RU2732190C1 - Method of producing insulated pipes and shaped articles with a cable duct for pipelines and articles made using said method - Google Patents

Abstract

FIELD: pipeline equipment.SUBSTANCE: group of inventions relates to heat-insulated shaped articles with a cable duct in a heat-insulating coating, and can be used to maintain required temperature mode of operation and rapid remote monitoring of pipeline condition. In the method of producing insulated shaped articles with a cable duct for pipelines, the article is placed on an assembly bench, is placed at specified distance from surface of article and channelizer is fixed. On top of the assembled structure, a protective shell, end plugs are centered and installed, and a cavity between the article and the protective shell is filled with heat-insulating material on a polymer base. After polymerisation, the end plugs are removed and the channel former is withdrawn from the structure. Article can be coated with an anticorrosion coating. Channel former is made from different materials; it can be treated with an anti-adhesion composition, made hollow and/or with a shell located in heat-insulating material and lining the surface of the cable duct. Cable-channel can be lined with a shell providing control of the pipeline condition.EFFECT: providing simplicity of manufacture, simplification of assembly, high reliability of items and versatility when using and obtaining information on the state of the pipeline.12 cl

Description

The invention relates to pipeline technology, namely to heat-insulated fittings with a cable channel in a heat-insulating coating, intended for the construction, reconstruction and repair of field and technological oil and gas pipelines, product pipelines, as well as for pipelines of any laying method, and can be used for maintaining the required temperature mode of operation and operational remote monitoring of the state of pipelines.

When designing pipelines, it is possible to equip them with satellite cables designed to monitor and control various processes associated with the operation of the pipeline (telemechanization). Telemechanization means include telecontrol devices (control of operating modes, ensuring reliable operation), tele-signaling (for transmitting emergency and warning signals), telemetry (for measuring pressure, temperature, vibrations, stress-strain state, pipeline corrosion, and others). Laying the satellite cable parallel to the pipeline requires additional labor, materials and time.

The known system of on-line remote control (SODK) of the state of pipe insulation (RF patent No. 2289753, F17D 5/06, G01R 31/00, publ. 20.12.2006). When installing the system during the construction of pipelines, signal conductors are placed directly in the heat-insulating layer of pipelines without the use of a cable channel.

The known system of on-line remote monitoring of the insulation condition has the following disadvantages. The limited application of the system lies in the possibility of its use only for detecting areas of thermal insulation with high humidity in the pipeline. Moreover, if the signal conductor is located in a layer of polyurethane foam (PPU) thermal insulation, then when the pipeline is depressurized, the contact between the liquid and the conductor can occur at a considerable distance from the breakpoint, since the preferable spread of the liquid after the leak occurs along the border "pipeline - PPU" or "protective shell - PPU "and the exit of liquid to the conductor will occur only in the area with defects in the layer of PU foam insulation. The system cannot be used in pipelines with anti-corrosion coating.

The installation of signal wires in this SODK is carried out at the manufacturing plant and involves the connection of the conductors of each element of the pipeline during their welding at the installation. A large number of connections reduces the reliability of the SODK and the manufacturability of the pipeline installation as a whole. In addition, it is impossible to replace the conductors for re-equipment or repair of the system in the route conditions. Retrofitting the pipeline with various communication and / or signaling and / or monitoring cables without laying a separate satellite cable is impossible.

There is a known method for the production of a concrete pipe with a cable channel (RF patent No. 2616681, F16L 9/14, publ. 04/18/2017), taken as a prototype, in which a steel pipe with an anti-corrosion coating is installed on an assembly stand, a reinforcing cage is mounted on its surface and they fix it on the pipe, place and fix the cable channel in the form of a protective tube along the reinforcing cage, install a protective sheath over the assembled structure, which is centered relative to the steel pipe, install filling end caps and pump the concrete mixture into the shell space of the assembled structure.

A disadvantage of the known method of manufacturing concrete-coated pipes (including those with a heat-and-waterproof coating) with a cable channel is the limited use of the pipes obtained for diagnostic and monitoring systems. The cable channel formed by a protective tube (made of polyethylene, or composite, or steel) limits the impact on the sensitive element placed in it, there are obstacles for signal reception and determination of places of moisture and insulation damage.

Known concreted pipe, made with a cable channel located in the concrete cover along the product (RF patent No. 2616681, F16L 9/14, publ. 04/18/2017), taken as a prototype.

