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    • 专利摘要:
    The present publication relates to a method and a base structure (10) supported on the seabed to provide a shallow water drilling terminal, in which a prefabricated floating seabed sub-structure (10) is towed on a site and is weighted to rest on the seabed (19) and / or is sunk into the seabed to form a seabed foundation. The base structure (10) supported on the seabed is provided with at least one cantilevered unit (13) having openings for drilling wells (12), projecting laterally from the outer side of a vertical wall, which ends above sea level (25). A prefabricated floating drilling module (30) having a stabilizer with a laterally movable drilling rig is towed to the site and guided in the seabed substructure (10) through an opening (18) in the wall structure (12) at the periphery of the base structure (11) and is ballasted and coupled to the seabed base structure (11), after which wells (12) are drilled from drilling equipment (16) on the stabilizer. After completion of drilling and well formation, the drilling unit (30) is removed and replaced by a production unit (50).
    公开号:FR3051823A1
    申请号:FR1754356
    申请日:2017-05-17
    公开日:2017-12-01
    发明作者:Geir Lasse Kjersem;Harald Vartdal;Kwang Heng Lim;Mary Yee Chin Ong;Seng Yau Khoo
    申请人:Sembcorp Marine Integrated Yard Pte Ltd;
    IPC主号:
    专利说明:

    MARINE BOTTOM TERMINAL FOR FORER Technical field of the invention
    The present invention relates to an installation of a seabed terminal for drilling and establishing hydrocarbon wells at a distance from the earth preferably in shallow waters, wherein the alternative is to construct a drilling rig complete on the seabed or using a trellis, all with a termination of wells on the seabed or on a production platform. More specifically, the present invention relates to a shallow seabed terminal for drilling and producing hydrocarbons, comprising at least one removable seafloor substructure to be placed and rested under the effect of gravity. or pile driving on a seabed, forming a harbor foundation.
    In addition, the invention also relates to a method for establishing wells for subsequent production of hydrocarbons.
    Background of the invention
    When an offshore oil or gas field is identified and exploration and production decisions are made, it is important to reduce the time required between the time these decisions are made and the time when the production facilities are in place and production started.
    To start production, wells must be drilled and temporarily operational. Such drilling is performed by a separate floating or fixed drilling unit. Then the drilling unit is removed and a production unit including a complete production facility is brought to the site and connected to the operational wells. As long as this operation is not completed, the production of hydrocarbons must be postponed.
    In shallow waters, particularly in shallow waters with soft or muddy bottom conditions, the size of the drilling or production units can be decisive, ie they can only float in a floating unit with a partially completed useful part that can float, the remaining part of the useful part needed to be installed and constructed after the basic structure has been completed and floated. Once the drilling operation is completed, part of the drilling rigs must be removed and replaced with production facilities. The installation of these production facilities is complex, expensive and time consuming, increasing the time elapsed between the first discovery and the start of production.
    It has previously been proposed to provide port sites for LNG shipments at sea that are either floating or settled at the bottom of the ocean. Floating sites present the common problem that rigs during the drilling and production phase are subject to movement caused by wave action. If the floating platform is intended to transfer LNG, this movement will also have to be kept to a minimum since dynamic conditions impose severe requirements on equipment and safety if the load is performed side by side.
    To reduce the problems associated with floating body dynamics during loading operations, it has been proposed to install large rectangular steel or concrete structures on the seabed, which function as artificial ports or as a drilling rig and / or production. Typical water depths are 8 to 30 meters. This type of large construction is intended to be built away from inhabited areas and to be floated and installed on the planned site, most commonly requiring an adequate foundation in the form of skirts intended to be driven into the soil of the seabed, or intended to be installed by pile driving.
    Reference No. 126927 corresponding to GB 1369915 describes a port site comprising a number of units that are afloat or submerged and otherwise constructed to be placed on the seabed. Each unit includes a base, a load bearing structure and movable breakwater elements that can be moved as needed.
    US 3,958,426 discloses a port site comprising a number of units spaced apart from each other on the seabed so that at least one straight docking point is formed. The units are equipped with tusks and wave damping devices.
    Applicant-owned publication WO 2006/041312 discloses a port facility for storing, loading and unloading hydrocarbons such as LNG at sea, all of whose contents are incorporated herein by reference. The port facility consists of three units built of steel or concrete placed on the seabed. The units are placed in a lateral online relationship. The port facility is configured to cushion the waves, the vessel being intended to be positioned on the downwind side of the mooring.
    Applicant-owned publication WO 2013/002648 discloses a port facility for storing, loading and unloading hydrocarbon products at sea, comprising a number of units which are mutually placed on the seabed so that a port facility be formed. The units are arranged independently at a given distance from each other in the lateral direction and have a forward surface along which a ship is to be moored, forming one or more passage (s) for portions of the waves, and are configured to dampen a portion of the incoming waves while allowing other portions of the waves and current to pass through the port facility.
