RU4356U1 - COATING OF THE INTERNAL SURFACE OF THE PIPELINE - Google Patents

Abstract

1. The coating of the inner surface of the pipeline, which is a three-layer structure, containing two coaxially located tubular shells of a polyethylene film, one of which is the outer one adjacent to the inner surface of the pipeline, and the other inner one is separated from it by a coaxial reinforcing layer impregnated with a binder, characterized the fact that the polyethylene-containing film of the inner shell is formed by a polymeric multicomponent homogeneous system containing low-density polyethylene with additives polymer and a lower polymer with a higher melting temperature relative to the melting temperature of low density polyethylene and this film forms the reinforcing layer monolithic strukturu.2. A coating according to claim 1, characterized in that the polymer additive with a higher melting point relative to the melting point of low density polyethylene contains polypropylene and / or polyurethane. The coating according to claim 1, characterized in that the addition of a polymer with a higher melting point relative to the melting point of low density polyethylene further comprises a polyamide and / or thermoplastic elastomer. A coating according to any one of claims 1 to 3, characterized in that the addition of a polymer with a lower melting point relative to the melting point of low density polyethylene contains a copolymer of ethylene with vinyl acetate and / or a copolymer of ethylene with propylene.

Description

COATING OF THE INTERNAL SURFACE OF THE PIPELINE The proposed utility model relates to the field of construction, namely, to protecting the internal surface of the pipeline from mechanical damage, corrosion or from the formation of unwanted deposits, and more specifically relates to coating the internal surface of the pipeline and can be used in the construction of various pipelines also in the repair of pipelines in operation.

It is known to coat the inner surface of a pipeline, which is a two-layer structure containing

coaxially located reinforcing layer impregnated with a binder and adjacent to the inner surface of the pipeline, and a tubular polymer shell (French patent N 248225S, MKI F16L 58/18).

When entering the specified coating into the pipeline, a violation of the continuity of the shell is possible, which leads to a deterioration in: the quality of the coating.

Known coating is the inner surface of the pipeline, which is a three-layer structure containing two coaxially located tubular shells of a polyethylene film, one of which is the outer one adjacent to the inner surface of the pipeline, and the other MKI-: F16L 5V / 1L

xj ,; -.

the inner is separated from it by a coaxial armor layer impregnated with a binder (patent of the Russian Federation N 2027941, IKI F16L 58/10)

8 of the specified coating, the inner shell is a polymeric material characterized by increased heat resistance; 5 the inner shell freely adheres to the reinforcing layer, which leads to poor coating quality.

The use of materials with increased heat resistance contributes to a more stable heat treatment process, however, this does not achieve high adhesion of the inner shell with a reinforcing layer due to the fact that 5, under the specified technological conditions of heat treatment, the materials do not undergo transition to a plastic state.

When the aforementioned coating is applied to the inner surface of the pipeline as a result of low adhesion of the inner shell to the reinforcing layer, the inner shell comes into contact with the flow of the medium transported in the pipeline. Lack of adhesion between this shell and the reinforcing layer causes the turbulent flow to build into the folds of the film of the shell transported medium increased flow

energy for its transportation and reduction of the service life of the shell5a, therefore5 and the coating as a whole ..

8 the basis of the proposed utility model was laid the task of creating a coating of the inner surface of the pipeline 5 whose inner shell would have a takens structure, which would significantly improve the quality of the coating.

The problem is solved in that in the coating of the inner surface of the pipeline, which is a three-layer structure, containing) two coaxially arranged tubular shells of a polyethylene-containing film, one of which is the outer one adjacent to the inner surface of the pipelines and the other inner one is separated from it by a coaxial reinforcing layer impregnated binder. according to the invention, the polyethylene-containing film of the inner shell is formed by a polymeric multicomponent homogeneous system containing low-density polyethylene with the addition of a polymer with a lower and a polymer with a higher melting temperature with respect to: the melting temperature of low-density polyethylene and this film forms a monolithic structure with a reinforcing layer.

The addition of a polymer with a higher melting point in relation to) to the melting point of low density polyethylene may contain polypropylene and / or polyurethane.

The addition of a polymer with a higher melting point relative to the melting point of low density polyethylene may further comprise polyamide and / or thermoplastic elastomer

The additive polymer with a lower melting point relative to the melting point of low density polyethylene may contain a copolymer of ethylene with vinyl acetate and / or a copolymer of ethylene with propylene

The advantages of the proposed utility model are a significant increase in the quality of the coating as a result of a substantial increase in the performance characteristics of the coating and the performance of the pipeline as a whole by using an internal multilayer sheath, which combines on the side j contacting with the reinforcing layer, increased adhesive properties and on the side contacting with a heat carrier., increased thermophysical characteristics. The presence of high adhesive properties of the inner shell ensures a tight fit of this shell to the reinforcing layer, which eliminates the turbulence of the flow of the transported medium. At the same time, the presence of a heat-resistant inner surface allows heat treatment at elevated pressure, which leads to an improvement in the crimping of the reinforcing layer, and, as a result

increase of direct characteristics of the coating and resistance to hydrodiffusion of the transported medium. All this, in turn, reduces the energy consumption for transporting this medium through the pipeline, increases the service life of the inner shell5 and, consequently, the coating as a whole.

