US20160053558A1 - Triple Activity System for Drilling Operations - Google Patents

Triple Activity System for Drilling Operations Download PDF

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Publication number
US20160053558A1
US20160053558A1 US14/782,546 US201414782546A US2016053558A1 US 20160053558 A1 US20160053558 A1 US 20160053558A1 US 201414782546 A US201414782546 A US 201414782546A US 2016053558 A1 US2016053558 A1 US 2016053558A1
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United States
Prior art keywords
activity
activity center
tubular member
tubular members
tubular
Prior art date
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Abandoned
Application number
US14/782,546
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English (en)
Inventor
Boon Lee Tan
Anis Altaf Hussain
Aziz Amirali Merchant
Leng Yeow Ong
Boon Seng Lim
Yizhe Lester Phong
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Seatrium Offshore and Marine Technology Centre Pte Ltd
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Keppel Offshore and Marine Technology Centre Pte Ltd
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Assigned to KEPPEL OFFSHORE & MARINE TECHNOLOGY CENTRE PTE LTD reassignment KEPPEL OFFSHORE & MARINE TECHNOLOGY CENTRE PTE LTD ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: HUSSAIN, Anis Altaf, LIM, BOON SENG, MERCHANT, Aziz Amirali, Ong, Leng Yeow, Phong, Yizhe Lester, Tan, Boon Lee
Publication of US20160053558A1 publication Critical patent/US20160053558A1/en
Abandoned legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E21EARTH DRILLING; MINING
    • E21BEARTH DRILLING, e.g. DEEP 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
    • 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 DRILLING; MINING
    • E21BEARTH DRILLING, e.g. DEEP 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
    • E21B15/003Supports for the drilling machine, e.g. derricks or masts adapted to be moved on their substructure, e.g. with skidding means; adapted to drill a plurality of wells
    • EFIXED CONSTRUCTIONS
    • E21EARTH DRILLING; MINING
    • E21BEARTH DRILLING, e.g. DEEP 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
    • EFIXED CONSTRUCTIONS
    • E21EARTH DRILLING; MINING
    • E21BEARTH DRILLING, e.g. DEEP 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
    • E21B19/002Handling rods, casings, tubes or the like outside the borehole, e.g. in the derrick; Apparatus for feeding the rods or cables specially adapted for underwater drilling
    • EFIXED CONSTRUCTIONS
    • E21EARTH DRILLING; MINING
    • E21BEARTH DRILLING, e.g. DEEP 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
    • EFIXED CONSTRUCTIONS
    • E21EARTH DRILLING; MINING
    • E21BEARTH DRILLING, e.g. DEEP 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
    • E21B19/16Connecting or disconnecting pipe couplings or joints

Definitions

  • This invention relates to a drillship or a drilling rig having a drill-floor with three activity centres.
  • the first activity centre includes a main well
  • the second activity centre includes an auxiliary well
  • the third activity centre includes an offline casing and drill pipe stand-building facility.
  • the offline casing and drill pipe stand-building facility is a standalone feature and can be located in the forward or aft side of a drillship or a drilling rig depending on the choice of the builder or operator.
  • drilling depths at deep water drill sites easily double or triple as these drill sites move further away from land masses. At such sites, drilling efficiency is of paramount concern as the operating costs at such drill sites depend on the amount of time it takes to complete a drilling operation.
  • a typical drilling operation involves the handling and/or assembly of drill pipes, risers and casings received from a travelling shuttle on an elevated platform leading to the drill floor.
  • the drill pipes will be connected together through stand building operations to form vertical drill strings.
  • the individual drill pipes, risers and casings for the well drilling process are retrieved from a storage location and horizontally transported to the derrick via shuttles for subsequent stand-building, racking or hoisting.
  • the rig or ship designs that adopt a dual hoisting generally have two well centres on a drill floor and each well centre usually uses their own tubular feeding system for each well centre.
  • the making up operations or stand building operations of drill strings and casings are thus limited by having only one feeder platform on each side at the aft and forward catwalk platforms. Further, drilling activities at the auxiliary well will have to be stopped to allow for the making up operations or drilling pipes or casings. This is inefficient as it increases the amount of time required to complete a drilling operation.