    However, a field development drilling operation to drill and terminate wells requires one type of platform, whereas production from these wells requires different facilities. For on-site anchored floating platforms, a drilling rig can be anchored during drilling operations and replaced with another floating platform equipped with production facilities after drilling operations are completed. However, if the platform is of a type that is intended to be supported by the seafloor soil, this platform can either be completed with drilling and production facilities, or the platform can be rehabilitated on the site, removing at least part of the drilling rigs and installing the necessary production facilities, increasing the total costs involved.
    In addition, the density, composition, consolidation and topography of the seafloor soil can vary significantly from one seabed location to another. For example, the soil in river mouths will often be mostly soft, muddy soil, with some kind of yoghurt texture, while other areas of the seabed may be influenced or covered by hard sandstone, limestone or old volcanic rock. This will have a direct impact on the seabed floor lift capacity, and therefore the possibility of finding a predictable and reliable foundation solution for a seabed structure that will rest on the seabed.
    Therefore, there is a need for cost-effective, versatile and flexible port installation systems that are capable of storing different petroleum and fuel type products, and are easy to build, maintain and repair, and which can be standardized as much as possible. as possible for manufacturing and cost reasons, and that can be deployed (installed) easily on any type of seabed soil. SUMMARY OF THE INVENTION The invention relates to a platform concept supported on a seabed for both drilling operations and then hydrocarbon production, comprising a base structure configured to be supported by stably by the seabed, preferably by means of a number of piles driven through sleeves designed for this purpose in a structure or a base unit.
    The basic structure can either rest with its entire footprint on the seabed or at least be partially, preferably completely, positioned above the seabed, the piles constituting the means for securing the base structure of safe and rigid in the seabed. The basic structure is configured such that it can be floated in a floating drilling unit and / or after the drilling operations are completed, the floating drilling unit is removed and replaced by a floating drilling unit. floating production unit and that the ballast of each of these structures rests stably on the basic structure, preferably under the effect of its own weight (gravity) or alternatively is also fixed by means of locking devices, locking both structures to the basic structure.
    The base structure or the substructure can also be configured to serve as a safe harbor site for a drilling or production unit or a storage module, where the units or modules are arranged. releasably on the useful portion of the base structure, forming a seabed unit, and at least one seabed unit constituting a seabed terminal. The invention also relates to a method for developing oil fields in more or less, but not necessarily shallow waters and / or at sites having muddy or soft seabed conditions, wherein at least one drilling installation, but possibly also the production facility can be removed once operations completed and used on another field, the basic structure then serving for example port site or the like.
    It is an object of the present invention to provide a versatile fixed base structure supported on a shallow seabed with wellheads drilled and operational above the seafloor and providing the ability to quickly start hydrocarbon production. from wells drilled and operational.
    The principle used according to the present invention is to use a depressed base structure in which a major part of the weight of the basic structure and possibly also a floating module to be moored in and supported by the basic structure are carried by piles, which extend to a sufficient depth in the seafloor soil for the purpose of carrying and supporting all / any descending, ascending (s) and lateral / lateral loads, weights and forces acting on the basic structure. In this respect, the basic structure can either rest on the seabed with at least a portion of its footprint, or the base structure can be positioned at a greater or lesser distance above the seabed floor. that is, without actually being in contact with the seabed floor, all / all loads, weights and forces being supported by the piles. In this case, the basic structure will have no negative or detrimental impact on seafloor fauna below the basic structure.
    Further, the system and method according to the present invention may be based on the principle that a temporary pile arrangement is used to support the base structure during the installation phase, said temporary pile arrangement supporting all / all loads, weights and forces during the pile driving operation until a permanent pile arrangement is established and the base structure is permanently supported by the permanent piles driven into the seabed, so that that the depressed structure is capable of supporting all load criteria, such as a storm or swell occurring once a century.
    It will be appreciated that the installed temporary piles can, or can not, be removed or cut once the installation of the substructure is complete. If the temporary support piles are to be removed, the piles should preferably be cut to a depth at which the cut piles pose no danger to the operations of the basic structure and floating module and / or vessels to be moored in and supported by the seabed substructure.
    This concept is disclosed in PCT International Application PCT Application No. PCT / N02015 / 050156, filed on September 8, 2015, the entire contents of which are hereby incorporated by reference. Reference is also made to the Applicants' Patent Application No. 20160518, filed April 1, 2016, which discloses a pile driving method for expanding the window of installation and allowing pile driving under conditions more severe weather, the contents of which are incorporated herein by reference.
    It is an object of the present invention to provide a solution for increasing the extent of wells from an installed rig, and to increase the number of wells that can be drilled from a single platform.
    Still another object of the present invention is to establish production wells from a single platform, very far from the production areas on the platform superstructure.