Further, the utility model is illustrated by a description of a specific example of its implementation and the accompanying drawings, in which:

FIG. 1 shows the proposed coating applied to the inner surface of a pipeline (cross section);

figure 2 - pipeline coated (axonometry)

The proposed coating of the inner surface of the pipeline is a three-layer structure 1 () containing two coaxially located tubular shells 2 and 3 of a polyethylene film, one of which is the outer 2 adjacent to the inner surface 4 () of the pipeline 5, and the other to the inner 3 (Fig. 1) is separated from it by a coaxial reinforcing layer 6, impregnated with a binder

As a polyethylene film of the outer shell 2, you can use low density polyethylene GOST 1633777

as the reinforcing layer 6, a combined glass material and / or synthetic felt impregnated with a binder based can be used. Polyester or epoxy polyester or epoxy resin, producing plastic,

The polyethylene-containing film of the inner shell 3 is formed by a polymeric multicomponent homogeneous system. Containing low-density polyethylene with additives of a polymer with a lower and a polymer with a higher melting temperature with respect to the melting temperature of low-density polyethylene and this film forms a monolithic structure with a reinforcing layer 6

The polymer additive with a higher melting point relative to the melting point of low density polyethylene contains polypropylene or polyurethane or a mixture of polypropylene and polyurethane

The addition of one or another of the indicated polymers depends on the required strength characteristics of the coating. The presence of polypropylene increases the heat resistance of the coating when it is heat treated5 as a result of which the process is carried out at elevated pressure while achieving a stronger coating. If increased elasticity of the coating is required for operational characteristics, then in these cases polyurethane is introduced

Gels 5 are necessary for the coating to have higher strength while increasing its elasticity. Then the addition of a polymer with a higher melting point relative to the melting point of low density polyethylene additionally contains polyamide or thermoplastic elastomer or a mixture of polyamide and thermoplastic elastomer.

The addition of a polymer also depends on the specified operating conditions.

If it is necessary that the coating has improved adhesive properties of the inner shell 3 and the reinforcing layer 6, then the addition of a polymer with a lower melting point relative to the melting point of low density polyethylene should contain a copolymer of ethylene with vinyl acetate or a copolymer of ethylene with propylene or a mixture of a copolymer of ethylene with vinyl acetate and a copolymer of ethylene with propylene

The specified additive will allow preserving the deformation-strength properties of the adhesive surface s to significantly increase the adhesive component of the inner shell 3 to the reinforcing layer 6

For a polyethylene-containing film of the inner shell 3, low-density polyethylene GOST 1633777J polypropylene GOST 16996-86, polyurethane TU 6-55-221-1057 can be used

-793 polyamide OST 6-05-408-85, thermoplastic elastomer TU 38-403112-80, ethylene vinyl acetate copolymer TU 6-05-1636-78, ethylene copolymer copolymer TU 6-05-041-662-84

As a result, the coating has plastic - a reinforcing layer 6, on the outside of which there is a residual layer of polyethylene film of the shell 2, on the inner side of the plastic there is a monolithic polymer system of a mixture of the above polymers - shell 3

The method of applying the proposed coating on the inner surface of the work pipe consists of the following: Out of the repaired (newly laid) work pipe 5) tube shells 2 () and 3 of a polyethylene-containing film are coaxially placed, one of which 2 as described above, the outer one is intended to fit to the inner surface 4 () the pipeline 55 and the other inner 3 is separated from it by a coaxial reinforcing layer 6; the latter is impregnated with a binder and a three-layer coating structure 1 is obtained. Then, the obtained three-layer coating structure 1 is introduced into any pipeline 5 by any well-known specialists working in this field5

Then make the sealing of the cavity of the inner shell 3 by means of plugs (not shown in the drawing), the supply of compressed air to inflate the shell 3 and

heat treatment of a three-layer structure 1 of the coating.

The proposed coating is of high quality, increased service life, and when applied to the internal pipe surface of the pipeline, its operational characteristics are significantly improved

Claims (4)

1. The coating of the inner surface of the pipeline, which is a three-layer structure, containing two coaxially located tubular shells of a polyethylene film, one of which is the outer one adjacent to the inner surface of the pipeline, and the other inner one is separated from it by a coaxial reinforcing layer impregnated with a binder, characterized the fact that the polyethylene-containing film of the inner shell is formed by a polymeric multicomponent homogeneous system containing low-density polyethylene with additives polymer and a lower polymer with a higher melting temperature relative to the melting temperature of low density polyethylene and this film forms the reinforcing layer of the monolithic structure.  2. The coating according to claim 1, characterized in that the additive polymer with a higher melting point relative to the melting point of low density polyethylene contains polypropylene and / or polyurethane.  3. The coating according to claim 1, characterized in that the additive polymer with a higher melting point relative to the melting point of low density polyethylene additionally contains polyamide and / or thermoplastic elastomer. 4. The coating according to any one of claims 1 to 3, characterized in that the additive polymer with a lower melting point relative to the melting point of low density polyethylene contains a copolymer of ethylene with vinyl acetate and / or a copolymer of ethylene with propylene.