RU2238365C1 - Method for constructing arctic platform - Google Patents

Abstract

FIELD: technology for extracting underwater deposits of mineral resources.

SUBSTANCE: method includes mounting of base onto previously prepared soil, on soil a half-immersed horizontal platform is mounted with technological equipment. Base is composed of two parts, lower part of base is connected to soil by means of cemented piles, upper portion of base half-immersed horizontal platform is provided with pontoons with ballast tanks. In operating position upper portion of base is connected to lower portion and to half-immersed horizontal platform by means of respective fixing connections. Lower portion of base is also provided with ballast tanks. Upper portion of base is mad with central shaft for mounting technological communications. Transporting and mounting of platform onto bottom is performed consecutively or in previously assembled state with use of said ballast tanks. Lower portion of base is fixed to soil with tension piles, and height of lower portion of platform base is selected considering condition of possible passing of icebergs of sizes common for current region. In separate cases before installing of platform to bottom its positioning is performed by means of technological anchor system. Then ballast tanks are loaded to provide for soft lessening of platform buoyancy as a whole and given tension of elements of technological anchor system with use of respective drives until platform is set on soil. In case of necessity after mounting of platform onto soil its ballasting is performed. Then special wells are drilled with consideration of necessary passing of non-stable rocks, casing pipes are mounted, and after that lower portion of sea platform base is rigidly connected to soil by a system of tension piles, anchors of which are set at given depth inside casing pipes in area of stable rocks of soil and their tension is performed and loads are evened by tension mechanisms and respective hydraulic system. In case of approaching iceberg or massive ice cover fixing elements are disengaged, which connect upper and lower portions of base to each other, while providing for needed pressurization of technological communications. Half-immersed horizontal platform and upper portion of base is at same time or consecutively floated aside from iceberg trajectory. After finish of operation of arctic platform pressurization of technological wells is performed, anchors of tension piles are disengaged from casing pipes, tension piles are removed. Half-immersed horizontal platform, upper portion of platform base, and lower portion of base, is at same time or consecutively raised and transported with use of ballast tanks.

EFFECT: higher efficiency and operation safety.

5 cl, 2 dwg

Description

The invention relates to the development of underwater mineral deposits, mainly liquid and gaseous, to the construction of technological complexes that provide work on the shelf of the Arctic seas.

Known marine technological complex mining, which contains an offshore platform with technological equipment and at least one underwater satellite, including downhole and wellhead equipment, interconnected technological communications. In this case, the offshore platform is attached to the ground using the anchor system / 1 /.

A well-known technical solution allows mining in the open sea at great depths, but it is not reliable when used in the Arctic regions, since it does not have the necessary means to counteract the ice cover. In addition, a violation of the integrity of at least one of the links of the anchor system, for example, when interacting with underwater ice (stamugs), can lead to unpredictable consequences.

A technical solution is known that characterizes the method of constructing the Arctic platform, in which a base is installed on previously prepared soil, a semi-submerged horizontal platform with technological equipment is installed on the base, the base is made of two parts, the lower part of the base is connected to the ground using cemented piles, the upper part of the base and semi-submerged horizontal platform is equipped with pontoons with ballast tanks, in the working position the upper part of the base vayut with the lower part and a semi-submersible platform horizontal by means of appropriate fixing compounds / 2 prototype /.

The well-known technical solution allows the construction of Arctic platforms when used in technological complexes in conjunction with underwater satellites, while ensuring operational safety by eliminating the interaction of the platform with a thick ice sheet and icebergs. However, the independent use of such a platform without underwater satellites is not provided, which significantly reduces its functionality.

The present invention is aimed at solving the problem of creating an earthquake-resistant Arctic technological platform with increasing functionality by providing the possibility of its use both independently and in technological complexes together with underwater satellites, ensuring economic efficiency and operational safety by eliminating the interaction of the offshore platform with icebergs, ensuring possibilities of counteracting together ice, wind, wave and seismic on loads, as well as the possibility of its dismantling after completion of work.

