RU2478057C2 - Ice-resistant drilling facilities for development of shallow marine continental shelf, and formation method of ice-resistant drilling facilities for development of shallow marine continental shelf - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: group of inventions refers to designs and formation methods of ice-resistant drilling facilities for development of shallow marine continental shelf. Drilling facilities include a self-lifting floating drilling rig with a cantilever, which has a housing and supports, at least one of which is ice-resistant, as well as drilling platform facilities with an ice-resistant housing, which can be installed in a fixed manner at the sea bottom and has upper superstructure for arrangement of equipment. Housing of the drilling rig is equipped at least with two retractable slides oriented towards the drilling platform facilities and mounted so that they can be moved in horizontal plane to transfer the load from the rig housing by means of the above slides to the drilling platform facilities. In the drilling platform facilities housing there are seats corresponding to retractable slides of the self-lifting floating drilling rig. Ice-resistant support of the drilling rig is mounted so that it can be borne against the soil to transfer the load to the sea bottom. The rest supports of the rig are non-ice-resistant and mounted so that they can be lifted above the rig housing after the load transfer from the housing through the drilling platform facilities and ice-resistant support to the sea bottom.

EFFECT: improving reliability at simplifying the design of the facilities, as well as enlarging its operating capabilities by installing the facilities in shallow water.

4 cl, 10 dwg

Description

The claimed group of inventions relates to hydraulic structures, and more specifically to structures and methods for forming an ice-resistant drilling complex for the development of a shallow continental shelf.

A hydraulic structure is known for expanding the operation capabilities of a self-elevating floating drilling rig (SPBU), (see patent RU No. 2040638, IPC E02B 17/00 of 1993), including a top structure with supports and technological equipment, as well as an ice-resistant base and connection nodes top structure with ice-resistant base. The ice-resistant base is made in the form of an underwater casing attached to the bottom with two ice-resistant supports mounted on it, opposite one another, towering above the water, on the upper ends of which there are rails and cantilever beams installed between them with the possibility of horizontal movement, facing one another with fork-shaped ends in plan and covering ice-resistant supports, and the upper structure is made in the form of a SPBU with a hull and three supporting columns with a lifting and lowering mechanism, and to rpus jack-up based on the forked ends of the cantilever beams.

The disadvantage of this known analogue is the complexity and lack of reliability of the mechanism for turning the cantilever beams, a greater deflection of the SPBU casing when mounted on cantilever beams compared to operation on the supports (as a result of which it is not possible to additionally accept various reserves and loads to ensure drilling during the ice-free period) , as well as the large metal consumption of the structure, consisting of two stationary parts.

Also known is an ice-resistant drilling complex for developing a shallow continental shelf (see patent RU No. 2382849, IPC E02B 17/00 of 2008), including a towed body, a cantilever mounted on it with a self-lifting drilling rig, passing through a towed support body for a self-lifting drilling installations with bottom bases and adjacent ice protection in the form of a truncated cone covering the support, at least one conductor block with an ice-resistant casing, made with the possibility of stationary installation on the inlet th foundation and having an upper superstructure to accommodate production equipment. The complex is equipped with an external U-shaped ice protection belt, the branches of which are installed along the entire length of the towed hull with a gap, are mated at the tip of the towed hull adjacent to the ice-resistant casing of the block conductor, while the ice protection belt is made in the form of a pile structure.

The disadvantage of this known analogue is the significant metal consumption, complexity and complexity of the installation of an extended pile structure.

The prototype of the inventive ice-resistant drilling complex for developing a shallow continental shelf and a method of forming an ice-resistant drilling complex for developing a shallow continental shelf is the well-known ice-resistant drilling complex for developing a shallow continental shelf, which includes a self-elevating floating drilling rig (SPBU) with a cantilever having an ice casing and supports, as well as a conductor block with an ice-resistant casing, made with the possibility of stationary installation on the bottom of the sea and having a top superstructure for equipment, each of these supports has an outer and inner casing, and the space between the outer and inner casing is filled with a binder material, and a method of forming an ice-resistant drilling complex for the development of a shallow continental shelf, including transportation and installation on the bottom of the sea of the conductor block with an ice-resistant building having a top superstructure for equipment, and a self-elevating floating drilling rig with a cantilever, Commercially shell and ice-resistant support, and subsequent drilling through said conductor block (see. application RU 2008142999, IPC E02B 17/00 of 2007, for which there is a decision to grant a patent of 01.24.2011).