    Still another object of the present invention is to provide an installation in which most wellhead installations for all wells to be drilled from the platform, such as casings through the water column etc. , are preinstalled, allowing drilling to begin earlier.
    A further object of the present invention is to provide a shallow water drilling and / or production facility in shallow water which is flexible, economical and easy to install under most seabed conditions.
    Another object of the invention is to provide a storage system close to the ground which, when necessary, can also be located in extremely soft and muddy soil as encountered in river deltas or zones. seabed whose soil is not consolidated and in which structures based on gravity can not be installed or would be prohibitively expensive.
    Yet another object of the invention is to allow the construction of each of the seabed terminal units at a reasonable price and efficiently and as completely as possible on a traditional construction site, preferably on a shipyard with the use a dry dock. As a result, the expensive finishing work at sea will be minimized. After final assembly at the construction site, each unit is brought or towed to the installation site, before being finally lowered using known techniques.
    An object of the invention is also to ensure a safe transfer of large vertical loads in the seabed, generated by the storage of large volumes of liquid above sea level.
    An object of the invention is also to achieve a quick and safe installation of the storage module with a useful part equipment.
    The objects of the present invention are realized by a shallow seabed drilling and production facility and a method for establishing such drilling equipment as further defined by the independent claims. Embodiments, alternatives, and variations of the invention are defined by the dependent claims.
    According to the present invention, a drilling and hydrocarbon production facility is provided, comprising at least one removable seabed substructure to be supported by the seabed, preferably with piles, forming a foundation. of support. The seabed substructure comprises a basic structure, provided with floating devices, a wall structure extending upwardly from the base structure, provided with floating devices, arranged along at least a portion from the periphery of the base structure, at least one opening in the wall structure for introducing a floating drilling module, retractably arranged on the useful part of the base structure and inside the wall structure, and wherein the upwardly extending wall structure is provided with one or more pre-installed section (s) or stabilizer (s) for use in drilling wells through pre-installed and preferably pre-equipped sections. The at least one pre-installed and preferably pre-fitted section is rigidly attached to the outer surface of the wall structure, forming a cantilevered section and preferably having an upper surface which is at the same level as the upper surface of the wall section.
    According to one embodiment, the outward projection from the wall section is provided with a number of prepared open casings, which extend through the pre-installed section, ready to drill once the unit drilling is in position.
    Therefore, the drilling unit may be provided with a corresponding stabilizer, with a drilling platform configured to move outward and inward and laterally to cover all pre-installed casings. and pre-prepared in the outwardly projecting section from the side wall (s) of the base structure.
    The seabed substructure may have a U-shape and is provided with outwardly projecting sections with well points to drill preferably on three sides of the U-shaped base structure.
    The different objects are also solved by drilling and hydrocarbon production process by installing a basic structure, intended to moor a terminal or a drilling unit, which allows the terminal, the structure of base or unit to be supported by the seabed, preferably by means of a number of piles, forming a foundation supported on the seabed. The method includes forming at least one outwardly projecting cantilever unit comprising prefabricated hollow casings that extend completely through the cantilever unit to drill through them. this. In addition, a floating drilling unit or floating drilling module comprising a stabilizer with a drilling device is moored to the base structure through an opening in the wall structure and is ballasted and coupled ( e) to the seabed base structure, after which the drilling module is moved relative to the drilling module out of and on the cantilever unit and is brought into position on a casing, following which a drilling operation is initiated, to drill wells from the drilling rig on the platform stabilizer.
    When making a well through the cantilever unit, the drilling equipment can be moved over and over a next casing in the cantilevered unit.
    When performing the drilling operation for all the casings of the cantilevered unit, the drilling module is retracted, the drilling rig is towed from its mooring, turned 90 degree, so that the mobile drilling module is aligned with a next cantilever unit, after which the drilling module is moved to the top of a first new casing, whereupon drilling operations are initiated.
    Once drilling of all casings on the second cantilevered unit is completed, the floating drilling unit is removed from its mooring in the base structure, rotated 90 degrees and re-docked, as a result of what drilling operations are initiated as described above.
    An advantage of the present invention is that the time taken between the start of drilling and the start of production on a complex scale, at least in shallow waters, is substantially reduced. In addition, at least the drilling unit, but also the production unit, can be reused in another place when at least the drilling operation and possibly also the production are completed.
    Furthermore, this feature of the recessed foundation is also very useful when the storage system of the invention is installed in shallow areas and exposed to cyclones and storm swells, in which extreme water levels occur once. every 100 years can reach up to 8 to 9 meters above the normal sea level.
