System of flexible pipes and coupling elements and method of producing such a flexible pipe

Abstract

The invention relates to a system of flexible pipes (1) and coupling elements (6) for coupling the flexible pipes. The flexible pipes each comprise an inner conduit and multiple cavities running substantially parallel over the outer surface of the inner conduit. The coupling elements each comprise an inner opening and multiple outer openings surrounding the inner opening, such that, in the coupled state, the inner conduits of adjacent flexible pipes are connected by means of the inner opening of the intermediate coupling element and the cavities of adjacent flexible pipes are connected by means of the outer openings of the intermediate coupling element. The invention further relates to a method of producing a flexible pipe as described as part of the system.

Claims

1. System of flexible pipes (1) and coupling elements (6) for coupling the flexible pipes, wherein the flexible pipes each comprise an inner conduit (2) and multiple cavities (5) running substantially parallel over the outer surface of the inner conduit and wherein the coupling element comprises an inner opening (62) and multiple outer openings (65) surrounding the inner opening, such that, in the coupled state, the inner conduits (2) of adjacent flexible pipes are connected by means of the inner opening (62) of the intermediate coupling element (6) and the cavities (5) of adjacent flexible pipes (1) are connected by means of the outer openings (65) of the intermediate coupling element, characterized in that each coupling element (6) comprises a male part (63) and a female part (64) for receiving the male part and a joint element (61) for placement between two flexible pipes, wherein the joint element comprises the inner opening (62) and the outer openings (65), wherein the dimensions of the inner opening (62) correspond to the dimensions of the inner conduit (2) and the dimensions of the outer openings (65) correspond to the dimensions of the cavities (5) for forming straight passageways between adjacent flexible pipes and wherein the joint element (61) further comprises through holes (66) for longitudinal fasteners (67), wherein the flexible pipes at the outer ends are arranged for receiving the fasteners.

2. System according to claim 1, wherein in the coupled state of the coupling element (6) the joint element (61) is enclosed in the coupling element (6).

3. System according to claim 1, wherein the female part (64) has inner thread and the male part (63) has outer thread.

4. System according to claim 1, wherein each pipe (1) comprises: a) An inner conduit (2); b) A number of spacer elements (10) having a general longitudinal shape fixated at a mutual distance to the outer side of the inner conduit; c) An outer cover (4) formed by one or more layers (41, 42, 43) of thermoplastic material fixated around the inner conduit (2) and the spacer elements (10), characterised in that longitudinal cavities (5) suitable for use as passageways for objects are formed between the inner conduit (2), the spacer elements (10) and the outer cover (4).

5. System according to claim 4, wherein the inner conduit (2) comprises an inner cover (3) formed by one or more layers (31, 32, 33) of thermoplastic material fixated around the inner conduit.

6. System according claim 1, wherein inlet/outlet openings (51, 52) are arranged in the wall of the pipe for allowing material flowing in/out of the cavities (5).

Description

(1) The invention will now further be described referring to the appending figures, in which:

(2) FIG. 1 schematically illustrates production of a first embodiment of a pipe according to the invention;

(3) FIG. 2A schematically shows part of the pipe of FIG. 1 in cross section;

(4) FIG. 2B schematically shows the pipe of FIG. 2A with partly cut away section; and

(5) FIG. 3A schematically shows a second embodiment of a pipe according to the invention with cut away sections;

(6) FIG. 3B schematically shows the second embodiment of FIG. 3A in cross section with cut away sections;

(7) FIG. 4A schematically shows a system of pipes coupled by coupling elements according to the invention;

(8) FIG. 4B schematically shows the system of FIG. 4A in decoupled state; and

(9) FIG. 4C schematically shows part of the coupling element of FIG. 4B in more detail;

(10) FIG. 4D shows part the part of FIG. 4C in cross section;

(11) FIG. 5A schematically shows a pair of pipes according to the invention that are coaxially arranged and accommodate equipment;

(12) FIG. 5B shows the pair of coaxially arranged pipes of FIG. 5A in cross section; and

(13) FIG. 5C shows one pipe of the pair of coaxially arranged pipes of FIG. 5A partly in cross section with equipment.

(14) FIG. 1 schematically illustrates pipe 1 in a first embodiment during production according to the method according to the invention. FIG. 2A schematically shows a cross section of part of pipe 1. FIG. 2B schematically shows the pipe 1 of FIG. 2A with partly cut away section.

