NL1026005C1 - Offshore platform for oil or gas drilling, assembled entirely in situ from modular parts - Google Patents

Abstract

The entire platform is assembled in situ from modular parts.

Description

I Short description:

The design and method of a platform device consisting of a column body and tensioned cables which is built up on the bottom in a medium.

The present invention relates to the design of a platform device which is essentially composed of two device parts, as well as the installation method for the offshore installation of the relevant platform device.

The design point of view and in particular the installation method is of economic importance in the exploitation of oil and gas fields. The economic advantage of this design is that the construction is optimized for weight and installation benefits. Furthermore, the design offers the possibility for reuse at a new location. This makes it possible to write off the costs of the platform device over a longer period, which is of great importance for the economic exploitation of smaller oil and gas fields.

A preferred embodiment of the complete platform device according to the invention consists essentially of two device parts, concerning a foundation device, a vertical column device which is connected to piles on the seabed, on which a top device is placed. This upper device serves, among other things, as accommodation for the required staff accommodation and production process devices which are known designs.

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According to a further elaboration of a preferred embodiment of the invention, the foundation device comprises a vertical column device with a polygonal structure on the underside which serves as a stable foundation during installation, as well as for an effective transfer of the forces. The forces, both static and dynamic in nature, are caused by natural influences and also influenced by the geometry of the device. This invention further has the feature that the geometry results in relatively low load. This characteristic H is obtained by using a combination of bodies consisting of a vertical column device and also prestressed cables.

According to a further elaboration of the foundation device, this device is a structure 5 in which prestressed cables are attached to the outside of the polygonal structure and also to the top of the vertical column device. The prestressed cables provide the vertical column device with a restoring force which increases in proportion to the displacement of the top of the top of the vertical column device. More specifically, the horizontal disconnection of the tensile force in the cables will provide the restoring force, resulting in a relatively light construction that is stable.

Furthermore, the preferred embodiment has the connections of the prestressed cables close to the connection of the foundation device and the piles. This results in a direct discharge of forces from the platform device directly into the piles.

An aim of the foundation device with the prestressed cables is to provide the upper device with such a safe elevation that it remains free of wave impacts.

According to a further elaboration of the foundation device, it is provided with a cable tensioning device which is placed above the water surface. The purpose of this cable tensioning device is to tension the individual cables to a force which ensures the required structural integrity. Furthermore, these clamping forces, geometry and dimensions of the foundation device are determined on the basis of integrity calculations which must satisfy the relevant preconditions and requirements.

The invention furthermore relates to the preferred installation method, which has the ultimate aim of installing a platform device in one piece or in parts on the bottom in a medium with the aid of an installation vessel.

Each device part (foundation device and upper device) which completely form the platform device can be installed offshore or as a whole with the aid of known installation vessels.

I i noanntz - -3-

First, the foundation device, including the cables, is placed on the floor. The anchoring bodies in the form of piles are penetrated into the ground in a conventional manner and are also connected to the sub-foundation device in a conventional manner. In this phase, the cables are preferably not yet tensioned in view of the vibrations introduced during pile-driving operations. All clamping work will take place above the water surface.

After the installation of the foundation device on the seabed, the upper device is placed on top of the foundation device and connected. The upper device is placed on the upper side of the anchored foundation device and is momentarily connected with the aid of welding connections or, if applicable, with the aid of connecting devices, with the aim that the complete platform device forms one structure, which as a whole achieves adequate rigidity.

The invention and installation method is explained below with reference to the following drawings:

FIG. 1 shows the complete platform device in perspective view; FIG. 2a to d, one of the preferred installation methods of the platform device;

Fig. 1 shows a completely installed platform device in perspective with essentially the foundation device (10), upper device (20), connection to the anchoring bodies (13) and pre-stressed cables (12).

Furthermore, a mooring device (15) is connected to the platform device which is provided with access ramps at two different elevations. The difference in elevation makes the platform device accessible during the tide.

Furthermore, the biasing device (16) is connected to the foundation device, at an elevation which is above the water surface 100).

One of the preferred installation embodiments is the installation of the complete platform device on the seabed (101), i.e. the foundation device (10) connected to the top direction (20). More in particular, the cables (12) are relaxed during the pile-driving operation with the aid of the tensioning device (16). After which the piles (17) after installation are connected in known manner to the connecting devices (13) to the foundation device.

The tension device (16) establishes a tensile stress which is adjustable for each individual cable. The cables as well as the diagonal bodies (14) improve the stability of the complete device.

FIG. 2a to 2d show another preferred installation method of the two main devices which has the advantage that a relatively lower capacity of the installation vehicle is required during the installation method.

Fig. 2a shows the foundation device (IO) during the installation work on the seabed (101), with essentially the cables (12) in an untensioned state.

Fig. 2b shows the piling activities of the piles (17) with the aid of a piling device (18) through the connecting devices (13).

Figure 2c shows the foundation device (10) with the connecting devices (13) which is provided with all piles (17) with full penetration into the seabed (101). The connecting devices are then connected to the piles with the existing method.

FIG. 2d shows the composition in which the cables (12) are tensioned using the tensioning device (16). This will result in a tensile force which engages in the tensioning device and the cable connection (11). Finally, the upper device (20) is momentarily connected to the foundation device (10) so that the complete platform device is installed as shown in FIG. This connection (18) is effected by a welding connection or, if possible, by a coupling device.

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Claims (11)

1. Devices intended to form a complete platform device, which essentially consists of two device parts, to be installed on the bottom in a medium, characterized in that a complete platform device with mountable modular devices is built up at the final location. 2. Device as claimed in claim 1, characterized in that the platform device consists essentially of modular devices, such as: Foundation device, consisting of; o Vertical supporting bodies o Tensioned cables o piles 15. Upper device consisting of; o Processing devices o Accomodation device 3. Device as claimed in claim 2, characterized in that the foundation device 20 is provided with horizontal and vertical support bodies which are momentarily connected. 4. Device as claimed in claim 2, characterized in that the foundation device is provided with prestressed cables which are connected at the ends of the horizontal and the vertical supporting body. 5. Device as claimed in claim 4, characterized in that the cables can be tensioned individually with the aid of the relevant tensioning device. 30 1026005 -6- 6. Device as claimed in claims 3-5, characterized in that the complete foundation device connected to the piles guarantees the stability of the entire platform device. Device as claimed in claim 2, characterized in that the upper installation I is momentarily connected to the upper side of the foundation device. 8. Method as claimed in claims 1-7, characterized in that an I platform device with modular devices is built up in parts I at the relevant location. 9. Method as claimed in claims 3,4 and 5, characterized in that the cables are in a non-stressed state during the installation of the foundation device on the seabed. 10. Method according to claims 3,4,5 and 9, characterized in that the individual cables are set to the desired voltage after the installation of the foundation device with the aid of the I tensioning device. I 20 11. Method as claimed in claim 7, characterized in that the upper device I is fixed on the upper side of the foundation device, above the water surface. I 25 I 1026005