RU217058U1 - ROCK SHEETS FOR PIPELINES WITH ELECTROCHEMICAL PROTECTION - Google Patents

Abstract

The utility model relates to the field of means used to protect metal structures buried in the ground with an anti-corrosion coating, such as pipelines placed in trenches, from corrosion as a result of mechanical damage from the outside, both during installation and during operation and repair.

EFFECT: increased reliability of electrolyte retention in the space between the thermoplastic polymeric material and the underground structure of the electrolyte necessary for the implementation of electrochemical protection. This ensures an increase in the duration of the electrolytic contact by more than 15% and the possibility of shifting the potential of the protected structure, for example, a metal pipe with insulation, to the cathode region by more than 500 mV and the presence of a stable response to polarization with an alternating current with a frequency of 1000 Hz, which makes it possible to localize defects in the insulating coating during operation of the pipeline section, and to localize through defects in the insulating coating of the pipeline during its corrosion inspection.

To do this, a rock sheet for pipelines with electrochemical protection contains a layer of non-woven synthetic material, covered with a layer of thermoplastic polymer material with through slots made in it, which are formed by punching through the heated thermoplastic material to a depth less than the total thickness of the layers of non-woven and thermoplastic material with the formation of connecting the mentioned layers of protrusions in the direction of the layer of non-woven synthetic material in the form of slot edges bent from the plane of the layer of thermoplastic polymer material due to plastic deformation during punching. Fibers of non-woven synthetic material are embedded in a layer of thermoplastic material in the area of the protrusions. Fibers of non-woven synthetic material can be embedded in a layer of thermoplastic material over its entire contact surface with this layer, including the zone of protrusions, and in the zone of protrusions - to a greater depth than along the rest of the surface. The edges of the slots forming the protrusions are bent towards the non-woven synthetic material with the formation of a gap for water to enter it from outside the rock sheet or are bent to form a contact between them, ensuring the flow of water from the outside of the rock sheet under hydrostatic pressure. 5 z.p. f-ly, 2 ill.

Description

The utility model relates to the field of means used to protect metal structures buried in the ground with an anti-corrosion coating, such as pipelines placed in trenches, from corrosion as a result of mechanical damage from the outside, both during installation and during operation and repair.

Known rock sheet for underground structures with electrochemical protection, containing a layer of non-woven synthetic material laminated with a thermoplastic polymer material with through parallel grooves made in it, characterized in that the thickness and surface density of the non-woven synthetic material are selected from the condition of keeping them in the space between the thermoplastic polymeric material and underground construction of the electrolyte necessary for the implementation of electrochemical protection (RF patent 201048 U1, 11/24/2020).

The closest known is a polymer rock sheet containing a layer of thermoplastic polymeric material, preferably polyethylene, with through slots or notches made in it, the length of which is at least one and a half times their width, and the slots or notches are made in the direction, parallel to the longitudinal axis of the pipeline, and on the side facing the pipeline, it has a layer of non-woven synthetic material or filter synthetic material, which is connected over the entire surface or discretely with a layer of thermoplastic material, which allows you to retain the water necessary for the formation of electrolyte when using rock sheet in the process of electrochemical protection of the structure (RF patent No. 101770 U1, 01/27/2011).

However, the considered rock sheets do not adequately provide a sufficiently long-term preservation of the electrolytic liquid necessary for the implementation of the process of electrochemical protection of a pipeline immersed in the ground, in particular, with changing humidity of the environment in which the protected pipeline is located.

The objective of the present technical solution, which is a further improvement of rock sheets, is to create a new means that ensures reliable and long-term retention of the electrolyte formed by water in the space between the rock sheet and the pipeline protected from corrosion. The solution to this problem is provided by creating a rock sheet with slotted holes formed only in its thermoplastic polymer material, which operate on the principle of "ink-non-spill", i.e. ensuring that water enters them from the outside of the rock sheet and creates an obstacle to remove it from the inside.

The technical result consists in increasing the reliability of holding in the space between the thermoplastic polymer material and the underground pipeline the electrolyte necessary for the implementation of electrochemical protection. This provides an increase in the duration of the electrolytic contact by more than 15% and the possibility of shifting the potential of the protected pipeline with insulation to the cathode region by more than 500 mV and the presence of a stable response to polarization with alternating current with a frequency of 1000 Hz, which makes it possible to reduce the impact of through defects/damages in the insulating coating during operation of the pipeline section.

