RU2818350C9 - Method of cleaning flexible pipelines using flexible hose from field drilling rig - Google Patents

Abstract

FIELD: pipelines.

SUBSTANCE: invention relates to a method of cleaning flexible pipelines using a flexible hose from a field drilling rig. Method includes opening of flange connection between two flanges of two sections of underwater pipeline. Method also involves mounting a lifting head in each of said sections. Stage of connection opening and installation of lifting heads includes attachment of floats to each of the sections. Each section has a part bent towards the surface. In case of leakage cap and shuttle tank are used to collect oil-containing liquid. Method also includes moving the drilling rig to a predetermined location. Method also includes assembling a lifting unit intended for lifting a section of an underwater pipeline with a drill string. Method also includes lowering a drill string with a lifting unit and attaching the hook to the lifting head. As well as lifting a section of the underwater pipeline by the end of said section using a lifting unit connected to the lifting head. Method also includes securing the end of the underwater pipeline section on the rotary table of the drilling rig using an elevator with a side flap. Also, internal pressure in the pipeline is relieved by the connection between the pipe and the lifting head. Method also involves disconnection of the lifting head and installation of the above-water X-mas tree at the end of the subsea pipeline section. and, if necessary, connecting adapters and for coupling the end of the section with the said fittings. Method also involves assembling a flexible hose with an above-water production tree and above-water lines. And also performing the operation of cleaning the section of the underwater pipeline with the help of a flexible hose. Method also involves cleaning a section of the underwater pipeline with sea water circulation. Method also involves dismantling the flexible hose, surface lines and elements of equipment of the surface equipment. Besides, it includes installation of lifting head at the end of cleaned underwater pipeline section, installation of lifting assembly for lifting of pipeline section with the help of drill string and lowering of section to sea bottom, where section of underwater pipeline is located. Method also involves removal of lifting heads from sections of the underwater pipeline and connection of sections by means of a flange connection.

EFFECT: improving cleaning efficiency of flexible pipelines and simplifying cleaning of flexible pipelines.

5 cl, 10 dwg

Description

TECHNICAL FIELD

[0001] This invention relates to solutions to more complex cases of plugged flexible subsea pipelines where the traditional approach is ineffective. In addition, the present invention provides a lower cost alternative for cleaning these flexible subsea pipelines.

DESCRIPTION OF THE BACKGROUND OF THE ART

[0002] Clogging of field pipelines is a fairly common phenomenon in the oil industry and can occur for several reasons, the most common being the formation of hydrates and waxes, sludge, and the deposition of solids and debris.

[0003] Depending on the nature and severity of the obstacle, it can be eliminated through operations carried out directly from the production site, which implies lower costs compared to interventions carried out using a drilling rig.

[0004] Some examples of such operations would be, in order of increasing cost, passing a pig through a clogged pipe, cycling the pressure on and off the pipe, and running a flexible hose from a production platform into a subsea pipe.

[0005] However, there are often cases where cleaning a subsea pipeline using a production platform is not feasible, with the most typical scenario being where the production and service (ring) pipes are clogged with hydrates.

[0006] In this situation, the production platform is unable to provide low pressures in the deepest sections of the pipelines for hydrate dissociation, and intervention using a drilling rig is required, which usually includes the following steps:

a) restoration of the anti-corrosion cap,

b) preparation of subsea tools - TRT (Tree Tool), BOPW (Protective Wellhead Tool) and FIBOP (Quick Release Tool),

c) removal of the Christmas tree cap (Christmas tree plug),

d) running the final liner or drill pipe riser (DPR),

e) filling the final liner with nitrogen,

f) connecting subsea tools to the WCT (full Christmas tree),

g) WCT tests,

h) wireline equipment operations (downhole cables) to measure the production casing and install the BRV (well pulsation control valve),

i) filling the production string with nitrogen,

j) depressurization of the production casing and completion liner,

k) opening the side valves in the WCT and allowing hydraulic communication of the plugged subsea pipe with the interior of the completion liner and production string, and waiting for the production string and completion liner to fill with fluid resulting from hydrate dissociation,

l) repeat steps 9, 10 and 11 (i, j, k) until the underwater pipe is cleared.

