SU1594644A1 - Device for controlling reactive power of electric network node - Google Patents

Abstract

This invention relates to electrical engineering and can be used in power supply networks. The purpose of the invention is to reduce energy losses. Busbar 1 is supplied from busbar 1 through a sensor of reactive current 2. Load reactive power is compensated for by switching the steps of a capacitor bank 5. Subtractor 9 detects the uncompensated part by signals from sensors 2 and 4. The signal of the subtractor 9 through the control unit 8 and the exciter 7 acts on the synchronous machine 6. 1 Il.

Description

The invention relates to electrical engineering and can be used in power networks. The purpose of the invention is to reduce energy losses. From Tin 1 through the sensor of reactive current 2 loads are loaded. 3. Reactive load power is compensated by switching the steps of the capacitor battery 5. Subtracter 9 by the signals of sensors 2 and 4 determines the uncompensated part. . 1 s.n. f-ly, 1 ill.

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The invention relates to electrical engineering and can be used in power networks.

The aim of the invention is to reduce energy losses.

The drawing shows a diagram of the device.

Tires 1 network through the sensor 2 reactive current connected load 3, and through the second similar sensor

4 - controlled capacitor battery 5. In addition, synchronous machine 6 (compensator or motor) is connected to tires 1. To the rotor of the machine

6 is connected to the exciter 7. To the input of the latter is connected to the control unit 8, the input connected to the subtractor 9. The last inputs are connected to sensors 2 and 4, the composition of the battery

5 includes a capacitor 10, a switch 11, a unit 12 for controlling it and a threshold element 13. There can be several nodes 10 - 1.3.

The device works as follows.

Tires 1 are powered by load 3, which consume reactive power. Depending on the magnitude of the reactive current (or power) measured by sensor 2, one or another capacitor bank 5 is turned on. The inclusion of capacitors 10 occurs due to the triggering of the threshold element 13, which affects the control unit 12. The latter sends trigger signals to key 11. Since the capacitor battery is regulated in a discrete manner, it cannot accurately compensate for the reactive power consumed by the loads 3, the difference between the reactive load power and the power generated by the capacitor battery is determined by the subtractor 9 and compensated by the synchronous machine 6 by applying the signal of the subtractor 9 through the control unit 8 to the exciter 7, which changes the excitation current of the machine 6. Thus, the main part of the reactive power of the load 3 is compensated uet capacitor bank 5 and only a small

the component is compensated by the synchronous machine. It is known that the specific losses in capacitors are several times less than in electric machine compensators. The capacitor battery 5, due to the high speed of the key 11, is triggered with a delay of 10-30 ms. Therefore, in case of jumps of reactive power, the main part of these jumps is quickly compensated by switching capacitors 10 on or off.

Thus, the main part of the reactive power is almost instantly compensated by the apparatus (capacitor battery.5), which has minimal specific losses. This reduces energy loss.

Claims (2)

Claim 1. A device for regulating the reactive power of an electrical network node, containing a discretely adjustable capacitor battery with leads for connecting to a power grid node and a continuously adjustable inertial inductive element with leads for connecting to a power grid node, a timed control for a capacitor battery, whose input is connected to output sensor mode parameter, and the inductive element controller, characterized in that, In order to reduce power losses, a reactive current sensor with leads was used as a mode parameter sensor and included in the load circuit of an electrical network node, and the device is equipped with a capacitor battery reactive current sensor and a subtractor, while the reactive current sensor output in the load circuit and the reactive sensor output The current in the capacitor battery circuit is connected to the inputs of the subtractor, the output of which is connected to the input of the regulator of the inductive inertial element. 2. The device according to claim 1, of which is that a synchronous machine is used as an inductive inertial element.