  • a stand-building facility for drill pipes and casings in order to optimize stand-building capabilities, can be introduced in order to carry out offline make up or break out operations while the other two well centres are occupied by various other drilling activities. Such an arrangement will enable three activities to be simultaneously conducted independent of each other at three separate locations. These three locations are at the first activity centre, the second activity centre and the third activity centre.
  • horizontally travelling platforms are provided to each of the activity centres thereby allowing pipes, risers or casings to be continuously and smoothly supplied to each of these activity centres.
  • a triple activity system at a drill floor on a drillship for conducting drilling operations on a seabed beneath the drillship comprising a first activity centre having a main well and a first top drive assembly for advancing tubular members through the main well to the seabed, a second activity centre having an auxiliary well and a second top drive assembly for advancing tubular members through the auxiliary well to the seabed and a third activity centre having a receptacle for receiving an upright tubular member and an iron roughneck for making modifications to tubular member assemblages wherein the modifications to tubular member assemblages may be carried out when main drilling activities are conducted at the first activity centre or when auxiliary drilling activities are conducted at the second activity centre.
  • the system also has a storage area positioned adjacent the third activity centre for receiving and storing modified tubular member assemblages and tubular members from the third activity centre. Further, a first delivery assembly is positioned adjacent the storage area, the first activity centre, the second activity centre and the third activity centre for transferring tubular member assemblages or tubular members between the storage area, the first activity centre, the second activity centre or the third activity centre.
  • the first delivery assembly of the triple activity system includes a pipe handling unit that is configured to transfer the tubular member assemblages or the tubular members between a fingerboard rack in the storage area and the second top drive assembly in the second activity centre or the first top drive assembly in the first activity centre.
  • the pipe handling unit is further configured to transfer tubular members or tubular member assemblages between the third activity centre and the storage area.
  • the triple activity system further includes a second delivery assembly positioned adjacent the first activity centre and the second activity centre for transferring tubular members or tubular member assemblages between the first activity centre and the second activity centre to facilitate concurrent drilling operations.
  • the second delivery assembly of the triple activity system includes a pipe handling unit configured to transfer the tubular member assemblages or the tubular members between the first top drive assembly in the first activity centre and the second top drive assembly in the second activity centre.
  • the triple activity system further includes a first traveling platform provided between the first activity centre and a first tubular member storage bay.
  • This first traveling platform is configured to receive tubular members from the first tubular member storage bay and is configured to transfer the received tubular members to the first top drive assembly.
  • the triple activity system further comprises a second traveling platform provided between the second activity centre and a second tubular member storage bay.
  • the second traveling platform is configured to receive tubular members from the second tubular member storage bay and is configured to transfer the received tubular members to the second top drive assembly.
  • the triple activity system further includes a third traveling platform provided between the third activity centre and a third tubular member storage bay.
  • the third traveling platform is configured to receive tubular members from the third tubular member storage bay and is configured to transfer the received tubular members to the iron roughneck.
  • FIG. 1 illustrating a top view of a drillship having a triple activity system whereby the third activity centre is provided at the forward side of the drillship in accordance with embodiments of the invention
  • FIG. 2 illustrating a top view of a drillship having a triple activity system whereby the third activity centre is provided at the aft side of the drillship in accordance with embodiments of the invention
  • FIG. 3 illustrating an elevated front view of a first activity centre and a second activity centre in accordance with embodiments of the invention
  • FIG. 4 illustrating an elevated side view of a third activity centre in accordance with embodiments of the invention
  • FIG. 5 illustrating a timeline of a conventional drilling operation on a drillship that has two activity centres
  • FIG. 6 illustrating a timeline of a conventional drilling operation on a drillship that has a triple activity system in accordance with embodiments of the invention.
  • This invention relates to a drillship or a drilling rig having three activity centres at the drill floor of the drillship or drilling rig.
  • the first activity centre has a main well
  • the second activity centre has an auxiliary well
  • the third activity centre has an offline casing and drill pipe stand-building facility.
  • the offline casing and drill pipe stand-building facility is a standalone feature and can be located in the forward or aft side of a drillship or a drilling rig depending on the choice of the builder or operator.
