of stands of tubulars, advancing of tubular equipment towards or to the sea floor, drilling of a top hole, and or the like.
  • the drilling rig is configured to advance risers to the seafloor through at least the first well centre, and the drilling rig comprises a diverter located under the drill floor deck at the first well centre.
  • the drilling rig is configured to allow drilling operations to be performed through both well centres, i.e. both well centres, masts, and hoisting systems may be configured to allow risers and the drill string to be advanced all the way to the seabed.
  • the second mast and/or the second hoisting system may be configured to operate as an auxiliary system, e.g. for running risers, building stands, and or the like.
  • the second hoisting system may have a different, e.g.
  • the second mast, hoisting system and well centre may be suitable for taking over the primary drilling operation, e.g. in situations when the first mast, hoisting system or well centre is out of order.
  • any of the features above discussed in relation to the first well centre may further be arranged in relation to the second well centre, as a combined feature for both well centres or a feature in relation to the second well centre alone.
  • the offshore drilling rig thus further comprises second pipe handling equipment, wherein the first pipe handling equipment defines a first pipe feeding path, e.g. substantially along the longitudinal direction, across the transverse direction, along which pipe feeding path tubular equipment is moved towards the first well centre; and wherein the second pipe handling equipment defines a second pipe feeding path, e.g. substantially along the longitudinal direction, along which tubular equipment is moved towards the second work centre, e.g. a second well centre.
  • tubular equipment may be moved in parallel to both the first well centre and the second work centre.
  • the tubulars may be moved from a common storage structure such as when tubular equipment are moved to the well/work centres from the same side. This allows for a more efficient operation of the rig, and providing a higher degree of flexibility and redundancy of critical components.
  • the drilling rig may comprise two diverter housings, one positioned under each well centre.
  • Some embodiments of the offshore drilling rig comprise a pipe storage structure positioned longitudinally displaced from the first well centre on a second side of the well centre, opposite the first side and laterally positioned between the first and the second pipe feeding paths.
  • any feature discussed in relation to the first well centre may be present in relation to the second work centre, including an open drill floor deck are - referred to as a second open drill floor deck area.
  • the drill floor deck comprises at least a first open drill floor deck area located adjacent to the first mast in the transverse direction on a side opposite the second work centre, and a second open drill floor deck area located adjacent to the second mast in the transverse direction on a side opposite the first well centre.
  • the first and second drill floor deck areas are thus areas other than the drill floor deck area between the first well centre and the second work centre and other than any drill floor deck area used for movement of tubular equipment to the first well centre.
  • the drilling rig is configured to perform movement of tubular equipment to the first well centre and to the second work centre along respective first and second pipe feeding paths towards the respective first and second well centres which first and second pipe feeding paths only cross drill floor deck areas outside the first and second open drill floor deck areas.
  • auxiliary equipment may be moved directly between both open drill floor deck areas and the respective well/work centres.
  • the connecting drill floor deck area may thus be shaped and sized so as to allow equipment to be moved between the open drill floor deck areas, e.g. by means of a forklift and/or on skid beams, without having to climb or descend onto different deck levels.
  • the connecting drill floor deck area may define a connecting path between the first and second open drill floor areas having a width of at least 2 m, such as at least 3 m, such as at least 5 m.
  • the connecting drill floor deck area extends around the pipe storage structure on a side of the pipe storage structure distal from the first well centre and the second work centres.
  • the drilling rig comprises a storage area for storing tubulars located below the level defined by the drill floor deck.
  • the drill floor deck may thus extend above and partly or completely across the entire storage area.
  • Tubulars may thus be stored such that both ends of each tubular are positioned below the drill floor deck level.
  • the storage area is configured to receive tubulars in upright orientation such that an uppermost end of the tubulars is located below the drill floor deck level.
  • the tubulars may be riser joints, stands of drill pipe, stands of casing, or other tubular members.
  • the drilling rig may thus comprise a tubular handling apparatus for feeding tubulars from the storage area through an opening in the drill floor deck, different from the well and work centres, and for presenting the tubulars to the hoisting system, e.g. such that the upper end of a tubular member may be connected to a top drive, hook or similar connection device of the hoisting system and lifted through the opening in the drill floor and to suspend the tubular above the well centre.
  • the opening may be a hole or cut-out in the drill floor.
  • the tubular handling apparatus may comprise an inclined chute for advancing riser joints and/or other types of tubulars such as stands or singles of drill pipe or casings.
  • the chute may be configured to adjust its position and/or inclination while the riser joint or other tubular is advanced upwards through the opening in the drill floor so as to guide the riser joint or other tubular towards an increasingly upright orientation while the riser joint or other tubular is advanced upwards starting from an inclined position on the chute. Consequently, a particularly space-saving storage of tubulars is provided that further provides for a low centre of gravity of the structure.
  • the storage area(s) may be located adjacent to the moon pool located below the well centres, such as on two opposite sides of the moon pool.
  • the drilling rig is arranged so that both riser joints and stands of drill-pipe and/or casings may be stored partly or completely below the drill floor.
  • the storage area below the drill floor deck level may be configured to store tubulars in upright and/or horizontal orientation.
  • the storage area below the drill floor deck may be configured for horizontal storage of tubulars, such as risers, forwards and/or aft of the moonpool.
  • the rig may then be arranged to bring riser joints (or other tubulars) under the drill floor and rotate the riser joints in order for them to be presented via the hole in the drill floor. This rotation may take place above the larger moonpool area.
  • the function of rotation of the riser (or other tubular) may be performed by one of the embodiments described in co-pending Danish patent application PA 2013 70602.
  • the hole is preferably fitted with a hatch so that the hatch can be utilized as floor when the hatch is closed and the hole is not in use.
  • the drilling rig comprises a stand building and/or setback area (preferably a lowered setback) on a side of the mast, opposite the well centre; for example, this may be advantageous where two well centres are arranged adjacent a dual-activity mast in a side-by-side configuration (see e.g. Figs. 14-21 and the corresponding description below).
  • a stand building and/or setback area preferably a lowered setback
  • two well centres are arranged adjacent a dual-activity mast in a side-by-side configuration
  • an open drill floor is achievable (see e.g. Fig. 15).
  • the drilling rig comprises a stand building and/or setback area (preferably a lowered setback) adjacent to the mast and behind the driller's cabin, such as on the opposite side of the drillers cabin relative to the well centre(s). Examples of this are illustrated in figures 14-21 .
  • the drilling rig may comprise a stand building and/or setback area on one of the transverse sides of the well centre; for example, this may be advantageous where two well centres are arranged between two masts or mast portions arranged in a face-to-face configuration.
  • Stand-building equipment may be operable to assemble stands of drill pipes and/or casings, e.g. comprising two, three or more drill pipes. Such stand- building equipment may be dedicated stand-building equipment which is not operable to lower tubulars to the seabed. Stand-building equipment may be located at least partly below the drill floor deck.
  • the drilling rig comprises vertical pipe handling equipment for feeding tubulars to said stand building setup. The vertical pipe handling equipment may be arranged to bring pipes stored forward and/or aft of the drill floor to the stand building setup without intersection the drill floor. The setback area may be lowered relatively to the drill floor deck.
  • the first hoisting system comprises a plurality of upright cylinders upwardly extending from a position adjacent the first well centre, and a top drive operable to lower tubulars through the first well centre; and wherein the drilling rig further comprises tubular handling equipment operable to present stands and/or singles of casing or drill pipe from a setback area on a side of the cylinders, opposite the well centre, to the top drive via a gap formed between two groups of cylinders, such as via cut-out in the drill deck as discussed above.
