NL8403239A - FLEXIBLE PIPELINE, PARTICULARLY FOR THE PETROLEUM INDUSTRY. - Google Patents

Abstract

The flexible tubular conduit comprises an inner pipe (1) made of flexible material providing for tighteness characteristics with rspect to the conveyed product, a first assembly of reinforcement armatures (2) providing for resistance characteristics to mechanical stress, a protection coating of flexible material (3) and a second assembly of reinforcing armatures (4) surrounding said coating (3).

Description

> 'N.0. 32830 1

Flexible pipeline especially for the petroleum industry.

The present invention relates to a new flexible pipeline in particular, but not exclusively, useful for the transport of hydrocarbons in the context of the exploitation of subsea wells. However, the flexible pipelines according to the invention can also be used for other applications, in particular on land, for the transport of liquid, powdery or gaseous products. Various types of flexible pipelines are already known.

A first type of conduit, denoted by "smooth bore *", comprises an inner tube of flexible material intended to ensure density relative to the conveyed product, an assembly of reinforcing reinforcements, helical or braided, which provide resistance to mechanical loads of compression, tensile and torsion, the number, nature and placement of which are determined as a function of the dimensions and the intended use of the pipe, and finally an external coating for general protection of flexible material such as of polyethylene or a polyamide type The pipes of this type have particularly favorable mechanical properties and are manufactured in great lengths by the applicant.

Applicant also manufactures pipes of the "rough-bore" type, which, in addition to the parts described above, comprise an internal metallic frame, intended to prevent crushing of the flexible pipe and to protect the sealing casing from attack of transported products.

In the case where the conduits are arranged to transport gas, alone or together with liquids and / or solids, provision is made to ensure the drainage of gas diffusing through the inner tube permits the outer casing to be permeable, either through holes or through the selection of a material with an increased gas permeability over that of the inner tube material. It is also known to provide areas of weakening in the outer cladding, in particular non-opening grooves or holes to form jumping points, which in the case of overpressure, provide a preferred passage for gas escape.

The outer protective coating, by its nature, is unable to absorb the internal pressure prevailing in the conduit in the event of accidental failure of the inner tube and / or reinforcement reinforcements.

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In this case, there is a risk of the flexible conduit jumping with all conceivable safety consequences, especially if the transported fluid is aggressive, flammable or explosive.

The object of the present invention is to realize a flexible pipeline which offers an increased safety against jumping and in particular avoids damage to the environment in the event of failure of the inner tube and / or the reinforcement reinforcements fitted around it.

The flexible pipeline according to the invention is of the type comprising an inner tube of flexible material that ensures tightness, reinforcement reinforcements that ensure the resistance to mechanical compression, tensile and torsional loads and a protective covering of flexible material and possibly an internal metallic frame and characterized in that it comprises a protective reinforcement on a second reinforcement assembly suitable to resist the internal pressure, and preferably an external protective casing.

French patent specification 2 119 266 already discloses a flexible tube body construction comprising two reinforcement assemblies. However, in this embodiment, only the internal reinforcement is capable of withstanding the internal pressure, and the external reinforcement merely ensures resistance to tensile and torque. In the event of failure of the internal reinforcement under the influence of internal pressure, the danger of the pipe bursting cannot be avoided.

In contrast, the present invention contemplates that the second reinforcement assembly forms a second density seal, capable of maintaining internal pressure in the event of failure of the first reinforcement assembly or of the inner tube. The second reinforcement assembly may have all conventional structures for this type of application, which allows it to ensure the intended functions of resisting tensile and torsional loads, and in addition to withstand internal pressure.

As non-limiting examples, in order to realize the second reinforcement assembly, a spiral, bonded or non-bonded construction can be provided with one or several wires, for instance a frame made of steel strip or profile iron, two metallic layers crossed on the profiles with flat, round or twisted cross-section or additionally a spiral, bonded or non-bonded layer, connected to the two crossed layers placed above.

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Such structures are common and are used in particular in piping manufactured by the applicant.

In a particularly advantageous embodiment of the invention, the tube comprises a pressure detecting device between the inner tube and the second reinforcement assembly.

This pressure detection device is advantageously connected to an alarm that is triggered in the event of an overpressure corresponding to the destruction of the inner tube and / or the first reinforcement assembly.

In the simplest embodiment, the pressure detection device is a simple pressure test connected to a manometer.

In a particularly advantageous variant, if the fluid to be conveyed is a gas or contains gas, the conduit is arranged to allow the leakage of the gas 15 diffusing through the inner tube to the external leak, whereby the detection device only becomes sensitive if the overpressure exceeds a predetermined threshold value corresponding to normal leakage, causing the triggering of an alarm or closure of the valves upstream in the line.