  • the stand-building facility for drill pipes and casings at the third activity centre is able to carry out offline make up or break out operations while the other two well centres are occupied by various other drilling activities.
  • This enables three activities to be simultaneously conducted at the drill floor, independent of each other at three separate locations thereby greatly reducing the amount of time required for drilling operations.
  • horizontally travelling platforms are provided at each of the activity centres to allow pipes, risers or casings to be continuously and smoothly supplied to each of these activity centres from their respective pipe storage bays.
  • FIG. 1 illustrates a top view of drill rig or drillship 100 having drill floor 105 in accordance with embodiments of the invention.
  • drill floor 105 may be provided on a drill rig, a drillship or any other such vessels that have sufficient space and are able to handle the weight of the various activity centres on the drill floor.
  • drill floor 105 comprises three activity centres. These are first activity centre 101 , second activity centre 102 and third activity centre 103 . These three activity centres are all provided within the footprint of drill floor 105 .
  • individual derricks may be provided at each of the activity centres to facilitate the drilling activities being carried out at these activity centres.
  • first activity centre 101 second activity centre 102 and third activity centre 103 may be utilized in place of individual derricks at each activity centre.
  • first activity centre 101 may be provided with a main well that is configured to handle heavier tubular members such as risers while second activity centre 102 may be provided with an auxiliary well that is configured to handle lighter tubular members or tubular member assemblies such as drill pipes, drill strings, or casings.
  • tubular members refers to pipes, tubular conduits, conductors, casings, drill pipes and risers
  • tubular member assemblies/assemblages refer to tubular members that are joined together such as drill pipes that are joined together to from a long vertical drill string, casings that are joined together to form casing stands or pipes that are joined together to form pipe stands.
  • Conventional drilling activities conducted at first activity centre 101 may include, but are not limited to, the advancement of tubular members or tubular assemblies through the main well, the running of tubular members or tubular assemblies through the main well, the withdrawal of tubular members or tubular assemblies through the main well, the lifting of tubular members or tubular assemblies through the main well, or the rotating of tubular members or tubular assemblies through the main well to the seabed.
  • These activities may be carried out using a variety of devices including, but not limited to, top drive assemblies, sheaves, draw works, traveling blocks, rotary tables, hydraulic rams.
  • a top drive assembly may be utilized at first activity centre 101 to provide rotational force to the tubular members that are being advanced through the main well.
  • a rotary table may be used in place of a top drive assembly to provide the required rotational force if so desired.
  • the top drive assembly may be mounted on the derrick at first activity centre 101 . Tubular members or tubular member assemblies received by this top drive assembly are then advanced through the main well towards the seabed. Conversely, the top drive assembly may be used to withdraw the tubular members or tubular member assemblies from the seabed and through the main well onto the deck of drill ship 100 upon completion of drilling operations.
  • auxiliary drilling activities that may be conducted at second activity centre 102 may include, but are not limited to, the advancement of tubular members or tubular assemblies through the auxiliary well, the running of tubular members or tubular assemblies through the auxiliary well, the withdrawal of tubular members or tubular assemblies through the auxiliary well, the lifting of tubular members or tubular assemblies through the auxiliary well, or the rotating of tubular members or tubular assemblies through the auxiliary well to the seabed.
  • activities may be carried out using a variety of devices including, but not limited to, top drive assemblies, sheaves, draw works, traveling blocks, rotary tables, hydraulic rams.
  • a top drive assembly may be utilized at second activity centre 102 to provide rotational force to the tubular members or tubular member assemblies that are being advanced through the auxiliary well.
  • a rotary table may be used in place of a top drive assembly to provide the required rotational force if so desired.
  • the top drive assembly may be mounted on the derrick at second activity centre 102 . Tubular members or tubular member assemblies received by this top drive assembly are then advanced through the auxiliary well towards the seabed. Conversely, the top drive assembly may be used to withdraw the tubular members or tubular member assemblies from the seabed and through the auxiliary well onto the deck of drill ship 100 upon completion of drilling operations.
