SU249482A1 - - Google Patents

Description

INSTALLATION FOR TESTING HIGH-VOLTAGE SWITCHES ON THE TURNING CAPACITY

The invention relates to installations for testing the breaking capacity of high voltage switches intended for operation in power systems, in which the process of restoring voltage and contacts of switches after switching off the short circuit current is determined both by power supply sources and by a large number of transmission lines.

Installations for testing high-voltage breakers for breaking capacity are known, which contain a device for adjusting the shape of a regenerative voltage curve on a test switch, consisting of a condensate switch and a resistor connected in parallel with the switch under test. Also known are devices for adjusting the shape of a regenerative voltage curve, connected in parallel to a test breaker, consisting of a series-connected reactor, a capacitor: and a resistor, a series-connected capacitor, and a resistor and connected in parallel with the specified branch of the resistor.

observance of equivalent operating conditions of the circuit breaker in the critical interval near zero tripping current. The distortion of the regenerative voltage curve due to the influence of the switch (especially when it has low-resistance shunt) in installations with known devices for regulating the restoring voltage, occurs differently than in real power systems.

In test setups in which, in order to approach real conditions, a parallel connected reactor and artificial lines in the form of pendulous circuits of P or T links are connected between the power source and the test switch, the resulting resistance of the test circuit at the industrial frequency is significantly greater than the internal resistance of the source power, and the useful power of the test facility is reduced by this.

In the proposed installation, in order to reproduce the voltage recovery process corresponding to the conditions of

consists of series-connected reactors and a capacitor, and in order to reduce the required number of specified branches, the replaceable switch is shunted with correction branches, each of which consists of a series-connected resistor and a capacitor.

FIG. 1 shows a setup diagram with a regulating device containing additional branches; in fig. 2 - the same, but with corrective branches in the control device.

The test facility contains a power source consisting of a generator /, a transformer T and an adjustable current-limiting reactor P, a test IW switch and a device for adjusting the shape of the regenerating voltage curve, consisting of a parallel capacitor C and a resistor R, additional branches, each of which consists of a successively connected reactor and a capacitor (for example, LI-Ci, LZ-С, ..., Ln-С „) and correcting branches consisting of consistently connected resistors ra and a capacitor (for example, 1-С, 1, / 2-C2V ...,: А „-С).

In a number of cases, the current-limiting reactor P and the transformer -T or one of them are missing. A precharged capacitor bank is used in combination with a transformer and a reactor or one of them (oscillating circuit) as a power source.

To reproduce the voltage recovery process corresponding to the conditions of short-circuit shutdown in real power systems, proceed from the following.

Power lines connected to one of the breaker terminals that short-circuited the other side are generally represented by two main groups.

On one of the groups of lines of very large length to the place of short circuit a slight current flows, the magnitude of which can be neglected. These lines with a good approximation are considered as infinitely long, and their influence on the shape of the curve of the restoring voltage is reproduced in the test set-up.m parallel to the test resistor switch /, the value of which is chosen numerically equal to the resulting characteristic impedance of the specified line group.

The second group of lines from relatively distant power sources (stations or lodstation) to the short circuit site leaks the main part of the switched off current, and since the internal resistance of the power sources compared to the resistance of the lines at the industrial frequency can be neglected, the opposite end is equivalent. Line is connected to pins

a circuit breaker from a series-connected power source of unlimited power and a line short-circuited on one side, the resistance of which at the industrial frequency is equal to the resistance of the considered line of the second group. When tested, this circuit is reproduced by a power source with internal resistance at an industrial frequency, numerically equal to the resistance of the short-circuited line, and additional branches connected in parallel with the test switch, each of which consists of series-connected reactors and a capacitor (for example, LI-C, La -GZ, ...,), and their values are chosen based on the values of the inductive and wave resistance of the line under consideration (for example, as in ed. St. 197007).

The described adjusting device allows to reproduce the process of restoring the nanowire at any number of lines of different lengths with power sources at the opposite end. In the test setup, however, only one power source is needed, the internal powering of which is chosen equal to the resulting resistance of the power lines at the industrial frequency, and the number of additional branches increases accordingly.

If in real conditions the short-circuit current leaks from a local source, for example, a generator-transformer block, the internal resistance of the source of the titanium test set at an industrial frequency is equal to the resulting resistance of the supply lines to the local source, and the effect of which on the voltage recovery process is reproduced by turning on capacitor C parallel to the test switch.

The number of additional branches consisting of successively connected reactors and a capacitor can be significantly reduced if, in parallel with the test switch, the correcting branches are inserted, consisting of a series-connected resistor and a capacitor. The parameters of each of these branches are selected (for example, as in ed. St. No. 226032) in relation to the correction of an artificial short-circuited line.

Through the reactors of the additional branches of the device being described, currents of several tens of amperes flow briefly, and therefore the design of the reactors can be very simple.

The proposed device can be used both in direct tests of a switch and in tests in synthetic circuits.

Subject invention

of the shape of the curve of the restoring voltage on the test breaker, consisting of a capacitor and a resistor, connected in parallel with the test breaker, characterized in that, in order to reproduce the recovery process of the spring corresponding to the conditions of the short circuit in real power systems, without reducing the useful power of the plant, said device for adjusting the shape of the restoring voltage curve contains additional branches.

shunt test switch, each of which consists of a series-connected reactor and capacitor. 2. Installation by l. 1, characterized in that,

In order to reduce the required number of additional branches, the indicated device for adjusting the shape of the curve of the restoring april contains corrective branches that bypass the test switch, each of which consists of a series-connected resistor and a capacitor.

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