SU149483A1 - Installation for cathodic corrosion protection of underground cable sheaths - Google Patents

Description

The metallic sheaths of cables laid in the ground are subject to the effects of soil corrosion and stray currents, which cause great damage to the national economy.

Corrosion by stray currents and the soil corrosion of cables are eliminated if they have a negative potential with respect to nearby land, equal to -0.20 + 0.90 volts. Negative (cathodic) polarization of cable sheaths is currently achieved by active electrical protection methods - cathodic protection and electrical drainage protection. Their essence is to create such conditions when the cable sheath collects the current from the ground. The magnitude of the voltage drop created by this current on the insulation resistance of the cable sheath determines the degree of protection of the sheath.

The existing methods of active electrical protection of underground structures suggest direct connection of the negative pole of the source of protective current to the protected structure.

In the case of cathodic protection, this is the negative pole of the rectifier, and in the case of electric drainage protection, the rail of electrified transport, which has a negative potential, or a negative traction substation.

However, the use of these methods to protect the sheaths of low and high voltage cables with a ground connection poses a serious challenge.

Under the conditions of industrial enterprises and urban networks (i.e., in areas with the most intense soil corrosion, stray currents), the grounding devices of substations or transformer stations are usually used to ground the cable sheaths.

No. 149483-2 (Fig. 1). The resistance to current spreading of earthing switches of these devices is in most cases very small (on the order of 0.1-0.001 ohms). Since the transient resistance of the cable envelope relative to the earth significantly exceeds the indicated values, a significant part of the protective current (indicated by dashed arrows) passes to the cable envelope not through its insulation, but through the grounding circuit of the substation, and does not create a protective negative potential on the cable sheath relative to nearby layers land. The useless part of the current, due to the small value of the resistance of the ground loop of the substation, far exceeds the useful protective current (shown by solid arrows) penetrating the cable jacket directly from the ground.

This creates an overload on both the cable jacket and the source of protective current, the power of which is required so high that the protection becomes economically unjustified.

Thus, the existing methods of cathodic and electrical drainage protection are not effective in applying to the protection of cable sheaths with grounding devices.

To provide an effective electrical protection for cable sheaths and to limit stray currents penetrating these shells through ground loops and creating corrosive potential zones, it is proposed to include a resistance between the cable sheaths and the grounding device, the value of which is determined by the safety requirements of the installation service.

FIG. 1 shows the existing circuit of the electrical network (two substations and an underground cable network); in fig. 2 is a diagram of the same section, but equipped with the proposed protective installation.

In the cable line diagrams, two substations 1 and 2 are connected. The metal sheaths 5 of the cables are connected to the negative pole of the source of protective current 4 (for example, the cathode station).

FIG. 2 in the open circuit of the sheath of 3 cables - the grounding device 5 of the substation includes resistance 6.

The inclusion of this resistance makes it possible to limit stray currents in the cable sheaths and to increase the efficiency and cost-effectiveness of the protective installation.

Subject invention

An installation for cathodic corrosion protection of underground cable sheaths in a system where cable sheaths are electrically connected to a grounding device, characterized in that, in order to reduce the current value of the cathode station closing the cable sheath through the grounding device, between the sheaths and the grounding device social resistance is enabled, the value of which is determined by the safety requirement of the plant service.

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