  • Figs. 1 -8 illustrate views of an embodiment of an offshore drilling rig wherein fig. 1 shows a 3D view of the drilling rig, figs. 2-6 show 3D views of parts of the drilling rig from different viewpoints, fig. 7 shows a cross-sectional view of the drilling rig in a longitudinal plane through the centre of the drilling rig, looking in the transverse direction, and fig. 8 shows a top view of the drilling rig.
  • Fig. 9 schematically illustrates further embodiments of the deck layout of the drill floor deck of a drilling rig.
  • Fig. 10 schematically illustrates the open drill floor deck areas in an embodiment of a drilling rig.
  • Fig. 1 1 schematically illustrates the footprint of the mast in an embodiment of a drilling rig.
  • Fig. 12 schematically illustrates drill floor deck layouts of another embodiment of a drilling rig.
  • Fig. 13 schematically illustrates drill floor deck layouts of further embodiments of a drilling rig.
  • Fig. 14 illustrates another embodiment of an offshore drilling rig.
  • Figs. 15-21 illustrate another embodiment of an offshore drilling rig, wherein figs. 15-16 show 3D views of parts of the drilling rig from different viewpoints, figs. 17-18 show horizontal cross-sectional views of the drilling rig, figs. 19-20 show lateral cross sections of the drilling rig, and fig. 21 shows another 3D view of the drill floor seen from the starboard side of the drillship.
  • Figs 22A-C schematically show examples of a mast of a drilling rig.
  • Figs. 23 and 24 show 3D views of the offshore drilling rig of Figs. 1 -8.
  • Fig. 25 shows an isolated 3D view of a raisable mounting structure.
  • Fig. 26 illustrates a 3D view of a raisable guard and mounting structure.
  • the drilling rig is a semisubmersible drilling rig, comprising pontoons 101 from which support columns 102 extend upwardly, and a topside platform 103 supported by the columns 102.
  • the drilling rig floats at the ocean surface with the pontoons 101 typically under the water and the support columns extending out of the water such that the topside platform is elevated above the water.
  • the pontoons may be filled with ballast water so as to cause the rig to be submersed to the desired level.
  • the topside platform comprises a drill floor deck 107 arranged elevated from a main deck 120 and partly formed by the roof of an enclosure 121 accommodating mud mixing equipment and/or other equipment.
  • the drill floor deck 107 comprises two holes defining well centres 123a,b located next to a dual activity mast 104.
  • the dual activity mast 104 extends upwardly from the drill floor deck 107 and comprises two mast portions 104a,b arranged side by side in the transverse direction.
  • the drilling rig comprises respective hydraulic hoisting systems 105a,b, each for lowering a drill string through a respective one of the well centres 123a,b towards the seabed.
  • Each hydraulic hoisting system comprises cylinders 106a,b, respectively, that extend upwardly from the drill floor deck and support the load to be lowered or hoisted.
  • Each mast portion is associated with one of the hoisting systems and stabilises the hoisting systems against lateral forces and/or bending.
  • Each well centre is located next to one of the mast portions and the corresponding hoisting system; both well centres are located on the same side relative to the mast.
  • the position of each of the well centres relative to the corresponding hoisting system defines a longitudinal direction, in this example the longitudinal direction of the drilling rig, i.e. between bow and aft of the drilling rig.
  • the well centres are arranged along a transverse direction, normal to the longitudinal direction, in this example the transverse direction (from port to starboard) of the drilling rig.
  • the longitudinal and transverse directions are indicated by arrows 140 and 141 , respectively, in fig. 8.
  • the cylinders of each hoisting system are arranged in two groups that are positioned displaced from each other in the transverse direction so as to form a gap 126a,b, respectively, between the two groups.
  • Each gap 126a,b is thus aligned with a respective one of the well centres along the longitudinal direction.
  • Each gap extends upwardly along the entire length of the cylinders, thus allowing tubulars to be moved through the gap towards the respective well centre and even raised into an upright position while being located at least partly in the gap between the cylinders.
  • the well centre is longitudinally displaced from the gap.
  • the rods of the cylinders support sheaves 133a,b, respectively, of a travelling yoke over which the hoisting wires are suspended.
  • the hoisting wires is anchored to the drilling rig, while the other end is connected to top drive 137a,b or hook of the corresponding hoisting system.
  • the top drives move upwards and downwards along respective vertical rails 145 to which the top drives are connected via respective dollies 169.
  • the sheaves 133a,b are laterally supported and guided by the respective mast portions.
  • the axis of the sheaves extends in the transverse direction between two groups of cylinders, i.e. between support members for bearing the load of the sheave(s).
  • the side-by-side configuration of the dual activity mast and well centres allows efficient dual operations, easy access to both well centres, and convenient visual control of both well centres from a single driller ' s cabin 134 which may e.g. be positioned transversely between the well centres, e.g. within the footprint of the mast.
  • the drilling rig comprises a setback structure 1 12 or similar pipe storage structure for storing stands of tubulars located on the other side (seen in longitudinal direction) of the well centres, opposite the mast.
  • the setback structure comprises a support framework supporting fingerboards having horizontally extending fingers between which tubulars may be stored.
  • the setback structure is arranged transversely between the transverse positions of the well centres so as to allow stands to be moved to/from both well centres from/to the setback.
  • two column rackers 1 13a,b or similar vertical pipe handling equipment are arranged to move stands into and out of the setback structure 1 12.
  • the column rackers are operable to move along the transverse direction along a support beam 130 spanning the transverse distance between the well centres.
  • the support beam may be a part of the setback support framework.
  • the setback structure 1 12 may extend downwards to a deck below the drill floor deck so as to allow stands assembled from multiple pipes to be stored and moved to a respective one of the well centres.
  • the setback structure may comprise a foxhole and separate stand-building equipment, thus allowing stands of pipes to be assembled and stored without interfering with operations at the well centres.
  • one of the hoisting systems and well centres e.g. well centre 123a,b may be utilised for building stands.
  • a pipe storage area 109 for storing pipes in horizontal orientation is located behind the setback structure, seen from the well centres.
  • respective catwalk machines 108a,b, or similar horizontal pipe handling equipment are located extending in longitudinal direction, each aligned with one of the well centres, i.e. such that the horizontal pipe handling equipment defines a longitudinal axis that intersects with one of the well centres.
  • Each catwalk machine is operable to move pipes from the storage area 109 to the corresponding well centre and hoisting system.
  • the pipes may be placed on the catwalk machine by a crane, e.g. one of the knuckleboom cranes 138, and the catwalk machine may be longitudinally moved to the corresponding well centre, e.g.
  • the catwalk machines move tubular equipment along the corresponding pipe feeding paths 139a,b towards the corresponding well centre.
  • the catwalk machines and tracks 139a,b thus define longitudinal pipe feeding paths, each intersection with one of the well centres.
  • the pipe feeding paths 139a,b extend towards the well centres from a side of the well centres opposite the side on which the mast is located.
  • the column rackers 1 13a,b may be transversely moved to a position on the pipe feeding path, i.e. in longitudinal extension of one of the catwalk machines. In this position, the column racker may thus receive a pipe from the catwalk machine and, in cooperation with the catwalk machine, bring the pipe in a vertical position.
  • the drilling rig comprises another storage area 1 15 on the other side of the mast, i.e. on the side opposite the well centres.
  • This storage area is located at a lower deck than the drill floor deck, and it is used for storing marine riser joints (also simply referred to as risers) in a vertical orientation.
