SU1155673A1 - Stationary offshore platform - Google Patents

Abstract

1. MARINE STATIONARY PLATFORM, including a bottom block with ballast compartments and hinged columns, characterized in that, in order to simplify installation and increase stability, the bottom block is equipped with unbalanced compartments, and the supporting columns are equipped with removable floating elements, and the distance between the upper sections the ends of the removable floating elements and the lower ends of the supporting columns is equal to the depth of the sea at the point of installation. 2. The platform according to claim 1, wherein the removable floating elements are provided with ballast compartments.

Description

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The invention relates to the construction of offshore fixed structures, mainly deepwater, and can be used in the construction of platforms for drilling and operating oil and gas fields in the waters of the seas on the continental shelf.

The known sea stationary platform, which contains a bottom frame, to which, by means of hinged nodes, are attached two longitudinal symmetric sections, which, in the assembled state, form the spatial support unit 1.

Each section consists of longitudinal tubular struts and a system of ties and braces. During transportation, the entire articulated system is afloat, as the tubular struts have a sufficient displacement.

The installation of the structure at the bottom of the sea at a given point in the water area is carried out as follows.

Two cables are suspended to the hook of the floating crane, which are attached to the top of each section of the support block.

The disadvantage of this device is that during installation of the structure on the seabed it is necessary to use a floating crane and a pneumatic compressor system, which complicates the installation and increases its cost. In addition, the buoyancy of the platform is provided by high-diameter pipes in the racks of each section, which leads to irrational use of the material during the entire period of operation of the offshore structure, while its buoyancy is needed only during transport and immersion.

A known marine fixed platform includes a bottom block with ballast compartments and hinged columns 2.

At the installation site of the offshore platform, the bottom block is ballast water and, immersed in the seabed, carries the supporting columns, which, turning in hinges, occupy an upright position. After the bottom block is seated on the seabed, the supporting columns are fastened with retainers to the superstructure and to each other. If necessary, the base is fixed to the bottom of the sea by its own.

A disadvantage of the known device is that in the initial period of the bottom block immersion, the swimming circuit (waterline) is instantaneously reduced and this dramatic reduction of the waterline does not compensate for anything, and the construction center 1 is above the water-change center, since most The masses in the volume of the structure are still above the water, i.e. the condition of stable swimming of the body is violated, the structure loses

resilience and can tip over. To eliminate this phenomenon, the base must be equipped with additional devices that ensure the stability of the structure, which complicates installation and increases equipment costs.

The purpose of the invention is to simplify installation and increase the stability of the offshore platform.

This goal is achieved by the fact that in a stationary offshore platform, including a bottom block with ballast compartments and hinged support columns, the bottom block is equipped with unbalanced compartments, and the support columns are provided with removable floating elements, and the distance between the upper ends of the removable floating elements and lower ends of the supporting columns is equal to the depth of the sea at the point of installation.

In addition, removable floating elements are equipped with ballast compartments.

FIG. 1 depicts a marine fixed platform installed in the design position; in fig. 2 - then the transport position; in fig. 3 - the same during the period of immersion; in fig. 4 - the same, on a flat seabed; in fig. 5 the same, on a rough sea bottom.

The offshore stationary platform contains deck 1, support columns 2 connected by means of hinges 3 to the bottom block 4 in which ballast compartments 5 and unbalanced compartments 6 are located. Removable floating elements 7 fitted with ballast compartments 8 are attached to the support columns the design position can be attached to the seabed 9 by means of piles 10.

The non-dominant compartments 6 of the bottom block 4 are made such that their displacement is equal to the mass difference between the offshore fixed platform and the carrying capacity of the floating cranes 11 present. Thus, the mass of the whole structure in water is equal to the carrying capacity of the floating cranes 11 used during the entire period of immersion.

The support columns 2 are connected by means of the hinges 3 to the bottom block 4, which is held on the surface of the water by ballast compartments 5 and unbalanced compartments 6.

In the head zone, the support columns 2 are supported on the surface of the water by detachable floating elements 7, which are attached to the support columns 2 by any known detachable nodes. In such a hinged position, the entire structure is transported to a predetermined mounting point. At the mounting point, the bottom unit 4 is attached with a sling 12 to the hook of a floating crane 11, and the ballast compartments 5 are opened, which are filled with water, causing the entire structure to sink.

As the bottom unit 4 is immersed, the lower parts of the supporting columns 2, which are transferred from the horizontal position to the inclined one, and the head zone of the supporting columns 2, supported by removable floating elements 7, are carried afloat. The sink rate of the structure is governed by the lowering speed of the hook of the floating crane 11.

When installing a fixed offshore platform on an uneven seabed 9, in order to give deck 1 a horizontal position, open the ballast compartments 8 of floating elements 7, an additional immersion of the supporting columns 2 to the seabed 9 takes place.

If necessary, a fixed offshore platform is attached to the seabed by its 10.

The presence of unbalanced compartments in the bottom block reduces the mass of the whole structure immersed in water, which makes it easy to manipulate the structure when it is immersed — set the necessary

immersion speed, hold in a stable position, orient when installed on the seabed, i.e., simplifies installation of the platform.

Attaching removable floating elements to supporting columns so that the distance from the lower ends of the supporting columns to the upper ends of the removable elements is equal to the sea depth at the mounting point, also reduces the weight of the submerged structure and supports the upper part of the supporting columns on the sea surface over the entire period installation, which facilitates installation of the structure and eliminates additional operations on alignment of the supporting columns in a vertical position.

In addition, the presence of ballast compartments in the removable floating elements makes it possible to give the deck a horizontal position by ballasting them if the structure is placed on an uneven seabed.

Thus, the application of the invention allows to simplify the installation of the offshore fixed platform and increase its stability.

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FIG. 2

Claims (2)

1. MARINE STATIONARY PLATFORM, including a bottom block with ballast compartments and articulated columns, characterized in that, in order to simplify installation and increase stability, the bottom block is equipped with non-ballast compartments, and the support columns are equipped with removable floating elements, the distance between the upper ends of removable floating elements and the lower ends of the support columns is equal to the depth of the sea at the installation point. 2. Platform by π. 1, characterized in that the removable floating elements are equipped with ballast compartments. '1155673