SU801185A1 - Method of restoring normal operating mode of electric network - Google Patents

Description

(54) METHOD OF RESTORING THE NORMAL MODE OF ELECTRIC NETWORK

Claims (2)

The invention relates to electrical engineering, in particular to electrical networks, and can be used in electrical networks to compensate for a single-phase earth-fault current. In electrical networks with full compensation of the main harmonic of a single-phase ground-to-ground current, the grounding arc conditions are determined only by the highest harmonics, since the voltage of the fundamental harmonic in the damaged phase is relatively zero, and the earth is zero both in the presence of the circuit and after it shutdown (liquidation). There is a method in which, after extinguishing the arc, regulating the voltage and, introduced into the network to compensate for the active component, change the voltage on the damaged phase U from zero to the phase value. The voltage recovery rate U% is chosen significantly less than the rate of rise of the electrical strength of the damaged gap. The advantage of this method is a significant reduction in the likelihood of re-sample l. However, a disadvantage of the known method is that it is not known with the help of any operations that the moment of extinguishing of the grounding arc is determined. And since there is no information about the elimination of a single-phase switch to ground, the automatic compensation system will constantly maintain the voltage of the industrial frequency at the damaged phase equal to zero. The closest solution to the present invention is a method in which, to determine the moment of quenching of the grounding arc, the voltage of the non-industrial frequency is introduced into the network, its value is measured at the faulty phase and, when the measured voltage is exceeded, the voltage is decreased to zero into the network to compensate for the active component. A significant disadvantage of this method is the additional introduction of a non-sine frequency into the network. When implementing the method, a special generator of non-industrial frequency is needed. In addition, the input voltage of an unsubstituted frequency causes an increase in the residual current flowing in the place of damage, which reduces the reliability of the compensation device and, consequently, the reliability of the coked network. The purpose of the invention is improving the reliability of the electrical network. This goal is achieved by the fact that in the method of restoring the normal operation of an electrical network with full compensation of the fundamental current harmonic of a single-phase ground fault at a constant frequency with unstable single-phase short circuits to the ground, after extinguishing the arc, it reduces the voltage applied to compensating for the active component of the single-phase zamak as earth, change the voltage on the damaged phase from zero to phase voltage, additionally create P1: the reduction of the voltage introduced into the network for com sensing the active component of the single-phase ground fault current, measuring the voltage increment on the neutral, determining the difference between these ratios and, if the indicated difference in growth does not exceed the specified dead zone, reduce the above-mentioned input voltage, ensuring recovery normal operation of electric safi. The drawing shows a block diagram of a device that implements the proposed method. The device contains an electrical network 1 to which an automatic device 3 is connected via a trans {voltage 2 curtain 2. Device 3 contains a block 4 of settings for the reactor component, the output of which through the control block 5 of the reactor is connected to the arc-shaped reactor 6, block 7 settings for the active component of the output of which is connected to the voltage injection device 8 to compensate for the active component through an additional winding 9 (or an additional single-phase transformer), the voltage incrementing unit 10 U, the output of which is connected to the second input of block 7, and block 11 of the increment comparison, one input of which is connected to the voltage winding of the zero sequence voltage transformer 2, the other through the matches of block 12 to the flea output 8, and the output to the third input block 7. The device works as follows. With single-phase ground-to-ground, unit 4 provides the setting of the arcing reactor 6, and unit 7 provides such a value of the input voltage or so that the main harmonic of the single-phase electrical current to ground becomes zero. In this case, the most favorable conditions for extinguishing the earth of the Khde arc and, therefore, for the elimination of the earth fault are given. To determine the presence of a ground fault, unit 10 periodically increments voltage 11, creating a detuning on the active component of no more than 1-2%. With a hinged ground voltage across the ground, the voltage across the neutral U will vary slightly. In the absence of a cable to earth, the voltage U will vary in proportion to the voltage Ud. UNIT 11 compares the voltage increments Uo and, if the difference of these increments does not exceed the specified insensitivity, it outputs a signal to the input of the compensation adjustment unit at the active component 7 to reduce the voltage, and restore the normal operation of the compensation network. The proposed method makes it possible to stabilize the voltage relative to the earth in the electrical network with single-phase arc faults to the ground, reducing the likelihood of repeated breakdowns of the damaged gap. All this causes an increase in the reliability of a single-phase voltage scanner device and, therefore, the reliability of the electrical network . Claims The method of restoring the normal operation of an electrical network with a FULL compensation of the main harmonic of a single-phase current is ground at industrial frequency with unstable single-phase closures on the ground, in which, after arc extinction, decreasing the voltage applied to increase the active component of the single-phase short circuit to ground, loosening in the damaged phase from zero to phase voltage, characterized in that, in order to increase the reliability of the electrical network, increments are created , the voltage introduced into the network to compensate for the active component of the current of the single-phase earth fault, measure the voltage increment on the neutral, determine the difference of these increments and, if the specified difference of increments does not exceed the specified dead zone, reduce the above voltage entered for compensation. Sources of information taken into account during the examination 1. Petrov OA, Ershov A.M. Compensation of the active component of a single-phase earth fault current in electrical networks. Lime universities, Energy, 1975, 10, p. 10-14. 2. Authors certificate of the USSR 642823, cl. H 02 J 3/18, 1976.