    Another important advantage of using the piles according to the present invention is that the piles can withstand both traction and compression, and at the same time efficiently and economically permit the use of pile lengths of varying dimensions. The number, positions and dimensions of the conduits or sleeves may be configured such that additional unused conduits or sleeves are provided in the event that additional piles are required at a later stage. The seabed terminal unit of the seabed terminal may be designed to withstand very large vertical loads on the seabed from large weights of liquids stored within the storage module without any movement of the bottom terminal. marine, typically up to, but not limited to, a dead weight of 150000 tonnes, which corresponds to the capacity of a large tanker. Part of this capacity can be achieved by increasing the height of the storage volume while maintaining the horizontal footprint of the seabed terminal.
    Another advantage is that it is not necessary for the seabed substructure of the present invention to rest on the seabed, with the weight, forces and loads being carried by the piles. In addition, the seabed substructure does not depend on the use of skirts to resist the traetion, that is to say to a lifting of the structure caused for example by the swell of a storm. Therefore, the underside of the base structure should not be in load bearing contact with the seabed soil, and the variable, operational and environmental loads of the marine terminal are supported by the piles.
    Sufficient bearing capacity and support capacity can be obtained, depending on the load bearing capacity, by means of the shearing force between the pile surfaces and the corresponding wall surface of the associated pipes or sleeves. Due to the seal in the ring formed between the outer pile surface and the surface of the conduits or sleeves, a necessary shear strength is obtained to withstand the shear forces produced which act in this joint.
    With the basic structure in position above the seabed, the environmental effect of the basic structure on the marine fauna of the seabed is eliminated or substantially reduced.
    The key point for the invention would be to have a fast and secure installation of the storage module with a useful part equipment. This is the costly part (90 to 95%) of the entire installation. With a pre-installed base foundation, which is either gravity stabilized, or preferably seated in the seabed, and leveled up in advance, then the storage module can be installed in a few hours.
    Brief description of the drawings
    The device according to the invention can be explained in more detail in the description which follows, with reference to the appended figures, in which: FIG. 1 schematically shows in perspective an embodiment of the basic structure and of FIG. 'a drilling unit moored to the base structure, the coupled units resting on the seabed, where the wells on the cantilevered left unit are drilled and where the wells on the opposite side are in the process of to be drilled; Figure 2 schematically shows a side view of the assembled embodiment shown in Figure 1; Figure 3 schematically shows a basic structure towed by a towing vessel to the installation site; Figure 4 shows schematically a basic structure according to the invention, installed at the installation site, supported by the seabed by means of a number of piles driven into the seabed, and with the lower surface arranged above the surface of the seabed; Figure 5 schematically shows a view from above of the basic structure shown in Figure 3 in the depressed state; Figure 6 schematically shows a drilling unit according to an embodiment of the invention, towed by a towing vessel towards the site with the installed base structure; Figure 7 shows schematically the basic structure in which the drilling unit is drilling wells through a first cantilever structure according to the method of the present invention of mooring the unit. drilling shown in Figure 6 on the basic structure; Figure 8 schematically shows a top view of the base structure with the moored drilling unit, in which the drilling unit is drilling wells through a first cantilever structure according to the present invention; Figure 9 schematically shows a top view of the base structure with the moored drilling unit, in which the drilling unit is drilling wells through a second cantilevered structure according to the present invention; Figure 10 schematically shows a top view of the base structure with the moored drilling unit, in which the drilling unit is drilling wells through a third cantilevered structure according to the present invention; Figure 11 schematically shows a top view of the base structure with the moored drill unit removed, which also indicates that all wells have been drilled and terminated; Figure 12 shows schematically a production unit towed by a towing vessel towards the base structure for mooring; Figure 13 schematically shows a view from above of the basic structure with a docked production unit, which also indicates that all the wells are connected to the production facilities on the production unit; Figs. 14A-C schematically show a plan view from above and from one side of an embodiment of a basic structure according to the present invention; Figures 15A-D schematically show views of an alternative form of the floating structure to be moored together with possible corresponding modifications of the basic structure; and Figure 16 schematically shows a perspective view of an alternative solution in which the boring tower is arranged on a cantilevered rail system, where both the boring tower and the rail system cantilever can also be rotated about a vertical axis of rotation.
    Detailed Description of the Disclosed Embodiments
    The following description of the illustrative embodiment refers to the accompanying drawings. The same numerical references in different drawings denote identical or similar elements. The detailed description which follows does not limit the invention. On the contrary, the scope of the invention is defined by the appended claims.
    The following embodiments are described, for the sake of simplicity, with reference to a method of installing a base structure on a seabed in general and, preferably, but not necessarily, on a sloping seabed and / or or on a seabed with low lift capacity; utilizing a removable drill unit for drilling the wells to be drilled, docked to the base structure, wherein the drilling unit is unsealed after the wellbore is completed on one side of the base structure, and is towed, rotated 90 degrees and re-docked to drill the wells on a second side of the base structure, then undocked, towed and rotated 90 degrees and re-docked to drill wells on the remaining side of the base structure ; remove the drilling unit once the drilling operations are completed; and mooring a production and storage unit to produce hydrocarbons from the operational wells.
