RU106714U1 - STRUCTURE FOR PROTECTION OF THE FISHING PIPELINE AGAINST CORROSION - Google Patents

Abstract

The utility model relates to corrosion protection of steel underground pipelines and can be used during operation. The objective of the utility model is the active protection of the production pipeline from the adverse effects of the potential of the main pipeline. This problem is solved by the fact that anode grounding conductors or magnesium protectors are connected to the production pipeline (PT). Usually use concentrated, distributed, deep and extended anode grounding. The main difference between magnesium protectors is the largest potential difference between magnesium and steel, which has a beneficial effect on the radius of protective action, which is from 10 to 200 m ² , which allows the use of a smaller number of magnesium protectors, unlike zinc and aluminum, there is no polarization, accompanied by a decrease in current output. The proposed structure for the protection of PT from corrosion can improve the operational reliability of the pipeline.

Description

The utility model relates to corrosion protection of steel underground pipelines without an electrochemical protection system (ECP).

On main pipelines (MT), ECP is used using cathodic polarization, in which the metal potential of the pipes rises to a value of minus 0.85 ... minus 1.1 V [F.M. Mustafin, M.V. Kuznetsov, G.G. Vasiliev and other - Protection of pipelines against corrosion. T. 1: Textbook. allowance. - SPb .: Nedra LLC, 2005. - 620 p.]

In the practice of protecting steel underground pipelines, 3 methods are used:

1. Permanent cathodic polarization;

2. Protective protection;

3. Electric drainage protection.

Corrosion protection of field pipelines, water pipelines, in some cases, pipelines of the inter-settlement gas supply system is carried out only by insulating coatings. Moreover, the natural potential of the pipe metal is within minus 0.4 ... minus 0.5 V.

In cases of intersection parallel to the MT installation with a production pipeline (PT), an electrical circuit arises between these pipelines. Due to the potential difference, MT becomes a cathode and a PT anode, which entails intense electrochemical destruction of the metal of the PT pipes, and an emergency occurs [F.M. Mustafin, L.I. Bykov, A.G. Gumerov, etc. - Protection of pipelines against corrosion. T.2: Textbook allowance. - SPb .: Nedra LLC, 2007. - 708 p.]

Closest to the proposed technical solution is the construction between the pipelines with different electrochemical potentials of an electric jumper (connecting cables) to equalize the potentials of the metal pipes. The disadvantage of this technical solution is that the protective current flows from the pipeline with high potential to the pipeline with lower potential, which leads to a significant increase in electricity consumption at the cathodic protection station (SCZ) of the first pipeline. Also, this method is not allowed due to the fact that the pipelines have different owners. [F.M. Mustafin, L.I. Bykov, A.G. Gumerov, etc. - Protection of pipelines from corrosion. T.2: Textbook allowance. - SPb .: Nedra LLC, 2007. - 708 p.]

In order to increase the operational reliability of the PT and corrosion protection, it is proposed to use the structure shown in figure 1, where 1 is the main pipeline; 2 - field pipeline; 3 - cathodic protection station; 4 - anode ground electrode or magnesium protector; 5 - connecting wires.

At the intersection of MT and PT with different potentials, metal anode groundings are connected to the PT, which are: concentrated, deep, distributed and extended.

To reduce the dissolution of the anode grounding electrodes and their resistance, coke breeze and other materials are used.

As such anode grounding conductors, magnesium protectors may be used, consisting of single concentrated or extended protectors or a group thereof, connecting wires.

When anode grounding is connected to the field pipeline, the electric circuit with the main pipeline will pass through the ground electrode, which implies the corrosion destruction of the ground electrode, and not the PT itself.

Claims (2)

1. A construction for corrosion protection of a production pipeline, including a trunk pipeline, a production pipeline, an anode earthing switch, characterized in that the anode earthing device is connected directly to the production pipeline. 2. The construction according to claim 1, characterized in that as the electrodes of the anode ground electrodes, concentrated, deep, distributed and extended metal electrodes, as well as magnesium protectors, consisting of single concentrated or extended protectors or a group thereof are used.