NO311185B1 - Substrate for a seabed installation and its use - Google Patents

Abstract

A pad for an subsea installatin in connection with petroleum-related drilling operations, in which a flexible mat (10), or a number of flexible mats (10), arranged to prevent the whirling up of bottom sludge, is placed underneath the subsea installation (14), or around the subsea installation (14), and where the mat (10), or mats, cover an area of the ocean bed (12) which is larger than the installation (14) which is placed on the ocean bed (12).

Description

The present invention relates to a substrate for seabed installations in connection with petroleum-related well drilling, as well as its use.

In connection with work on seabed installations, bottom mud occurs in most cases. This sludge has a very low density and is easily stirred up when touched. This bottom mud therefore affects today's working conditions to a very large extent, especially in connection with visibility, for example for a remotely operated underwater vehicle (ROV).

This often results in longer time for the completion of important work tasks, which in turn increases costs

the oil companies. As it is still important to focus on efficiency and feasibility in all stages of the operation, there would be a significant improvement for the working environment on the seabed if this bottom sludge did not represent any impact on the execution of the work tasks. It will be equally important to be able to carry out all the work tasks that may become necessary in emergency situations.

A standard seabed installation has a high specific weight due to the fact that it must sink into the seabed during installation. In many cases, this must be installed with a small degree of deviation according to the geologically most suitable location, and with future oil wells in mind. It is therefore also a challenge to be able to carry out the correct first placement of the seabed installation, as this entails a greater work task by having to install it again.

In today's installations, it is known to mount a metal plate under seabed installations. However, this plate is too small to counteract mud upwelling, as the plate most often covers an area corresponding to the bottom part of the foundation of the seabed installation. The plate can possibly prevent mud from being stirred up just below the area of the plate, although this is doubtful as the installation sinks into the bottom mud so that the plate is covered by the bottom mud. In all cases, the plate will not prevent mud from being stirred up under the parts of the seabed installation that protrude beyond the plate, nor in a wider area around the installation.

The purpose of this plate is not to counteract the stirring up of mud, but to ensure that the seabed installation is stabilized so that it stands firmly on the seabed. It would also not be natural to extend the plate so that it covers a larger area, as this would cause the entire underwater installation to be disproportionately heavy, and in addition, this would probably also cause difficulties in placing the installation correctly on the seabed.

There is therefore a need for a substrate around, or under, seabed installations regarding petroleum-related well drilling that can counteract the stirring up of bottom mud in a relatively large area around the installation. There is also a need for a substrate which helps to reduce the time it takes to carry out important tasks at the seabed installation. Which in turn will reduce costs for the oil companies. There would also be a significant improvement for the working environment on the seabed if this bottom sludge did not represent any influence on the execution of the work tasks. It will be equally important to be able to carry out all the work tasks that may become necessary in the emergency situation.

The substrate according to the present invention produces a number of advantages, in addition to counteracting the stirring up of bottom mud from the seabed, in that the substrate can act as a template for the installation of seabed installations, act as additional protection against the washing out of boreholes, act as a cover over bottom mud and prevent this from reducing working conditions on the seabed, capture objects that are lost on the seabed, capture accidental discharges and more easily identify the extent, provide better lighting conditions for remotely controlled underwater vessels, and provide better orientation conditions for remotely controlled underwater vessels.

The substrate according to the present invention is characterized in that a flexible mat, or a number of mats, designed to counteract the stirring up of bottom mud, is arranged under the seabed installation, or around the seabed installation, and where the mat, or mats, cover an area of the seabed that is larger than the installation placed on the seabed.

Preferred embodiments are characterized by the fact that the flexible mat comprises a flexible material which produces a specific weight heavier than water and which is designed to be placed over the seabed as a covering agent against the stirring up of bottom mud. The flexible mat may also comprise an opening, or openings, or conforming side edges, or a permeable area, adapted to abut the subsea installation's foundation. The flexible mat can comprise a rubber material, such as nitrile rubber, including weight elements, such as for example vulcanized steel pieces, and where the specific weight of the mat is heavier than water. The flexible mat can also comprise an elastic plastic material including weight elements, so that the specific weight of the mat is heavier than water or the mat can comprise a stainless steel fiber material. Furthermore, the mat can comprise a surface coating, such as, for example, a fluorescent material, designed to produce improved lighting conditions.