  • the risers may then be moved, e.g. by means of a gantry crane 136 and respective chutes 132a,b or other suitable pipe feeding equipment to the respective well centres. As the risers may be moved through the gaps 126a,b between the cylinders 106a,b of the hoisting systems, the risers may be moved directly from the riser storage area 1 15 to the well centre in a space efficient manner.
  • the drill floor deck 107 comprises large open drill floor deck areas 1 10a,b on both lateral sides of the mast and well centres. These open drill floor deck areas are not occupied by pipe handling equipment, and all pipe movements between the storage/setback areas 1 12, 1 15 and the well centres 123a,b are performed along the longitudinal direction.
  • the pipe feeding paths along which the pipes and other tubulars are moved to/from the well centres do not cross the lateral open drill floor deck areas 1 10a,b. Consequently, these areas may be used as working area, e.g.
  • the open drill floor deck area 1 10a is used for placing and/or moving on-deck auxiliary equipment and/or for handling and/or operating such auxiliary equipment while at the same time allowing efficient and safe access to the well centre.
  • Open drill floor deck area 1 10b is kept free of any pipe handling equipment and any other permanently installed equipment; this area may thus be used as a working area and/or intermediate storage area.
  • Both open drill floor deck areas 1 10a,b are connected with the well centres by direct, straight access paths 1 14a,b, respectively, thus allowing equipment to be conveniently moved between the open drill floor deck areas 1 10a,b and the well centres, e.g. on skid beams 1 16. Any work within open drill floor deck areas 1 10a,b does not interfere with pipe movements to/from the well centres or with other operations at the well centres.
  • the well centres are placed outside the footprint of the mast and longitudinally displaced relative to the cylinders 106a,b, and the access paths are not blocked by any other fixedly installed structures on the drill floor deck or structures elevated at a low height above the drill floor deck. Thus, convenient access between the open drill floor deck areas 1 10a,b and the well centres is provided.
  • the open drill floor deck areas even extend laterally along the catwalk machines, thus allowing equipment to be moved along the catwalk machines and/or stored on open drill floor deck areas 1 17a,b extending along each of the catwalk machines.
  • the catwalk machines are located on the drill floor deck and as the drill floor deck comprises a large floor area extending along the catwalk machines, crew members may work with or at the catwalk machines with reduced or even without any danger of falling.
  • the parts 1 17a,b of the open drill floor deck area extending along the catwalk machines are large enough to allow skid beams to be installed, thus allowing equipment to be moved away from the lateral open drill floor deck areas 1 10a,b.
  • the lateral open drill floor deck areas 1 10a,b are even connected with each other by a connecting drill floor deck area 1 18, in this example a straight path of open drill floor deck area extending between the setback structure 1 12 and the pipe storage area 109.
  • the connecting drill floor deck area 1 18 forms a path wide enough for skid beams to be installed or a fork lift to move along, thus allowing equipment to be conveniently moved from one of the lateral open drill floor deck areas 1 10a, b to the other, without having to traverse the well centres.
  • the drilling rig comprises guard structures 1 19 that extend in the longitudinal direction from respective lateral sides of the mast 104 to the support framework of the setback structure 1 12.
  • the guard structures 1 19 may be supported by a separate support structure.
  • the guard structures span across the access paths 1 14a,b between the well centres and the respective open drill floor deck areas 1 10a, b at a height high enough to allow equipment to be moved under the guard structures.
  • the access paths 1 14a,b may have a free height of at least 10 m, such as at least 20m, thus allowing even tall items to be moved.
  • the guard structures are further located at a height above the drill floor deck that is suitable for preventing tubulars run through one of the well centres from falling on the open drill floor deck areas 1 10a,b. Consequently, equipment stored or even crew members working in one of the open drill floor deck areas 1 10a,b are protected against falling tubular equipment.
  • the height at which the guard structures are arranged may be adjustable.
  • the guard structures may be mounted to rails or tracks extending upwardly along the support structures to which the guard structures are mounted. The guard structures may then be lifted by wires or cables, by a hydraulic mechanism, or by another suitable hoisting mechanism.
  • the guard structures may be positioned at different heights in accordance with the length of the tubular equipment run.
  • the guard structure may be formed as a plurality of separate structures that are arranged at different heights and/or whose height can be individually adjusted.
  • the guard structures may be operable to be opened so as to allow unobstructed access to the well centre, even for equipment having a large height.
  • the guard structures may be opened in a number of different ways. For example, they may be hinged at one side or at both sides, or they may be slidable to a large height.
  • the drilling rig further comprises a gantry beam or framework 125 or a similar mounting structure for suspending suspendable equipment from an elevated position above the drill floor deck, e.g. allowing auxiliary equipment to be lowered or hoisted through the first well centre and/or a protective barrier to be raised.
  • the gantry beam 125 is connected to respective support structures on both longitudinal sides of the well centres and laterally displaced from the well centre.
  • the gantry beam is secured to the mast 104 and to the setback structure 1 12 and spans the access path 1 14a between the open drill floor deck area 1 10a and the well centres.
  • the gantry beam 125 is operable to be hoisted and lowered at least between an operational position elevated above the drill floor deck, and a lower position immediately above the drill floor deck allowing the rigging up of auxiliary equipment to the mounting structure.
  • the lower position may be no more than 2 m above the drill floor deck or another height sufficiently low for personnel to attach equipment to the gantry beam directly from the drill floor deck.
  • the elevated position may be at least, 3 m, 5 m, or 10 m above the drill floor deck, such as at least 15 m above the drill floor deck, e.g. at least 20 m above the drill floor deck.
  • the gantry beam may be mounted on rails 144 or tracks extending upwardly along the support structures to which the gantry beam is connected.
  • gantry beam comprises suitable connecting members 198.
  • the gantry beam may then be lifted by wires or cables, by a hydraulic mechanism, or by another suitable hoisting mechanism.
  • the gantry beam 125 and the guard structure 1 19 may be mounted to the same hoisting mechanism.
  • the gantry beam may even be a part of the guard structure.
  • a gantry beam or similar mounting structure may be arranged proximal to, and operable with, each of the well centres or proximal to, and operable with, only one of the well centres as in the example of figs. 1 -8.
  • the rig crew may conveniently rig up the gantry beam with suspendable equipment that is to be lowered through one of the well centres.
  • suspendable equipment examples include logging-while-drilling equipment, measuring-while-drilling equipment, coiled tubing equipment.
  • the equipment to be lowered through the well centre may be connected to a wire, cable or coiled tubing 135 which in turn may be led via hooks, pulleys, guide arches and/or similar guide members 129 that are connected to the gantry beam 125 to reels, drums, or similar on-deck auxiliary equipment 1 1 1 positioned on one of the open drill floor deck areas 1 10a,b.
  • the rigging up may thus be performed without any need for members of the drill crew to climb to unsafe heights. Moreover, the rigging up is performed away from the well centre, thus not interfering with any activity performed at the same time at the well centre.
  • the gantry beam 125 is hoisted to the desired height thus allowing lowering the suspendable auxiliary equipment through the well centre 123a at a suitable angle.
  • the reels, drums or other on-deck auxiliary equipment 1 1 1 used for lowering the suspendable auxiliary equipment through the well centre may conveniently be positioned, e.g. skidded on skid beams 1 16, at a desired location within the open drill floor deck area 1 10a.