  • first activity centre 101 and second activity centre 102 are focused on drilling operations that involve the advancement or withdrawal of tubular members or tubular member assemblies through their respective drilling wells
  • third activity centre 103 is tasked with stand-building activities as concurrent drilling operations are carried out at the other two activity centres.
  • stand-building activities include the assembling of drill pipes to form longer drill strings or the assembling of casings, or conversely, the disassembling of drill strings or casings upon completion of the drilling operation.
  • An iron roughneck is provided at third activity centre 103 to assist in these stand-building activities.
  • Iron roughneck 110 provided at third activity centre 103 may be used to make up or break out tubular member assemblies. Torque wrenches are utilized by iron roughneck 110 to make up or break down the tubular member assemblies.
  • Receptacle 109 that is provided at third activity centre 103 is also used to assist in the make up or break down operations. Receptacle 109 may be an offline mouse hole that may be used to receive and store an upright tubular member before the tubular member is assembled. In make up or break down operations, after a tubular member has been delivered to third activity centre 103 , the lower section of the tubular member will initially be placed in receptacle 109 .
  • iron roughneck 110 When iron roughneck 110 is ready to receive the tubular member, iron roughneck 110 is brought towards the tubular member located within receptacle 109 . Once iron roughneck 110 is adjacent the tubular member, iron roughneck 110 will clamp the lower section of the tubular member while the second tubular member is attached to the upper section of the clamped tubular member. A spinning or rotary wrench will be used by iron roughneck 110 to turn the top of the second tubular member thereby applying sufficient rotary torque to firmly affix the two tubular members together to form a tubular member assembly/assemblage.
  • the completed tubular member assembly may then be delivered to an adjacent storage area, such as storage area 115 for storage.
  • the completed tubular member assembly may be delivered from third activity centre 103 to storage area 115 using a delivery assembly provided adjacent third activity centre 103 , second activity centre 102 , first activity centre 101 and storage area 115 such as a pipe handling unit.
  • the pipe handling unit will have a wrench to grip the tubular member assembly.
  • the gripped tubular member assembly will then be transferred from third activity centre 103 to storage area 115 .
  • Storage area 115 may be provided with fingerboards, stand racks or pipe racks for receiving and storing the tubular member assemblies.
  • the delivery assembly provided adjacent third activity centre 103 and storage area 115 may be used to transport the individual tubular members from third activity centre 103 to traveling platform 123 to be transported to storage bay 133 as described in greater detail below.
  • This delivery system may also be used to lift a tubular member assembly from the finger board or pipe racks at storage area 115 and subsequently deliver the gripped tubular member assembly to the second activity centre 102 .
  • the tubular member assembly may then be fitted to the top drive assembly at the second activity centre to be used for subsequent drilling operations. Once the drilling operations at second activity centre 102 has been concluded, the delivery system may then transfer the used tubular member assembly back to storage area 115 for storage.
  • a further delivery system may also be provided adjacent first activity centre 101 and second activity centre 102 to transfer tubular members or tubular member assemblies between these two activity centres to facilitate concurrent drilling operations at these two centres.
  • traveling platform 121 is provided between storage bay 131 and first activity centre 101 .
  • Traveling platform 121 comprises a shuttle for receiving tubular members and also includes a catwalk platform that runs between storage bay 131 and first activity centre 101 .
  • the shuttle travels along the catwalk platform transferring tubular members between both locations.
  • crane 141 will transfer the tubular members from storage bay 131 onto the deck for loading onto the shuttle.
  • the shuttle then travels along the catwalk platform towards drill floor 105 and to first activity centre 101 .
  • the tubular members are then unloaded and utilized for the making up process at the first activity centre before they are attached to the top drive assembly and utilized in drilling operations.
  • the tubular members are loaded and transported in a horizontal position with respect to the deck of drillship 100 .
  • traveling platform 121 is configured to accommodate and deliver risers.
  • risers are tubular members that are extremely heavy and unwieldy
  • the shuttle used to receive and transport these risers have to be reinforced and have to be securely mounted onto the catwalk platform to ensure that the risers do not drop as they are being transported.
  • traveling platform 122 is provided between storage bay 132 and second activity centre 102 while traveling platform 123 is provided between storage bay 133 and third activity centre 103 .