(15) Pipe 1 is a first embodiment suitable for use in the production of hydrocarbons. All materials used therein need to be able to withstand the high pressure and high temperature that may occur during the production of hydrocarbons. Preferably use is made of thermoplastic materials. One example of a specifically suitable thermoplastic material is known in the relevant field as (PEEK) polymer, a polyaryletherketone material produced by VICTREX.

(16) In a first step of the method according to the invention a tubular body 2 is selected for forming an inner conduit of the pipe 1. Tube 2 is preferably produced using known extrusion methods.

(17) Depending on the intended use of the pipe and the characteristics of the tube 2 the first step optionally further comprises applying an inner cover 3 over the inner conduit 2. Preferably one or more layers 31, 32, 33 are wound around the inner conduit 2 to form the inner cover 3.

(18) The layers 31-33 may include thermoplastic material, reinforcing material and/or protective material. Suitable reinforcing material comprises aramid fibres. Suitable protective material provides protection against abrasion.

(19) According to a second step of the method according to the invention a number of spacer elements 10 are attached at a mutual distance to the outer side of the inner conduit 2. Each spacer element 10 has a general longitudinal shape. The spacer elements 10 can be laid in suitable patterns. One preferred pattern involves attaching the spacer elements 10 such that they extend substantially in longitudinal direction over the inner conduit 2. This preferred embodiment is shown in FIG. 1. In the preferred embodiment shown the longitudinal direction of the pipe 1 is denoted with the arrow and letter L. The mutual distance between adjacent spacer elements 10 is denoted with the arrow and letter C. As the pattern of spacer elements 10 extends in longitudinal direction L, the mutual distance C between the spacer elements 10 is a circumferential distance.

(20) FIGS. 3A and 3B schematically show a pipe 1 according to the invention with partly cut away section. Pipe 1 is an alternative second embodiment, wherein the spacer elements 10 are attached such that they extend substantially in helical direction around the inner conduit 2.

(21) The spacer elements are preferably of a non-corrosive metal or a thermoplastic material. The spacer elements are preferably arranged substantially equidistant. The spacer elements may be cut out of a further tube. Said further tube is selected such that its inner radius substantially corresponds to the outer radius of the tube for forming the inner conduit 2. The further tube or the individual spacer elements can also be produced by known methods of extrusion.

(22) The spacer elements can either be massive or hollow. Hollow spacer elements 11 include cavities or channels allowing flow of material through the spacer elements.

(23) The spacer elements 10 are first placed in the desired pattern and then adhered to the inner conduit 2. Suitable adhesive materials may be used. Alternatively when thermoplastics are used the pipe may be heated at least in part up to the softening temperature of the thermoplastic materials during a predetermined time period for adhering the spacer elements 10 to the inner conduit 2. Suitable heating means may include a laser to temporary heat the contacting surfaces of the spacer elements 10 with the inner conduit 2.

(24) According to a further step of the method according to the invention an outer cover 4 is applied around the inner conduit 2 and the spacer elements 10. As a result thereof cavities or channels 5 are enclosed by the inner conduit 2, the spacer elements 10 and the outer cover 4. Preferably one or more layers 41, 42, 43 are wound around the inner conduit 2 and the spacer elements 10 to form outer cover 4.

(25) The layers 41-43 may include thermoplastic material, reinforcing material and/or protective material. Suitable reinforcing material comprises aramid fibres. Suitable protective material provides protection against abrasion.

(26) A final step of the method according to the invention comprises adhering the spacer elements 10 to the outer cover 4 as well as adhering the layers to form the outer cover. Suitable adhesive materials may be used. When thermoplastics are used adhering may be accomplished by heating the pipe at least in part up to the softening temperature of the thermoplastic materials during a predetermined time period. Suitable heating means may include a laser to temporary heat the contacting surfaces of the spacer elements 10 with the outer cover 4 and the layers therein.

(27) Preferably the cavities or channels 5 are fluid tight and suitable for use as fluid passageways in the production of hydrocarbons.

(28) Inlet/outlet openings can be arranged in the wall of the pipe to allow fluid to flow between the inner conduit 2 and the cavities 5 and/or between the cavities 5 and the surroundings of the pipe 1. This is illustrated in FIGS. 5A, 5B and 5C.