  • the main deck 120 is located beneath the drill floor deck and allows heavy subsea equipment 124, e.g. BOPs and Christmas trees to be moved to the moon pool 122 under the well centres so as to allow such equipment to be lowered toward the seabed. Consequently, the drill floor deck and, in particular, the part of that drill floor deck that is located in close proximity to the well centre may be stationary and does not need to be hoisted or lowered for the subsea equipment to be lowered to the seabed.
  • heavy subsea equipment 124 e.g. BOPs and Christmas trees
  • One or more iron roughnecks 127 or similar pipe handling equipment may be arranged on the drill floor deck in immediate proximity of the well centres. Such equipment may be arranged such that it may serve only one of the well centres or both well centres.
  • risers may be moved directly from the riser storage area 1 15 through one of the gaps 126a,b to one of the well centres 123a,b.
  • a riser may be moved by a gantry crane 136 from its position in the storage area 125 onto a chute 132a,b, respectively, or other suitable pipe feeding equipment, defining a slanted surface extending upwards and towards one of the gaps 126a,b.
  • the riser may then be picked up by the top drive 137a,b of the corresponding hoisting system 105a,b and pulled into vertical position above the corresponding well centre 123a,b.
  • Fig. 4 shows a riser 128 positioned on the chute 132b and extending through the gap 126b towards the well centre 123b.
  • Fig. 5 shows the riser connected to the top drive 137b of the hoisting system 105b and in the process of being hoisted upwards and through the gap 126b towards the well centre 123b.
  • Fig. 6 shows the riser after being hoisted into a vertical position above the well centre 123b and ready to be lowered through the well centre 123b.
  • the drilling rig comprises access paths to the well centre from all four sides, i.e. from both longitudinal directions and from both transverse directions.
  • the symmetrical arrangement of the mast, the well centres and the pipe storage and handling equipment allow tubulars from all storage areas to be efficiently moved to both well centres.
  • both mast portions and hoisting systems may be designed in a similar or even identical fashion and provide similar or even equal hoisting capacity. Consequently, full redundancy of the dual drilling system may be achieved. It will be understood, however, that the dual system may alternatively be designed with a primary and a secondary well centre/hoisting system, e.g. with different hoisting capacities.
  • figs. 1 -8 and 23-24 has been described in the context of a semi-submersible, it will be appreciated that the described features may also be implemented in the context of a drillship or other type of drilling rig.
  • the guard structure, the mounting structure, the open drill floor areas, unobstructed access paths to the well centres, and/or the gap between the hoisting cylinders may be implemented on another type of drilling rig.
  • Fig. 9 shows top views of another example of a drill floor deck 107.
  • Fig. 9a shows the drill floor deck and adjacent storage area 1 15 for risers
  • fig. 9b only shows the drill floor deck.
  • FIG. 9a shows the skid beams 1 16 arranged throughout the drill floor deck, the skid beams are not shown in fig. 9b for the purpose of a simpler illustration.
  • This embodiment of a drill floor deck is similar to the drill floor deck that was described with reference to figs. 1 -8 above.
  • the embodiment of fig. 9 comprises a large drill floor deck 107, a dual activity mast 104 and corresponding well centres 123a,b arranged side by side, a horizontal pipe storage area 109, a setback structure 1 12 with vertical pipe handling equipment 1 13a,b, all as described above.
  • the vertical pipe handling equipment 1 13a,b is movable along the transverse direction along a support beam 130. They may be positioned in longitudinal extension of respective ones of the catwalk machines 108a,b between the catwalk machine and the corresponding well centre 123a,b, i.e. on the pipe feeding path defined by the corresponding catwalk machine between the catwalk machine and the corresponding well centre.
  • the catwalk machines 108a,b are movable on respective rails or skid beams 139a,b along the horizontal direction to a respective well centre.
  • the skid beams define longitudinal pipe feeding paths to the respective well centres.
  • an iron roughneck 127 is shown positioned between the well centres 123a,b and arranged on skid beams, thus allowing the iron roughneck to be moved out of the way, and alternatingly serve both well centres.
  • fig. 9a clearly shows the cylinders 106a,b forming a gap 126a,b, respectively, so as to allow access to the well centres 123a,b directly from the riser storage area 1 15 by means of a gantry crane 136 and respective chutes 132a,b leading to the respective well centre.
  • Figs. 9a, b also show the driller's cabin 134 positioned inside the footprint of the mast 104, transversely between the well centres. Hence, the driller ' s cabin does not interfere with the access paths 1 14a,b from the open drill floor deck areas 1 10a,b, while allowing convenient visual control with both well centres.
  • the open drill floor deck areas 1 10a,b comprise parts 1 17a,b that extend along the catwalk machines, and a connecting drill floor deck area 1 18 connecting the lateral open drill floor deck areas 1 10a,b with each other, also all as described above.
  • Fig. 10 shows the drill floor deck 107 of figs. 9a, b clearly illustrating the open drill floor deck areas 1 10a,b as hatched areas.
  • the drill floor deck area extending outside the footprint of the first mast is sized and shaped so as to allow installation of skid beams for skidding equipment and/or for a forklift or other vehicles to operate on the drill floor deck area outside the mast footprint.
  • the drill floor deck area outside the mast footprint may be at least 200 m 2 , such as at least 500 m 2 , such as at least 1000 m 2 , such as at least 2000 m 2 , e.g. at least 5000 m 2 .
  • the open drill floor deck areas are not otherwise obstructed by fixed installations such as the first mast, further masts, pipe handling equipment, and/or the like.
  • the open drill floor deck area has a free height of at least 10 m, such as at least 20 m, e.g. at least 30 m.
  • Fig. 10 also illustrates the lateral access from the open drill floor deck areas to the well centres by arrows 1014a,b.
  • the access paths 1014a,b are straight and they extend entirely outside the footprint of the mast.
  • the additional path connecting the open drill floor deck areas with each other is illustrated by arrow 1018. All access and connecting paths 1014a,b and 1018 are wide enough to be equipped with skid beams and/or allowing fork lifts or similar vehicles to operate across the entire drill floor deck.
  • the access and connecting paths may each be at least 2 m wide, such as at least 3 m e.g. at least 5 m wide.
  • Fig. 10 further illustrates the large open drill floor deck sector 1010b around the well centre 123b.
  • the sector 1010b may have a radius of at least 5m such as 20m, such as 30m, the sector having a central angle ⁇ of at least 60°, such as at least 90°, e.g. at least 120°.
  • the open drill floor deck spans more than 1 m, such as more than 2 m, such as more than 5 m, such as more than 10 m, e.g.
  • Fig. 1 1 shows the drill floor deck 107 of figs. 9a, b clearly illustrating the footprint of the mast 104 by a dotted line 1 104.
  • the well centres 123a,b are each located outside the footprint, and they are displaced from the footprint and from the cylinders 106a,b along the longitudinal direction 1 140.
  • the longitudinal direction 1 140 may be defined by the position of the well centres 123a,b and the positions 1 175a,b of the corresponding hoisting systems.
  • the position of the hoisting system may be defined by the centre of mass of the corresponding one of the sheaves 133a,b shown e.g. in fig. 1 .
  • FIG. 1 1 also illustrates the pipe feeding paths along which tubulars are advanced to the respective well centres, namely the pipe feeding paths 1239a,b defined by the skid beams of the catwalk machines 1 108a, b, and the pipe feeding paths 1 132a,b defined by respective chutes for advancing tubulars from a rear side of the hoisting systems.
  • all pipe feeding paths extend along the longitudinal direction 1 140, and they do not cross or otherwise interfere with the open drill floor deck areas 1 10a,b.
