RU2129638C1 - Sea platform for supporting self-raising facilities - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: sea platform is used in hydraulic engineering structures erected in water area of seas. Sea platform is mainly intended for supporting self-raising drilling rigs, oil and gas producing facilities, and sea bases used in prospecting and producing oil and gas in sea medium. Sea platform is made in the form of ground base having three or more towers or columns. Columns are used to directly support posts of self-raising drilling rig or producing facility. Aforesaid arrangement of sea platform can be used for supporting sea base which in its turn supports drilling guide columns and decking and other structures which are used for carrying oil and gas producing facilities. Power plants can be also installed here. Sea platform can be installed in various sites of well drilling without any serious modifications so as to adapt it to real local conditions. Aforesaid embodiment of sea platforms widens is functional potentialities. EFFECT: higher efficiency. 7 cl, 9 dwg

Description

 The invention relates to an offshore platform that can enable the use of a self-lifting rig, such as an oil or gas drilling or production rig, at water depths that are outside the scope of the original design of the self-lifting rig.

In accordance with the present invention, an offshore platform is provided comprising:
soil foundation intended for placement at the well’s location on the seabed, below the sea surface;
at least one device for coupling with the seabed, designed to attach the soil base to the seabed at the location of the well;
at least three columns having lower ends connected to the soil base and upper ends extending above the soil base to a location below the sea surface;
a self-rising installation stand extending vertically upward from the upper end of each column, each installation stand attached to the upper end of its corresponding column and passing to a location located above the sea surface; and
a self-lifting installation supported by the struts of the installation, the self-lifting installation being removable for use in other well locations with different water depths.

 To minimize the cost of developing oil fields, an offshore platform has been developed that, in accordance with embodiments of the present invention, can be used to expand the capabilities of a self-rising drilling or production rig to allow it to operate at depths of water that are beyond the scope of the original design. This makes it possible to economically select a ready-to-use self-lifting installation depending on market conditions and availability.

 The offshore platform can be a gravitational foundation that is supported by soil foundations, resting directly on the seabed. Soil bases may contain a steel frame truss or frame structure, which is supported by piles, suction support legs or directly support foundations on a natural base. Other types of offshore platforms may provide storage in tanks. These tanks can be used to fuse this structure to the installation site. If reservoirs are not provided, the offshore platform is transported to the installation site on a cargo barge and installed on the seabed by launching and tilting or using a marine crane or some other means.

 The preferred design is specifically designed to support self-lifting installations of a certain size and shape, but may allow a number of dimensional deviations from these parameters of a particular class of self-lifting installation and the resulting load that may occur. The guiding columns used for drilling are supported by a column, steel truss or frame tower, or a central power coffer, which stands on an offshore platform and supports an offshore base and module, flooring or building used to house oil or gas production equipment and communications. When the self-lifting installation is removed, the equipment and communications are used to extract oil and gas, to control and import oil, gas, chemicals, electricity or other consumed materials or energy from other offshore bases or from the shore and to export oil and gas to other places and for other use cases.

 After installing the offshore platform on the seabed, a self-elevating installation can be installed on it. After that, as a self-lifting installation completed the work for which it was intended, it can be removed from the offshore platform. This may be repeated in accordance with a program for the development or operation of an oil or gas field.

 Thus, embodiments of the present invention provide an offshore platform that takes the form of a soil base that is located on the seabed and supports towers or columns that extend to a height mark that is below the surface of the water, and which, in turn, support struts self-rising drilling or production rig. It seems possible to mount racks of a self-lifting installation on top of these columns or towers. If a self-elevating installation is no longer required, it can retract the racks and float freely from the offshore platform. A subgrade may support a column or tower that supports drill guide columns and a structure that supports a module, floor, or building that is used to house oil or gas production equipment and communications. A structure that supports guide columns may also support a module, flooring, or building. The soil base may be a gravity foundation or a steel frame or truss, which has been stiffened in sufficient directions to secure columns and towers. A soil base may be provided with tanks that can be used to store petroleum products. These tanks can be used to provide buoyancy to enable the offshore platform to be transported to the installation site and lowered to the seabed in a controlled manner.

The present invention will now be described by way of example with reference to the accompanying drawings, in which like parts are indicated by like reference numbers, where:
FIG. 1 is an isometric view of an offshore platform that has a soil base provided with columns or towers to support the struts of a self-raising drilling or production rig;
FIG. 2 is a front view of the offshore platform shown in FIG. 1;
FIG. 3 is a front view of another direction of the offshore platform shown in FIG. 1;
FIG. 4 is an isometric view of another offshore platform that has a soil base provided with columns or towers to support the struts of a self-raising drilling or production rig;
FIG. 5 is a front view of the offshore platform shown in FIG. 4;
FIG. 6 is a front view of another direction of the offshore platform shown in FIG. 4;
FIG. 7 is an isometric view of another offshore platform that has a soil base provided with columns or towers to support the struts of a self-raising drilling or production rig;
FIG. 8 is a front view of the offshore platform shown in FIG. 7;
FIG. 9 is a front view of another direction of the offshore platform shown in FIG. 7.