The present invention also relates to the use of a substrate in seabed installations in connection with petroleum-related drilling operations, where the substrate is arranged under the seabed installation, or around the foundation of the seabed installation, in an area on the seabed that is larger than the area covered by the seabed installation, and which is designed to function as a cover over the bottom mud and prevent it from swirling up, so that working conditions on the seabed are not affected.

In an alternative application, the substrate is arranged on the seabed and covers an area of the seabed that is at least twice as large as the area covered by the installation placed on the seabed. The substrate can also be adapted to function as a template for the installation of seabed installations, in that the mat is prepared for instructions regarding the location of the seabed installation, future pipelines, cables, etc. The substrate can also function as an additional safeguard against washing out of boreholes. Furthermore, the substrate can be equipped with transmitters, such as acoustic transmitters, to transmit the position of the seabed installation to a receiver above the water surface, such as a DP vessel.

The invention will now be explained in more detail with reference to the attached drawings, in which; Figure 1 shows a seabed installation placed on the seabed and a substrate according to the present invention, seen from the side. Figure 2 shows, similarly to Figure 1, a seabed installation and the substrate according to the invention, seen from the upper side.

A preferred embodiment of the substrate according to the present invention comprises a flexible mat 10 which includes a flexible material which produces a specific weight heavier than water and which is arranged to be arranged on the seabed 12 as a covering agent against the stirring up of bottom mud.

The flexible mat 10 can be made of a rubber material, such as nitrile rubber. To increase the specific weight of the mat, weight elements can be vulcanized. These weight elements may include pieces of steel, or other adapted material. The amount and weight of the weight elements that are vulcanized can also be adapted to the area of use, i.e. the bottom conditions where the seabed installation 14 is to be installed, by making the flexible mat 10 heavier or lighter depending on the amount of mud, type of mud, bottom topography, etc.

The weight elements are in a preferred embodiment vulcanized, but in other embodiments can be attached in other ways to the mat 10. What is important is that the flexible mat 10 has a specific weight that is heavier than water so that the mat lies like a cover over the bottom mud on the seabed 12, and prevents this bottom mud from being stirred up. It must also be so heavy that it is not affected by underwater currents or other external influences. If necessary due to bottom topography, current conditions, etc., the flexible mat can, if desired, be fixed more firmly to the seabed by means of fasteners, such as plugs, or the like. Furthermore, the flexible mat 10, in one embodiment, must withstand the underwater installation 14 being placed on top of the mat 10 without it being affected or moved too much. In another embodiment, the flexible mat 10 comprises one, or more, opening(s) approximately centered in the middle of the mat 10, through which the foundation 16 of the seabed installation 14 is guided, for placement on the seabed 12. In this embodiment, it is desirable that the opening in the flexible the mat 1.0 ends about the foundation on the 16th.

Furthermore, the flexible mat 10 can, in another embodiment, comprise a permeable area, for placing the installation's foundation, which has a smaller thickness than the thickness of the surrounding part of the mat, or a more flexible or weaker area than the surrounding part of the mat. The purpose of this permeable area with a smaller thickness, which is more flexible or with a lower tensile strength/elastic limit, is that it should yield when the installation is placed on top of the mat so that the foundation is pressed through the mat and down into the seabed. As the foundation is pressed in through the mat, the opening edges of the flexible mat will close to the foundation, preferably tightly connected.

The flexible mat 10 can also be produced from a material other than a rubber material, such as, for example, a flexible plastic material or a stainless metal fiber material.

As Figure 2 shows, a preferred embodiment of the mat is rectangular, but the flexible mat 10 can of course also assume other geometric shapes. Based on the bottom conditions, the flexible mat 10 can be produced or cut to the desired shape. When the flexible mat is to be placed on the seabed, it can, for example, be rolled up from each side before placement on the seabed, so that the mat consists of two rolled-up parts where the centre, or the opening/weaker area, of the mat is between the two rolled-up parts. The flexible mat 10 is then placed on the seabed with the center/opening, or the permeable area, where the seabed installation is to be placed, and the two rolled parts are rolled out in opposite directions. The seabed installation 14 can now be placed precisely on the seabed 12. The seabed installation's foundation 16 can be guided, or pressed, through the opening, the permeable area, in the flexible mat so that the foundation plate 18 rests stably in the seabed, and the edges of the opening end against the foundation. Preferably, the edges of the opening end close to the foundation, but this is not necessary.