  • Fig. 12 illustrates a drill floor deck layout with a single well centre 1223, but using the same principles as described in connection with the drilling rig shown in figs. 1 -8 and 23-24. The drilling deck of fig.
  • the drilling rig comprises a mast 1204, a well centre 1223, a pipe storage area 1209, a setback structure 1212, horizontal pipe handling equipment 1208 and vertical pipe handling equipment 1213, all as described above.
  • the drilling rig comprises access paths to the well centre from all four sides, i.e. from both longitudinal directions and from both transverse directions.
  • the drilling rig of figs. 12a-b further comprises a raisable mounting structure 1225 extending between the mast 1204 and a support structure of the vertical pipe handling equipment 1213.
  • a protective barrier may be suspended from the mounting structure so as to block the access path to the well centre.
  • the drilling rig may comprise a raisable mounting structure defining a perimeter around the well centre 1223, as will be described in more detail in connection with Figs.13a-b and Figs. 22A-C.
  • the vertical pipe handling equipment 1213 is positioned away from and, in particular, transversely displaced relative to the pipe feeding path defined by rails or skid beams 1239 between the horizontal pipe handling equipment 1208 and the well centre 1223. Hence, in this position the horizontal pipe handling equipment 1208 may move along skid beams 1239 all the way to the well centre 1223.
  • Fig. 12b shows the vertical pipe handling equipment 1213 in a position on the pipe feeding path 1239 connecting the horizontal pipe handling equipment 1208 and the well centre 1223. Hence, in this configuration, the horizontal pipe handling equipment 1208 may cooperate with the vertical pipe handling equipment 1213.
  • the mast comprises a hydraulic hoisting system where the cylinders 1206 are arranged so as to form a central gap 1226, through which risers from a storage area behind the mast may be moved to the well centre 1223 e.g. using a chute 1232 or other pipe handling equipment.
  • Fig. 13 shows embodiments of a drill floor deck similar to the one of fig. 12, comprising a mast 1204, a well centre 1223, a pipe storage area 1209, a setback structure 1212, horizontal pipe handling equipment 1208 movable on rails 1239, vertical pipe handling equipment 1213, a hoisting system comprising cylinders 1206 arranged in groups forming a gap between them, and pipe handling equipment 1232 for moving risers or other tubulars through the gap 1226, all as described above.
  • the pipe storage area 1209, the setback structure 1212, the horizontal pipe handling equipment 1208 and the vertical pipe handling equipment 1213 are located longitudinally aligned with the mast 1204.
  • the pipe storage area 1209, the setback structure 1212, the horizontal pipe handling equipment 1208 and the vertical pipe handling equipment 1213 are located transversely displaced from the mast.
  • the pipe feeding path 1239 used by pipe handling equipment 1208 extends in the longitudinal direction as in the previous examples, while in the example of fig. 13b, the pipe feeding path 1239 extends in a transverse direction.
  • the drill floor deck comprises an open drill floor deck area 1210 shown schematically as a hatched area.
  • the open drill floor deck area is located adjacent the mast in the transverse direction
  • the open drill floor deck area of fig. 13b is located adjacent the first mast in the longitudinal direction.
  • 13a-b further comprises a raisable mounting structure 1325 defining a perimeter around the well centre 1223, as will be described in more detail in connection with Figs. 22A-C.
  • the mounting structure is connected at two lateral sides of the mast on either side of the well centre.
  • the mast and the mounting structure define a perimeter that completely encloses the well centre.
  • Fig. 14 illustrates another embodiment of an offshore drilling rig.
  • the drilling rig of Fig. 14 is a drillship having a hull 1401 .
  • the drilling rig comprises a drill floor deck 1407 formed on top of a substructure 1497.
  • the substructure comprises a platform supported by legs.
  • the platform defines the drill floor deck and spans across a moon pool formed in the hull of the drillship.
  • the drill floor deck 1407 comprises two holes defining well centres 1423 located next to a dual activity mast 1404.
  • the direction intersecting with both well centres defines a transverse direction which, in this case, is parallel with a longitudinal axis of the drillship.
  • the dual activity mast 1404 is supported by the substructure 1497 and extends upwardly from the drill floor deck 1407.
  • the mast comprises two mast portions arranged side by side in the transverse direction such that they are both located on the same side relative to the well centres.
  • Each mast portion accommodates a hoisting system, each for lowering a drill string through a respective one of the well centres 1423 towards the seabed.
  • the hoisting system is a draw-works system where the hoisting line is fed over stationary sheaves 1433 carried by support members.
  • the drawworks motor/drum (not shown) may be positioned at a suitable location on the drilling rig.
  • other hoisting systems such as a hydraulic hoisting system may be used, as will be illustrated below.
  • Each well centre is located next to one of the mast portions and the corresponding hoisting system.
  • each of the well centres relative to the corresponding hoisting system defines a longitudinal direction, in this example the transverse direction of the drill ship.
  • the side-by-side configuration of the dual activity mast and well centres allows for efficient dual operations, easy access to both well centres, and convenient visual control of both well centres from a single driller ' s cabin 1434 which may e.g. be positioned symmetrically relatively to the well centres but displaced from the axis connecting the well centres, e.g. within the footprint of the mast.
  • the driller's cabin may be split up into two or more cabins.
  • the drilling rig comprises a setback structure 1412 or similar pipe storage structure for storing stands of tubulars such that the stored tubulars are located partly or completely below the level defined by the drill floor deck, i.e. below the uppermost platform of the substructure 1497 and partly covered by the drill floor deck 1407.
  • the setback structure comprises a support framework supporting fingerboards having horizontally extending fingers between which tubulars may be stored.
  • the setback structure is positioned and arranged so as to allow stands to be moved to/from both well centres from/to the setback.
  • on or more column rackers or similar vertical pipe handling equipment may be arranged to move stands into and out of the setback structure 1412.
  • tubulars to and from the setback area 1412 will be illustrated in more detail in connection with the embodiments described below.
  • the tubulars may be taller than the drill floor.
  • their uppermost ends may extend above the drill floor level.
  • the setback structure may extend from the drill floor deck upwards.
  • the handling of tubulars within the setback area may be performed by vertical pipe rackers or the like.
  • the setback structure 1412 further comprises stand building equipment 1477 configured to build stands from individual pieces of pipe. An example of such stand building equipment is described in WO 02/057593. Alternatively or additionally, stands may be built on the drill floor.
  • each mast portion and hoisting system form a respective gap between the two support members that carry the sheaves 1433, through which gap tubular equipment is movable between the setback structure 1412 towards the respective well centres.
  • the drilling rig further comprises a pipe storage area 1409 for storing pipes in horizontal orientation located towards the bow of the drillship, i.e. transversely displaced from the well centres.
  • One or more catwalk machines 1408 or similar horizontal pipe handling equipment are arranged to feed tubulars from the storage area 1409 or from other storage areas to the well centres. To this end, the catwalk machines are aligned with the axis defined by the two well centres.
  • These catwalk machines 1408 and one or more stores for (e.g. 1409) or aft (not shown) may be used in combination or as an alternative to having riser 1415 stored below the drill deck.
  • the catwalk machines 1408 may be used to provide additional riser joints, load the riser storage below the drill deck and/or to provide the drill floor with other tubulars.
  • One or each of the catwalk machines may be operable to service both well centres.
  • the drilling rig comprises one or more further catwalk machines travelling on tracks 1476 and configured to feed tubulars from the pipe storage area 1409 or from other storage areas on the opposite side of the mast (towards the aft of the ship) to the stand building equipment 1477.
