DE2110204B2 - Device for connecting a pipeline laid on the seabed to a platform arranged above the surface of the water - Google Patents

Description

The invention relates to a device for connecting a pipeline laid on the seabed to one above the surface of the water arranged platform, which is supported with substantially vertical supports on the sea floor, consisting from a bending shoe connected to the supports to form a pipe bend in a distance corresponding to the water depth from the connection end of the pipeline.

Such a device is already known (TH EOIL AND GAS JOURNAL, Nov. 20, 1967, p. 198). Here is a flexible shoe that has a about 90 ° having curved bending surface, at the lower end of a support of the platform at a small distance above fixed to the seabed, while the end portion of the on the seabed to the platform guided pipeline is bent up to form a towering riser pipe. To do this, the Pipeline running past the platform with a lateral alignment movement under the bending shoe brought and then from the platform by means of a pull rope engaging the pipe end section pulled up in contact with the bending surface of the bending shoe and thereby curved until the end section rises up as a riser along a support up to the platform. The riser pipe is then installed along the Support spread clamps on the support by turning the water depth in the area the end section of a pipeline corresponding to the platform, which is, for example, a transport line for crude oil or natural gas from a . Can act underwater deep drilling, it is advantageously unnecessary to use a separate riser to connect to the seabed. However, this makes the required lateral alignment of the pipeline under the bending shoe located on the seabed with greater water depth, there are increasing difficulties in the case of greater water depths, in which there are limits to the use of divers, the implementation and Monitoring the alignment on the bending shoe becomes problematic.

It is also already known for the riser to be laid on the seabed to form a riser Pipeline at the end on the platform side with an over to provide about 90 ° curved arch and this arch along a support of the platform to the seabed to settle down, the water depth corresponding to the lowering of the riser pipe sections (DE-AS 12 40 013). In this way, connection work or alignment work on the Seabed are bypassed, but there is not only the disadvantage that the pipeline njr from the Can be relocated away platform, in particular, the lowering must be in close coordination with the The pipeline was laid by a watercraft moving away from the platform, since otherwise damage to the pipeline or riser will occur. For this reason, the Work can be precisely programmed taking into account a number of factors.

The invention is based on the object of further developing the device mentioned at the outset in such a way that that it can also be used without problems in greater water depths.

This object is achieved according to the invention in that the flexible shoe is about a horizontal axis pivotable and slidingly displaceable in the vertical direction essentially over the height of the supports is and that holding devices for the sliding connection of the pipeline with the flexible shoe are provided.

This training creates the possibility of the pipeline, which is also led past the platform when the flexible shoe is in an upper position, preferably near the water surface, the pipeline to bring it up to the flexible shoe and to connect it to the flexible shoe, whereupon the Bending shoe is lowered with advancing curvature of the pipeline to the sea floor, for example by means of gravity. The pipeline is gradually and progressively bent, wherein the bending shoe is pivoted through an angle of about 90 ° and with an adapted Radius of curvature provided bending surface of the bending shoe a local overstress and thus a Prevents the pipeline from buckling. After the ascending pipe section has been formed, it can then likewise be clamped to a support of the platform. It can be seen that there is no work on the seabed here are to be carried out and that the restrictions that apply when lowering a ready-bent pipeline from the platform.

Expedient refinements of the invention result in the following.

An embodiment of the invention is shown below explained in more detail using a schematic drawing.

Fig. 1 is a side view of a facility located near the coast and shows one in accordance with the invention Way pipeline to be connected with it.

F i g. 2-4 are similar to FIG. 1, however, show various stages involved in applying the method and the Device according to the invention are traversed

In Fig. 1 one recognizes a total of 10 designated, near the coast in a body of water arranged system, with the substantially vertical support means in the form of several legs or supports, of which in FIG. 1 only the front supports 11 and 12 can be seen; the legs of the Plant are based on the bottom 13 of a body of water 14, for. B. an ocean. The supports carry a general horizontal platform 15, which lies above the water surface 16. From the platform 15 extends a Rail 17 generally down to the seabed 13, and this rail is fixed to the in any manner Seabed connected. Although the rail 17 is shown in FIG. 1 as a separate component, it could it can also be formed by one of the legs of the support means, and is therefore used here as part of the the support means carrying the platform 15 is considered. Between the legs 11 and 12 k inside Struts 18 may be provided in order to increase the rigidity of the system 10.