  • Traveling platform 122 comprises a shuttle for receiving tubular members and also includes a catwalk platform that runs between storage bay 132 and second activity centre 102 .
  • traveling platform 123 comprises a shuttle for receiving tubular members and also includes a catwalk platform that runs between storage bay 133 and third activity centre 103 .
  • the shuttle travels along these catwalk platforms transferring tubular members between their respective locations.
  • cranes 142 , 143 will transfer the tubular members from storage bay 132 , 133 respectively onto the deck for loading onto the respective shuttles. Once these shuttles are loaded with the tubular members, these shuttles then travel along the respective catwalk platforms towards drill floor 105 and to their respective activity centres.
  • these tubular members are loaded and transported in a horizontal position with respect to the deck of drillship 100 .
  • crane 142 operating on the aft end will transfer the drill pipes from pipe storage 132 to the pipe shuttle for subsequent transportation to the auxiliary well at second activity centre 102 .
  • crane 143 operating on the forward end will transfer drill pipes or casings from pipe storage 133 to the shuttle.
  • the shuttle will then transport the drill pipes or casings to third activity centre 103 .
  • the pipe handling unit adjacent third activity centre 103 will lift the drill pipes or casing out of the shuttle.
  • these drill pipes or casings will then be vertically mounted on receptacle 109 .
  • the drill pipes and casings are then moved to their respective travelling platforms to be conveyed to their respective storage bays.
  • iron roughneck 110 will be used to make up and break out the pipe lengths using a spinning torque wrench.
  • the joint pipes will be conveyed to the second and/or first activity centres for drilling operations. These pipes will then subsequently be run through the main well and/or the auxiliary well at the first and second activity centres respectively. If these joint pipes or casing stands are not yet utilized, these joint pipes or casing stands may be transferred to their respective travelling platforms to be conveyed to their respective storage bays.
  • the speed of stand-building is limited by the availability of the tubular members that can be supplied to the drill floor at any one time. As each activity centre is supplied by its own dedicated traveling platform, the speed of stand-building activities is greatly increased. Further, by having three independent traveling platforms, this enhances the overall performance of stand-building and improves redundancy if one of the traveling platforms is out of service.
  • FIG. 1 illustrates an embodiment of the invention whereby third activity centre 103 and its various components are provided at the forward section of drillship 100 while FIG. 2 illustrates an embodiment of the invention whereby third activity centre 103 and its various components are provided at the aft section of drillship 100 .
  • the positioning of first activity centre 101 and second activity centre 102 remains unchanged.
  • FIG. 3 illustrates an embodiment of the invention whereby derrick 300 is positioned over first activity centre 101 and second activity centre 102 .
  • First activity centre 101 is provided with top drive assembly 301 that is mounted on the upper section of derrick 300 while second activity centre 102 is provided with top drive assembly 302 that is mounted on the upper section of derrick 300 as well.
  • Pipe handling unit 321 is illustrated as being provided adjacent first activity centre 101 while pipe handling unit 322 is illustrated as being provided adjacent second activity centre 102 .
  • Traveling platform 122 is illustrated as being placed adjacent second activity centre 102 allowing for the tubular members to be easily and efficiently transferred between the shuttle of the traveling platform and second activity centre 102 .
  • Main well 311 which is used for drilling operations, is positioned directly above moon pool 305 .
  • auxiliary well 312 which is used for auxiliary drilling operations, is positioned directly above moon pool 305 . This allows the tubular members to be easily advanced through auxiliary well 312 , through moon pool 305 towards the seabed below drillship 100 .
  • FIG. 4 illustrates an embodiment of the invention whereby derrick 400 is positioned over third activity centre 103 . It is illustrated that top drive assembly 403 is provided on the upper section of derrick 400 to apply rotational forces to the tubular members as the tubular members are being assembled to form drill strings or vertical drill pipes or being disassembled into individual tubular members. Iron roughneck 110 is provided as well at third activity centre 103 to assist in the make up or break out of the tubular member assemblies.
  • FIG. 5 shows an illustrative time chart of a drillship that utilizes dual activity centres for drilling an offshore well in accordance with conventional drilling operations.