(29) FIG. 4A schematically shows a system of pipes 1 coupled by coupling elements 6 according to the invention. The coupling elements 6 are arranged to provide for continuous passageways through the coupled pipes. In the coupled state the inner conduits 2 of adjacent pipes form a continuous inner channel. In the coupled state the cavities 5 or 15 of adjacent pipes form continuous outer channels. In FIG. 4A a longitudinal housing 100 is coupled at both outer ends to a flexible pipe 1 according to the invention. The housing is an example of a tubing arranged to receive plug-in devices of the WROP-system as described in WO2014/011043.

(30) FIG. 4B schematically shows the system of FIG. 4A in decoupled state. Coupling element 6 is shown in more detail in FIG. 4C. Coupling element 6 comprises a male part 63 and a female part 64 for receiving the male part 63 and a joint element 61 for placement between the flexible pipes 1 or 100. The joint element comprises an inner opening 62 and surrounding outer openings 65 and further comprises through holes 66 for longitudinal fasteners 67, such as bolts. In the coupled state of the coupling element 6 the joint element 61 is enclosed therein.

(31) The dimensions of the inner opening 62 of the coupling element 6 correspond to the dimensions of the inner conduit 2 of pipe 1. The dimensions of the outer openings 65 of the coupling element 6 correspond to the dimensions of the cavities 5 or 15 of pipe 1. In FIGS. 4C and 4D the dashed arrows indicate passageways for materials and the dashed lines indicate the through holes for the fasteners. The joint element 61 is generally ring shaped. The outer openings 65 and the holes 66 are arranged alternately over the joint element 61. The holes 66 are recessed with respect to the outer openings 65. The shape of the outer openings 65 corresponds to the shape of the cavities 5 of the pipe 1. The mating shape of the joint element 61 and the outer ends of the flexible pipes 1 allow for a fluid tight seal.

(32) At the outer ends of the flexible pipes 1 slots 69 are arranged for receiving the fasteners 67. In the preferred embodiment shown two pairs of three bolts each face each other. Preferably the female part 64 has inner thread and the male part 63 has outer thread. Coupling element 6 can be coupled and decoupled manually.

(33) The coupling element according to the invention can further be connected to the following non-limited enumeration of examples: a) Pipe Equipment Elements used in Hydrocarbon production environments, such as Sliding Side doors, to interconnect (open or closing) the inner pipe to the external environments b) Crossoversto connect the pipe to smaller or larger diameter pipes or elements; c) Packer elements to seal-off the external or inner spaces in and around the pipe, d) Filter elements (wired or slotted) for in and out-flowing fluids or gasses, e) Side Pocket elements for use with measuring equipment and valves f) Anchor elements to fixate the pipes into a larger diameter pipe or external conduit.

(34) FIGS. 5A through 5C illustrate a pair of pipes 1A, 1B according to the invention that are coaxially arranged and accommodate equipment 200. One example of equipment is a plug-in device of the WROP-system as described in WO2014/011043.

(35) Fluid flow in the cavities 5A of outer pipe 1A is indicated with arrow F1. A substantially parallel fluid flow in the cavities 5B of inner pipe 1B is indicated with arrow F2. A substantially parallel fluid flow through the equipment 200 is indicated with arrow F3. Inlet/outlet openings 51 are arranged in adjacent walls of the pipes 1A, 1B to allow fluid flow R1 between the cavities 5A and 5B. Inlet/outlet openings 52 are arranged in the wall of the pipe 1B to allow fluid flow R2 between the cavities 5B and openings in the equipment 200. The inlet/outlet openings are sealed, as illustrated by seals 53 adjacent to inlet/outlet openings 51. Suitable fixation means 210 are present to fixate the equipment 200 in the pipe 1B.

(36) The present invention is elucidated by means of preferred embodiments for use in the production of hydrocarbons. Nevertheless it is stretched that the pipe is generally suitable for transporting material flows, including fluid, gases, or particles, and is generally suitable for transporting all types of material flows even in highly demanding circumstances.

(37) The invention is not therefore limited to the described and shown preferred embodiments, but extends to all combinations thereof and moreover to any embodiment falling within the scope of protection as defined in the claims and as seen in the light of the foregoing description and accompanying drawings.