On the rail 17 is a flexible shoe 19 on any Way slidably guided and mounted so that it is opposite the rail around a him with the rail connecting axis 20 can rotate. The flexible shoe 19 has a Biegeflächec 21, which on a yet to be explained Way can be brought to bear on a pipeline. Furthermore, the flexible shoe 19 comprises several holding devices 22 and 22, i, or the like provided with slips. With this arrangement it is possible, a pipeline 23 in the from F i g. 1 apparent way with the help of the holding or clamping devices 22 and 22; i to be brought into contact with the flexible shoe 19.

That; The free end 24 of the pipeline 23 is preferably connected to a boat 25 or the like Watercraft firmly connected. The other end of the pipe 23 extends to the desired one Point, e.g. B. a system located on land (not shown) or to one located near the coast Samnielanlage. The watercraft 25 is provided with a shoe 26 or the like, which is attached to the On the underside of the pipeline. The shoe 26 is rotatable with the aid of a clamping device 27 Watercraft 25 connected. The flexible shoe 19 also includes weighting means, not shown, z. B. a ballast water tank, which serves to hold the flexible shoe 19 in the body of water 14 along the rail 17 to move downwards and in doing so to gradually rotate the bending shoe in a manner still to be explained or to pan.

A boat used to apply tension

28 or a similar watercraft is connected to the system 10 by an anchor rope 29. With the anchor rope

29 are several floats 30 and 31, of which F i g. 1 shows only two for the sake of clarity, connected, and they float on the water surface 116. On the floats 30 and 31 are Suspension ropes 32 and 33 attached, each of which trained, automatically releasable clamping devices 34 and 35 is connected along the Pipe 23 are distributed at intervals. The floats 30 and 31 can with not shown Winches to haul in the suspension ropes be equipped so that the pipelines 23 or raised can be lowered. As in Fig. 1 by the arrows the two watercraft 25 and 28 and on the suspension ropes 32 and 33 indicated, it is in the described arrangement possible to support the pipeline 23 when the applied tension is eliminated, so that the assembly, which the pipeline 23, the bending shoe 19. the holding devices 34, 35, etc., can be lowered along the rail 17 to the sea floor 13. Along the Leg 11 of the system 10 are preferably a plurality of pipe clamping devices 36 at intervals distributed; these devices serve a purpose yet to be explained.

According to FIG. 1, the pipeline 23 is first at the water surface 16 in the vicinity of the system JO arranged. The free end 24 of the pipeline 23 is past the system 10 to the watercraft 25 moved along a distance which is approximately equal to the water depth of the body of water 14 between the water surface 16 and the sea floor is 13. The part of the pipeline 23 which is adjacent to the system 10 is included slidably connected to the flexible shoe 19 by the slip devices 22 and 22a. Then a Winch rope 37 with one end on the holding devices z. B. the device 22, while the the other end of this rope is connected to a winch 38 on the watercraft 25. The watercraft 25 carries a pipeline tensioning device 39a. through which the pipeline 23 is held in its position. In At this point the pipeline 23 is carried by the watercraft 25 and 28 as well as the suspension ropes 32 and 33 supported and kept under tension, as indicated by the arrows. If you have the Stress is reduced or eliminated and the ballast water tank of the flexible shoe 19 partially fills, the slides Bending shoe down along the rail 17, as shown in FIG. 2 is shown. The rope 37 is drawn from the winch 38 yielded while the suspension cables 32 and 33 are operated so that they the pipeline 23 during of subsidence. According to FIG. 2 to 4 becomes here the bending shoe 19 is pivoted about its bearing axis 20 until the bending surface 21 according to FIG. 3 begins to come to the plant of the pipeline 23. At this point you can get more swimmers 39 and 40 provided between the watercraft 25 and the system 10. These floats also come with suspension ropes 41 and 42 similar to the suspension ropes 32 and 33, and these ropes are provided with the holding or Clamps 22 and 22a connected. The floats 39 and 40 can as well as the Floats 30 and 31 can be equipped with winches for hauling up the suspension ropes. Thus, he can between the flexible shoe 19 and the watercraft extending part of the pipeline 23 is supported while the pipeline is being lowered.