The indicated unified technical result is achieved by the fact that a method of constructing an Arctic platform is implemented, in which a base is installed on previously prepared soil, a semi-submerged horizontal platform with technological equipment is installed on the base, the base is made of two parts, the lower part of the base is connected to the ground using piles, the upper the base part and the semi-submerged horizontal platform are equipped with pontoons with ballast tanks, in the working position the upper part of the main They are connected with the lower part and with the semi-submerged horizontal platform using appropriate fixing connections, the lower part of the base is also equipped with ballast tanks, while the upper and lower parts of the base are carried out with a central shaft for installing technological communications, transportation and installation of the platform to the bottom are carried out by alternate transportation mentioned parts or in pre-assembled condition using ballast tanks, to ensure the necessary buoyancy, the lower part of the base is fixed to the ground using tension piles, and the height of the lower part of the base of the platform is selected from the condition of the passage of icebergs with dimensions characteristic of this region.

Before installation on the bottom of the platform, it is positioned using a technological anchor system, then ballast tanks are loaded to ensure a smooth decrease in the buoyancy of the platform as a whole and the specified tension of the elements of the technological anchor system using appropriate drives until the platform is installed on the ground.

After the platform is installed on the ground, it is ballasted, then special wells are drilled taking into account the mandatory passage of unstable rocks, casing is installed, after which the lower part of the base of the offshore platform is rigidly connected to the ground using tension piles, the anchors of which are installed inside the casing at a given depth in the zone of stable soil rocks and produce their tension and load balancing with the help of tensioning mechanisms and the corresponding regulatory hydraulic system.

When an iceberg or a thick ice cover approaches, the locking elements that connect the upper and lower parts of the base to each other are separated to ensure appropriate sealing of technological communications, the semi-submerged horizontal platform and the upper part of the base are jointly or alternately taken afloat away from the iceberg's trajectory.

At the end of operation of the Arctic platform, technological wells are sealed in the area of the bottom plate, the anchors of the tension piles from the casing are disconnected, the tension piles are removed, then the semi-submerged horizontal platform, the upper part of the platform base, and also the lower part of the base are alternately or jointly lifted and transported using the appropriate ballast tanks.

An analysis of the state of the art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues for the method object, made it possible to establish that the applicant did not find any analogues characterizing all the essential features of the claimed object method.

The definition from the list of identified analogues of the prototype, as the closest in the set of essential features, allows you to identify the set of essential, in relation to the perceived by the applicant a single technical result, distinctive features for the claimed object set forth in the independent claim.

Therefore, the claimed object meets the requirement of "novelty" under the current law.

To verify the conformity of the claimed object with the requirement of an inventive step, the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed invention from the selected prototype, the results of which show that the claimed invention does not explicitly follow from the prior art.

Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

The invention is illustrated by the drawings shown in figures 1-2.

Figure 1 shows the Arctic platform in working condition, made by the proposed method.

Figure 2 the position of the modules of the Arctic platform at the time of passage of the iceberg.

The Arctic platform includes a base 1 (Fig.1-2), consisting of two parts - the lower 2 and the upper 3. On the upper part 3 of the base 1 there is a semi-submerged horizontal platform 4 with technological equipment 5. The lower part 2 of the base 1 of the Arctic platform is connected to the ground with the help of a tension pile system, including a tension mechanism 6, a tension pile 7 located inside the housing of the lower part 2 of the base 1, and the anchor 8. The anchor 8 is installed in the zone of stable rocks inside the casing 9. The lower part 2 and the upper part Three bases 1 are equipped with pontoons with ballast tanks 10, a central shaft 11 is made in them, in which water separating columns 12 for technological communications are located. The tension pile system includes tension piles 7, a control hydraulic system (not shown) with tension mechanisms 6, which are located at the top of the lower part 2 of the base 1. The control hydraulic system ensures load balancing between the tension piles 7 both during installation and when exposed to external loads. A special drilling rig 13 is located on a semi-submerged horizontal platform 4 and is used for drilling and installing casing 9 under tension piles 7, as well as for the construction of technological wells 14.