  • the catwalk machine(s) travelling on tracks 1476 is/are configured to travel along a direction parallel with the catwalk machines 1408, but on the other side of the mast.
  • one or more catwalk machines may be operable to travel along a substantial portion of the length of the drillship.
  • each catwalk machine may be configured to only travel to/from the stand building equipment 1477 without being configured to pass the stand building equipment. Consequently, the drilling rig may comprise two catwalk machines travelling on tracks 1476 on respective sides of the stand building equipment so as to be able to feed tubulars to the stand building equipment from both sides.
  • the stand building equipment 1477 may thus receive pipes from the catwalk machine on tracks 1476, bring them in upright orientation, and connect them to other pipes as to form stands. The stands may then be placed in the setback structure for future use.
  • the drilling rig comprises another storage area 1415 below the drill floor deck 1407 and configured for storing risers in a vertical orientation.
  • the risers may then be moved, e.g. by means of a gantry crane and respective chutes or other suitable pipe feeding equipment through holes in the drill floor, as will be described in more detail in connection with the description of the further embodiments below.
  • the drill floor deck provides a large, unobstructed deck area on the side of the well centres opposite the mast. This area provides unobstructed access to both well centres and is free of pipe handling equipment. Consequently, these areas may be used as working area, e.g. for rigging up suspendable auxiliary equipment, and/or for positioning on-deck auxiliary equipment as described in connection with the example of figs. 1 -8 above.
  • riser joints and/or other tubulars may be tilted between an upright and a horizontal orientation by a tilting apparatus as described in co-pending Danish patent application no. PA 2013 00302, the entire contents are hereby included herein by reference.
  • the drilling rig further comprises a raisable mounting structure comprising a beam 1425 from which suspendable equipment may be suspended, such as auxiliary equipment to be lowered through one of the well centres (e.g. as described in connection with the embodiment of figs. 1 -8 and 23-24) or a protective barrier or curtain for preventing items that are handled above one of the well centres to fall onto the other well centre or onto open deck areas surrounding the well centre(s).
  • the raisable beam is attached to tracks or rails 1444 vertically extending along the mast 1404.
  • the beam is attached to the rails via connecting arms 1449 such that the beam 1425 is not located directly above the well centre but such that the beam 1425, the connecting arms 1449 and the mast 1404 together define a perimeter around the well centres.
  • the beam 1425 extends parallel to an direction intersecting with both well centres.
  • the beam 1425 may be raised or lowered by means of a lifting wire 1448 connected to the beam 1425 or connecting arms 1449 and fed across respective pulleys or sheaves 1442 to a winch or tugger (not explicitly shown).
  • the beam may be raised or lowered by the top drive or by another suitable lifting mechanism.
  • Figs. 15-21 show another embodiment of a drilling rig, in this example of a drillship having a hull 2501 , similar to the drilling rig of Fig. 14 but with a different mast structure and hoisting system.
  • Figs. 15 and 16 show 3D views of the drill floor seen from the starboard and port sides of the drillship, respectively (a part of the hull of the ship is cut away in Fig. 16);
  • Figs. 17 and 18 show horizontal cross sections in a plane above the drill floor and a plane below the drill floor, respectively;
  • Figs. 19 and 20 show lateral cross sections of the drill ship.
  • Fig. 21 shows another 3D view of the drill floor seen from the starboard side of the drillship.
  • the drilling rig of the present embodiment comprises a drill floor deck 2407 formed on top of a substructure 2897.
  • the substructure comprises a platform supported by legs.
  • the platform defines the drill floor deck and spans across a moon pool 2722 formed in the hull of the drillship.
  • the drill floor deck 2407 comprises two holes defining well centres 2423, one or both being equipped with a diverter housing.
  • the mast includes two mast portions, each associated with, and adjacent to, one of the well centres.
  • the well centres are located outside the footprint of the mast 2404 as described in detail in connection with figs. 1 -8, 23-24 and 14.
  • the direction between each well centre and the associated hoisting system defines a longitudinal direction.
  • the direction intersecting with both well centres defines a transverse direction which, in this case, is parallel with a longitudinal axis of the drillship.
  • the dual activity mast 2404 is supported by the substructure 2897 and extends upwardly from the drill floor deck 2407.
  • each mast portion accommodates a respective hydraulic hoisting system each for lowering a drill string through a respective one of the well centres 2423 towards the seabed.
  • Each hydraulic hoisting system comprises cylinders 2406, respectively, that extend upwardly from the drill floor deck and support the load to be lowered or hoisted.
  • Each well centre is located next to one of the mast portions and the corresponding hoisting system; both well centres are located on the same side relative to the mast, i.e. in a side-by-side configuration.
  • each hoisting system is arranged in two groups that are positioned displaced from each other in the transverse direction so as to form a gap between the two groups.
  • Each gap is thus aligned with a respective one of the well centres along the longitudinal direction and is shaped and seized so as to allow tubulars to be moved through the gap towards the respective well centre and even raised into an upright position while being located at least partly in the gap between the cylinders.
  • the exact shape, size and location of the gap may depend on the type of tubular to be fed through the gap, e.g. whether the gap is to be used for feeding drill pipes, casings and/or riser through the gap.
  • the well centre is longitudinally displaced from the gap.
  • the rods of the cylinders support respective sheaves 2533, e.g in the form of a sheave cluster, over which the hoisting wires 2484 are suspended.
  • the cable sheaves 2533 define an axis that is parallel to the direction connecting the two groups of cylinders of one of the hoisting systems.
  • One end of the hoisting wires 2484 is anchored to the drilling rig, while the other end is connected to top drive 2437 or hook of the corresponding hoisting system, via a travelling yoke 2187.
  • the sheaves 2533 are laterally supported and guided by the respective mast portions.
  • Each top drive 2437 is connected via a dolly 2569 to a vertical track 2445 arranged at the mast 2404.
  • the fixed ends of the hoisting wires are anchored via a yoke 2482 and respective sets of deadline compensators 2483.
  • the compensators 2483 are also arranged in two groups so as to form a gap over which the yoke 2482 extends. Hence, tubulars can pass through the gap between the compensators 2483 and below the yoke 2482.
  • the side-by-side configuration of the dual activity mast and well centres allows efficient dual operations, easy access to both well centres, and convenient visual control of both well centres from a single driller ' s cabin 2433 which may e.g. be positioned transversely between the well centres, e.g. within the footprint of the mast.
  • the drilling rig further comprises a pipe storage area 2509 for storing pipes in horizontal orientation and catwalk machines 2508 or other horizontal pipe handling equipment for transporting pipes between the storage area 2509 and the well centres 2423, also as described in connection with Fig. 14.
  • the drilling rig comprises a setback structure 2512 or similar pipe storage structure for storing stands of tubulars below the substructure 2897 and partly covered by the drill floor deck 2407.
  • the setback structure comprises a support framework 2590 supporting fingerboards having horizontally extending fingers between which tubulars may be stored.
  • One or more column rackers 2491 or similar vertical pipe handling equipment may be arranged to move stands into and out of the setback structure 2512.
  • the setback structure 2512 further comprises stand building equipment 2677 configured to build stands from individual pieces of pipe through a foxhole 2592.
  • the setback structure 2512 is located adjacent the moon pool 2722 laterally displaced from the axis defined by the well centres.
