NO844228L - FLEXIBLE PIPE PIPE, SPECIAL FOR THE OIL INDUSTRY - Google Patents

Description

The present invention relates to a new flexible pipeline which, in particular, but not exclusively, can be used for the transport of hydrocarbons within the framework of the exploitation of underwater wells. However, flexible pipelines according to the invention can equally well be used in other applications, especially on land, for the transport of liquid, powdered products or gaseous products.

Different types of flexible pipelines are already known.

A first type of wire called "smooth bore" comprises an inner

pipes of flexible material which must ensure tightness as far as the product being transported is concerned, a set of reinforcing reinforcement which is spirally wound or braided, which ensures resistance to mechanical stress due to pressure, tension and twisting, the number, structure and arrangement of the reinforcements being defined as a function of the dimensions and of the intended use of the wire, and finally an outer protective covering, usually of flexible material such as polyethylene or a polyamide. Wires of this type, which exhibit particularly advantageous mechanical properties, are produced in large lengths by the applicant.

The applicant also manufactures cables of the "rough bore" type, which

in addition to the components described above, includes an internal metallic skeleton or stem whose purpose is to prevent crushing and to protect the flexible sealing layer against attack by the transported products.

In the case where the lines are to transport gas, either alone or together with liquids and/or solids, in order to ensure the outflow of gas that diffuses through the inner pipe, precautions have been taken to make the outer coating permeable, either by means of holes or by choosing a material that has a permeability to gas that is high in relation to the material of the inner tube. It is also known to provide weakened zones in the outer coating, especially grooves or blind bores to form places that can burst in case of overpressure, to provide a preferred passage for the discharge of the gas.

The outer protective layer is by its nature not capable

to maintain the internal pressure that exists in the line should the inner tube and/or the reinforcing reinforcement fail unintentionally.

In this case, there is a risk that the flexible pipeline could burst, with the major safety consequences this could entail, especially when the fluid being transported is aggressive, flammable or explosive.

The purpose of the present invention is to provide a flexible pipeline which provides increased safety against bursting, especially to avoid damage to the environment in the event that the inner pipe and/or the reinforcing reinforcement arranged around the pipe should fail.

The flexible pipeline according to the invention comprises an inner tube of flexible material which ensures tightness in terms of the product being transported, a first layer of reinforcing reinforcement which ensures resistance to mechanical stress due to pressure, stretching and twisting, a protective coating of flexible material, and a second layer of reinforcing reinforcement which is suitable to withstand the internal pressure and which surrounds said protective coating.

If desired, an outer protective cover can be provided.

French Patent No. 2,119,266 shows a flexible tubular body comprising two sets of reinforcement. In this construction, however, it is only the inner reinforcement that exhibits the ability to resist internal pressure, as the outer reinforcement only ensures resistance to stretching and breaking. If the internal reinforcement fails due to internal pressure, the risk of the cable breaking cannot be avoided.

In the present invention, however, it is clear that the second layer of reinforcement provides a second sealing barrier which is suitable for retaining the internal pressure in the event that the first layer of reinforcement or the inner tube should fail. The second reinforcement layer can have any usual structure for this type of application, which makes it possible to ensure the necessary functions in terms of resistance to stresses such as stretching and twisting and in addition resistance to internal pressure.

The second layer of reinforcement may comprise a spiral construction, which may optionally be folded, of one or more threads,

e.g. a stem of metal strip or steel profile, two intersecting layers of metal profiles of flat or round cross-section or bent, or a spiral layer which may possibly be folded, in connection with two intersecting layers. Such constructions are conventional and are used in particular in cables produced by the applicant.

In a particularly advantageous embodiment of the invention, the line comprises a device for recording the pressure between the inner pipe and the second set of reinforcement.

This pressure measuring device can advantageously be connected to an alarm, which is activated if an overpressure is detected which causes destruction of the inner pipe and/or the first layer of reinforcement.

In the simplest version, the pressure recording device consists of a simple pressure connection connected to a manometer.

In a particularly suitable construction when the fluid to be transported is a gas or contains gas, the line is arranged so that it is able to allow the gas that diffuses through the inner tube to leak out to the outside, the recording device in this case being sensitive only over-for an excess pressure that exceeds a predetermined threshold level corresponding to the normal leakage current, and which then triggers an alarm or closes valves arranged upstream in the line.

A throttle can also be provided, which is mounted in the leak detection device and calibrated in such a way that the flow of diffused gas can pass through it without significant pressure loss, while full flow from line one in the event of failure would produce such high pressure losses that it is recorded in the registration device.