In the working position, the upper part 3 of the base is connected with the lower part 2 of the base of the platform and with the horizontal platform 4, on which the drilling and production equipment 5 is located, using the corresponding fixing connections 15. Technological wells 14 contain quick disconnect connections 16 with the necessary shutoff valves to provide their sealing during the dismantling of the platform.

For suspension of casing strings of technological wells 14, a bottom plate 17 is used, inside which quick disconnect connections 16 are also located. The lower part 2 of the base 1 of the platform is equipped with a remotely controlled signal buoy 18 with automatic switching on, lifting and, if necessary, flooding (Fig. 2).

The platform is equipped with a prefabricated collector 19 and a pipe 20.

The design of the lower part 2 of the base of the platform 1 allows you to place tension piles 7 inside its body. In this case, the task of eliminating the impact of the platform itself with icebergs 21, and tension piles 7 with underwater ice - stamugs 22 is solved.

The construction of the Arctic platform is as follows.

Transportation and installation of the platform on previously prepared and leveled soil is carried out alternately with the lower 2 and upper parts 3 of the base 1 or in a pre-assembled state using ballast tanks 10, to ensure the necessary positive buoyancy. The lower part of the base 2 is fixed to the ground using a tension system, including tension piles 7, the tension mechanism 6 and the anchor 8. In this case, the height of the lower part 2 of the base 1 of the platform is selected from the conditions of passage of icebergs 21 with dimensions typical for this region.

On the basis of 1 install a semi-submerged horizontal platform 4 with a drilling rig 13 and technological equipment 5.

In the working position (figure 1), the lower part 2, the upper part 3, the base 1 and the semi-submerged horizontal platform 4 are connected using the corresponding fixing connections 15. The lower 2 and the upper part 3 of the base 1 are made with the central shaft 11 for installing the water separation columns 12 technological communications.

Before installation on the bottom of the platform, it is positioned using a technological anchor system (not shown), then ballast tanks 10 are loaded to ensure a smooth decrease in the buoyancy of the platform as a whole and the specified tension of the elements of the technological anchor system using the corresponding elements of the technological anchor system using appropriate drives until the platform is installed on the ground.

After the platform is installed on the ground, it is ballasted, then, using a drilling rig 13, wells are drilled under the casing 9, taking into account the mandatory passage of unstable rocks, the casing 9 is installed, fixed, then the lower part 2 of the base 1 of the platform is rigidly connected to the soil with using a system of tension piles 7, the anchors 8 of which are installed at a predetermined depth inside the casing 9 in the zone of stable rocks and tension and equalize the loads by tensioning mechanisms 6 and correspondingly hydraulic system.

After installing and securing the platform, technological wells 14 are drilled for mining. The products coming from the technological wells are sent to the prefabricated collector 19, then to the horizontal platform 4, and after their necessary preparation they are sent via pipeline 20 and transported to the coastal base.

When approaching the iceberg 21 or a thick ice cover (Fig. 2), the locking connections 15 are disconnected, connecting the upper 3 and lower 2 parts of the base 1 with each other, providing appropriate sealing of the technological communications 12, the semi-submerged horizontal platform 4 and the upper part 3 of the base together or alternately divert afloat away from the iceberg trajectory 21.

After passing the iceberg 21, the horizontal platform 4 with technological equipment 5 and the upper part 3 of the base 1 are returned to the place of their installation. The presence of a remotely controlled signal buoy 18 with automatic inclusion, lifting and, if necessary, flooding, facilitates the task of subsequent detection and installation of the Arctic platform to ensure its subsequent operation in the operating mode.

