NO132909B - - Google Patents

Description

The present invention relates to a marine platform for the extraction of natural resources under the seabed. More particularly, the present invention relates to a platform comprising a caisson which in the operational position is intended to stand on the seabed and which in this position is intended to rise above the sea surface to support a deck structure, which caisson has a lower, in the operational position completely submerged section of concrete which is formed by a plurality of vertical cells, as well as an upper section protruding from the lower section which is formed by separate cells and which, at least in the area of the operating water line, has a smaller cross-section than the lower section.

In the past, it has been most common to make drilling platforms entirely

of steel. This results in sleeker and lighter constructions that suffer from significant weaknesses. The main known types of platforms are:

a) Floating platforms that fall outside the scope of this invention. b) Submersible platforms which stand on the seabed, but which, due to their light construction, are less suitable for

greater depths and weather-resistant sea areas.

c) Jack-up platforms which, due to their flimsy construction, are easily destroyed when they are placed

on the seabed.

d) Stationary production platforms that are staked firmly in the seabed - and therefore have the weakness that they are difficult

to move.

In the case of platforms of the above-mentioned type, a construction is desired which has an optimal storage volume, which absorbs a minimum of wave and wind forces and which is stable in the operating position. Furthermore, a platform construction is required which is relatively simple and cheap to build.

From the U.S. patent no. 3,081,600, a marine platform structure is known for the extraction of natural deposits under the seabed, which platform structure in operational position is intended to stand on the seabed.

The platform comprises a concrete barge which in operational position stands on the seabed and which in this position is completely submerged. The barge is equipped with a number of vertical and horizontal partitions, whereby a number of separate and watertight rooms are formed. The barge is equipped with six separate towers that protrude from the barge to support a working deck. The towers, which have a smaller cross-section than the barge, are braced

in the barge's upper deck plate. The platform pursuant to the above-mentioned U.S. patent document no. 3,081,600 is anchored to the seabed by means of piles driven into the bottom. The design of the barge with the vertical and horizontal partitions makes efficient and rational construction difficult. It should be noted in this context that the design of the barge also makes construction using the sliding formwork principle difficult. Furthermore, the upper deck of the barge will have to be heavily reinforced and prestressed if the forces absorbed by the towers and caused by bellows, wind and current are to be transferred to the barge without it being damaged or destroyed. In addition, it should be noted that the use of anchoring piles increases the cost of the project.

From the U.S. patent no. 3,537,268, it is known to use the sliding formwork principle when building a marine structure. According to the U.S. patent document no. 3,537,268, the structure's bottom section is stopped in a dry dock, after which the dry dock is filled with water and the bottom sections are towed out into deep water where the remaining walls are pulled up with a sliding form. The construction will have a constant freeboard during the entire stoping process, as the finished sections of the construction are lowered successively as the stoping of the construction progresses. The purpose of the present invention is to provide a flat-form construction which absorbs the least possible wave and wind forces and where local stress concentrations are avoided. Furthermore, the purpose of the present invention is to provide a platform construction which is well suited for stoping by means of the sliding formwork principle. Furthermore, the present invention aims to provide a platform construction which has an optimal storage volume while keeping the intercepted wave and wind forces at as low a level as possible. A further purpose is to provide a platform construction where the drilling can take place in a shielded pool or through a well. A further purpose is to provide a platform structure which, in operational position, stands stably on the seabed under its own weight without the use of anchoring means.

According to the present invention, the above-mentioned purpose is achieved by the fact that the upper section is formed by some of the vertical cells in the lower section, but not all, being extended above the waterline, as the platform in operating position stands stable on the seabed by its own weight without use of anchoring agents.

According to a further embodiment, the platform is equipped with a borehole that runs from the deck structure down to the seabed, which borehole is formed by one of the extended cells.

A platform according to the present invention will be robust. As the towers in the upper part form an extension of the cells in the lower part, the forces absorbed by the upper part, caused by waves and wind, will be transferred directly to the lower part, resulting in small local stress concentrations ions. In addition, most of the walls in both the upper and lower parts are vertical, so that the construction is well suited for construction using the sliding formwork principle. Due to its design, an optimal storage volume is also achieved at the same time that the influence of waves is reduced.

Furthermore, according to the present invention, the platform can be extended so that drilling can take place in a shielded borewell that runs from the deck structure down to the seabed, which borehole is. formed by a. of the extended cells. Thereby, the possibilities of accidental oil spills are reduced, at the same time that the drill string is protected against waves, ships, strpm and ice.

Further advantages and features of the present invention will appear below in the description of an exemplary embodiment with reference to the drawing, where:

Figure 1 shows a platform 1 according to the present invention, standing on the seabed. The platform comprises, a lower section 11, an upper section 12 as well as a deck shoe structure 8 which is suspended above the sea surface by the upper section 12. The lower section 11 consists of a series of vertical cells 2, 3, 4 with a bottom plate 5 , 10. The upper section 12, which consists of separate cells 2, 3, is formed by some of the cells in the lower section, but not all, being extended above the waterline.

One of the extended cells 2 is used as a well for the drill string 7 with accessories for drilling, while the other cells 3, 4 can be filled with oil, water, sand or air as required. At its lower end, the lower part is also equipped with ribs 9 which are intended to be pressed a short distance into the seabed.

Proceed according to normal constructive rules, such as are known

for caissons and for use as diving platforms and quays, the lower section will have a strong bottom plate and a lighter top plate.

A platform; as shown will be very heavy, and in operational position

on the seabed, the platform will be able to be stable in all weather conditions. When the: lower part is partially filled with air, the platform will float up and, due to its shape, the buoyancy point will lie above the center of gravity.

It thereby becomes stable; itself also in a floating state without the use of complicating precautions such as adjustable legs on the derrick or auxiliary pontoons.

The extended cells 2, 3 which protrude above the water surface can easily be filled or emptied with sand if necessary. Sand-filled cells will further increase stability..

A platform similar to the one shown in Figure 1 is well suited for production by means of sliding formwork and can thereby be constructed relatively quickly and cheaply.

It will immediately be understood that the design of the invention shown in the drawing and described above is only intended to illustrate the inventive idea, and that this can be varied in a number of ways within the idea of the invention as expressed in the claims.

Claims (2)

1. Marine platform for the extraction of natural resources under the seabed, comprising a caisson which in its operational position is intended to stand on the seabed, and which in this position is intended to protrude above the sea surface to support a deck structure, which caisson has a lower, in the operational position, a completely submerged section of concrete which is formed by a plurality of vertical cells, as well as an upper section projecting from the lower section which is formed by separated cells and which, at least in the area of the operational water line, has a smaller cross-section than the lower section , characterized in that the upper section is formed by certain a-^ the vertical cells in the lower section, but not all, being extended above the waterline, the platform in operating position standing stable on the seabed by its own weight without the use of anchoring means. 2. Marine platform as specified in claim 1, characterized in that the platform is equipped with a well, which runs from the deck structure down to the seabed, which well is formed by one of the extended cells.