DE845363C - Switching process with single-pole short-circuit continuation for solidly earthed, single or double-ended high-voltage networks - Google Patents

Description

Switching method with single-pole short-circuit switching for rigid earthed, single- or double-ended high-voltage networks Single-pole short-circuit continuation in solidly earthed networks plays an essential role. In particular, it is used to switch off single-pole earth faults. With long Lines complicates the healthy phase conductors in the event of a fault Sick conductors flowing cross current the interruption of the rear end arc already for values from 5 A. The disruptive effect of the cross current can be avoided by doing without to single-pole short-circuit progression and through the transition to three-pole short-circuit progression to encounter. In this case, however, the stability of the power transmission may be compromised endangered. For this (.round it was suggested that the faulty phase conductor to be bridged on the faulty route after the universal connection and thus to extinguish the arc generated by the cross current.

With this method, the phase short grounding must then be carried out wire-by-wire and therefore each circuit breaker with three additional single pole circuit breakers be equipped for earthing.

The disadvantage of this solution is therefore its complexity as well as the costly effort.

For these reasons it has been suggested instead of the circuit breaker to use disconnectors for earthing and, if possible, only for a short time to put on earth in order to avoid damaging the same.

However, this method sets a complete synchronism of the switching operations at the beginning and end of the line ahead. It is not guaranteed this can damage the earthing switch. For example can at one end of the line to be switched the single-pole line switch already open and the associated isolating earthing switch must already be closed while on the opposite side has not yet performed a switching operation. Then the Isolating earthing switch must be opened again on one side and then the interrupt the full single-pole earth fault current. Such a burden is natural the earthing switch is not up to the task.

If you also have a synchronous opening of both switches on a line could ensure, the far more necessary simultaneous closing appears of the two line switches impracticable. You have to be with one in any case Expect uneven behavior of both switch devices at the ends of the line.

According to the invention is therefore for solidly earthed, one or two-sided fed high-voltage networks an improved single-pole short circuit, incremental switching method suggested. This improvement consists in the fact that to delete the earth faults generated by the cross current from the healthy phase conductors after the diseased phase Arc only a single earthing switch in each phase, if applicable a circuit breaker is provided.

First of all, it is irrelevant whether the damaged phase conductor is responsible for the suppression of the arc generated by the cross current of the healthy phase conductors on both sides or is earthed on one side only. Thus the earthing apparatus would be exclusive on one side suffice. If the line is only under tension on one side, and will they just kept under tension from, the side on which the grounding apparatus is missing, it must be ensured that this is switched on on the opposite side. The criterion for this can be the disappearance of the tension at the open end of the Use line.

Since the two line switches are not switched on synchronously at both ends of the line it can happen that the person is not connected to the earthing equipment equipped switch has not yet switched while the isolating earth of the 'switch already opens on the opposite side, you have to open this by the isolating earth make flowing short-circuit current dependent. So the circuit breaker must first be opened when this is practically de-energized.

It can just as well happen that he does not have the earthing equipment switches equipped switches first, so that this switch switches on, before the isolating earth on the opposite side has finished its switching cycle. It will therefore the proposal continues to be based on the circuit breaker with an earthing switch A voltage monitoring system must be arranged on the corresponding side of the line in any case. This side may only be switched on again if all three Phases in which healthy tensions have returned.

In addition, a non-synchronous reconnection of the advanced To counter phase conductor in the event that despite the only single-phase, short-sided Interruption the stability should be disturbed when it is considered Line is a coupling between two power plant systems.

Claims (1)

PATENT CLAIMS: i. Switching process with single-pole short-circuit continuation for solidly earthed single- or double-fed high-voltage networks, characterized in that that for the deletion of earth faults by the cross current from the healthy phase conductors after the diseased phase of the generated arc in each phase only a single earthing switch, if necessary, a circuit breaker is provided. z. Switching method according to Claim i, characterized in that this earthing switch is only connected to one End of the line is arranged. 3. Switching method according to claim i and z, characterized marked that the earthing switch for single-pole earth faults also is switched on when the line is only energized from one side and that the circuit breaker combined with the earthing is on the non-fed Side, whereby the grounding itself is made dependent on the voltage breakdown. Switching method according to Claims 1 to 3, characterized in that the interruption of the earthing switch or circuit breaker from the disappearance of the current flowing through it is made dependent by means of an overcurrent relay. 5. Switching method according to claim i to 4, characterized in that after the short-circuit progression the reclosing takes place in such a way that first the one with the earthing device provided line switch and only then the corresponding line switch is inserted, the insertion of the latter from the return of healthy tension made dependent at the end of the line by monitoring using a voltage converter will. 6. Switching method according to claim i to 5, characterized in that the Reconnection of the second line switch also from the synchronicity of the depends on the two power supply units to be switched on at the ends of the faulty line is made.