The disadvantage of this ice-resistant complex and the method of its formation is the lack of reliability due to the significant amount of ice load acting on at least two large diameter supports, the complexity of the design of the supports having filling between the skins, and also the large linear weight of such composite supports, which leads to an increase in dimensions , increase power and increase the weight of the lifting mechanism. Another disadvantage is the difficulty of pointing the installation to pre-installed supporting foundations, and in the case of installation at depths of up to 10 meters, its impossibility due to the lack of a vertical clearance between the supporting plane of the installation and the upper point of the foundation in the position set to the bottom. In the case of preliminary installation of foundations to the supports, the drawback will be an increase in the underwater volume, which will not allow the installation to be delivered to water areas with a depth of up to 10 meters.

The technical result of the claimed group of inventions is to increase reliability while simplifying the design of the complex, as well as expanding its operational capabilities by providing installation in shallow water.

The specified technical result is achieved in an ice-resistant drilling complex for developing a shallow continental shelf, including a self-elevating floating cantilever drilling rig, having a hull and supports, at least one of which is ice-resistant, as well as a conductor block with an ice-resistant hull, made with the possibility of stationary installation at the bottom of the sea and having a top superstructure for equipment placement, the fact that the aforementioned case of a self-elevating floating drilling rig is equipped with at least with sliding runners oriented towards said conductor block and mounted with the possibility of horizontal movement to transfer the load from the casing of the self-propelled floating drilling rig by means of the said skids to the conductor block, while in the casing of the conductor block the jacks corresponding to the sliding skids are made and the aforementioned ice-resistant support of a self-elevating floating drilling rig is mounted so that it can be supported on the ground to transmit heat dressing on the sea bottom, while the remaining installation neledostoykimi supports are made and assembled with the possibility of lifting the installation housing after the load transfer from the housing through the jig block and ice-resistant support on the sea bottom.

The specified technical result is also achieved in the method of forming an ice-resistant drilling complex for the development of a shallow continental shelf, including the transportation and installation of a conductor block with an ice-resistant building having a top superstructure for equipment and a self-elevating floating rig with a cantilever having a body and supports, at least one of which is ice-resistant, as well as subsequent drilling through said conductor block, in that the remaining support legs The lugs are made non-resistant, while the aforementioned case of the self-lifting floating drilling rig is pre-equipped with at least two retractable runners mounted with the possibility of horizontal movement to transfer the load from the body of the self-lifting floating drilling rig by means of the said runners to the block conductor, and in the block conductor to the mentioned sliding runners of the nest, then in the ice-free period the said complex is formed, for which during the summer season the initial but the said conductor block is transported and installed on the sea bottom by ballasting followed by driving piles, after which the said self-elevating floating drilling rig is transported to the installation site of the block conductor, its supports are lowered to the sea bottom, the supports are crushed into the ground, and then produced the advancement of the said runners until they fully interact with the corresponding conductor block sockets, then after transferring the load to the block conductor, the non-resistant supports are lifted above the housing by mentioning Uta floating drilling rig while resting on the sea bottom ice-resistant support, whereupon said sliding cantilever mounting on a block jig for subsequent drilling process.

The indicated technical result is also achieved in an ice-resistant drilling complex for developing a shallow continental shelf, including a self-lifting floating drilling rig with a cantilever, having a casing and supports, at least one of which is ice-resistant, as well as a conductor block with an ice-resistant casing, made with the possibility of stationary installation at the bottom of the sea and having a top superstructure for placing equipment, the fact that the aforementioned conductor block is equipped with a horizontal mounted move the retractable console to support the body of the self-elevating floating drilling rig, and the aforementioned ice-resistant support of the self-elevating floating rig is mounted so that it can be supported on the ground to transfer the load to the bottom of the sea, while the remaining legs of the rig are non-resistant and mounted to be lifted above the rig body after transferring the load from the said hull through the conductor block and ice-resistant support to the bottom of the sea.

