RU44427U1 - ANODE GROUNDER - Google Patents

Abstract

The proposal relates to the cathodic protection of underground structures against corrosion and can be used in the oil and gas industry, as well as in public utilities, namely, for the protection of complex networks of underground metal utilities, trunk pipelines, and urban underground metal structures. The earthing switch contains a working electrode made of iron-silicon alloy concentrically placed in a hollow cylindrical body filled with coke-mineral activator. Centering covers are located on the ends of the earthing switch. The connection cable serves to supply electric current to the electrode. The earthing switch is equipped with a transport cover mounted on one of the centering covers with the possibility of placement during transportation in the formed cavity of the cable. On the side of the transport cover there is a mounting bracket.

Description

The proposal relates to the cathodic protection of underground structures against corrosion and can be used in the oil and gas industry, as well as in public utilities, namely, for the protection of complex networks of underground metal utilities, trunk pipelines, and urban underground metal structures.

Known anode earthing switch (SU 852969 IPC 7 C 23 F 13/00, 08/07/1981) containing two concentrically arranged pipes, the space between which is filled with coke breeze, and steel disks are fixed on the inner pipe along the entire length of its working part from the outside, covering the pipe .

A disadvantage of the known ground electrode system is its low reliability, due to the peculiarity of the assembly of the ground electrode system at the installation site in the well, and a large amount of welding and installation work. The disks attached to the inner tube are an obstacle for a coke breeze without cavities under the disks of a monolithic backfill of the annular space in the case of making an earthing switch from prefabricated mounting sections with already mounted disks. To realize the stated characteristics of the ground electrode, it is necessary that the coke breeze close without cavities under the disks from all sides cover the inner tube and disks, therefore, the disks are welded to the inner tube and filled with coke breeze in turn: first, filling the fines to a height equal to the distance between the disks, then welding disk, then backfilling and again welding the disk, etc. Welds are a place of intense corrosion compared to other places where the impact of the electrochemical corrosion process is applied.

The closest analogue of the proposed solution can be considered an anode ground electrode, disclosed in RU 2210629 C1, IPC 7 C 23 F 13/08, 08/20/2003, containing a working electrode concentrically placed in a hollow cylindrical housing filled with an activator, centering covers located on the end sides earthing switch, and cable connection.

The disadvantage of this device is not a long service life, the complexity of transportation and installation.

The objective of this proposal is to increase the service life of the ground electrode system and improve its operational properties, simplify its installation and, accordingly, reduce the cost of installation work, as well as improve the conditions for its transportation to the installation site.

The technical result consists in facilitating the conditions for reactions at the anode, increasing the resistance of the cable and the housing to corrosion, as well as making it possible to package the cable on the ground electrode and sling the ground electrode during its transportation.

The technical result is achieved by the fact that in the anode earthing switch containing a working electrode placed in a hollow housing filled with an activator, centering covers located on the ends of the housing, and a connection cable connected to the electrode, the working electrode is made of a silicon-silicon alloy, and as an activator coke-mineral filling was used, which significantly increases the service life of the ground electrode, as well as facilitates the flow of reactions at the anode and improves its operational properties.

In addition, the connection cable is corrosion resistant. The inner surface of the housing is made with a corrosion-resistant electrically conductive coating, which allows to increase the shelf life of the ground electrode before putting it into operation.

The earthing switch can also be equipped with a transport cover mounted on one of the centering covers with the formation of a cavity between them for placement in the cable cavity during transportation of the earthing switch.

The earthing switch is also equipped with a mounting bracket mounted on the housing for slinging the earthing switch during its transportation.

The design of the anode ground electrode is shown in figure 1.

The anode ground electrode contains a housing 1 (container), in which an iron-silicon (ferrosilide) working electrode (anode) 2 is placed, and the free space is filled with coke-mineral activator 3 (KMA). KMA is used as a backfill of electrodes in order to reduce the transition resistance of the anode-soil, drainage of the electrode space and reduce the dissolution rate of the electrodes. KMA 3 consists of a mixture of coke breeze fractions up to 10 mm and coke fractions 10-25 mm, as well as a halogen-free mineral activator. Bulk density - not less than 0.8 kg / m ³ , specific resistance - not more than 0.06 Ohm / m.

The working electrode 2 of the ground electrode is made by casting from alloy ChS 15 GOST 7769-82.

The electrode is equipped with a corrosion-resistant lead-in cable 4 of the VPPO brand or a similar cable with a cross section of copper conductors 10 mm or 16 mm, designed for a nominal voltage of 1 kV. The cable is made with a polypropylene sheath, providing its high corrosion resistance.

From the end sides of the housing 1, centering covers 5 are installed, which prevent the KMA 3 from spilling out during transportation and installation. The housing 1 (container) is equipped with a transport cover 6. The space between the transport 6 and the centering cover 5 is used for laying cable 4, as well as the installation kit and accompanying documentation, for transportation. For ease of installation and loading

Unloading work, the ground electrode system is equipped with a mounting bracket 7, mounted on the transport cover 6 and the housing 1.

The speed of the anode dissolution of the ground electrode at a current load of up to 5 A / anode does not exceed 0.2-0, kg / A-year.

The housing 1 in the form of a container is designed for ease of transportation and to ensure uniformity of backfill of KMA 3 around the electrode 4 made in the form of a hollow cylinder of galvanized sheet steel with a height of about 1600 mm and a diameter of 210 mm.

During the operation of the ground electrode, when an electric current is supplied to the electrode 2, an electric field is created around the ground electrode, leading to the electrochemical dissolution of the electrode.

The rated operating current of the earthing switch is 5 A, the service life is 25-30 years.

Advantages of the anode earthing switch:

1. The ability to use as an element of surface grounding;

2. 100% factory readiness, which greatly facilitates and accelerates installation, improves assembly quality;

3. Installation of grounding conductors can be carried out both in trenches - horizontal laying, and in wells - vertical installation;

4. During operation, the contact of the anode earthing switch with the soil of the surrounding space is carried out through the electrically conductive case of the earthing switch. The gases generated during the operation of the ground electrode are released through the KMA, which has drainage ability due to the presence of coke of large fractions in the KMA.

Claims (4)

1. Anode ground electrode containing a working electrode placed in a hollow housing filled with an activator, centering covers located on the end faces of the housing, and an attachment cable connected to the electrode, characterized in that the working electrode is made of a silicon-silicon alloy, and used as an activator coke-mineral filling. 2. The earthing switch according to claim 1, characterized in that the connection cable is made corrosion-resistant, and the inner surface of the housing is made with a corrosion-resistant electrically conductive coating. 3. The earthing switch according to claim 1, characterized in that it is equipped with a transport cover mounted on one of the centering covers with the formation of a cavity between them for placement in this cable cavity. 4. The earthing switch according to claim 1, characterized in that it is equipped with a mounting bracket mounted on the housing for slinging the earthing switch.