[0007] However, this traditional intervention can last from 15 days to over 100 days (in extreme cases), and the average duration can be considered to be typically 30 days. In addition, it must be taken into account that subsea tools for connecting to the WCT are usually not immediately accessible, which delays the restoration of the production process. Additionally, the traditional intervention approach using a drilling rig works well for removing hydrates, but may not be effective for removing other types of obstructions where depressurizing the pipe is not enough to clear it, but requires mechanical manipulation of the blockage to clear it.

[0008] BRPI0817188A2 describes a hydrocarbon production system and a method for controlling hydrate formation in a subsea production system. This document also describes a method including the steps of depressurizing a production pipeline to significantly reduce the concentration of gas in a solution of produced hydrocarbon fluids and then increasing the pressure in the production pipeline again to displace any gas remaining in the pipeline in the free gas phase back out of the production pipeline. into solution. In addition, the method includes displacing produced fluids located within the production pipeline by moving displacement fluids from the service line into the umbilical and production pipeline. The displacement fluids preferably comprise a hydrocarbon-based fluid containing a low dose hydrate inhibitor (LDHI).

[0009] US20100018693A1 describes a device for introducing a flexible hose into subsea pipes during, for example, hydrate removal operations, which includes a curved guide designed to reorient the flexible hose from a vertical orientation at the inlet end to a horizontal or near-horizontal orientation. at the outlet end, wherein the vertical position of the outlet end of the curved guide can be adjusted for a specific situation using an adapter to prevent deviation from the specified orientation without the use of steep elbows in the adapter, which allows the flexible hose to move smoothly along the adapter, reducing friction between the flexible hose and transitional element.

[0010] WO2004053935A2 describes an umbilical apparatus that includes an electrically heated composite umbilical installed within a subsea pipeline for transporting produced hydrocarbons, in which the heater has the function of preventing the formation of hydrates in the pipeline.

[0011] US20080067129A1 describes a method of treating a hydrocarbon transmission piping system suitable for reducing wax deposition, comprising injecting a catalyst fluid and inducing an electromagnetic field in the hydrocarbons carried in the piping system.

[0012] Document EP1794408B1 describes a method for removing hydrate plugs from a pipe, which includes the following steps: inserting a paddle pig into a pipeline to which a return flow line is connected, moving the pig forward along the pipeline, pumping a push fluid into the looped area between the oil pipeline and the return flow line for continuous or intermittent removal of deposits and corresponding flow return from the front of the pig through the return flow line.

[0013] WO2017135941A1 describes a hydrate blockage removal module designed to be mounted on a remotely operated vehicle (ROV) and used to effectively remove blockages from subsea pipelines and subsea equipment. The system of this module reduces the pressure on the upstream side of the clog to create a pressure differential across the clog, while creating a higher pressure on the downstream side of the clog to push the clog through the manifold into the separator tank located in the module to restore the pipeline.

[0014] However, as will be clear from the following, none of these documents describes the method of cleaning coiled tubing using a flexible hose from a production drilling rig, proposed in this invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] The present invention is described in more detail below with reference to the accompanying drawings, which depict an exemplary non-limiting embodiment of the invention. On the drawings:

fig. 1 depicts the initial state in which the subsea pipeline is connected between the FPSO (floating oil field platform) and the well,

fig. 2 illustrates a step of the method according to the present invention, for which a device for opening a subsea connection between sections of a subsea pipeline is shown,

fig. 3 illustrates one of the stages of the method according to this invention, for which only one of the sections connected to the well is shown,

fig. 4 illustrates one step of the method according to the present invention, which illustrates the capture of a plugged flexible pipe using a drilling rig,

fig. 3 is a detailed view of a flexible pipe lifting assembly according to the present invention,

fig. 6 illustrates in detail the securing of the subsea pipe to the drilling rig rotary table using a side flap lift,

fig. 7 illustrates connecting the cable to the lifting head,

fig. 8 illustrates the assembly of an above-water Christmas tree at the end of a subsea pipe,

fig. 9 shows a diagram of the arrangement of equipment parts assembled on the surface,

fig. 10 is a flow diagram of a method according to the present invention, showing the flow path of a fluid that is pumped through a flexible hose. The fluid is pumped into the flexible hose using a standard pumping unit, exits through the end of the flexible hose, returns to the rig through the annulus formed between the flexible hose and the production tubing, enters the surface Christmas tree and is discharged to the well test facility where the hydrocarbons are separated from water in a water treatment plant, where clean water is discharged into the sea and hydrocarbons are burned in the atmosphere.

