DK172680B1 - Offshore platform for oil production or drilling at great depths - Google Patents

Description

in DK 172680 B1

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a device for oil production at great depths, which is anchored to a stretch or chain anchor to the seabed, where risers or drill bits are advanced along the centerline of the structure of the platform from the seabed to the deck of the structure through a pontoon. level with the deck of the structure, where it is completed in a Christmas tree device or manifold, and where a flexible rudder system is guided from the Christmas tree device to the deck of the structure, the tubes being dimensioned to allow vertical movement between the deck and the pontoon, and the pontoon is placed in a center element so that it is movable upwards and downwards.

There are previously known devices for use in oil production, which are composed of a combination of a semi-submersible platform and a relatively small stretch-anchored platform (tension-leg platform). Such a construction is described e.g. in U.S. Patent No. 4,913,238. In the platform structure described in this patent, a stretch anchored platform is terminated in a pontoon which may either be located below or above the sea surface in an area located between the legs of the semi-submersible platform. A riser connection is established between the pontoon of the stretch anchor platform and the upper part of the semi-submersible platform. In the cases where the pontoon is located below the water surface, a waterproof barrier is used to ensure anhydrous access to the upper part of the stretch anchored platform.

U.S. Patent No. 4,966,495 further discloses a floating drilling and production unit having an upper portion of a stretch anchored platform. The top of the 35 stretch anchored platform is also in this embodiment located at surface level. U.S. Patent No. 4,702,321 discloses a drilling and production plate fortn with a deep-flowing pontoon, from which the stretching anchorage rod extends down to the seabed and where the floating part is secured by a star-shaped system of anchors.

However, none of these known constructions is intended for use at great depths and in severe weather conditions, nor will it be possible to use the structure under such conditions. A stretch anchor in a platform which is of the usual type and which extends over a water depth of e.g. 800 to 1000 m or more, and subject to severe weather conditions will require the use of a very heavy and very expensive stretch anchoring system.

15 It has further been found that this type of platform has its limitations. One of the problems, which is also partially encountered at normal water depths of 3-500 m, is ^ problems related to the oscillations to which the stretch anchorages are exposed, incl. self-free- J 20 women. These will lead to exhausting loads on the stays. movements in the water, e.g. undulation. These phenomena and fatigue loads will be amplified at depths of the said size of 800 to 1000 m under severe weather conditions and cause a restriction on the use of the stretched anchored platform in such conditions, fl The use of flexible risers also be limited by such great depths due to technical conditions,

Ten due to the high hydrostatic pressure, among other 30 factors. In all cases, flexible riser suitable for this depth will be extremely expensive.

The object of the present invention is therefore to provide a production and drilling construction which can be used at very great depths, incl. depths 35 greater than 1000 m.

3 DK 172680 B1

Reference is also made to EP-A-0256177, which discloses a barrel assembly having production and oil bearing devices. This is a single shaft construction, 5 which is anchored to the seabed by a stretch or chain anchorage, with riser or drill pipe carried along the center line of the structure from the seabed to the deck through a pontoon, whereby the risers extend upwards to the level of construction. This barrel structure 10 is a rigid structure floating at the sea surface.

Even if it is provided with an extended submerged hull construction, it will be affected by severe weather conditions and thus will not meet the above mentioned needs.

This object is achieved with a device of the type mentioned in the preamble, which is peculiar to the characteristic features described in the claims.

The embodiment of the present invention allows the use of a stretch anchored structure even at such great depths, the movements of the stretch anchored structure and its frequency of oscillation being controlled in such a way that they are substantially suppressed. This is accomplished by installing a stretch-anchored structural part or pontoon so far below the water surface that the entire stretch-anchored structure is affected as little as possible by the movements and disturbances in the water, these movements usually occurring in the upper layer. The pontoon is anchored either by means of the riser pipes alone or in the structure with separate stretching anchors. The floating structure is provided with a housing or the like, which may be connected to a frame structure, e.g. a gridwork which extends down to the level of the stretched pontoon and which provides a guide or slip protection of the pontoon.