Upon completion of the operation of the Arctic platform, the technological wells 14 are preserved in the region of the bottom plate 17 by cementing, disconnect the quick disconnect connections 16 and disconnect the anchors 8 of the tension piles 7 from the casing 9, remove the tension piles 7, then the semi-submerged horizontal platform 4, the upper part 3 and the lower part 2 of the base 1 of the platform is alternately or jointly raised and transported using the appropriate ballast tanks 10.

The proposed technical solution allows to increase the economic efficiency and safety of the Arctic platform by eliminating the possibility of collision with an iceberg and thick ice cover, as well as eliminating the possibility of interaction of underwater ice (stamug) with tension piles, optimizing the parameters of the Arctic platform while ensuring safe operation when installed on any the bottom surface of the sea by providing resistance to the tipping moment and the shear forces of the platform from exposure External Expansion forces due to the optimum combination of weight platforms, ballast weight and effort of tension piles.

The proposed method for the construction of the Arctic platform allows us to provide the necessary rigidity and structural stability in the normal operating mode of the offshore platform, allows us to ensure the uninterrupted operation of technological communications during the removal of the upper part of the base and the semi-submerged horizontal platform with technological equipment. In addition, environmental requirements are ensured by the possibility of its removal at the end of the operation of the platform.

Thus, for the claimed invention in the form described in the independent clause of the claims below, the possibility of its implementation using the means and methods described above and known prior to the priority date with the expected technical result is confirmed.

Therefore, the claimed facility meets the requirement of “industrial applicability” under applicable law.

Literature

1. US patent No. 5381865, class. B 63 B 35/44, 1995.

2. Patent of the Russian Federation (according to the application No. 2001134702), cl. E 02 B 17/00, 2001.

Claims (5)

1. The method of construction of the Arctic platform, in which a base is installed on a previously prepared soil, a semi-submerged horizontal platform with technological equipment is installed on the base, the base is made of two parts, the lower part of the base is connected to the ground using cemented piles, the upper part of the base and a semi-submerged horizontal platform provide pontoons with ballast tanks; in the working position, the upper part of the base is connected to the lower part and to the semi-submerged mountain an umbrella platform using appropriate fixing connections, characterized in that the lower part of the base is also equipped with ballast tanks, while the upper part of the base is carried out with a central shaft for installing technological communications, transportation and installation of the platform to the bottom are carried out alternately or in a pre-assembled state using the aforementioned ballast tanks, the lower part of the base is fixed to the ground using tension piles, and I choose the height of the lower part of the base of the platform t from the condition of the possibility of passing icebergs with sizes characteristic of a given region. 2. The method according to claim 1, characterized in that prior to installation on the bottom of the platform, it is positioned using a technological anchor system, then ballast tanks are loaded to ensure a smooth decrease in the buoyancy of the platform as a whole and a given tension of the elements of the technological anchor system using appropriate drives until the platform is installed on the ground. 3. The method according to claim 2, characterized in that after the platform is installed on the ground, it is ballasted, then special wells are drilled taking into account the mandatory passage of unstable rocks, casing is installed, after which the lower part of the base of the offshore platform is rigidly connected to the ground using tension pile systems, the anchors of which are installed at a given depth inside the casing pipes in the zone of stable soil rocks and tension and equalize the loads using tension mechanisms and the corresponding g idrosystems. 4. The method according to claim 1 or 3, characterized in that when approaching an iceberg or a thick ice cover, the locking elements are disconnected, connecting the upper and lower parts of the base to each other, with appropriate sealing of technological communications, a semi-submerged horizontal platform and the upper part of the base together or alternately take away the float away from the iceberg trajectory. 5. The method according to claim 3, characterized in that at the end of the operation of the Arctic platform, the technological wells are sealed in the region of the bottom plate, the anchors of the tension piles from the casing are disconnected, the tension piles are removed, then the semi-submerged horizontal platform, the upper part of the base of the platform, and the lower part of the base is alternately or jointly lifted and transported using appropriate ballast tanks.

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