DETAILED DESCRIPTION OF THE INVENTION

[0016] This invention provides a method for cleaning flexible tubing using a flexible hose from a production drilling rig, the method comprising the following steps:

a) opening the flange connection (10) between two flanges (13 and 15) of two sections (12 and 14) of the subsea pipeline (40) and installing a lifting head (16 and 17) in each of these sections (12 and 14), and step opening the connection (10) and installing the lifting heads (16 and 17) is preferably carried out using an ROV and involves attaching floats (18 and 19) to each of the sections (12 and 14), such that each section (12 and 14) has a part curved towards the surface like a hump (20), thereby limiting the volume of oil that can leak. Additionally, a cap (08) and a shuttle tank (09) can be used to prevent any leakage of oil liquid from the pipeline into the marine environment,

b) moving the drilling rig (30) to the location according to the geographical coordinates where the end of the pipe is left to be retrieved to the surface,

c) assembling a lifting assembly (58) for lifting a section (14) of the subsea pipeline (40) with a drill string (50), wherein the lifting assembly (58) preferably includes a drill pipe elevator (47) assembled in an inverted "upward" manner bottom" position (supported above the pipe connection) (52) attached to the drill string (50), and attached to said inverted elevator (52) anchor ties (54) containing a hook (56),

d) lowering the drill string (50) with the lifting unit (58) and attaching the hook (56) to the lifting head (17) using the ROV,

e) lifting a section (14) of a subsea pipeline (40) beyond the end of said section using a lifting unit (58) connected to a lifting head (16),

f) securing the end of the section (14) of the subsea pipeline (40) on the rotary table (60) of the drilling rig (120) using an elevator (47) with a side flap, this securing being achieved due to a geometric fit between the elevator flange and the end fitting of the flexible pipeline, and after installation, the specified flange simply rests on the turntable,

g) relieving internal pressure in the pipeline by means of a connection between the pipe (67) and the lifting head (16), preferably containing a JIC-8 connection according to the American pipe standard,

h) disconnecting the lifting head (17) and installing the above-water Christmas tree assembly (70) at the end of the section (14) of the subsea pipeline (40) and, if necessary, connecting adapters (90) and (91) to interface the end of the section with the specified fittings,

i) assembly of flexible hose (80) with above-water Christmas tree fittings (70) and above-water lines (72),

j) performing a cleaning operation of a section (14) of the subsea pipeline (40) using a flexible hose (80), during which a liquid (for example diesel fuel) capable of dissolving the blockage or mechanically removing it is pumped through the inside of the flexible hose,

k) cleaning the section (14) of the subsea pipeline (40) at a high speed of circulation of seawater, until the oil content of the return seawater meets the limits of accepted environmental standards allowing the disposal of treated water into the sea,

l) dismantling of flexible hose (80), above-water lines (72) and elements of above-water Christmas tree equipment (70),

m) installing a lifting head (16) at the end of a section (14) of a cleaned subsea pipeline (40), installing a lifting unit (58) to lift a section (14) of a pipeline (40) using a drill string (50) and lowering a section (14) to the seabed, where the section (12) of the subsea pipeline (40) is located,

n) removing the lifting heads (16 and 17) from sections (12 and 14) of the subsea pipeline (40) and joining sections (12 and 14) using a flange connection (10).

[0017] At the end of the above steps a-m, if necessary, the subsea pipeline is moved to bring the ends of the cleaned area closer to the area left on the seabed.

[0018] A flange connection (10) is a joint between two sections (12 and 14), in which each section has a flange (15) at its end.