  • the drilling rig comprises one or more further catwalk machines (not shown) configured to feed tubulars from the pipe storage area 2509 or from other storage areas on the opposite side of the mast (towards the aft of the ship) to the stand building equipment 2677, all as described in connection with Fig. 14.
  • the stand building equipment 2677 may thus receive the pipes from the catwalk machine, bring them in upright orientation, and connect them to other pieces so as to form stands.
  • the stand building equipment may comprise a mousehole 2589 through which the stand may be gradually lowered while it is made up until the lowermost end of the stand is at the lowermost level of the setback area 2512, while the uppermost end of the stand is below the drill floor level.
  • the stands may then be received by pipe rackers 2491 and placed in the setback structure 2512 for future use.
  • the pipe rackers are operable to traverse across the setback area, e.g. in the direction parallel to the direction connecting the well centres.
  • the drilling rig comprises a number of slanted chutes 2592 each for feeding pipes from the setback area 2512 to one of the well centres.
  • Each chute 2592 receives pipes from one of the pipe rackers 2491 feeds the pipes in a slanted upward direction through a corresponding slit 2485 in the drill floor and through the gap formed by the cylinders 2406 of the corresponding hoisting system towards a respective one of the well centres 2423, where they are picked up at their uppermost end by the corresponding hoisting system and lifted through the slit 2485 until they are vertically suspended above the corresponding well centre.
  • the drilling rig further comprises pipe handling equipment operable to guide the pipes while they are being lifted through the slit 2485.
  • the slits 2485 are are elongated and point away from the axis connecting the well centres and towards the side where the setback area 2512 is positioned.
  • the drilling rig comprises another storage area 2515 below the drill floor deck 2507 and configured for storing risers in a vertical orientation, as described in connection with Fig. 14.
  • the riser storage area 2515 is located adjacent the moon pool 2722, e.g. on the side of the moon pool opposite the setback structure 2512.
  • the risers may be moved, e.g. by means of a gantry crane and respective chutes 2794 or other suitable pipe feeding equipment through holes 2481 in the drill deck floor.
  • the riser feeding holes 2481 may be covered by plates, hatches or similar covers. In Fig. 15, the holes are shown in the open position with the uppermost end of a riser extending through the open hole.
  • the riser feeding holes are displaced from the axis connecting the well centres.
  • a main deck is located beneath the drill floor deck and allows heavy subsea equipment, e.g. BOPs and Christmas trees to be moved to the moon pool under the well centres so as to allow such equipment to be lowered toward the seabed. Consequently, the drill floor deck and, in particular, the part of that drill floor deck that is located in close proximity to the well centre may be stationary and does not need to be hoisted or lowered for the subsea equipment to be lowered to the seabed.
  • subsea equipment e.g. BOPs and Christmas trees
  • the drill floor deck provides a large, unobstructed deck area on the side of the well centres opposite the mast. This area provides unobstructed access to both well centres and is free of pipe handling equipment. Consequently, these areas may be used as working area, e.g. for rigging up suspendable auxiliary equipment, and/or for positioning on-deck auxiliary equipment as described in connection with the example of figs. 1 -8 and 23-24 above.
  • the holes 2481 may be covered or otherwise secured.
  • at least parts of the setback structure 2512 may be covered by a platform so as to provide additional storage or working area.
  • the drilling rig further comprises a raisable mounting structure comprising a beam 2125 from which suspendable equipment may be suspended.
  • the raisable beam is attached to tracks or rails 2144 vertically extending along the mast 2404.
  • the beam is attached to the rails via connecting arms 2149 and may be raised by lifting lines 2448, all as described in connection with Fig. 14.
  • the beam 2125 is positioned at a distance from and extending alongside the mast so as to stay clear from the top drive.
  • the beam may be fitted with support to downwards force when hooked up and with wireline pad-eyes and/or banana-sheaves or other suspension devices. These may be rated to 50 tons or another suitable weight such that the beam is able to support that weight hanging off from the eyes.
  • Fig. 19 shows a protective barrier 1951 , e.g. a net or Kevlar sheet, suspended from the beam 2125 and connecting arms 2149.
  • the barrier may further be attached to the mast and/or the drill floor.
  • Figs. 22A-C schematically show top views of examples of a mast structure of an offshore drilling rig.
  • 22A-C comprises a dual-activity mast 2204 arranged next to two well centres 2223, e.g. as described in connection with the embodiments of figs. 1 -21 and 23-24.
  • the mast comprises vertical guide rails 2245 for respective top drives (not shown) operating above the respective well centres 2223.
  • a driller's cabin 2234 is located at least partly within the footprint of the mast and between the well centres 2223.
  • the mast further comprises vertical guides 2244, e.g. rails or tracks, for guiding one or more raisable mounting beams 2225 or frames as described herein.
  • the beams 2225 are connected to the rails via arms 2249 such that the beams 2225 extend at a distance from the mast so as to allow the top drives to move up and down between the mast 2204 and a respective one of the beams.
  • the beams allow suspendable equipment to be lifted to an elevated position generally above the well centres, such as auxiliary equipment to be lowered through a well centre and/or a suspendable barrier for preventing tubulars or other items handled above a well centre from falling onto the neighbouring well centre and/or onto open deck space adjacent the well centres.
  • a barrier may be in the form of a Kevlar sheet/curtain or a similar foldable or otherwise collapsible material.
  • Such a barrier may be attached to and suspended from the beam or beams 2225 and/or to the connecting arms 2249, such that the barrier at least partially surrounds one or both of the well centres, e.g. so as to allow manual work processes to take place at one well centre while other operations (such as drilling or drilling operations) occur at the other well centre.
  • the barrier may be installed permanently e.g. by means of a roller system and rolled out when needed; alternatively, the barrier may be stowed in a suitable container which is stowed away while not needed.
  • the beams 2225 and the connecting arms 2249 extend around the position of one or both well centres such that a barrier suspended from the beam 2225 and its arms at least partially surrounds the well centre(s).
  • two separate beams 2225 are attached to respective sets of rails 2244, each beam being arranged above one of the well centres 2223.
  • a work basket 2231 is mounted via an arm or crane 2250 from a base 2246 arranged above the driller's cabin 2234.
  • the arm or crane 2250 may be extendable and/or may pivot or swing horizontally and/or may be elevated lowered to a desired height so as to allow the work basket to be selectively positioned close to both beams 2225 and/or to one of the top drives.
  • the beams 2225 and their respective connecting arms 2249 are spaced from each other by a spacing 2243 so as to allow the beams to descend to the drill floor deck level in spite of the placement of the driller's cabin 2234.
  • the driller's cabin may be positioned on the other side of the well centre, opposite the mast, in which case the spacing 2243 may be reduced or even omitted.
  • the beams 2225 and their respective connecting arms 2249 provide support for a protective barrier separating the well centre(s) from each other.
  • a single beam 2225 is attached to a set of rails 2244.
  • the beam 2225 extends across both well centres 2223.
  • a work basket 2231 is mounted via an arm or crane 2250 from a base 2246 arranged above the driller's cabin 2234, as described in connection with Fig. 22A.
  • the beam 2225 thus allows auxiliary equipment to be easily moved between well centres while suspended from the beam, e.g. by providing a rail or track along the beam along which the suspension point from which the equipment is suspended may be moved along the beam 2225.
  • two separate beams 2225 are attached to respective sets of rails 2244, as described in connection with Fig. 22A.
  • two work baskets 2231 are provided, each mounted via a respective arm or crane 2250 within the perimeter of the corresponding beam 2225 and connecting arm 2249.
  • the work baskets may be used while such a barrier is installed.