In addition, a constriction may be provided in the leak detection device and calibrated such that the diffused gas delivery flows therethrough without substantial pressure losses while the application of a full release from the tube in the event of failure involves increased pressure losses detected by the detection -25 device.

According to the invention, the detection device can be applied to the tube itself or to an end part in which the conduit is arranged.

In order to better understand the invention, embodiments are described below with reference to a non-limiting example with reference to the accompanying drawing, in which:

Fig. 1 is a schematic sectional view showing the construction of a first embodiment of the conduit of the invention, Flg. 2 is a view similar to that of FIG. 1 and shows a second embodiment of the conduit,

Fig. 3 is a schematic view showing an embodiment of the detection device connected to the lead of FIG. 2, and

Fig. 4 is a view similar to that of FIG. 3 showing a variant of the detection device.

The pipe of the "smooth-bore" type shown in fig. 1 comprises 840 3239 4 t an inner tube 1 of flexible dense material such as, for example, polyamide or polyethylene.

A first reinforcement assembly 2 is provided on the inner tube 1, which is shown only schematically and which in practice for instance consists of at least one single layer of wound bonded wires or two crossed on top of one another.

A protective covering mainly of flexible material such as of polyamide or polyethylene 3 surrounds the reinforcement assembly 2. Structures of the flexible conduit containing the three components described above are currently commercially available in great length by the applicant.

According to the invention, a second reinforcement assembly 4 with the same construction as the reinforcement assembly 2 or with a different construction is placed around the covering 3.

In the illustrated example, the reinforcement assembly 4 comprises two overlapping layers of steel wires placed one above the other *

Finally, an outer protective sheath 5, which may be omitted, is placed in place around the second reinforcement assembly.

The flexible conduit construction shown in FIG. 2 is of the "rough-bore" type and includes, in addition to the components described with reference to the construction of FIG. 1, an internal helical frame 6.

In this embodiment, the reinforcement assemblies 2 and 4 may also have the same or different construction, these constructions may be the same as or different from the reinforcement assemblies of the pipe according to Fig. 1.

In Figs. 3 and 4, the construction of the flexible tube shown in Fig. 2 is found arranged in a connecting end part 7 with intermediate insertion of sealing rings 8 between the coverings or envelopes I, 3 and 5 of the pipe and the respective areas of the end part 7. A recess 9 provided in the end part 7 communicates with an annular space 10 outside the first reinforcement assembly 2. The leak detector includes a throttle 11 in the diffused gas delivery passage and a pressure gauge 12 which detects pressure prevailing in the annular space 10.

The throttle is calibrated so that the diffused gas is delivered without loss of substantial pressure while applying the full line release, especially 40 in case of damage to the reinforcement assembly 2, an 8403239 I <% > 5 involves high pressure loss.

In the embodiment according to Fig. 4, a detection device is shown which, in addition to throttle 11 and the manometer 12, comprises a distributor 13, which sends the diffused gases to the free air 5 (position shown in the figure) and which, in the case of a major release position changes (operation is controlled by the dotted lines) to direct leak delivery to storage vessel 14.

A contact with controllable pressure 15, in case of over-10 pressure, triggers an alarm 16, powered by a battery 17. This contact can also effect the closing of valves (not shown), which are located upstream in the flexible pipe in order to reduce the pressure in the pipeline.

Although the invention has been described in connection with particular embodiments, it is clear that it is not limited thereto and that many modifications can be made in shape and material without departing from the scope and scope of the invention.

8403239

Claims (7)

Flexible pipeline, characterized in that it comprises an inner tube (1) of flexible material which ensures density with respect to the transported product, a first assembly of reinforcing reinforcements (2) that resist mechanical compression, tensile - and torsional loads, a protective covering of flexible material (3) and a second set of reinforcing reinforcements (4) suitable for withstanding the internal pressure and surrounding the covering (3). Flexible pipeline according to claim 1, characterized in that it comprises an outer protective covering (5) around the second assembly of reinforcement reinforcements (4). Flexible pipeline according to either of Claims 1 and 2, characterized in that it comprises an internal metallic frame (6). Flexible pipeline according to one of the preceding claims, characterized in that the second set of reinforcement reinforcements (4) has the same construction as the first set of reinforcement reinforcements (2). Flexible pipeline according to any one of the preceding claims, characterized in that it comprises a detection device (9, 11, 12, 15) for the pressure between the inner tube and the second reinforcement assembly, which device is adapted to operate during normal operation to ensure the passage of gas diffusing through the inner tube. Flexible pipeline according to claim 5, characterized in that the detection device is connected to an alarm (16). 7. Flexible pipeline according to claim 5, characterized in that the detection device is connected to closing means of valves arranged upstream in the pipe. I 1 I I 1 II 11111-H-1 l-l'H 8403239