[0019] In FIG. 8 is an exploded view of the surface Christmas tree (70), showing its major components. The raised section (14) of the production pipeline is attached to the rotary table, the flanged end (15) of the said section is supported by an elevator (47) used for lifting the well casing, known as a side door elevator. An adapter flange (90) is attached to the flanged end (15) of the production pipeline to allow the flange located on the section of the said pipeline to mate with the flange of the above-water Christmas tree assembly (70), and another adapter element (91) of the flange connection is attached above the specified adapter flange, used in the base connecting part of an above-water Christmas tree (typically made with 8 ¼ inch trapezoidal threads) for its further connection, said connecting part consisting of components (92), (93), (94), (95), (96), which are already pre-assembled at the warehouse of the manufacturer of the specified equipment.

[0020] In FIG. Figure 9 shows a diagram of the arrangement of equipment elements assembled on the surface, while in the drawing you can see the flexible hose injector (101), articulated lines (102), BOP (blowout preventer equipment) (103), lift (104) with extended arms, hose (105 ), manifold (106), surface Christmas tree (70), production pipeline (15), section (14) and turntable (60).

[0021] Compared to traditional approaches, this invention has certain advantages, such as eliminating the need for subsea tools to connect to the WCT or completion liners (or DPR), which reduces resource mobilization time and eliminates rig downtime during the preparation and running stages of these tools , lasting on average from 7 to 10 days, while there is still the possibility of mechanical action directly on the plug, which can be more effective than indirect action by injection and pressure release, as well as the ability to eliminate more complex blockages that cannot be eliminated in the traditional way.

Claims (19)

1. A method for cleaning flexible pipelines using a flexible hose from a field drilling rig, characterized in that it includes the following steps: a) opening the flange connection (10) between two flanges (13 and 15) of two sections (12 and 14) of the subsea pipeline (40) and installing a lifting head (16 and 17) in each of these sections (12 and 14), and step opening the connection (10) and installing the lifting heads (16 and 17) involves attaching the floats (18 and 19) to each of the sections (12 and 14), so that each section (12 and 14) has a part curved towards the surface, in this case, in the event of a leak, use a cap (08) and a shuttle tank (09) to collect oil-containing liquid, b) moving the drilling rig (30) to a given location, c) assembling a lifting unit (58) designed to lift a section (14) of a subsea pipeline (40), with a drill string (50), d) lowering the drill string (50) with the lifting unit (58) and attaching the hook (56) to the lifting head (17), e) lifting a section (14) of a subsea pipeline (40) beyond the end of said section using a lifting unit (58) connected to a lifting head (16), f) securing the end of the section (14) of the subsea pipeline (40) on the rotary table (60) of the drilling rig (120) using an elevator (47) with a side flap, g) releasing the internal pressure in the pipeline using the connection between the pipe (67) and the lifting head (16), h) disconnecting the lifting head (17) and installing the above-water Christmas tree assembly (70) at the end of the section (14) of the subsea pipeline (40) and, if necessary, connecting adapters (90) and (91) to interface the end of the section with the specified fittings, i) assembly of flexible hose (80) with above-water Christmas tree fittings (70) and above-water lines (72), j) performing the operation of cleaning the section (14) of the subsea pipeline (40) using a flexible hose (80), k) cleaning the section (14) of the underwater pipeline (40) during the circulation of sea water, l) dismantling of flexible hose (80), above-water lines (72) and elements of above-water Christmas tree equipment (70), m) installing a lifting head (16) at the end of a section (14) of a cleaned subsea pipeline (40), installing a lifting unit (58) to lift a section (14) of a pipeline (40) using a drill string (50) and lowering a section (14) to the seabed, where the section (12) of the subsea pipeline (40) is located, n) removing the lifting heads (16 and 17) from sections (12 and 14) of the subsea pipeline (40) and joining sections (12 and 14) using a flange connection (10). 2. The method according to claim 1, characterized in that the step of opening the flange connection (10) and installing the lifting heads (16 and 17) is performed using a remotely controlled vehicle. 3. The method according to claim 1, characterized in that the attachment of the floats (18 and 19) to each of the sections (12 and 14) ensures the presence in each section (12 and 14) of a part curved towards the surface like a hump (20) . 4. The method according to claim 1, characterized in that the lifting unit (58) contains an inverted drill pipe elevator (52), which is attached to the drill string (50) and to which are attached anchor ties (54) containing a hook (56). 5. Method according to claim 1, characterized in that the pipe (67) contains a JIC-8 connection.