    Any reference throughout this specification to "a first embodiment" or "an embodiment" means that a particular feature, structure, or feature described in connection with an embodiment is included in at least one embodiment of the disclosed object. Thus, the appearance of the phrases "in a first embodiment" or "in one embodiment" at different places throughout this booklet does not necessarily refer to the same embodiment.
    The key point for the invention is to provide a fast and secure installation of the storage module with part equipment useful for producing hydrocarbons, wherein the base structure is stably and rigidly supported during the operation of piling permanent piles, and when properly depressed, it serves as a docking station for a removable drill unit and then for a production unit. This is the costly part (90 to 95%) of the entire installation. Having a pre-installed base foundation, which is stabilized at least by means of piles and which is leveled in advance on the seabed, and then tying a drilling unit to drill wells on three sides of the structure and then replacing the drilling unit with a production unit, then the time between the discovery of hydrocarbons and the start of hydrocarbon production can be minimized considerably, making the field more profitable.
    In addition, the present invention offers the possibility of establishing a seabed terminal on different soil conditions in a timely manner. The density, composition, consolidation and topography of seabed soil can vary significantly from one seabed location to another. This will have a direct impact on the seabed floor lift capacity, and therefore on the possibility of finding a predictable and reliable foundation solution for a seabed structure to be supported by the seabed. According to one embodiment, the base foundation can be in the form of a semi-submersible floating body, driven into the seabed. In this case, the basic substructure can be ballasted as a semi-submersible structure and sunk into the seabed through the base structure and possibly, but not necessarily, through the wall structure of the substructure of the sub-structure. seabed. It is important in these cases to achieve an efficient transfer of vertical structural forces, and this is an advantage if the main structural beams of the basic structure and the storage module have identical structural interfaces. This means that vertical forces from the partitions of the storage module are preferably transferred directly into the main structural beams of the base structure and into the pile driving structure and the seabed. Tests have shown that the depressed seabed substructure must tolerate and support a weight of 100,000 to 120,000 tonnes.
    Figure 1 schematically shows in perspective an embodiment of the base structure 10 and a drilling unit 30 moored to the base structure 10, the coupled units resting on the seabed 11, in which the wells 12 on the cantilevered left unit 13 are drilled and in which the wells 12 on the opposite side are being drilled. The basic structure is fixed stably to the seabed 11 by means of a number of piles 14. The piles 14 and their attachments to the base structure 10 may be as described in the applicants' joint application. No. PCT / NO2015 / 050156, filed Sept. 8, wherein said PCT application is incorporated herein by reference with respect to the piles, their attachment to the base structure and method for establishing a stable support for the base structure 10 on the seabed 11. Reference is also made to the joint Norwegian application of applicants number NO 2016/0518, filed on 1 April 2016 and relating to a process and pile driving system of the basic structure 10 in the background 11. It will be appreciated that both the base structure 10 and the drilling unit are configured such that these two units are floating and comprise devices for controlling the stability Since these devices are well known to those skilled in the art, they will not be described in detail here.
    As shown in FIG. 1, the drilling unit 10 is provided with drilling equipment 16, a helideck 17, residential quarters 18, cranes 19 and storage areas for storing casings. 20 to form a portion of the wells 12 to be drilled. It will be appreciated that the drilling equipment 16 is movably arranged both inwardly and outwardly and in a transverse direction.
    The base structure 10 is provided with a ballasting system (not shown) and is preferably made of steel, although other materials may also be used, such as concrete. It will be appreciated that the drilling unit 30 and the production unit 50 according to the present invention may also include means such as loading systems, cranes, winches, etc. at the top of the storage module. When either the drilling unit 30 or the production unit 50 arrives at the site, it is coupled with the seabed sub-structure or the base structure 10. During this coupling operation, the floating module is maneuvered through the opening at one end of the base structure and between the two upstanding parallel parallel wall structures 15. The floating unit 30 or 50 is guided at the top of the base structure 10, The floating unit 30 or 50 is ballasted so that it rests stably on the base structure 10, forming an assembled seabed unit.
    Figure 2 schematically shows a side view of the assembled embodiment, shown in Figure 1, which shows the drilling unit 30 in the moored state on the base structure 13.
    Figure 3 schematically shows the basic structure 10 towed by a towing vessel 21 to the installation site, while Figure 4 schematically shows the basic structure 10 installed at the installation site, supported by the seabed 11 by means of a number of piles 14, driven into the soil of the seabed 11, and with its lower surface arranged above the surface of the seabed 11. In addition, the figure also shows that the base structure 10 is provided with cantilevered units 13, which extend outwardly from the side walls 15 on three sides of the base structure 10, the fourth side being open allowing the drilling unit 10 to be maneuvered in the base structure and moored between the three vertical walls 15 of the base structure 10. It will be noted that the cantilever units constitute an integrated part of the vertical wall structure 15, co nfigured to support the loads, forces and moments that are generated. Further, the cantilevered units are provided with holes or conduits 23 which extend through the cantilevered units 15 for receiving the drill string and the casing used during the operations. drilling.