The specified technical result is also achieved in the method of forming an ice-resistant drilling complex for the development of a shallow continental shelf, including the transportation and installation of a conductor block with an ice-resistant building having a top superstructure for equipment and a self-elevating floating rig with a cantilever having a body and supports, at least one of which is ice-resistant, as well as subsequent drilling through said conductor block, in that the remaining support legs The lugs are non-resistant, and the aforementioned block conductor is pre-equipped with a horizontally movable retractable console to support the body of a self-lifting floating drilling rig, then the said complex is formed in the ice-free period, for which the said block conductor is initially transported during the summer season and installed it to the bottom of the sea by ballasting, followed by driving piles, after which the above-mentioned conveyor is transported to the installation site self-lifting floating drilling rig, lowering its supports to the bottom of the sea, crushing the supports into the ground, pulling out the aforementioned sliding console of the block-conductor and lowering the body of the self-lifting floating drilling rig onto it, then after transferring the load to the block-conductor, the non-stable supports are lifted above the body of the aforementioned a self-elevating floating drilling rig with an ice-resistant support resting on the bottom of the sea, after which the cantilever is slid onto the said conductor block to carry out the following its drilling process.

Figure 1 - shows a side view of the inventive complex assembly; according to claims 1, 2;

figure 2 is a top view of figure 1;

figure 3 is a side view of a self-lifting platform and a conductor block at the time of delivery of the platform to the point;

figure 4 is a side view of a self-lifting platform and a conductor block at the time of installation of the platform on the seabed;

figure 5 is a side view of a self-elevating platform and a conductor block, at the time of connection with runners extended from the self-elevating platform;

figure 6 is a side view of the mechanism for moving the skids;

Fig.7 is a side view of the claimed complex assembly with a console that extends from the jig;

Fig. 8 is a side view of a self-lifting platform and a block conductor according to claims 3, 4, at the time of delivery of the platform to a point;

Fig.9 is a side view of a self-lifting platform and a conductor block, at the time of transferring the load from the platform to the pull-out console, with supporting columns resting on the seabed;

figure 10 is a side view of a self-lifting platform and a conductor block at the time of load transfer when supporting columns resting on the seabed.

The inventive ice-resistant drilling complex for the development of a shallow continental shelf, described in the independent claim 1 of the claims, includes a self-elevating floating drilling rig with a cantilever 1 with a drilling tower 2, having a housing 3, supports 4 and 5 and a lifting mechanism (not shown). Moreover, the support 4 is ice-resistant, and the supports 5 are made non-ice-resistant.

In addition, the inventive complex contains a conductor block with an ice-resistant casing 6, made with the possibility of stationary installation on the bottom of the sea and having a top superstructure 7 for placing equipment.

To increase reliability while simplifying the design of the complex, as well as expanding its operational capabilities by providing installation in shallow water, the said casing 3 of a self-floating floating drilling rig is equipped with at least two retractable runners 8 oriented towards the said conductor block with the casing 6.

The skids 8 are mounted with the possibility of horizontal movement by means of a hydraulic mechanism consisting of hydraulic cylinders 9 and a slider 10 for transferring load from the housing 3 of the SPBU by means of the said skids 8 to the housing 6 of the conductor block.

At the same time, in the housing 6 of the conductor block, the sockets 11 corresponding to the sliding runners 8 of the SPBU are made.

The ice-resistant support 4 of the self-lifting drilling rig is mounted with the possibility of supporting it on the ground to transfer the load to the bottom of the sea, and the supports 5 are made non-resistant and mounted with the possibility of lifting above the body 3 of the installation by means of a lifting mechanism (not shown) after transferring the load from the body 3 through the body 6 block -conductor and ice-resistant support 4 to the bottom of the sea.

To fix the housing 6 of the block conductor piles 12 are provided.

The inventive method of forming the specified ice-resistant drilling complex for the development of a shallow continental shelf, described in the independent claim 2 of the claims and shown in figures 1-5, is implemented as follows.