  • the filled in horizontal bars represent the amount of time required to complete a particular activity and the various types of drilling activities are shown along the vertical bar.
  • Each time block represents an indicative completion status of an activity from the point of execution and its progress relative to another parallel running activity.
  • drill pipes or casings are retrieved from the pipe storage areas using cranes.
  • the retrieved drill pipes are then placed onto the catwalk shuttles and subsequently transferred to the drill floor.
  • Each individual drill pipe is then joined with other drill pipes to form longer drill strings or drill stands using the iron roughneck and mouse hole.
  • each drill string or stand will then be taken by a pipe-handling unit and stored in the fingerboard rack.
  • the stand-building activities at steps 501 , 509 , 523 and 529 take place at the activity centre with the auxiliary well while the activity at step 527 takes place at the activity centre with the main well. This means that when stand-building activities are taking place, the auxiliary well may not be used for auxiliary drilling operations.
  • the bottom-hole assembly and drill collars are built up at the activity centre with the auxiliary well.
  • the bottom-hole assembly may include components such as drill collars, stabilizers, reamers, shocks and hole-openers. These components are retrieved from the pipe storage areas using cranes. The retrieved components are then placed onto the catwalk shuttles and subsequently transferred to the drill floor. Each component of the bottom-hole assembly is then assembled to form the required assembly using the iron roughneck and mouse hole. After the bottom-hole assembly has been formed and attached, the bottom-hole assembly will then be taken by a pipe-handling unit and stored in the relevant storage area. The assembly of the bottom-hole assembly will usually take place at the activity centre with the auxiliary well.
  • the drill string with the 36 inch drill bit is made up and run through a rotary table of a selected well centre. This occurs at the activity centre with the auxiliary well.
  • a 36 inch top-hole or bore hole will then be drilled through at the seabed via the rotary force transmitted from a top drive assembly located in the derrick. This will typically be done through the auxiliary well. In other drill ship configurations, water jet in hole may be used.
  • the drilling string and the bottom-hole assembly attached to the end of the drill string will be hoisted back up to the drill floor via the activity centre with the auxiliary well.
  • the iron roughneck is then utilized to break up the tubular drill string.
  • the broken up drill pipes are then stored at the fingerboard rack in the storage area.
  • the setup will be fitted with casing handling tools such as a pickup elevator and tongs, in preparation for the running of the casings.
  • casing handling tools such as a pickup elevator and tongs
  • riser handling tools such as a pickup elevator and tongs in preparation of the running of the risers.
  • the casing string is made up in a similar manner to the drill pipes and run into the wellbore. After the conductor pipe and intermediate casing are attached together, cement slurry may then be circulated into the annulus of the casing string and left to set. These activities all take place at the activity centre with the main well.
  • the casing tools are then retrieved back to the drill floor after the casing has been lowered to the seabed. All these activities take place at the activity centre with the main well.
  • the permanent guide base is then lowered and secured to the casing conductor. This takes place in the activity centre with the auxiliary well.
  • the drill string having the drill bit with the required diameter is made up and run through a selected well centre's rotary table. A hole will then be drilled through at the seabed via the rotary force transmitted from a top drive assembly located in the derrick.
  • the activity at step 510 takes place at the activity centre with the auxiliary well while the activities at steps 524 and 530 takes places at the activity centre with the main well.
  • the drill string is then retrieved back to the drill floor.
  • the iron roughneck is utilized to break up the tubular string and the pipe-handler stores then stores the broken up drill pipers and/or stands back into the fingerboard rack at the storage area.
  • the activity at step 511 takes place at the activity centre with the auxiliary well while the activities at steps 525 and 531 takes places at the activity centre with the main well.
  • the master bushing of the rotary table is taken out to accommodate the running of the riser through the well centre.
  • a spider and a gimbal is then installed over the rotary table's receptacle.
  • the spider is an apparatus that is used to support the riser while it is being made up or broken.
  • the gimbal sits in between the spider and rotary table, functioning as a shock absorber and compensating for any offset. These activities all take place at the activity centre with the main well.
  • the riser string is connected up, attached to the blowout preventer (BOP) and is lowered to the seabed for mounting onto a permanent guide base.