This results in a substantial stabilization of the stretch anchored construction in its vertical direction, enabling stretch anchoring by means of riser or by a simplified stretch anchoring system, thereby reducing the load of the stretch anchored unit. At the same time, rigid risers can be used, which can extend upwards through the pontoon and up above the water surface until they are level with the deck of the floating structure. This means that wellhead Christmas trees or manifolds located at the top of the rigid risers will be located above the water surface and thus enable interconnection, separation and other maneuvers to be carried out in a dry environment. A flexible pipe section is then passed from the Christmas trees to the current platform 15 with connections to the other production units. This transition could also be carried out by means of rigid steel pipes, which are articulated in special couplings.

^ The riser tubes are arranged in this way in an opening in the deck and will be readily accessible. At the same time, this opening in the tire can be used to install a drilling rig, thus allowing drilling pipes to be passed down through the stretch anchored part and enabling the construction to be used for both drilling and production.

1 By forming the lower part of the floating structure as a frame, for example as a grid, a rigid and reliable protection and guiding of the * stretch anchored construction pontoon is obtained, while at the same time the rigid riser projecting from the pontoon to 1 covered, are well protected, thus being able to stand 30 or rise freely. If desired, they can be encased in a pipe element for additional protection. It is not a condition that the lower part of the structure must be arranged as a grid. However, it is necessary to arrange a pontoon guidance system. This can be done using DK 5 DK 172680 B1 of a grid system, among other solutions.

This in-depth structure can also be used to mount a standard chain anchor of the floating structure, thus enabling the point of intersection to be advantageously located in its lower portion. A chain anchorage of this kind is also an advantageous, inexpensive solution. In the event of wave movements and in strong winds, the floating structure could drift to the side, thus bending the stretch anchor rods to about an angle of e.g. 5-7.5 *.

At a depth of, for example, 1400 m, the consequence of this will be that the pontoon will be pulled vertically downwards in its guide, approximately a length of between 7 and 14 m. This displacement will occur only in one direction, 15 and it will not be to compensate for this by means of the flexible tubes which have been extended from the wellhead Christmas tree or manifold at the top of the riser device. Thus, it has surprisingly been found that with a structural embodiment according to the invention, the stretch-anchored structural member can be controlled so well that a simplified variant of this type can also be used at very great depths, avoiding the loads that otherwise affect the stretch anchors. while at the same time, a dry and reliable transition of the stirrups to the wellhead Christmas trees is achieved over the surface and a flexible transition to the actual production plant.

A further advantage of the embodiment of the structure is the opportunity it provides to reduce the distance between the risers at the tire level.

The required distance between the stirrups e.g. for 1400 m, will usually be 5 m or more to avoid collision. For 300-500 m this gap will normally be 2.5 to 3 m.

By arranging the risers through a pontoon which is well submerged, it will therefore be possible to maintain e.g. a gap of 5 m between the risers at the bottom of the pontoon, while the distance between the risers in the tire level may be smaller, e.g. 2.5 m.

5 This enables a significant reduction in the tire as the structural design of the tire becomes simpler, with the resulting savings in steel weight and cost.

In this case, such a slope of the risers will normally be in the range 1-2 °. This will not cause any major problems for the risers or drilling function, but will provide significant advantages in the arrangement of the Christmas tree area and the associated tire solution.

The invention will now be explained in more detail with the aid of an embodiment shown schematically in the drawing, in which fig. 1 is a side view of a device according to the invention for use in a platform construction; and FIG. 2 is a perspective view of the upper part of this device according to the invention.

The drawings show a device according to the invention and as an embodiment is shown a semi-submersible platform structure composed of a lower 1. stretch anchored platform part 1 and an upper semi-submersible platform structure, generally designated 2.

4 The platform part, ie. the deck is designated 9, while the bracket or lower portion is designated 8. The lower 30 is here designed as a grid, but may, in | eg. in the case of a concrete structure, also have one in another form. The stretch anchored platform is attached i to the seabed, and the risers extending up to j; the pontoon 5 of the platform portion extends from a riser frame 3 on the seabed. The stirrups and possibly m 7 DK 172680 B1 stretch anchor rods are generally and collectively indicated • by reference number 4. The stretch anchored platform pontoon 5 is mounted so far below the sea surface that it is affected as little as possible by the movements 5 of the water. Above the pontoon, the stirrups extend further as rigid elements 6 to the surface and are terminated there in a Christmas tree device 7. If desired, the Christmas tree device can also be combined with a manifold. From the Christmas tree device, flexible tubes 10 11 lead to a connection point on the current tire 9 on the production platform. The length and arrangement of the flexible tubes are of such length and in such a manner that they will be capable of absorbing displacements of the pontoon relative to the floating platform. Above the hole in the deck 9 of the construction where the rudders are completed, drilling facilities 10 can be placed to enable drilling to be carried down through the platform to the seabed. This is shown in a purely schematic way by indicating a drill tower 10. The floating platform is secured by a chain anchorage generally designated 12.