According to the invention, the recording device can be arranged in the pipe itself or in an end sleeve in which the cable is mounted.

The invention can be practiced in many ways, and some examples of execution will now be described with reference to the attached drawings, where: Fig. 1 is a schematic section illustrating the construction of a first example of execution of a wire according to the invention; Fig. 2 is a drawing similar to fig. 1 and shows a second embodiment of the wire; Fig. 3 is a schematic diagram illustrating an embodiment of a recording device in connection with the line in fig. 2; and Fig. 4 is a view similar to Fig. 3 and illustrates a variant of the registration device.

The "smooth bore" type wire shown in fig. 1 comprises an inner tube of flexible, sealing material, e.g. polyamide or polyethylene.

A first layer of reinforcement 2, which is only shown schematically, is placed above this inner tube 1, which in practice e.g. comprises at least one layer of crimped spiral wire or two closed layers placed on top of each other.

A protective coating mainly of flexible material such as polyamide or polyethylene 3 surrounds the second reinforcement layer 2. Structures of flexible cables comprising the three components described above are currently produced commercially in large lengths by the applicant.

According to the invention, a second reinforcement layer 4 of the same structure as the reinforcement layer 2 or of a different structure is placed around the layer 3.

In the example shown, the reinforcement layer 4 comprises two intersecting layers of steel wire placed on top of each other.

Finally, an outer protective cover 5 is placed around the second reinforcement layer, which cover can be omitted if conditions permit.

The construction of the flexible wire shown in fig. 2 is of the "rough-bore" type and comprises a spiral-shaped inner stem or the like 6 in addition to the components described in connection with the construction in fig. 1.

In this embodiment, the layers of reinforcement 2 and 4 can be of the same or different construction, and these constructions can be the same as the reinforcement layers in the wire in fig. 1 or be different from these.

In fig. 3 and 4 are the construction of the flexible wire

shown in fig. 2 shown mounted in a coupling sleeve 7, with intermediate sealing rings 8 between the coatings or covers 1, 3 and 5 of the wire and the opposite contact surfaces of the sleeve 7. A hole 9 arranged in the sleeve 7 is connected to an annular space 10 on the outside of the first reinforcement layer 2. A leak detection device comprises a throttle 11

in the flow passage for diffused gas, as well as a manometer 12 which registers the pressure that exists in the annular space 10.

The throttling is calibrated in such a way that the flow of diffused gas passes through it without significant pressure loss, while full flow from the line, especially in the case of damage in the reinforcement layer 2, produces a high pressure loss.

In the design example in fig. 4 shows a detector arrangement which, next to the throttle 11 and the manometer 12, comprises a regulator 13 which directs the various gases to the atmosphere (the position shown in the figure), and which in the case of a large outflow changes its position (since the activation is controlled by the control line shown in broken line) to direct the leakage flow to a storage tank 14.

An adjustable pressure switch 15 activates in the event of overpressure an alarm 16, which is supplied with energy from a battery 17. This switch can also activate the closing of valves (not shown) located upstream in the flexible line to lower the pressure in the line.

Even if the invention is described in connection with particular examples of execution, it will be clear that these are in no way limiting, and that many variants in form and material can be used without deviating from either the idea or framework of the invention.

Claims (7)

1. Flexible pipeline, characterized in that it comprises an inner tube (1) of flexible material which ensures tightness as far as the product being transported is concerned, a first layer (2) of reinforcing reinforcement which ensures resistance to mechanical stresses caused by pressure, stretching and twisting, a protective coating (3) of flexible material, and a second layer (4) of reinforcing reinforcement suitable to withstand the internal pressure and surrounding the protective coating (3). 2. Flexible pipeline according to claim 1, characterized in that it comprises an outer protective covering (5) around the second layer (4) of reinforcing reinforcement. 3. Flexible pipeline according to claim 1 or 2, characterized in that it comprises an inner metallic stem (6) or the like. 4. Flexible pipeline according to one of the preceding claims, characterized in that the second layer (4) of reinforcing reinforcement is of the same construction as the first layer (2) of reinforcing reinforcement. 5. Flexible pipeline according to one of the preceding claims, characterized in that it comprises a device (9,11,12,15) for recording the pressure between the inner pipe and the second layer of reinforcement, which device is designed so that under normal operation, the passage of gas that diffuses through the inner tube is ensured. 6. Flexible pipeline according to claim 5, characterized in that the recording device is connected to an alarm (16). 7. Flexible pipeline according to claim 5 or 6, characterized in that the recording device is connected to means for closing valves arranged upstream in the pipeline.