SU752615A1 - Apparatus for regulating reactive power - Google Patents

Description

The invention relates to electrical engineering and can be used to improve the efficiency of transmission of electric power of long-distance power lines, increasing their capacity, increasing the limits of static and dynamic stability of overvoltage / kenya, etc.

Known devices, provide-. Slightly smooth regulation of reactive power over a wide range (controlled reactors with DC magnetization) l. In the case of reactive power control, by connecting the direct current controlled reactor to the reactor 15, a smooth control of the reactive power is provided during slowly varying processes in the electrical system. 20

The disadvantage of such devices is that due to the large constant time of the control winding it is not possible to provide the necessary rate of change of reactive power 25 with large disturbances in the system, in transient conditions, in addition, the use of an additional transformer is required when it comes to reactors with rotating magnetic 30

Lem, or there is a relative increase in the cost of creating a reactor for a voltage of 10 kV and more, in the case of transformer type reactors. There are difficulties in connecting such devices at high power.

A device for controlling reactive power is also known, which contains a saturable electric induction device 2.

Such a saturable reactor provides very high adjustment rates, but has a small adjustment range, which prevents their use with small disturbances in the system.

The aim of the invention is to expand the functional capabilities of the device, as well as to reduce the consumption of active materials and active losses.

The goal is achieved by the fact that the device for controlling reactive power, which contains a saturable electric induction device, is equipped with a direct current controlled electric induction device connected in series with an inductive electric induction device, and the controlled device is less than twice as saturated in power. Devices can be switched on via a switching device.

FIG. 1. shows the scheme of inclusion of 1 device in the network; in fig. 2 - current-voltage characteristics of the controlled apparatus; in fig. 3 - volt-ampere characteristic of the saturating apparatus; in fig. 4 shows the current-voltage characteristics of a device for adjusting reactive power.

The device contains a saturation equalizer 1 connected to the controlled reactor 2 through the switching device 3.

The saturation reactor can be tightly connected to the controlled reactor.

The device works as follows. In normal mode, i.e. in case of small disturbances, when not required, a high rate of change of the mode, regulation is carried out with the help of an electric induction device 2 controlled by a direct current along the curves of fig. 3. At the same time, the regulation is smooth in the range required by the power transmission mode.

With large disturbances and sudden changes in voltage, the power of the device changes according to the characteristic of the saturating apparatus 1 (Fig. 2) with a high rate of change, mode. As a result, depending on the type of disturbance, the power change of the device will occur according to the characteristics of FIG. 4, corresponding to the speed of the adjustment steps.

If we consider that to ensure the normal operation of power lines, regulated power is not required more than 1/2 + 1/5 of charge

power transmission lines, then the power of the controlled apparatus 2 must be two or more times less than the power of the saturating from apparatus 1. in most cases it will be 4-5 times less, which will significantly reduce the consumption of active materials and, therefore, active losses.

Thus, the combination of the positive properties of the saturating and controlled apparatus allows the proposed device to be used in both normal and emergency modes.

At the same time, the consumption of active materials is reduced by 2-50%, the total losses are reduced, the number of high-voltage equipment decreases, and the limiting power of the control device is expanded.

Claims (2)

1. M. S. Libkind. Controlled Reactor for Long-Range Power Transfers, M., 1961. 2.Sb. Electrical networks and systems. Ed. V. A. Venikov, t.Z., M., 1972.