 As can be seen from the drawings, the present invention may have several embodiments. There are certain similarities between the above constructions that are associated with the main elements of the present invention. A subgrade may support a column or tower to support drill guide columns and an offshore base for a module, floor, or building. In Fig.1, the soil base is shown as a gravity foundation with an internal storage tank. In FIG. 4, the subgrade is shown as a steel frame supported on piles or suction support legs. The subgrade shown in FIG. 7, may support columns or a tower for supporting drill guide columns and an offshore base for a module, flooring, or building. This soil base is shown as a steel frame supported on piles or suction support legs and with tanks that can be placed in a position that meets technological requirements, or for some other reason, and shown attached to the uprights. The tanks can be used for storing liquids and for buoyancy during transportation and installation of the offshore platform.

 Thus, each embodiment of the present invention has a soil base that is placed on the seabed and transfers loads to the ground with a direct support either by means of a pile or by foundation on a natural foundation or by means of suction support legs or by a combination of these methods. The soil base may be concrete or steel construction. A soil base may be provided with reservoirs for injuring oil products, water or other liquids, or a combination of these liquids. These tanks can be used as floating tanks, enabling the offshore platform to have sufficient buoyancy to sail to the installation site, and to be installed on the seabed by controlled filling with water. If no tanks are provided, the offshore platform can be transported to the installation site on a cargo barge and installed by launching from a cargo barge or a floating crane or a combination of these methods.

 Three or more vertical or inclined columns or towers support the struts of a self-rising drilling or production rig. These columns or towers are mounted on a dirt base. Columns or towers rise to a level below the surface of the water, sufficient to allow the self-rising installation to be able to raise itself to a working height above sea level. Columns or towers have a supporting surface that corresponds to the transfer of loads from the racks of the self-lifting installation, and a guiding mechanism to ensure proper alignment of the mounting of the supporting surface. Transducers, echo-sounders or some other sensors or some other mechanisms, for example, tensioned wires, with which the self-raising installation can be located relative to the sea base and the module, flooring or building, may be provided, so that the racks of the self-lifting installation can be placed on supporting columns or towers and lowered to the offshore platform or the correct combination. To ensure that the base of the struts of the self-lifting installation is secured, a locking mechanism may be provided.

 In another embodiment of the present invention, a vertical or inclined column or tower extends from the soil base to a level below the surface of the water and supports the sea base. The marine base consists of a reinforced steel frame or tubular caisson and a module, flooring or building. The module, flooring or building is supported above the surface of the water at such a height that it is not exposed to the wave, that is, above the crest of the wave. A column or tower is a reinforced frame or tubular caisson that provides support and acts as a guide for drill guide columns. The upper part of the column or tower is provided with a mechanism for fastening the sea base. A marine base can be installed and removed when the need arises.

 In FIG. 1 shows a self-elevating drilling or production rig 11, which is supported on columns or towers 21, which, in turn, are supported by a soil base 31. On the upper part of each column or tower 21 there is a supporting surface 22 designed to support the uprights 12 of the self-elevating rig. The top of the column or tower at the position indicated by 23 is provided with a blocking mechanism 24 to ensure that the posts 12 are undoubtedly connected to the column or tower 21 and the guide 25 for guiding the rack 12 to the correct position, located in the center of the column or tower 21. There may be installed a sea base 41, containing a module, flooring or building (collectively, reinforcement) 42, supported on a column, box or tower 43, which runs from a soil base 31 to a height that is neither e water surface. A module, flooring or building 42 is used to house oil or gas equipment and fixtures or other equipment and communications, depending on the use of the offshore platform. The column or tower 43 is provided with a support surface 44 designed to support the sea base 41, and guides 45 and retainers 46 to enable the sea base to be installed or removed after installation of the sea platform. The soil base 31 is supported by soil using piles, foundations on a natural base, suction support legs or foundation plate 32 (collectively referred to in this work as devices for coupling with the seabed). Soil base 31 may consist of tanks 33, which can provide storage of oil or other liquid product. Tanks 33 can be used as floating tanks during the installation process.

 In FIG. 2 is a front view of the same offshore platform as shown in FIG. 1. In FIG. 3 shows another frontal view of the same offshore platform, which is shown in FIG. 1, but at an angle of ninety degrees with respect to the projection shown in FIG. 2.