Initially, during the summer season, a jig with a hull 6 and a superstructure 7 is transported by a towing vessel (not shown) and installed on the sea bottom by ballasting, followed by driving piles 12 using pile driving equipment installed, for example, on a crane (not shown) Then, a self-elevating floating drilling rig (SPBU) with a casing 3 is transported to the installation site of the conductor block with the casing 6, and it is brought to the casing 6 of the conductor block so that the required vertical clearance is ensured whether and the distance in the horizontal direction from the housing 6 of the block-conductor. After that, the supports 4 and 5 of the SPBU are lowered to the bottom of the sea, the latter are crushed into the ground by a lifting mechanism (not shown), and then, by means of the hydraulic moving mechanism, the runners 8 are extended until they fully interact with the corresponding sockets 11 in the conductor block case 6. Then, after transferring the load to the conductor block, the non-resistant supports 5 are lifted above the SPBU case 3 with the ice-resistant support 4 resting on the sea bottom, after which the cantilever 1 with the SPB drilling tower is slid onto the superstructure 7 of the conductor block for the subsequent drilling process.

According to the independent claim 3 of the claims, the inventive ice-resistant drilling complex for developing a shallow continental shelf includes a self-elevating floating drilling rig with a cantilever 1 with a drilling tower 2, having a housing 3, supports 4 and 5 and a lifting mechanism (not shown). Moreover, the support 4 is ice-resistant, and the supports 5 are made non-ice-resistant.

In addition, the inventive complex contains a conductor block with an ice-resistant casing 6, made with the possibility of stationary installation on the bottom of the sea and having a top superstructure 7 for placing equipment.

To increase reliability while simplifying the design of the complex, as well as expanding its operational capabilities by providing installation in shallow water, the ice-resistant support 4 of the self-lifting drilling rig is mounted with the possibility of support on the ground to transfer the load to the bottom of the sea, and the supports 5 are made non-resistant and mounted with the possibility of lifting above the body 3 of the installation by means of a lifting mechanism (not shown) after transferring the load from the housing 3 through the housing 6 of the conductor block and the ice-resistant support 4 to the bottom of the sea.

To fix the housing 6 of the block conductor piles 12 are provided.

In this case, the block 6 of the conductor is equipped with mounted with the possibility of horizontal movement of the retractable console 13 to support the housing 3 SPBU. The console 13 has a hydraulic movement mechanism similar to the mechanism for moving the sliding skids described in items 1, 2.

The inventive method of forming the specified ice-resistant drilling complex for the development of a shallow continental shelf, described in the independent claim 4 of the claims and shown in Figs. 7-10, is implemented as follows.

Initially, during the summer season, a jig with a hull 6 and a superstructure 7 is transported by a towing vessel (not shown) and installed on the sea bottom by ballasting, followed by driving piles 12 using pile driving equipment installed, for example, on a crane (not shown) , Then, to the installation site of the conductor block with the casing 6, a self-elevating floating drilling rig with the casing 3 is transported, and bring it to the casing 6 of the conductor block so that the required clearance is ensured vertically and sludge horizontal direction from the casing 6 of the conductor block. After that, the supports 4 and 5 of the SPBU are lowered to the bottom of the sea, the lifting mechanism (not shown) is used to crush the latter into the ground.

Then, by means of a hydraulic movement mechanism installed in the block conductor, similar to the mechanism described previously in independent claim 1, the console 13 is extended from the block 6 of the block 6 and lowered by the lifting mechanism (not shown) to the housing 3 of the SPBU. Then, after transferring the load to the casing 6 of the conductor block, the non-resistant supports 5 are lifted above the casing 3 of the SPBU with the ice-resistant support 4 resting on the bottom of the sea, after which the cantilever 1 with the drilling tower 2 of the SPBU is slid onto the superstructure 7 of the conductor block for the subsequent drilling process.

The support of the housing 3 can be carried out not directly on the console 13, but through pillows such as dock or foundations (not shown).

The claimed group of inventions can improve reliability while simplifying the design of the complex, and also provides the expansion of operational capabilities by setting in shallow water in ice conditions.

