Apparatus and a method are disclosed for venting gas from an annulus region of a flexible pipe. The method includes the steps of depressurising a bore region of a flexible pipe and via at least one vent flow fluid communication path, venting gas from an annulus region of the flexible pipe into the b
Apparatus and a method are disclosed for venting gas from an annulus region of a flexible pipe. The method includes the steps of depressurising a bore region of a flexible pipe and via at least one vent flow fluid communication path, venting gas from an annulus region of the flexible pipe into the bore region.
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1. A method of venting gas from an annulus region of a flexible pipe during a period when a bore region of the flexible pipe is depressurised, comprising the steps of: depressurising a bore region of a flexible pipe;releasing the flexible pipe from a floating production and storage offloading (FPSO)
1. A method of venting gas from an annulus region of a flexible pipe during a period when a bore region of the flexible pipe is depressurised, comprising the steps of: depressurising a bore region of a flexible pipe;releasing the flexible pipe from a floating production and storage offloading (FPSO) vessel; and thenopening a vent valve to vent gas from an annulus region of the flexible pipe into the bore region, via at least one vent flow fluid communication path, when the bore region is depressurized;when a pressure difference between a bore pressure in the bore region and an annulus pressure in the annulus region satisfies a predetermined relationship as the bore region is depressurised, opening the vent valve to thereby connect the annulus region to the bore region via a respective vent flow fluid communication path;prior to opening the vent valve, closing at least one exhaust valve to thereby disconnect the annulus region from an exhaust flow fluid communication path. 2. The method as claimed in claim 1, further comprising the steps of: depressurising the bore region prior to the release of a detachable turret from the floating production and storage offloading (FPSO) vessel. 3. The method as claimed in claim 2, further comprising the steps of: releasing the detachable turret from the FPSO vessel. 4. The method as claimed in claim 1, further comprising the steps of: depressurising the bore region at a rate of 18 bar/minute or less. 5. The method as claimed in claim 1, further comprising the steps of: venting gas from the annulus region to the bore region via a plurality of vent flow fluid communication paths, each being opened and closed via a respective vent valve. 6. A method of releasing a riser turret element from a floating production storage and offloading (FPSO) vessel, comprising the steps of: venting gas from an annulus region of a riser secured to the turret element according to the method as claimed in claim 1; andreleasing the turret element subsequent to a predetermined period of time subsequent to initiating the venting gas process or when a bore pressure satisfies a predetermined condition. 7. A method of venting gas from an annulus region of a flexible pipe during a period when a bore region of the flexible pipe is depressurised, comprising the steps of: depressurising a bore region of a flexible pipe;releasing the flexible pipe from a floating production and storage offloading (FPSO) vessel; and thenopening a vent valve to vent gas from an annulus region of the flexible pipe into the bore region, via at least one vent flow fluid communication path, when the bore region is depressurized;when a pressure difference between a bore pressure in the bore region and an annulus pressure in the annulus region satisfies a predetermined relationship as the bore region is depressurised, opening the vent valve to thereby connect the annulus region to the bore region via a respective vent flow fluid communication path,wherein a portion of the vent flow fluid communication path comprises a fluid communication path portion between the vent valve and the bore region, the method further comprising the steps of:prior to venting gas from the annulus into the bore region, providing positive pressure at an upstream region of the fluid communication path portion to thereby blow blockages from the fluid communication path portion into the bore region. 8. The method as claimed in claim 7, further comprising the steps of: providing the positive pressure by connecting a high pressure gas source to the upstream region of the fluid communication path portion. 9. A method of venting gas from an annulus region of a flexible pipe during a period when a bore region of the flexible pipe is depressurised, comprising the steps of: depressurising a bore region of a flexible pipe;releasing the flexible pipe from a floating production and storage offloading (FPSO) vessel; and thenopening a vent valve to vent gas from an annulus region of the flexible pipe into the bore region, via at least one vent flow fluid communication path, when the bore region is depressurized; andsecuring a spool element to a front end region of an end fitting of the flexible pipe in an end-to-end configuration, said spool element comprising at least one fluid flow passageway through a side wall thereof, said passageway being connectable to the vent flow fluid communication path in the end fitting to thereby enable gas to be vented from the annulus region of the flexible pipe into the bore region of the flexible pipe via the fluid flow passageway of the spool element. 10. The method as claimed in claim 9, further comprising the steps of: connecting the fluid flow passageway of the spool element to the vent flow fluid communication path of the end fitting via a tubular conduit element. 11. The method as claimed in claim 10, further comprising the steps of: connecting the tubular conduit element to the spool element via a vent valve supported by the spool element. 12. A flexible pipe, comprising: a flexible pipe body comprising a liner and an outer sheath;an end fitting at each end of the flexible pipe body, each end fitting comprising an end fitting body and an end fitting jacket;a vent flow fluid communication path in fluid communication between an annulus region of the flexible pipe and a bore region of the flexible pipe at each end of flexible pipe body, wherein each said vent flow fluid communication path comprises:a first bore portion provided at a back end region of the respective end fitting jacket;a second bore portion provided at a front end region of the respective end fitting body;anda fluid conducting tube connecting the first bore portion to the second bore portion. 13. The flexible pipe as claimed in claim 12, further comprising: at least one vent valve arranged to open to connect the annulus region to the bore region via a respective vent flow fluid communication path when a pressure difference between a bore pressure in the bore region and an annulus pressure in the annulus region satisfies a predetermined relationship as the bore region is depressurised. 14. The flexible pipe as claimed in claim 12, wherein each vent flow fluid communication path is opened or closed via a respective vent valve. 15. The flexible pipe as claimed in claim 13 wherein, in a closed mode of operation, each valve is able to withstand downstream pressures of 100 bar or more. 16. The flexible pipe as claimed in claim 12, wherein: the annulus region comprises an annular region between an outer surface of the liner and an inner surface of the outer sheath. 17. The flexible pipe as claimed in claim 12, wherein: each fluid conducting tube comprises an exhaust flow fluid communication path used as an exhaust flow path for gases accumulated in the annulus region when the bore is pressurised. 18. The flexible pipe as claimed in claim 12, wherein: each vent flow fluid communication path comprises a still further bore portion connecting a vent valve located in the respective end fitting body to an exit port region on the respective end fitting body. 19. A riser comprising the flexible pipe as claimed in claim 12. 20. A floating production storage and offloading (FPSO) vessel comprising a releasable riser turret element, the riser turret element comprising the flexible pipe of claim 12.
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이 특허에 인용된 특허 (8)
Hall, Scott; Denniel, Sylvain; Remery, Jeroen, Apparatus for venting an annular space between a liner and a pipeline of a subsea riser.
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