If the bottom conditions and weight of the seabed installation allow it and the flexible mat 10 is large enough and flexible enough, the opening can be excluded and the seabed installation 14 can be placed directly down on the mat so that the mat lies below the installation 14, directly against the seabed 12.

In another alternative embodiment of the substrate according to the present invention, the substrate comprises two or more flexible mats that are placed around and next to the seabed installation. In this embodiment, the side edges of the mats 10 are designed so that they fit next to the foundation 16 of the installation 14. This alternative embodiment can be applied to already existing seabed installations by placing the mats next to the foundation and then rolling them out over the seabed. The flexible mats can be arranged so that they overlap each other.

In a preferred embodiment of the present invention, the flexible mat comprises a surface coating of fluorescent material to be able to add better light conditions to the seabed conditions. Furthermore, text can be applied to the upper surface of the mat that provides important information about orientation conditions, well number, future pipelines, cables etc. The mat's coverage area will normally lie at least 6-8 meters outside the existing foundation plate 18. This leads to the work area for remotely controlled underwater vessels is covered almost 100%..

In addition, the flexible mat can be equipped with acoustic transmitters that can transmit its position to DP vessels which can more easily find it again during later and repeated work on the seabed installation.

The substrate in the form of the flexible mat will produce many positive effects which are of decisive importance for the efficiency in carrying out the production of oil wells, such as; Act as a template for the installation of subsea installations; Act as additional protection against borehole washout; Act as a cover over the bottom mud and prevent this from reducing the working conditions on the seabed; Pick up objects that are lost on the seabed; Capture accidental spills and easily identify the extent; Provide better lighting conditions for remotely controlled underwater vehicles; Provide better orientation capability for remote-controlled underwater vessels.

A substrate has thus been produced which will considerably improve the working conditions for seabed installations.

Claims (12)

1. Substrate for a seabed installation in connection with petroleum-related drilling operations, characterized in that a flexible mat (10), or a number of flexible mats (10), arranged to counteract the stirring up of bottom mud, is arranged under the seabed installation (14). or around the seabed installation (14), and that the mat (10), or mats, cover an area of the seabed (12) that is larger than the installation (14) that is placed on the seabed (12). 2. Substrate in accordance with claim 1, characterized in that the flexible mat (10) comprises a flexible material which produces a specific weight heavier than water and which is designed to be placed on the seabed (12) as a covering agent against the stirring up of bottom mud. 3. Substrate in accordance with claim 2, characterized in that the flexible mat (10) comprises an opening, or openings, or adapted side edges, or a permeable area for the foundation (16), arranged to end up to the foundation of the seabed installation (14) (16). 4. Substrate in accordance with claims 1-3, characterized in that the flexible mat (10) comprises a rubber material, such as nitrile rubber, including weight elements, such as for example vulcanized steel pieces. 5. Substrate in accordance with claims 1-3, characterized in that the flexible mat (10) comprises a flexible plastic material including weight elements. 6. Substrate in accordance with claims 1-3, characterized in that the flexible mat (10) comprises a stainless steel fiber material 7. Substrate in accordance with one of the preceding claims, characterized in that the flexible mat (10) comprises a surface coating, such as, for example, a fluorescent material, designed to produce improved lighting conditions under water. 8. Application of a substrate, according to claims 1-7, at seabed installations (14) in connection with petroleum-related drilling operations, whereby the substrate is arranged under the seabed installation (14), or around the seabed installation (14), and in an area on the seabed (12) which is larger than the area covered by the seabed installation (14), and which is designed to act as a cover over the bottom mud and prevent it from swirling up, so that working conditions on the seabed are improved. 9. Application in accordance with claim 8, characterized in that the substrate is arranged on the seabed (12) and covers an area of the seabed (12) that is at least twice as large as the area covered by the installation (14) which is placed on the seabed. 10. Application in accordance with claim 8, in that the substrate is adapted to function as a template for the installation of seabed installations (14), in that the mat (10) is arranged for instructions regarding the location of the seabed installation, future pipelines, cables, etc. . 11. Application in accordance with claim 8, whereby the substrate also functions as an additional safeguard against the washing out of boreholes. 12. Application in accordance with claim 8, in that the substrate is equipped with transmitters, such as acoustic transmitters, to transmit the position of the seabed installation (14) to a receiver above the water surface, such as a DP vessel.