The pipe is mainly used for ballasting of subsea pipelines, its use is limited for diagnostics and monitoring during operational control of the pipeline state.

The technical problem solved by the invention is to create a method for the production of shaped products with a cable channel in a heat-insulating coating on a polymer base, allowing, in the installation conditions, to equip the pipeline with conductors or communication cables, and / or signaling, and / or monitoring of the pipeline with the possibility of stable unhindered reception signal.

The technical result consists in ensuring the simplicity of manufacturing insulated fittings with a cable channel in a heat-insulating coating on a polymer basis for pipelines of any type of laying, as well as simplifying installation, ensuring high reliability of products and versatility in using and obtaining information about the state of the pipeline.

This result is achieved due to the fact that in the method for the production of insulated fittings with a cable channel for pipelines, in which the product is installed on an assembly stand, placed at a given distance from the surface of the product and the channel is fixed, a protective shell is centered and installed over the assembled structure, end plugs and fill the cavity between the product and the protective shell with a polymer-based heat-insulating material, after polymerization of which, the end caps are removed and the duct former is removed from the structure. In addition, an anticorrosive coating is applied to the product, the channel former is made of a polymer, or metal polymer, or composite, or metal composite, the channel former is hollow, the channel former is made composite along the length in the form of two elements, the channel former is made as a package of several elements, the channel former is fixed at by means of clamps and ties, before placing the duct is treated with a release agent and the duct is made with a sheath located in a heat-insulating material and lining the surface of the cable duct after the duct is removed.

This result is also achieved due to the fact that in an insulated shaped product for pipelines, made with a cable channel, made according to the proposed method and consisting of a product made with a heat-insulating polymer-based coating with a cable channel located along the product, and a protective shell. In addition, the product is made with an anti-corrosion coating, the cable duct is made with a lined sheath, which ensures monitoring of the pipeline condition.

In addition, the product is made with an anti-corrosion coating, the cable duct is made with a sheathing, which ensures monitoring of the pipeline condition.

The execution of a shaped product with a cable channel is considered on the example of making a pipe. The pipe can be, for example, metal, or polymer, or metal-plastic, or composite, or metal-composite. A channel former is installed on the pipe, for example, by means of ties and clamps, which can be pre-treated with a release agent for less adhesion to the heat-insulating material and reducing the force for pulling it out. The size and shape of the duct cross-section determine the size and shape of the cross-section of the resulting duct. The retainers, made, for example, of heat-insulating material, ensure the placement of the duct at a certain predetermined distance from the surface of the product. A protective shell is installed and centered on the pipe, which can be made, in particular, metal, polymer or composite. In this case, the retainers can simultaneously act as centralizers of the protective shell. The cavity between the pipe and the containment is closed with end caps, made, for example, with filling holes.

After filling the cavity between the product and the protective shell with a polymer-based heat-insulating material and its solidification, the end caps are removed, the duct is removed by pulling from the end part of the product.

The implementation of shaped products with a cable channel for pipelines by the proposed method ensures high reliability of products due to the placement of the cable channel in the heat-insulating coating of the product, makes it possible to obtain, due to the use of simple technological methods, products that are easy to manufacture and install and have versatility with communication systems, and / or signaling and / or monitoring for unimpeded signal reception by any type of conductor and remote monitoring of the pipeline condition.

Shaped products with a cable channel are easy to install, because provide an opportunity with a minimum number of connections to lay conductors and / or cables in already mounted (welded together) sections of the pipeline.

Fittings can be made with anti-corrosion coating, which increases the reliability of the pipeline under construction.

The use of a duct made, for example, of a polymer, or a metal polymer, or a composite, or a metal composite provides the manufacturability of obtaining a cable duct of various profiles and configurations.

The execution of a shaped product with a cable duct, lined with a sheath (in particular, of non-woven material), for example, preliminarily put on the duct before pouring the heat-insulating material and firmly adhered to it after pouring the heat-insulating material and removing the duct, allows you to obtain a high-quality surface of the cable duct and facilitate the laying of conductors in it during the installation of the pipeline and carry out unhindered control of the condition of the pipeline.

Making the duct hollow simplifies its removal from the heat-insulating material due to the ability to change the shape and / or diameter of the duct by supplying inside, for example, compressed air or creating a vacuum.

The duct former can be made composite in length in the form of two elements or composite in the form of a package of several rectilinear elements, which simplifies its extraction in the first case, with a large length of the formed channel, and in the second, with a large channel diameter.