Claims (4)

1. Ice-resistant drilling complex for the development of a shallow continental shelf, including a self-elevating floating drilling rig with a cantilever, having a hull and supports, at least one of which is ice-resistant, as well as a conductor block with an ice-resistant hull, made with the possibility of stationary installation to the bottom of the sea and having a top superstructure for equipment placement, characterized in that the said housing of a self-elevating floating drilling rig is equipped with at least two retractable skids, orient mounted toward said conductor block and mounted with the possibility of horizontal movement to transfer the load from the housing of the self-lifting unit by means of the said runners to the conductor block, while in the housing of the conductor block there are made jacks corresponding to the sliding runners of the self-lifting floating drilling rig, and said ice-resistant support is self-lifting the floating drilling rig is mounted with the possibility of resting on the ground to transfer the load to the bottom of the sea, while the remaining supports of the rig and made non-resistant and mounted with the possibility of lifting above the installation casing after transferring the load from the casing through the conductor block and ice-resistant support to the bottom of the sea. 2. A method of forming an ice-resistant drilling complex for developing a shallow continental shelf, including the transportation and installation of a conductor block on the seabed with an ice-resistant building having a top superstructure for equipment, and a self-lifting floating drilling rig with a cantilever having a body and supports, according to at least one of which is ice-resistant, as well as subsequent drilling through said conductor block, characterized in that the remaining supports of the installation are non-resistant, at m said casing of a self-elevating floating drilling rig is pre-equipped with at least two retractable runners mounted for horizontal movement to transfer load from the housing of a self-floating floating drilling rig by means of said runners to a block conductor, and in the block conductor, the sockets corresponding to said retractable runners are made, then, in the ice-free period, the aforementioned complex is formed, for which, during the summer season, the above-mentioned block con the tractor and install it on the seabed by ballasting, followed by driving piles, after which the aforementioned self-elevating floating drilling rig is transported to the installation site of the block-conductor, the supports are lowered to the bottom of the sea, the supports are crushed into the ground, and then these runners are extended to their full interaction with the corresponding jacks of the block conductor, then after transferring the load to the block conductor, the non-stable supports are lifted above the body of the aforementioned self-lifting floating drilling rig at installation with an ice-resistant support resting on the bottom of the sea, after which the cantilever of the said installation is slid onto the conductor block for the subsequent drilling process. 3. An ice-resistant drilling complex for the development of a shallow continental shelf, including a self-lifting floating drilling rig with a cantilever, having a hull and supports, at least one of which is ice-resistant, as well as a conductor block with an ice-resistant hull, made with the possibility of stationary installation to the bottom of the sea and having a top superstructure for equipment placement, characterized in that the said conductor block is equipped with a retractable console d mounted horizontally movable To support the body of the self-lifting floating drilling rig on it, and the aforementioned ice-resistant support of the self-lifting floating drilling rig is mounted so that it can be supported on the ground to transfer the load to the bottom of the sea, while the remaining support of the rig is non-resistant and mounted with the possibility of lifting above the rig body after transferring the load from said hull through a block conductor and ice-resistant support to the bottom of the sea. 4. The method of forming an ice-resistant drilling complex for the development of a shallow continental shelf, including the transportation and installation of a conductor block with an ice-resistant building having an upper superstructure for equipment and a self-elevating floating drilling rig with a cantilever having a body and supports, according to at least one of which is ice-resistant, as well as subsequent drilling through said conductor block, characterized in that the remaining supports of the installation are non-resistant, and The pre-assembled conductor block is pre-equipped with a horizontally mounted retractable console to support the body of a self-elevating floating drilling rig, then the said complex is formed in the ice-free period, for which the said conductor is initially transported during the summer season and installed on the sea bottom by ballasting followed by driving piles, after which the aforementioned self-elevating floating drilling rig is transported to the installation site of the block conductor ku, lower its supports to the bottom of the sea, crush the supports into the ground, then extend the said sliding console block and lower the self-lifting floating rig body onto it, then after transferring the load to the block conductor, the non-stable supports are lifted above the body of the said self-lifting rig a floating drilling rig with an ice-resistant support resting on the bottom of the sea, after which the cantilever is slid onto the said conductor block for the subsequent drilling process.

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