  • BOP blowout preventer
  • a telescopic joint is transported to the drill floor and attached to an upper end of a riser.
  • a diverter will then be attached to the end of the telescopic joint at step 520 and at step 521 , after the riser string has been connected and held up by the diverter, the spider and gimbal are then removed.
  • the rotary table is then subsequently reinstated at step 522 .
  • FIG. 6 shows an illustrative time chart of a drillship that utilizes an embodiment of this invention for drilling an offshore well in accordance with conventional drilling operations.
  • the filled in horizontal bars represent the amount of time required to complete a particular activity and the drilling activities are shown along the vertical bar.
  • Each time block represents an indicative completion status of an activity from the point of execution and its progress relative to another parallel running activity.
  • drill pipes are retrieved from the pipe storage areas using cranes.
  • the retrieved drill pipes are then placed onto the catwalk shuttles and subsequently transferred to the drill floor.
  • Each individual drill pipe is then joined with other drill pipes to form longer drill strings or drill stands using the iron roughneck and mouse hole.
  • each drill string or stand will then be taken by a pipe-handling unit and stored in the fingerboard rack.
  • the stand-building activities at steps 601 , 609 , 623 and 627 take place at the third activity centre whereby the third activity centre is provided with an iron roughneck, a receptacle for receiving tubular such as an offline mouse hole, and a pipe handling unit for transferring the completed tubular assemblies to an adjacent storage area.
  • the auxiliary well may be utilized for other types of auxiliary drilling operations.
  • the activity at step 629 takes place at the second activity centre with the auxiliary well.
  • the bottom-hole assembly may include components such as drill collars, stabilizers, reamers, shocks and hole-openers. These components are retrieved from the pipe storage areas using cranes. The retrieved components are then placed onto the catwalk shuttles and subsequently transferred to the drill floor. Each component of the bottom-hole assembly is then assembled to form the required assembly using the iron roughneck and mouse hole. After the bottom-hole assembly has been formed and attached, the bottom-hole assembly will then be taken by a pipe-handling unit and stored in the relevant storage area. The assembly of the bottom-hole assembly will take place at the activity centre with the auxiliary well.
  • components such as drill collars, stabilizers, reamers, shocks and hole-openers. These components are retrieved from the pipe storage areas using cranes. The retrieved components are then placed onto the catwalk shuttles and subsequently transferred to the drill floor. Each component of the bottom-hole assembly is then assembled to form the required assembly using the iron roughneck and mouse hole. After the bottom-hole assembly has been formed and attached, the bottom-hole assembly will then
  • the drill string with the 36 inch drill bit is made up and run through a rotary table of a selected well centre. This activity takes place at the second activity centre with the auxiliary well. A 36 inch top-hole or bore hole will then be drilled through at the seabed via the rotary force transmitted from a top drive assembly located in the derrick. This will typically be done through the auxiliary well. In other drill ship configurations, water jet in hole may be used. It can be seen from FIG. 6 that while the activities at step 602 and 603 are being carried out, the stand-building activities at step 601 are still on-going simultaneously at the third activity centre.
  • step 604 after the bore hole has been created, the drilling string and the bottom-hole assembly attached to the end of the drill string will be hoisted back up to the drill floor.
  • the iron roughneck is then utilized to break up the tubular drill string.
  • the broken up drill pipes are then stored at the fingerboard rack in the storage area. This occurs at the second activity centre.
  • the setup will be fitted with casing handling tools such as a pickup elevator and tongs, in preparation for the running of the casings.
  • casing handling tools such as a pickup elevator and tongs
  • riser handling tools such as a pickup elevator and tongs in preparation of the running of the risers. All these activities takes place at the first activity centre with the main well.
  • the casing string is made up in a similar manner to the drill pipes and run into the wellbore. After the conductor pipe and intermediate casing are attached together, cement slurry may then be circulated into the annulus of the casing string and left to set.
  • the making up of the casing string in steps 606 and 613 takes place at the first activity centre with the main well while the making up of the casing string in steps 627 and 633 takes place at the third activity centre.