    According to the embodiment shown in Figures 1 to 4, the cantilevered units 15 are provided with an inclined lower plate, the bottom plate or surface of the cantilevered units 15 being inclined towards the outside and upwards from its attachment on the side wall 15.
    The seabed substructure 10 may be provided with a lower structure (not shown) and an upwardly extending wall structure arranged along at least a portion of the periphery of the structure of the structure. The wall structure 15 is an integrated part of the lower structure, together forming a base structure 10. The bottom structure and the wall structure 15 are both provided with floating devices (not shown). These floating means may be in the form of reservoirs and compartments in the lower structure and in the upwardly extending wall structure 15. The upwardly extending walls 15 extend along three sides of each other. the base structure 10 and have an opening in the wall structure for introducing a drilling or floating production unit 30, 50 into the lower structure. The drilling and production units 30, 50 are removably arranged on the base structure 10 within the wall structure 15, said units forming together a drilling unit or seabed production unit 30, 50.
    The seabed substructure 10 is floating and comprises weighting means (not shown) and is intended to be placed on or just above the seabed 19, supported by a number of piles 22 or, optionally, to rest also on the seabed 19 under the effect of gravity, fixed by means of piles. The upwardly extending wall structure 12 of the substructure 10 has perforations or conduits / sleeves through the wall structure for optional and / or additional pile driving, and perforations are also provided in the base structure 11 for receiving piles 22. The conduits and accessories for receiving the piles 22 will be described in more detail below. A ship 16 equipped with piling machines and tools is docked adjacent to the wall structure 12 to perform pile driving operations. As shown in FIG. 1, the piles 22 are arranged both longitudinally and transversely along the foot of the three walls along the submerged front beam below the opening of the base structure 11, and along the inner walls 25 forming the upwardly open compartments 13 such that the entire footprint or at least portions of the footprint may be provided with piles for support the basic structure 11 correctly. The number of piles 22 used and their position, their diameter and their length depend on the weight to bear and the condition of the soil of the seabed.
    An advantage of the present invention is that the seabed substructure 10, which constitutes a part of the seabed unit 30 for floating modules, such as a floating LNG storage unit or a barge according to the invention , can be lowered to be installed at sea or near the earth, removed, moved and repositioned to form new individual configurations if necessary using known techniques.
    Figure 5 schematically shows a top view of the base structure 10 shown in Figure 3 in the depressed state. As shown, the base structure 10 is driven into the seabed by means of piles 14 along its entire periphery. Further, as shown, the base structure 10 is provided with a cantilevered unit 15 arranged on three of the front side walls 15, the fourth side having an opening 15 'sized and configured to allow at the drilling unit 30 or at the production unit 50 to float in and rest on a submerged beam or slab 24 which extends internally around the periphery of the wall structure 15, 15 '.
    Figure 6 schematically shows a drilling unit 30 which is towed by a towing vessel 21 and tow lines 22 towards the base structure 10 installed for docking, while Figure 7 shows schematically a stage at which the drilling unit 30 is being moored within the U-shaped mooring of the base structure 10.
    Figure 8 schematically shows a view from above of the base structure 10 with the moored drilling unit 30, in which the drilling unit 30 is drilling wells 12 through a first bearing structure. overhang 13, that is to say the cantilevered unit 13 on the left side of the drawing. As indicated, the drilling equipment 17 is movably arranged from a retracted position on the drilling unit 30 to a position which extends outwardly and also laterally on the holes or openings 23 on the cantilever unit 13.
    Figure 9 schematically shows a top view of the base structure with the moored drilling unit, in which the drilling unit is drilling wells through a second cantilever structure according to the present invention. To arrive from the drilling position shown in FIG. 8 to the drilling position shown in FIG. 9, the drilling unit 9 is loosed so as to become floating, and is maneuvered from its mooring within the basic structure 10, rotated 90 degrees, operated again in its docking position inside the base structure and is weighted again in order to be stably supported by the base structure 10. L drilling equipment is brought into a drilling position on the second cantilever unit 13. It will be noted that the black openings on the cantilever unit 13 on the left in FIG. operational wells 12, waiting for a connection to a production facility. It will be appreciated that at this stage these wells may be equipped with BOP piles and well heads, etc.
    Figure 10 schematically shows a top view of the base structure 10 with the moored drilling unit 30, in which the drilling unit 30 is drilling wells 12 through a third bearing structure. cantilever 13 according to the present invention. Again, a change in position of the second cantilevered unit 13 to the third cantilevered unit 13 is performed as described above.