This is achieved by the fact that the rock sheet for pipelines with electrochemical protection contains a layer of non-woven synthetic material coated with a layer of thermoplastic polymer material with through slots made in it, which are formed by punching through the heated thermoplastic material to a depth less than the total thickness of the layers of non-woven and thermoplastic material with the formation of protrusions connecting the said layers in the direction of the layer of non-woven synthetic material in the form of slot edges bent from the plane of the layer of thermoplastic polymer material due to plastic deformation during punching. When this fiber nonwoven synthetic material embedded in a layer of thermoplastic material in the area of the protrusions. Fibers of non-woven synthetic material can be embedded in a layer of thermoplastic material over its entire contact surface with this layer, including the zone of protrusions, and in the zone of protrusions - to a greater depth than along the rest of the surface. In addition, the edges of the slots, forming the protrusions, are bent towards the non-woven synthetic material with the formation of a gap for water to enter it from outside the rock sheet. And also the edges of the slots, forming the protrusions, can be bent towards the non-woven synthetic material with the formation of contact between them, ensuring the flow of water from the outside of the rock sheet under hydrostatic pressure.

The significance of the features of a technical solution is determined by their causal relationship with the technical result. Namely, a layer of non-woven synthetic material ensures its saturation with moisture that enters it naturally when a rock sheet is placed in the ground in the design position around the protected pipe. Covering it with a layer of thermoplastic polymeric material makes it possible to retain the moisture necessary for the formation of an electrolyte, and the through slots made in it by punching through the heated thermoplastic material to a depth less than the total thickness of the layers of nonwoven and thermoplastic material ensure the entry of moisture from different levels to moisten the entire surface of the nonwoven material. At the same time, in the process of formation of through slots, due to the thermoplastic properties of the layer, protrusions are formed in the direction of the non-woven synthetic material layer, which connect the non-woven synthetic material layer undisturbed by through perforation and the thermoplastic material layer. The protrusions have edges bent from the plane of the layer of thermoplastic polymeric material due to plastic deformation during punching. This provides the effect of "ink-non-spill", in which moisture (which is an electrolyte) that has entered the cavity is kept from voluntarily flowing out. To enhance the moisture retention effect, the fibers of the non-woven synthetic material are embedded in the area of the protrusions (around the gap formed) in the thermoplastic material layer. Also, fibers of a nonwoven synthetic material can be embedded in a layer of thermoplastic material over its entire contact surface with this layer, including the protrusion zone, and in the protrusion zone - to a greater depth than along the rest of the surface, which forms an additional obstacle to the natural removal of moisture from the space, bounded by a sheet of polymeric material. To improve the conditions for moisture ingress and its retention, the edges of the protrusions are bent towards the non-woven synthetic material with the formation of a gap for water to enter it from the outside of the rock sheet or the edges of the slots forming the protrusions can be bent towards the non-woven synthetic material with the formation of a contact between them, ensuring the flow water outside the rock sheet under hydrostatic pressure.

The technical solution is illustrated by the drawing, where:

- in Fig. 1 shows a fragment of a rock sheet in a section in the working position, in which the edges of the protrusions are bent towards the non-woven synthetic material with the formation of a gap for water to enter it from outside the rock sheet;

- in Fig. 2 shows a fragment of a rock sheet in a section in the working position, in which the edges of the protrusions are bent towards the non-woven synthetic material with the formation of contact between the opposite edges.