Finally, the flexible shoe 19 according to FIG. 4th the sea floor 13 where it has been pivoted to a substantially vertical position. the Bending surface 21 of the shoe 19 causes the pipe 23 to be gradually bent so that the part the pipeline between the liic shoe 19 and the

occupies, d. H. that this part extends generally parallel to the supports 11 and 11a of the system 10. The floats 39 and 40 with the suspension ropes 41 and 42 are now removed from the pipeline 23 separated. At the same time, the free end of the pipeline of the clamping device 39a on the Watercraft 25 separated, and the flexible shoe 26 can be used to pull the pipeline 23 against the Push prop J1. Now you can have the free end 24 connect the pipeline in any manner not shown with the platform 15 after one the part of the pipeline between the flexible shoe 19 and the watercraft 25 with the help of the along the Support U distributed clamping devices 36 has set. Finally, the holding or clamping devices 22, 22a. 34 and 35 are separated from the pipeline 23; however, this process is in the Drawing not shown.

According to the description above, the vertical part of the Pipeline 23 extending to the top of the platform 15 with means for receiving the Connect the conveyed material of a deep borehole that has been created through one of the supports of the platform (not shown), or this part of the pipeline can be dirck; a borehole or one to the Platform-leading other pipeline connector Although the drawings show the »Sleigeleitung« i a vertical position, but the extension could also be made at any angle arrange the horizontal, e.g. B. generally or substantially at right angles to the system 10, ohm thus leaving the scope of the invention wire For example, you could bend the pipe by 45 and then connect it to another pipe Connect cut to make a connection to the top of the platform 15. Furthermore, di <needs itself The pitch graduation does not extend to the surface of the water zi. She can /. B. only along a short stretch * over the upper end of the flexible shoe 19: run. In that case you could come back in a later Time to connect pipe sections to the end of the line 23 in order to get to the top of the line Platform to create 15 leading directors.

The curvature * or bending radius of the pipeline 23 can be determined using known methods so that it does not reach a predetermined minimum value falls below in order to avoid kinking the pipeline zi. For this purpose you can z. B. those in dci Apply US Pat. No. 3,466,882 to the method described.

For this purpose 4 sheets of drawings

Claims (5)

1 claims: 1. Device for connecting a pipeline laid on the seabed to an over The platform arranged on the surface of the water, which is supported by essentially vertical supports on the Supports the seabed, consisting of a flexible shoe connected to the supports for training purposes a pipe bend at a distance corresponding to the water depth from the connection end of the Pipeline, characterized in that the flexible shoe (19) is about a horizontal axis (20) pivotable and sliding essentially over the height of the supports (11, 12) in the vertical direction is displaceable and that holding devices (22, 22a ^ for the displaceable connection of the pipeline (23) are provided with the flexible shoe (19). 2. Apparatus according to claim 1, characterized in that the bending surface (21) of the bending shoe (19) merges into a straight surface leading to the pipeline (23), with which the holding devices (22, 22a ^ cooperate. 3. Apparatus according to claim 1 or 2, characterized in that the bending shoe (19) along a rail (17) connected to the supports (U, 12) between the platform (15) and the seabed (13) is slidable. 4. Device according to one of claims 1 to 3, characterized in that the flexible shoe (19) in the Area of its axis (20) is guided on the supports (11, 12) or on the rail (17). 5. Device according to one of claims 1 to 4, characterized in that support means (29 to 35, 37 to 42) for tensioning the pipeline (23) when it is lowered to the seabed (13) are provided.