  • the casing tools are then retrieved back to the drill floor after the casing has been lowered to the seabed. All these activities take place at the first activity centre with the main well.
  • the permanent guide base is then lowered and secured to the casing conductor. This activity takes place at the second activity centre with the auxiliary well.
  • the drill string having the drill bit with the required diameter is made up and run through a selected well centre's rotary table. A hole will then be drilled through at the seabed via the rotary force transmitted from a top drive assembly located in the derrick.
  • the activity at step 610 takes place at the second activity centre with the auxiliary well.
  • the activities at steps 624 and 630 take place at the first activity centre with the main well.
  • the drill string is then retrieved back to the drill floor.
  • the iron roughneck is utilized to break up the tubular string and the pipe-handler stores then stores the broken up drill pipers and/or stands back into the fingerboard rack at the storage area.
  • the activity at step 611 takes place at the second activity centre and the activities at steps 625 and 631 takes place at the first activity centre with the main well.
  • the master bushing of the rotary table is taken out to accommodate the running of the riser through the well centre.
  • a spider and a gimbal is then installed over the rotary table's receptacle.
  • the spider is an apparatus that is used to support the riser while it is being made up or broken.
  • the gimbal sits in between the spider and rotary table, functioning as a shock absorber and compensating for any offset.
  • the riser string is connected up, attached to the blowout preventer (BOP) and is lowered to the seabed for mounting onto a permanent guide base.
  • BOP blowout preventer
  • a telescopic joint is transported to the drill floor and attached to an upper end of a riser.
  • a diverter will then be attached to the end of the telescopic joint at step 620 and at step 621 , after the riser string has been connected and held up by the diverter, the spider and gimbal are then removed.
  • the rotary table is then subsequently reinstated at step 622 .
  • a drill ship or drill rig employing an embodiment of the invention is about 20% more efficient as compared to a drill ship that utilizes conventional dual activity drill centres. This is because there are less non-productive time periods due to the availability of drill pipe and casings during critical drilling periods such as during the making up of the drill bit and the tripping riser.
  • the chain of events, sequences and tubular dimensions listed in FIGS. 5 and 6 may vary from one drilling operator to the next and is to be interpreted as a general mode of operation.
US14/782,546 2013-04-05 2014-04-04 Triple Activity System for Drilling Operations Abandoned US20160053558A1 (en)

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US10760357B2 (en) 2013-04-05 2020-09-01 Keppel Offshore & Marine Technology Centre Pte Ltd Triple activity system and method for drilling operations
US20240060378A1 (en) * 2021-09-07 2024-02-22 Guangzhou Marine Geological Survey Method for offshore dual-drive core drilling with three layers of casings under surge compensation

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US10760357B2 (en) 2013-04-05 2020-09-01 Keppel Offshore & Marine Technology Centre Pte Ltd Triple activity system and method for drilling operations
RU2694669C1 (ru) * 2018-08-20 2019-07-16 Акционерное общество "Геологоразведка" Установка для глубоководного бурения и способ глубоководного бурения
RU2731010C1 (ru) * 2019-09-26 2020-08-28 Акционерное общество "Геологоразведка" Технологический комплекс для морского кустового бурения
US20240060378A1 (en) * 2021-09-07 2024-02-22 Guangzhou Marine Geological Survey Method for offshore dual-drive core drilling with three layers of casings under surge compensation
US11959346B2 (en) * 2021-09-07 2024-04-16 Guangzhou Marine Geological Survey Method for offshore dual-drive core drilling with three layers of casings under surge compensation

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BR112015024932A2 (pt) 2017-07-18
EP2981456A4 (en) 2016-11-30
CN105073574A (zh) 2015-11-18
KR20150138384A (ko) 2015-12-09
BR112015024932B1 (pt) 2023-02-14
EP2981456A1 (en) 2016-02-10
CN105073574B (zh) 2018-03-27
US20190352981A1 (en) 2019-11-21
MY201422A (en) 2024-02-21
US10760357B2 (en) 2020-09-01
WO2014163587A1 (en) 2014-10-09
SG11201507339UA (en) 2015-10-29
KR102244227B9 (ko) 2021-04-26
EP2981456B1 (en) 2022-11-02

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