SU754633A1 - Apparatus for electric braking of synchronous generator - Google Patents

Description

The invention relates to improving the stability of parallel operation of synchronous generators with asymmetrical damages in electric power systems - 5 m. In addition, the claimed device limits the short circuit current in electrical networks.

Known devices for electrical braking synchronous 1

generator [Ϊ] and [2], containing switching equipment and starting circuit on a relay basis. They can tune away from damage that does not require braking of the generators. Such devices, connected to the generator voltage buses, have reduced reliability, since the start-up / rail-type circuitry has a case of rejection and false operation. Therefore, the devices, in general, could not provide sufficient speed required for braking the generators, especially the low-inertia, for example, capsular type.

The known device G2 ^ containing a controlled reactor, the working winding of which is connected in series to the stator circuit of the generator,

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a · the control winding is connected to a dc power source and the braking resistor included in the second operating winding of the reactor provides non-inertia electrical braking, but the requirements for the complex configuration of the controlled reactor reduces the reliable operation of the device.

Ie known devices is the closest device £ s]. This device for electric braking of generators, is intended to be included in the neutral of the power transformer and contains a braking resistor.

This embodiment of the device provides inertia-free braking of the synchronous generator for various asymmetrical damages in electrical networks, but the resistance is constantly flowing around the asymmetry current both in normal mode and in case of remote asymmetrical damages that do not require braking, thereby increasing the energy losses on the active resistance - / lenii.

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The disadvantages of the known devices are increased energy losses and the impossibility of the implementation of the detuning from remote asymmetric damage in electrical networks.

The aim of the present invention is to reduce energy loss and increase the reliability of the detuning from remote asymmetric damage.

This goal is achieved by the fact that a non-linear resistor, a contactor, a current transformer, a current relay and a contactor control unit ^ are inserted into a device for electric braking of a synchronous generator, designed to turn a neutral power-up transformer and containing a brake resistor, and a non-linear resistor in series with active resistance and in parallel with the contactor, the primary winding of the current transformer is connected in series with the active resistance, and in the secondary winding ku included winding relay, the contacts of which are connected in series with the input of the control unit of the contactor.

The drawing shows a schematic diagram of a device for electric braking of a synchronous generator in case of asymmetrical damage.

The device includes a power transformer 1, transmitting power from the generator 2 to the bus 3, a nonlinear resistor 4 connected in series with the brake resistor 5 and the current transformer 6, which is connected to the contactor 9 through the current relay 7 and the control unit 8.

The device works as follows.

In normal operation, the neutral shift of the power transformer 1 relative to ground is zero. When asymmetric damages are removed, the bias violation has a small value, i.e. in the range of voltages that do not require generator deceleration from zero to У = U _cf nonlinear resistor 4 has an infinitely large resistance and current in the neutral circuit of the transformer 1 - non-linear resistor 4 - braking resistor 5 - no ground, thus tuning out from remote asymmetric damage. When the bias voltage reaches the actuation value срабат = V _sr , the resistance value of the nonlinear resistor 4 is equal to zero, passing current through the resistor 5 through the neutral circuit of the transformer 1 - resistor 5 - earth-earth quenching the excess active power of the generator 2 on the braking resistor 5.

The appearance of a current in this circuit is fixed by a current transformer 6, as a result of which a current relay 7 is activated and the control unit 8 is working, which in turn causes the non-linear resistor 4 to be shunted by means of the contactor 9, thereby ensuring the deceleration of the synchronous generator and the safety of the resistor 4. those. disconnecting the contactor 9 is made by the control unit 8 after the current in the current transformer 6 and current relay 7 disappears. Thus, automatic synchronous generator braking without synchronization is performed automatically, rebuilt from remote asymmetrical damages with low currents, thereby reducing energy losses at the active resistance.

The magnitude of the trigger voltage is determined by preliminary calculations. Nonlinear resistor 4 is assembled from individual nonlinear elements having a factory-standardized trigger voltage, setting the required calculated trigger voltage for the nonlinear resistor as a whole, and since the trigger voltage for each element does not change over time, therefore, a one-time non-linear resistor is sufficiently set on it the required calculated voltage value, thereby achieving the operation of the device with a high degree of accuracy.

Technical and economic efficiency in the national economy from the use of this device is real, since the device does not contain expensive equipment. The nodes included in the device, easy to manufacture, mastered the domestic industry. Nonlinear elements, for example, based on zinc oxide, have already been developed, tested and mastered by industry.

Claims (1)

Claim A device for electric braking of a synchronous generator, designed to include in the neutral a step-up power transformer containing a brake resistor, characterized in that, in order to reduce energy losses and increase the reliability of tuning from remote asymmetrical damages, a non-linear resistor, contactor, current transformer are introduced , a current relay and a contactor control unit, the nonlinear resistor being connected in series with the braking resistor and parallel with the contactor, the primary winding of the trans current format is connected by 5 754633 6 hence with a braking resistor and the secondary winding includes a relay coil, the contacts of which are connected in series with the input of the unit control of the contactor.