This application is a National Stage Application of PCT/NO2007/000036, filed Feb. 2, 2007, which claims benefit of Ser. No. 20060548, filed Feb. 2, 2006 in Norway and which applications are incorporated herein by reference. A claim of priority to all, to the extent appropriate is made.
The present invention relates to offshore production of hydrocarbons with the use of a geostationarily anchored vessel. Such a vessel is anchored to the seabed via a body rotatably mounted in the vessel, a so-called turret, from which mooring cables extend to the seabed. From below the vessel risers also ascend through the rotatable body. These risers are connected to a fluid manifold mounted above the rotatable body, from which lines extend for transferring fluid to tanks on board the vessel.
An object of the present invention is to convert an existing tanker, which has a hull with a number of tanks, so that the tanker can be used in an FPSO (Floating Production System).
The object of the invention is achieved with a method for converting a tanker, such as a Suezmax, to an FPS (Floating Production Ship), which method is characterised in that a tanker is provided with a hull containing tanks, that a vertical opening is made in the hull in one or more tanks, structural elements in the hull, such as frames and stiffeners, being cut and parts in the projected opening removed, that a cassette-like structure (cassette) with plate elements is provided to fit and connect with the said cut structural elements, which cassette has a vertical, through-going shaft, that the cassette is inserted in the cut-out vertical opening in the hull and connected via the plate elements with the said cut structural elements, thereby forming a structure which is incorporated in the hull and forms part of the strength of the surrounding hull, and that a body is rotatably mounted about a vertical axis in the vertical shaft.
The advantage of the invention is considered to be that the said cassette is incorporated in the existing hull in such a manner that the strength of the hull is not impaired.
The conversion may be undertaken in a dock, a dry dock or wet dock, but may also advantageously be performed at sea, with a cofferdam mounted under the tanker's bottom at the point where the bottom of the hull is to be opened.
The vertical shaft may advantageously be provided with a lower cylindrical section and an upper cylindrical section extended relative to the lower section, which lower cylindrical section in the cassette's incorporated state will be located near or in the hull's bottom area, and that the said body is rotatably mounted in the transition between the two sections.
By mounting the said body in the transition between the two sections, far down in the hull, preferably near the hull's bottom area, the hull strength in the hull's bottom area is exploited in an advantageous manner.
At the top of the said body a fluid manifold may advantageously be located in the shaft.
This offers the possibility of mounting the fluid manifold in a protected position under the vessel's main deck, thereby providing a dry working space in the upper part of the shaft.
The invention will now be explained in greater detail with reference to the drawing, in which:
As illustrated, the cassette 7 is constructed as a plate structure with a graduated cylindrical shaft 8, where the shaft 8 has a lower section 9 and an upper section 10. The upper section 10 has a larger diameter than the lower section 9. The cassette 7 also has structural elements in the form of plates 12, 40 and 13, see also
In
In
The body 14 has a bottom side 15 and a top side 16 and, as illustrated in
At its top side 16 the body 14 has a flange 21. This flange 21 is used for the rotational mounting of the body 14.
In the annular space between the central stem 18 and the external cylinder 17, the body 14 has a number of casings 22, 23 provided for mooring cables 24 and risers 25 respectively.
The mooring cables 24 are tightened by means of a winch 26 on the vessel's deck 5. On the deck are mounted a number of cable guides 27 (only one is illustrated in
The individual risers 25 ascend to a respective valve block 29 mounted on the top of the central stem 18. Each such valve block 29 comprises an ESO (emergency shut-off) valve.
On the central stem 18 is mounted a fluid manifold column, from which fluid lines 31 extend to the tanks on board the vessel.
Round the central stem 18 there is also provided an operating deck 32.
The space in the shaft 8 above the body's 14 top side 16 is dry. The body 14 is arranged in the tanker's bottom area, and is considered to be a wet area. Personnel can therefore carry out work in the dry space.
In the transition between the shaft's lower section 9 and the shaft's upper section 10 there is provided a packing and bearing arrangement 36, comprising an axial annular bearing and a radial annular bearing.
The packing and bearing arrangement 36 comprises a dynamic primary seal between the body's 14 flange 21 and a console 33. Above this dynamic primary seal is mounted a back-up bearing, in order to prevent the rotatable body 14 from being lifted up.
Under the flange 21 is mounted a secondary seal. This is intended to only be activated during inspection/replacement of the bearing elements. In addition there is a mounting seal.
A more detailed description of a preferred sealing and bearing arrangement for the body 14 can be found in the parallel patent application from the same applicant: “Geostationary anchoring and riser arrangement in a vessel”.
The special turret arrangement in
Number | Date | Country | Kind |
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20060548 | Feb 2006 | NO | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/NO2007/000036 | 2/2/2007 | WO | 00 | 12/31/2008 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2007/089159 | 8/9/2007 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3191201 | Richardson et al. | Jun 1965 | A |
3585954 | Muto et al. | Jun 1971 | A |
4155322 | Hansen | May 1979 | A |
Number | Date | Country |
---|---|---|
WO 9807616 | Feb 1998 | WO |
Number | Date | Country | |
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20090301379 A1 | Dec 2009 | US |