    Figure 11 schematically shows a top view of the base structure 10 with the moored drill unit removed. As indicated, all wells 12 have now been drilled and completed.
    Figure 12 schematically shows a production unit 50 towed by a towing vessel towards the base structure 10 for mooring and hooking to the various drilled and operational wells 12, while Figure 13 schematically shows a view from above of the base structure 10 with docked production unit 50, which also indicates that all the wells 12 are connected to the production facilities on the production unit 50.
    Figures 14A-C schematically show a top and side plan view of an embodiment of a base structure 10 according to the present invention. The basic structure comprises three cantilevered portions 13, as described above, and a U-shaped docking space comprising a curved end portion 28 and straight wings 27, which extend from the end portion 28, also forming a side shield. The base structure 10 is installed on the seabed 11, mounted on piles 14, the lower slab of the base structure 10 being positioned above the seafloor 11. Figure 14A shows an embodiment in which the structure base 10 has a rectangular shape, while Figure 14B shows an embodiment in which the base structure is configured to receive a floating structure 30 having a circular or polygonal cross-sectional area. Figure 14C is a vertical view taken in the direction of the arrow shown in Figure 14B.
    Figures 15A-D schematically show views of an alternative form of the floating structure 30 to be moored and possible corresponding modifications of the base structure 10, corresponding to those disclosed for example in Figure 14A. According to the embodiment shown in FIG. 15, the floating unit 30 has a horizontal cross section of circular or round shape. Otherwise, the platform configuration may be configured in a manner that corresponds to the embodiments described above. The drilling equipment may be of a type that can be slid over a cantilever to position itself on the pre-installed drill pipes in the cantilevered unit. were drilled through the cantilevered unit 13 shown in Figure 15A, the floating unit is loosed so as to become floating, is towed and rotated 90 degrees and then returned to the base and ballasted, at the As a result, drilling through the pre-installed drill pipes in the cantilevered unit 13 can begin, see Figure 15B. The same sequence is repeated to establish wells in the last of the three cantilevered units 13, see Figure 15C.
    It will be appreciated that the coupling or docking procedure for coupling or docking the drilling unit 30 or the production unit 50 can be carried out as follows.
    The drilling or production / storage module 30, 50 is floating and includes weighting means (not shown) and is preferably made of steel, although other materials may also be used, such as concrete. It will be appreciated that the respective module 30, 50 according to the present invention may also include means, such as loading systems, cranes, winches, etc. at the top of the storage module. When the unit 30, 50 arrives at the site, it is coupled to the seabed base structure 10 supported by the seabed 11. During this coupling operation, the floating unit 30, 50 is maneuvered through the seabed base 10. opening 15 'and between the two upstanding parallel wall side structures 15. The wall structure 15 of the seabed base structure 10 extends to above the water surface 25 and the unit 30, 50 is weighted until the floating unit 30, 50 is positioned at the top of the lower beam / slab 24 on the base structure 11, within the wall structure 15 The unit 30, 50 is weighted so that the module 20 rests stably on the base of the seabed substructure 10, forming an assembled seabed unit.
    Figure 16 schematically shows a perspective view of an alternative solution in which the boring tower 16 is arranged on a cantilevered rail system 26, in which both the boring tower 6 and the Cantilever rail system 26 may also be rotated about a vertical axis of rotation, so that instead of the floating unit 30 coming out and rotating 90 degrees in order to be able to second cantilevered unit 13 (not shown in FIG. 16), the floating unit 30 can be held in its initial position, while the drilling tower 16 and the rail system 26 can be rotated in each of the two directions indicated by the arrow 27. Instead of moving in a linear direction on a rail system, the drill tower may be slid inwardly and outwardly.
    It will be appreciated that the well piles can sink vertically into the seabed or can be arranged inclined relative to the vertical, either in the same direction, inward or outward, or with a combination of them. In addition, directional drilling may be performed from the drilling unit 30.
    权利要求:
    Claims (13)
    [1" id="c-fr-0001]
    claims
    1. A unit supported on the seabed for drilling and producing hydrocarbons, comprising a base structure supported on the seabed (10) positioned and fixed with respect to the seabed (11), forming a support for a unit of drilling (30) and / or production, characterized in that the base structure (10) is preferably provided with floating devices, an upwardly extending wall structure (15) which extends around the base structure (10) along three sides and which is also intended to extend to above sea level when installed on a site, in which one side is provided with an opening (15 ') in the wall structure (15) for introducing a drilling and / or floating production unit (30, 50), retractably arranged at the top of the base structure (11) and within the the wall structure (12), and wherein the upwardly extending wall structure (12) is provided on the outer side of the wall (s) (15) of pre-installed sections for use in drilling wells therethrough.
    [2" id="c-fr-0002]
    The seabed supported unit according to claim 1, wherein the seabed structure (10) is U-shaped and is provided with openings for drilling wells (12), and preferably the side walls (15) of the U-shape consist of straight side surfaces.
