NO176408B - Procedures and facilities for foundations of elements on the seabed - Google Patents

Abstract

Method and facilities for founding preferably removable offshore elements (1) on the seabed (2). The element is provided with downward skirts (3) and with a through shaft (6) from the upper side of the element (1) to its underside. During installation on the seabed (2), a slurry of sand and seawater is pumped into hoses (5) from a surface vessel (4) down through the shaft (6) and out below the underside (12) of the element (1). The hoses (5) are held in position by a system of wires (7) and pulleys (8). During the filling, the water content of the slurry (9) will escape through the shaft (6) to the surrounding sea. The hoses (5) are removed after filling. The method can advantageously be used for smaller platforms, and allows easy movement of the element (1) (the platform) and new injection at the new installation site.

Description

The invention relates to the foundation of preferably movable offshore elements on the seabed.

More specifically, the invention is aimed at those situations where the seabed does not form a flat surface for the element and where special measures must be put in place to ensure that the foundation will have a good foundation against the seabed without excessive costs, while at the same time it must be possible to move the element with any existing equipment to a new location in a simple and inexpensive way.

Measures for the foundation of such elements, such as e.g. can form support for one or more towers that carry a platform above the water surface for the exploration/extraction of hydrocarbons, is known. The most common is to equip the element with downward-directed skirts that penetrate into the seabed during lowering, after which seawater trapped within the skirts and under the element is pumped out, and pockets caused by unevenness in the seabed are filled with a concrete mixture (grout) to ensure evenly distributed load over the entire bottom surface of the element. The procedure is effective, but costly, and finds application particularly where very large constructions with considerable weight are involved. The procedure is otherwise very efficient, and is mostly used where there is no question of moving the element with any attached constructions, because a move to a new operating site would be very difficult and costly. In cases where it concerns smaller constructions, e.g. a foundation that is to be a smaller platform, the aforementioned method would be unnecessarily extensive and too costly.

As an example of prior art in the area of the present invention, Norwegian explanatory document no. 143,755 should be mentioned. This specification document deals with point-foundation of jackets. In contrast to the present solution, the method cannot allow large differential pressures in the base. The volume to be injected is not enclosed, and the method is not applicable for filling large surfaces and large volumes. British patent application no. 2123463 deals with the foundation of simple piles. The method is not applicable where injection pressure is required. The volume to be injected is not enclosed, and the method is therefore not applicable for complete filling of large surfaces. Swiss patent no. 528640 deals with the foundation of sunken boxes. The procedure requires the excavation of a trench in the seabed. The volume to be injected is not enclosed, and the method is therefore not applicable for complete filling of large surfaces. The method also does not allow for the evacuation of fines during the filling process.

Compared to previously known technology, using the present invention, a technically and economically advantageous solution is achieved by the foundation of preferably movable elements on an uneven and/or sloping seabed. Another significant advantage of the invention is that the element, with possibly attached equipment, can be raised from the seabed and moved to another location in a simple and inexpensive way.

The element (foundation) is equipped with a skirt in a known manner and any cavities between the underside of the foundation, and the seabed is filled by injecting a slurry of sand and water which is pumped down under the element through hoses from e.g. a surface vessel. The element is equipped with a continuous opening, preferably centrally on the element, and the sand/water mixture is pumped through the hose(s) from the surface vessel through the opening in the element to the places under the element that do not have direct contact with the seabed. With suitable equipment, the hoses can be guided to the appropriate places under the element, so that the cavities can be systematically filled up until the element rests with its entire bottom surface (underside) on the seabed. Excess water during filling escapes up through the continuous opening and into the surrounding sea. The opening also functions as a settling tank for fines. The element is only exposed to limited pressure during the filling operation as the through opening ensures pressure equalization. If the element is to be moved to a new position, it can be easily moved, and a new injection is carried out adapted to the situation at the new location.

The present invention specifies a method and a facility for the foundation on the seabed of preferably movable offshore elements which are equipped with downward-facing, tight skirts, where a cavity is formed between the underside of the element, the skirts and the seabed when said element is set down on a slope and/or uneven bottom, is filled with sand or the like which is fed into the cavity using hoses that transport a sand/water mixture (slurry) from a surface vessel down through a preferably centrally located shaft, where the method is characterized by the shaft being arranged as an open shaft through the element and into said cavity, whereby the element, during the filling operation of the cavity, is exposed to a limited pressure, essentially equal to the ambient pressure, as the skirt is led down to the seabed, and where the facility is characterized by the fact that it comprises a preferably centrally located open shaft through the element, in which hoses are arranged which are connected to ten at the sea surface l a surface vessel, and which is brought into the cavity at the bottom of the sea.