  • the baskets may be installed on either side of the rails 2245 for the top-drive.
  • the individual work basket cranes may also be installed in combination with a central (e.g. larger) crane as shown in Figs. 22A and 22B.
  • Fig. 25 shows an embodiment of the raisable mounting structure described in figs. 19 and 21 comprising a beam 2125 with connecting arms 2149 enabling the beam to be attached along the mast of a drilling rig.
  • the raisable mounting structure in this embodiment further comprises a number of pad- eyes 2501 from which equipment may be suspended. These pad-eyes may be of such a design that they may transfer loads from equipment suspended in the pad-eyes through the raisable mounting structure onto the mast.
  • the pad-eyes may provide flexibility and enable the possibility to suspend different pieces of equipment in various configurations from the raisable mounting structure. It will be appreciated that one or more pad-eyes and/or other suspension devices may be provided on other embodiments of raisable mounting structures as the example shown in Fig. 25. In fig.
  • an embodiment is shown to illustrate a guard and mounting structure comprising a modified beam structure 2125 with connecting arms 2149 enabling the mounting structure to be attached along the mast of a drilling rig.
  • the embodiment comprises a number of pad-eyes 2501 for suspension of e.g. equipment or a protective sheeting or curtain.
  • the beam structure 2125 is reshaped to accommodate large falling objects such as tubulars suspended in the top drive by having an angled shape ending in a central wedge shape 2601 or similar retaining portion.
  • the embodiment includes a method for handling dropped tubulars, for example drill pipe, in such a way that a tubular 2602 falling from above the well centre is guided by the shape of the beam 2125 into the retaining part 2601 of the beam as indicated by the arrow 2603 to a position 2604 in which the drill pipe is wedged between the beam in a fixed position.
  • the guard structure may be of a design allowing it to be separated controllably to remove e.g. the wedged tubular. Further, as also described in fig.
  • pad-eyes 2501 or similar installation means may be located on the guard and mounting structure to accommodate suspension of equipment while retaining the safety functionality of the guard and mounting structure.
  • the guard structure may be movable in a vertical direction to be able to follow the lateral movement of the top drive above the well centre.
  • a retaining portion operable to receive a tubular may be provided on other embodiments of raisable mounting structures as the example shown in Fig. 26.
  • Such retaining portion may e.g. be V-shaped or U-shaped or another shape open towards the well centre and the work area surrounded by the mounting structure.
  • the retaining portion may provide two generally opposing contact surfaces, e.g. converging contact surfaces, for retaining a tubular between the contact surfaces.
  • the portions of the mounting structure adjacent the retaining portion 2601 may be formed so as to converge towards the wedge-shape portion so as to guide a falling tubular towards and into the retaining portion, e.g. as illustrated in Fig. 26.
  • the described embodiments comprise two well centres, but it will be appreciated that alternative embodiments may comprise a single well centre or a well centre and additional work centres.
  • the mounting structure disclosed herein has mainly been described in connection with a hydraulic hoisting system including a gap between groups of cylinders; it will be appreciated that a mounring structure as disclosed herein may also be used in connection with other types of hoisting systems and/or other types of drill floor layouts and/or other types of masts.

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Abstract

Des modes de réalisation de l'invention portent sur une plateforme de forage en mer, laquelle plateforme comprend un pont de plancher de forage ayant un trou définissant un premier centre de puits. Des modes de réalisation de la plateforme de forage comprennent de plus un premier système de levage configuré de façon à soulever et à abaisser un équipement tubulaire à travers le premier centre de puits. Des modes de réalisation de la plateforme de forage comprennent de plus un premier équipement de manipulation de tuyau pour présenter un équipement tubulaire au premier système de levage de façon à permettre au premier système de levage de soulever ou d'abaisser l'équipement tubulaire à travers le premier centre de puits. Des modes de réalisation de la plateforme de forage comprennent une structure de montage, séparée vis à vis du premier système de levage, pour suspendre un équipement auxiliaire pouvant être suspendu à partir d'une position élevée au-dessus du pont de plancher de forage, permettant à l'équipement auxiliaire d'être abaissé ou soulevé à travers le premier centre de puits ; la structure de montage étant mobile entre une position inférieure pour monter un équipement auxiliaire sur la structure de montage, et une position élevée permettant d'abaisser ou de soulever l'équipement auxiliaire suspendu à partir de la structure de montage à travers le premier centre de puits.
PCT/EP2014/050510 2013-01-11 2014-01-13 Plateforme de forage WO2014108542A2 (fr)

Priority Applications (9)

Application Number Priority Date Filing Date Title
US14/760,449 US9624739B2 (en) 2013-01-11 2014-01-13 Drilling rig
PCT/EP2014/050510 WO2014108542A2 (fr) 2013-01-11 2014-01-13 Plateforme de forage
MX2015015973A MX365791B (es) 2013-05-20 2014-05-20 Plataforma de perforacion en alta mar de actividad dual.
US14/891,808 US9834998B2 (en) 2013-05-20 2014-05-20 Dual activity off-shore drilling rig
NO20151648A NO347453B1 (en) 2013-05-20 2014-05-20 Dual activity off-shore drilling rig
GB1521178.2A GB2530440B (en) 2013-05-20 2014-05-20 Dual activity off-shore drilling rig
PCT/CA2014/050465 WO2014186889A1 (fr) 2013-05-20 2014-05-20 Appareil de forage en mer à double activité
DK201500775A DK201500775A1 (en) 2013-05-20 2015-12-02 Dual activity off-shore drilling rig
US15/813,268 US10233703B2 (en) 2013-05-20 2017-11-15 Dual activity off-shore drilling rig

Applications Claiming Priority (7)

Application Number Priority Date Filing Date Title
DKPA201370017 2013-01-11
DKPA201370017 2013-01-11
US13/772,709 US9458680B2 (en) 2013-01-11 2013-02-21 Drilling rig
US13/772,709 2013-02-21
DKPA201370604 2013-10-22
DKPA201370604 2013-10-22
PCT/EP2014/050510 WO2014108542A2 (fr) 2013-01-11 2014-01-13 Plateforme de forage

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GB2549258A (en) * 2016-04-04 2017-10-18 Maersk Drilling As Drillship
NL2017990B1 (en) * 2016-12-13 2018-06-26 Gustomsc Resources Bv Transferring items between decks fore and aft of a derrick of a drilling vessel
US10907316B2 (en) 2015-10-29 2021-02-02 Maersk Drilling A/S Offshore apparatus and method
EP3368723B1 (fr) * 2015-10-29 2022-05-18 Maersk Drilling A/S Appareil et procédé en haute mer

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Publication number Priority date Publication date Assignee Title
WO2016066986A1 (fr) * 2014-10-30 2016-05-06 National Oilwell Varco Norway As Plancher de forage pour appareil de forage
RU2705686C2 (ru) * 2014-10-30 2019-11-11 Нэшнл Ойлвелл Варко Норвей Ас Буровой пол для буровой установки
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US10907316B2 (en) 2015-10-29 2021-02-02 Maersk Drilling A/S Offshore apparatus and method
EP3368723B1 (fr) * 2015-10-29 2022-05-18 Maersk Drilling A/S Appareil et procédé en haute mer
GB2549258A (en) * 2016-04-04 2017-10-18 Maersk Drilling As Drillship
NL2017990B1 (en) * 2016-12-13 2018-06-26 Gustomsc Resources Bv Transferring items between decks fore and aft of a derrick of a drilling vessel

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