 In FIG. 4, where similar reference numbers are used to indicate functionally similar parts, a self-elevating drilling or production rig 11 is shown, which is supported by columns or towers 21, which are supported by a three-dimensional truss or frame frame structure 31. On the upper part of the column or tower 21 there is a supporting surface 22, designed to support the racks 12 self-lifting installation. The upper part 23 of the column or tower 21 is provided with a locking mechanism 24 to ensure that the posts 12 are undoubtedly connected to the column or tower 21, and with a guide 25 designed to guide the rack 12 to the correct position, located centrally on the column or tower 21 A marine base 41 may be placed therein containing a module, flooring or building 42 supported on a column, caisson or tower 43, which extends from the frame structure 31 to a height below the surface of the water. A module, flooring or building 42 is used to house oil or gas equipment and fixtures or other equipment or communications, depending on the use of the offshore platform. The column or tower 43 is provided with a supporting surface 44 designed to support the sea base 41, with guides 45 and latches 46 to enable the sea base to be installed or removed after installation of the sea platform. The frame structure 31 is supported by soil by means of piles, foundations on a natural base or suction support legs 32.

 FIG. 5 is a front view of the same offshore platform as shown in FIG. 4, and FIG. 6 is another front view of the same offshore platform as shown in FIG. 4, but rotated ninety degrees from the projection shown in FIG. 5.

 In FIG. 7, where similar reference numbers are used to indicate functionally similar parts, a self-elevating drilling or production rig 11 is shown which is supported on a column or towers 21 that are supported by a three-dimensional truss or frame frame structure 31. A support surface 22 is provided on the top of the column or tower 21 designed to support the racks 12 self-lifting installation. The upper part 23 of the column or tower 21 is provided with a locking mechanism 24 to ensure that the posts 12 are undoubtedly connected to the column or tower 21, and a guide 25 designed to guide the rack 12 to the correct position, located in the center on the column or tower 21. There an offshore base 41 may be placed comprising a module, flooring or building 42 supported on a column or tower 43 that extends from the frame structure 31 to a height that is below the surface of the water. A module, flooring or building 42 is used to house oil or gas equipment and fixtures or other equipment or communications, depending on the use of the offshore platform. The column or tower 43 is provided with a support surface 44 designed to support the sea base 41, with guides 45 and latches 46 to allow the sea base to be installed or removed after installation of the sea platform. The frame structure 31 is supported by soil by means of piles, foundations on a natural base or suction support legs 32. The frame structure 31 may be provided with reservoirs 33, which can be used to store oil or other liquid product. Tanks 33 can be used as floating tanks during the installation process.

 FIG. 8 is a front view of the same offshore platform as shown in FIG. 7, and FIG. 9 is another front view of the same offshore platform as shown in FIG. 7, but rotated ninety degrees from the projection shown in FIG. eight.

Claims (8)

 1. An offshore platform comprising a base installed below sea level on the seabed, at least one device for fastening the base to the seabed, at least three columns having lower ends connected to the base and upper ends extending above the base to to a location below the sea surface, a stand of a self-lifting installation extending vertically upward and from the upper ends of the columns, with each stand passing to a location located above the sea surface and a self-lifting installation characterized in that the self-lifting installation is removable, connected to the racks of the installation by means of a mechanism that allows the self-lifting installation to be placed at different levels above the column on the racks, the platform further comprises a tower connected to the base and passing above the surface of the sea, while the tower is equipped with reinforcement designed to develop the seabed, and a self-elevating installation is connected to the tower or reinforcement for at least temporarily maintaining the tower or reinforcement ry.  2. The platform according to claim 1, characterized in that it further comprises pipelines, risers and communications passing from the fittings to the seabed and placed in a caisson located in the tower and protecting pipelines, risers and communications from the effects of the sea.  3. The platform according to claim 1, characterized in that the armature is removably mounted on the tower.  4. A platform according to any one of claims 1 to 3, characterized in that the reinforcement comprises a module, flooring or building for drilling a well or producing oil, gas or minerals or for other work at the site of the well’s laying.  5. The platform according to any one of claims 1 to 4, characterized in that the device for attaching to the seabed is made in the form of piles, foundations on a natural foundation, an absorbable support leg or gravity foundation.  6. The platform according to any one of claims 1 to 5, characterized in that it further comprises a locking mechanism located on the upper end of each column and designed to connect the rack to the column.  7. The platform according to claim 6, characterized in that the upper part of each column is made with a supporting surface designed to support the corresponding rack.  8. The platform according to any one of claim 6 or 7, characterized in that it further comprises a guide on the top of each column, designed to guide each rack in engagement with the corresponding column.

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