Rock sheet for pipelines with electrochemical protection contains a layer 1 of non-woven synthetic material, which is covered with a layer 2 of thermoplastic polymer material. In layer 2, through slots 3 are made due to through punching of the heated thermoplastic material of layer 2 to a depth less than the total thickness of layers 1 and 2 (non-woven and thermoplastic material). The material of layers 1 and 2 is connected to each other, at least in the zone of protrusions 4 during the formation of slots 3. The protrusions 4 are oriented in the direction of layer 1 of the non-woven synthetic material and are formed by the edges of the slot 3 bent due to plastic deformation when layer 2 is punched. , the fibers of the nonwoven synthetic material are embedded in the layer of thermoplastic material in the area of the projections 4. Also, the fibers of the nonwoven synthetic material can be embedded in the layer of thermoplastic material over its entire contact surface with this layer, including the area of the projections 4, and in the area of the projections - to a greater depth than on the rest of the surface. The edges of the slots 3, forming the protrusions 4, are bent towards the non-woven synthetic material with the formation of a gap for water to flow into it by gravity outside the rock sheet or the edges of the slots, forming the protrusions, can be bent towards the non-woven synthetic material with the formation of a contact between them, ensuring the flow of water outside the rock sheet under hydrostatic pressure. In this case, additional resistance is created to the outflow of electrolyte from the cavity bounded by the rock sheet. A rock sheet here refers to various forms of its execution, both the rock sheet itself in the form of a piece of cloth, and protective mats or tapes for placing such protection on curved sections.

The rock sheet used for pipelines with electrochemical protection can also be used for protection during the repair of a metal pipe with insulation, in which a damaged area may form, requiring the use of electrochemical corrosion protection.

As an example of solving the problem, a polymer sheet made of high-pressure polyethylene (LDPE) 158 and LDPE 15803-020 produced by Gazpromneftekhim Salavat LLC STO 05766575-140-2013, PVD 15803-020 Tomskneftekhim LLC, PVD 15803-020 OJSC "NAFTAN" GOST 16337-77. As non-woven synthetic material with a basis weight of 200 to 450 g/m ² , preferably with a basis weight of 300 to 350 g/m ² and a thickness of 4.0 to 6.0 mm, preferably a thickness of 4.8 to 5.2 mm, a needle-punched fabric can be used, for example, manufactured by Technoline according to STO 78262563.003-2008, the surface density of which is 300 g/m ² . The shape of the protrusions is determined by the shape of the tool used to form the slots and can be different, for example, prismatic, or in the form of a truncated cone or pyramid.

At the same time, the thickness of the resulting rock sheet for pipelines with electrochemical protection is from 4.0 to 6.0 mm with a layer thickness of thermoplastic material from 1.5 to 3.5 mm and a height of through slots pressed into it, respectively, less than 4.0-6. .0 mm. The formed slots 3 and protrusions 4 hold electrolyte by 15% more efficiently, providing conditions for electrochemical protection of the pipeline and monitoring its effectiveness, including when weather conditions change in the area of its location.

An increase in the duration of the electrolytic contact and the possibility of shifting the potential of the protected metal pipe with insulation to the cathode region by more than 500 mV and the presence of a stable response to polarization with an alternating current with a frequency of 1000 Hz makes it possible to localize through defects/damages in the insulating coating during acceptance and operation of the pipeline section.

Claims (6)

1. A rock sheet for pipelines with electrochemical protection, containing a layer of non-woven synthetic material coated with a layer of thermoplastic polymer material with through slots made in it, characterized in that the through slots are formed by punching through the heated thermoplastic material to a depth less than the total thickness of the layers of non-woven and thermoplastic material with the formation of protrusions connecting the said layers in the direction of the layer of non-woven synthetic material in the form of slot edges bent from the plane of the layer of thermoplastic polymer material due to plastic deformation during punching. 2. Rock sheet for pipelines with electrochemical protection according to claim 1, characterized in that the fibers of non-woven synthetic material are embedded in a layer of thermoplastic material in the area of the protrusions. 3. A rock sheet for pipelines with electrochemical protection according to claim 2, characterized in that the fibers of the non-woven synthetic material are embedded in the thermoplastic material layer over its entire contact surface with this layer, including the protrusion zone. 4. A rock sheet for pipelines with electrochemical protection according to claim 3, characterized in that the fibers of the non-woven synthetic material are embedded in the layer of thermoplastic material in the zone of the protrusions to a depth greater than along the rest of the surface. 5. A rock sheet for pipelines with electrochemical protection according to claim 1, characterized in that the edges of the slots forming the protrusions are bent towards the non-woven synthetic material with the formation of a gap for water to enter it outside the rock sheet. 6. A rock sheet for pipelines with electrochemical protection according to claim 1, characterized in that the edges of the slots forming the protrusions are bent towards the non-woven synthetic material with the formation of a contact between them, which ensures the flow of water from the outside of the rock sheet under hydrostatic pressure.

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