Example 1. The proposed method was tested in the manufacture of insulated fittings with a cable channel for steel pipelines with a diameter of 820 mm, made, in particular, with an external anti-corrosion coating and thermal insulation of polyurethane foam in a protective sheath.

A hollow duct with a diameter of 32 mm was installed on a shaped product, for example, a bend with a diameter of D = 820 mm, bent along a radius of R = 5D, by means of ties and clamps, in particular a metal-polymer one, pretreated with an anti-adhesive compound, for example, "Penta-120". Then, on top of the assembled structure, a protective metal shell with a diameter of 1030 mm was installed, the cavity between the branch and the protective shell was closed with end caps made with filling holes. After filling the space between the product and the protective shell with a heat-insulating material, in particular, polyurethane foam, and its solidification, the end caps were removed, the duct was removed by pulling from the end part of the product.

Example 2. The proposed method was tested in the manufacture of insulated pipes with a cable channel for steel pipelines with a diameter of 530 mm with thermal insulation from polyurethane foam in a protective sheath.

On a pipe with a diameter of 530 mm and a length of 9 m, for example, a polymer duct with a circular cross-section with a diameter of 30 mm, made, in particular, composite along the length of two elements and pretreated with an anti-adhesive compound, for example, "Penta-120", was installed by means of ties and clamps. Then, on top of the assembled structure, a polyethylene protective shell with a diameter of 710 mm was installed, the cavity between the pipe and the protective shell at the ends was closed with end caps made with filling holes and installed so that the ends of the duct protruded beyond the ends of the formed heat-insulating layer. After filling the space between the pipe and the protective shell with a heat-insulating material, in particular, polyurethane foam, and its solidification, the end caps were removed, the duct former was removed by pulling its parts from the pipe ends.

The cable channel obtained along the generatrix of the shaped product has a smooth surface, which allows, under installation conditions, to lay a communication cable or conductor in it, providing stable unhindered signal reception for remote monitoring of the pipeline state. With the help of fiber-optic cables, temperature changes, acoustic and deformation effects on the pipeline (ground movements, work of heavy equipment near the pipeline, etc.) are determined with high accuracy.

The use of the method of manufacturing insulated fittings with a cable channel for pipelines provides high reliability of products with a cable channel for unimpeded signal reception when using signal conductors. Products with a cable channel in a heat-insulating coating, made using this method, are simple to manufacture and install, are universal and can be used for placing cables for various purposes, for example, communication, and / or signaling, and / or monitoring.

The proposed method makes it possible to obtain thermally insulated fittings with a cable channel in a heat-insulating coating on a polymer basis for unimpeded signal reception by a conductor of any type and remote monitoring of the pipeline state.

Claims (12)

1. A method for the production of insulated fittings with a cable channel for pipelines, in which the product is installed on an assembly stand, placed at a given distance from the surface of the product and the duct is fixed, a protective sheath is centered and installed over the assembled structure, end caps are filled and the cavity between the product is filled and a protective sheath with a polymer-based heat-insulating material, after polymerization of which, the end caps are removed and the duct is removed from the structure. 2. A method according to claim 1, characterized in that an anti-corrosion coating is applied to the article. 3. A method according to claim 1 or 2, characterized in that a duct is used made of a polymer, or a metal polymer, or a composite, or a metal composite. 4. A method according to any of the above claims, characterized in that a hollow duct is used. 5. A method according to any one of the above items, characterized in that a duct is used, made composite along the length in the form of two elements. 6. A method according to any of the above claims, characterized in that a duct is used, made composite in the form of a package of several elements. 7. A method according to any of the above items, characterized in that the duct former is fixed by means of clamps and ties. 8. The method according to any of the above items, characterized in that during assembly, before installation, the duct former is treated with a release agent. 9. The method according to claim 1 or 2, characterized in that the cable duct is made with a sheath located in the heat-insulating material and lining its surface after removing the duct. 10. An insulated shaped product for pipelines made with a cable channel and made according to claim 1, consisting of an item made with a heat-insulating polymer-based coating with a cable channel located along the product and a protective sheath. 11. An insulated shaped article made with a cable channel according to claim 10, characterized in that the pipe or article is made with an anti-corrosion coating. 12. An insulated shaped product made with a cable duct according to claim 10, characterized in that the cable duct is made with a lined sheath, which ensures monitoring of the pipeline condition.