In the following, the invention will be described by means of an embodiment and attached figures 1, 2, and 3, where an element 1 is sunk into the seabed 2. The element 1 is equipped with a skirt 3 that penetrates into the seabed 2. The element 1 can be the bearing part of e.g. a platform without such equipment being shown, as it is not part of the present invention.

The drawing shows that the element 1 forms an angle with the seabed 2, and there is thus a need to build up underneath it so that the element 1 in the created position rests on its entire underside 12. This is done by a sand/water mixture (slurry ) 9 is pumped from a surface vessel 4 through one or more hoses 5 which are led down through a shaft 6 which leads from the upper side of the element 1 to its lower side 12. On the lower side 12 of the element 1, the hoses 5 are held in the correct position by means of a system of cables 7 and pulleys 8. Connection of the hoses 5 can be carried out e.g. using an ROV. It added sand

11 gradually fills the open space 10 between the element 1 and the seabed 2, and the accompanying water masses will escape through the shaft 6 to the surrounding sea. After finishing the injection, withdraw

the hoses 5 up and removed.

With the injection method shown, there is no need for previously installed injection pipes, and it is also possible to use sand 11 which does not settle so that it is easy to move the element 1 to a new installation location. At the new location, the hose equipment is reconnected for injection adapted to the new installation location.

Claims (10)

1. Method for foundation on the seabed (2) of preferably movable offshore elements (1) which are equipped with downward-directed, tight skirts (3), where a cavity (10) is formed between the element's (1) underside (12), the skirts (3) and the seabed (2) when the aforementioned element (1) is placed on a sloping and/or uneven bottom (2), is filled with sand or the like. (11) which is supplied to the cavity (10) by means of hoses (5) which transport a sand/water mixture (slurry) (9) from a surface vessel (4) down through a preferably centrally located shaft (6), characterized in that the shaft is arranged as an open shaft through the element (1) and into said cavity (10), whereby the element (1), during the filling operation of the cavity (10), is exposed to limited pressure, essentially equal to ambient pressure, as the skirt (3) is led down to the seabed (2). 2. Method as stated in claim 1, characterized in that the centrally located shaft (6) through the element (1) is adapted to accommodate said flexible hoses (5) while allowing water from the slurry mixture (9) to escape through said shaft (6) and into surrounding bodies of water. 3. Method as stated in claim 1 or 2, characterized in that the shaft (6) is used as a settling tank for fines. 4. Procedure as specified in claim 1, 2 or 3, characterized in that the hoses (5) and other necessary equipment such as cables (7) and pulleys (8) are mounted on the element (1) before immersion. 5. Method as stated in any of the preceding claims, characterized in that the hoses (5) can be controlled, moved and held in the desired position under the underside of the element (12). 6. Procedure as specified in any of the preceding claims, characterized in that the hoses (5) are connected and dismantled using an ROV (remotely operated vehicle) or a diver. 7. Method as specified in any of the preceding claims, characterized in that the hoses (5), after filling, are pulled up and removed from the element (1). 8. Method as specified in any of the preceding claims, characterized in that a sand/water mixture (slurry) (9) is used where the sand may consist of non-sedimentable sand. 9. Facility for foundation on the seabed (2) of preferably movable offshore elements (1) which are equipped with downward-directed tight skirts (3), where a cavity (10) is formed between the underside (12) of the element (1), the skirts ( 3) and the seabed (2) when the aforementioned element (1) is placed on a sloping and/or uneven bottom (2), is filled with sand or similar (11) which is fed into the cavity (10), characterized in that it comprises a preferably centrally located open shaft (6) through the element (1), in which hoses (5) are arranged which are connected to a surface vessel (4) at the sea surface and which are led in at the seabed (2) in the cavity (10). 10. Facilities as stated in claim 9, characterized in that the hoses (5) are controlled and held in position on the underside (12) of the element (1) by means of a system of cables (7) and pulleys (8).