SU144359A1 - Nickel boiler cathodic protection system for solid caustic - Google Patents

Description

Known cathodic protection systems for nickel boiler for producing solid caustic are known, in which the cathodic protection current is controlled by a resistive force to excite DC masks or by changing the air gap of throttles, including the MoMo on the AC side using selenium rectifiers. Since the resistance of alkali dissipation changes all the time during assembly and topping up, the cathode needs to be manually adjusted to maintain the required current strength; At the same time, each boiler must have its own source of direct current cathode zishggy.

The proposed cathodic protection system of a nickel boiler for producing solid caustic is characterized in that it automatically uses a three-phase magnetic amplifier to control the DC current of the cathodic protection and increase the reliability of protection, so that its i-magnetic fluxes are subtracted, but the first winding goes gok cathodic protection, and the second - the current of the auxiliary source current; ..

The principle scheme of the described cathodic protection system of a nickel boiler is shown in the drawing.

The system uses a three-phase magnetic amplifier having two windings 1 and 2 controls, connected in such a way that the rf.v magnetic fluxes are subtracted. A current through the protection cathode flows through the winding / control, and through the control winding 2 a current of the auxiliary DC source 3 flows. The auxiliary control has more ampere turns than the control winding, which is streamlined by cathodic protection. The difference in ampere turns is determined by the required stabilization limit. The auxiliary control current is kept constant for time.

No. 144359-2 When the current of cathode protection exceeds the required magical value. The amplifier amplifier current decreases, the voltage drop across the AC winding 4 increases and, therefore, the voltage applied to the transformer 5 decreases and therefore decreases to the calculated value. cathode zash, ity.

When the cathodic protection current drops below the set point, the amplifier's magnetic flux increases, and the drop of the voltage across the AC winding 4 of the amplifier and the voltage applied to the transformer 5 will increase. Consequently, the cathodic protection current will increase to the calculated value.

One described cathodic protection stabilization system can power two series-connected cathodic protection. In this case, the control of the presence of the electrical circuit for the protection current is carried out with the help of two relays of the type ET 521 / 0.2, used to perform automatic shunting of the cathodic protection current when the protection circuit is broken (the anode is broken, etc.). In addition, ET-521 bus relays are used to signal emergency conditions, in which the windings are replaced by one or two massive coils, the cross section of which is determined by the stabilization current.

Thus, the described cathodic protection system provides greater reliability of protection and automatic regulation of the amount of direct current of cathodic protection, and, therefore, has undoubted industrial utility. The introduction of this scheme in one of the enterprises made it possible to free two motor-generators and facilitate the work of the apparatchik. The energy savings from using this scheme is approximately 78,656 kWh per year.

Subject invention

A nickel cathode boiler system for obtaining a solid caustic, including a DC power source and alarms to turn off the power at an emergency current value, characterized in that, in order to automatically control the DC current of the cathode protection and increase the reliability of the protection, a three-phase magnetic amplifier, the two control windings of which are turned on so that their magnetic fluxes are subtracted, while the cathodic protection current flows through the first winding, and the auxiliary current flows through the second winding th current source.