In FIG. 2, the upper part of the device according to the invention is shown in more detail. Here is seen the floating platform structure 2 with the deck 9 and 25 of the construction brackets or the submerged structural part, which comprises vertical columns 14 with cross members 15 and 16. These elements 14, 15 and 16 together form a grid structure part which, in addition to providing the necessary buoyancy, is intended. protecting the upper portion 30 of the stretch anchored platform and the upwardly rising riser 6. The submerged portion of the platform is made so long that it projects down to the still water level where the pontoon 5 is located. The pontoon 5 is preferably located in a guide housing 17, which causes the pontoon to perform only vertical movements. It has been found that the platform, under the influence of wind and weather, will mainly move out to the side only, and this means that the pontoon 5 will essentially move in a downward direction and thereby 5 will not be forced upwards to a height above the level of construction achieved by a vertical positioning of the stretch-anchored platform only. This means that the rigid riser 6 can be continued up to the level of the tire 9 of the structure, where there may be 10 wellhead Christmas trees placed, and possibly manifolds for further transfer of the products. At this dry place are connected flexible pipes leading to production devices on deck 9. These structural parts are not further illustrated. The chain anchor of the semi-submersible platform can be mounted parallel to the leg 14 of the platform in the upper part, with the result that the chain anchorage begins at an anchor point 13 which may be located at a stiffening in the grid.

The embodiment shown with a lower gridwork construction on the semi-submersible platform results in the movement pattern of the associated stretch anchored platform part being controlled to such an extent that it is possible to have a simplified 25 stretch anchorage of the structure, which is kept as quiet as possible at the same time. thus minimizing material fatigue and all the problems that it causes.

Thus, with simple means, a production and drilling platform is provided, which can be used at both normal depths, but above all is intended to be used at great depths, such as 1000-2000 m, and where the platform but also can accommodate storage of petroleum products.

The device can of course also be used at water depths below 600 m.

Although the invention has been described above with reference to a semi-submersible platform structure, it is clear that the idea of the invention can also be applied to other types of vessels, e.g. ships.

Such constructions are also considered to be within the scope of the invention.

Claims (6)

10 DK 172680 B1 An offshore platform for oil production or drilling at great depths, which platform is anchored by a stretch or chain anchorage (12) to the seabed, where the rig (4) or drill pipe is guided along the center line of the structure (2) from the seabed to the tire (9) of the structure through a pontoon (5), the risers (4) extending upward to the level of the tire (9) of the structure, terminated in a Christmas tree device (7) or manifold, and where a flexible pipe system (11) from the Christmas tree device (7) to the deck (9) of the structure, the tubes (11) being dimensioned to allow vertical movement between the deck (9) and the pontoon (5), and the pontoon (5) being positioned in a center element (17) so that it is movable upwards and downwards, characterized in that the structure comprises a plurality of brackets (14) which are connected to each other by means of transverse elements (15, 16) which together with the brackets 20 provide a gi and that the pontoon (5) is located below the motion zone of the waves in the water. Platform according to claim 1, characterized in that the Christmas tree device (7) is located on a supporting frame which is mounted and optionally guided in an opening in the tire (9). Platform according to claim 1, characterized in that the pontoon (5), the risers and the bracket structure are designed to permit passage of a drill pipe from a drill tower which is or may be placed above the riser hole in the tire (9). Platform according to claim 1, characterized in that the riser extends downwards to a large depth of water, e.g. between 600 and 2000 m. Platform according to claim 4, characterized in that the riser pipes in the stretch or chain anchored part are located at a longer distance between each other than the riser pipes in the tire level. Platform according to claim 1, characterized in that the tubes (11) are guided in a shuttle arc to the tire 5 (9).