    [3" id="c-fr-0003]
    The seabed supported unit according to any one of claims 1 or 2, wherein the prepared well points are arranged on a cantilever unit which extends laterally from the outer side of the lateral wall (s) (15) terminating above sea level (25) forming a structurally integrated portion with the wall structure (15).
    [4" id="c-fr-0004]
    The seabed supported unit according to claims 2 to 3, wherein the openings (12) are provided with walls or casings, configured to allow drilling therethrough.
    [5" id="c-fr-0005]
    The seabed supported unit according to any one of claims 1 to 4, wherein the device for drilling wells through is arranged on three of the sides of the base structure (10).
    [6" id="c-fr-0006]
    The seabed supported unit according to any one of claims 1 to 5, wherein the seabed substructure (10) comprises pile driving means (14) through the base structure (11). and / or along the wall structure (12) extending from the top of the wall structure (12) through the foot of the wall structure (12).
    [7" id="c-fr-0007]
    The seabed supported unit according to any one of claims 1 to 6, wherein the opening (18) in the wall structure (12) for introducing a floating storage module (20) is closable to the using a closure mechanism forming a closed wall structure (12) at the periphery of the base structure (11).
    [8" id="c-fr-0008]
    A seabed supported unit terminal according to any one of claims 1 to 7, wherein the base structure (10) is divided into the same number of partitions as the drilling module (20), and the vertical walls of the partitions form a structural beam so that vertical forces of the storage module (20) are transferred directly into the structural beams of the base structure (10).
    [9" id="c-fr-0009]
    The seabed supported unit (40) according to any one of claims 1 to 8, wherein the floating module provided for drilling is provided with a stabilizer, which supports drilling rigs required for drilling operations, the supported drilling module preferably being movably arranged on the stabilizer.
    [10" id="c-fr-0010]
    A method for providing a shallow water drilling terminal (40), wherein at least one prefabricated floating seabed substructure (10) is towed to a site and ballasted so as to rest on the seabed ( 19) and / or is sunk into the seabed to form a seabed foundation, characterized in that at least one prefabricated floating drilling module (30) having a stabilizer with a laterally movable drilling rig is towed to the site and is guided in the seafloor substructure (10) through an opening (18) in the wall structure (12) at the periphery of the base structure (11) and is ballasted and coupled on the seabed base structure (11), after which wells (12) are drilled from the drilling equipment (16) on the stabilizer.
    [11" id="c-fr-0011]
    The method of claim 10, wherein the drilling equipment (16) is moved laterally on the stabilizer to drill neighboring wells.
    [12" id="c-fr-0012]
    Method according to claim 10 or 11, whereby the floating drilling unit (30) is unloaded and floated, rotated 90 degrees and guided again into an opening in the base structure supported on the seabed (10), following which drilling activities are initiated at the new location on the base structure supported on the seabed (10).
    [13" id="c-fr-0013]
    The method according to one of claims 10 to 12, wherein the unloading and undocking of the drilling unit (30), the towing and the 90-degree rotation and the re-docking are performed so as to allow that wells are drilled through prepared penetrations associated with the upwardly extending walls (15) of the base structure supported on the seabed (10).
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    同族专利:
    公开号 | 公开日
    JP6912490B2|2021-08-04|
    CN109312552A|2019-02-05|
    NO20160906A1|2017-10-30|
    AU2017269088B2|2020-10-15|
    UY37263A|2018-01-02|
    SG11201807601PA|2018-10-30|
    CN109312552B|2021-08-27|
    CA3011226A1|2017-11-30|
    RU2719516C1|2020-04-20|
    NO341401B1|2017-10-30|
    BR112018073837A2|2019-02-26|
    US10590618B2|2020-03-17|
    AU2017269088A1|2018-12-13|
    EP3464733A4|2020-01-15|
    WO2017204749A1|2017-11-30|
    AR108598A1|2018-09-05|
    JP2019519697A|2019-07-11|
    KR102252116B1|2021-05-14|
    US20190127939A1|2019-05-02|
    EP3464733A1|2019-04-10|
    KR20190011716A|2019-02-07|
    PH12018502167A1|2019-08-19|
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    法律状态:
    2017-12-01| EXTE| Extension to a french territory|Extension state: PF |
    2018-05-06| PLFP| Fee payment|Year of fee payment: 2 |
    2019-03-01| PLSC| Search report ready|Effective date: 20190301 |
    2019-05-19| PLFP| Fee payment|Year of fee payment: 3 |
    2020-05-13| PLFP| Fee payment|Year of fee payment: 4 |
    2021-04-30| PLFP| Fee payment|Year of fee payment: 5 |
    优先权:
    申请号 | 申请日 | 专利标题
    NO20160906A|NO341401B1|2016-05-26|2016-05-26|Sea bed terminal for drilling|
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