SU1152064A1 - Longitudinal compensation device - Google Patents

Abstract

A longitudinal compensation device, consisting of longitudinal capacitor capacitors connected in series to the phases of a compensated line and shunt reactors connected to both sides of the capacitors to earth, is characterized in that, in order to limit ground short-circuit currents, the reactors are equipped with secondary windings connected sequentially according to a hexagon, and in the chain of secondary windings an additional reactor is connected in series, connected in parallel with an additional resistor.

Description

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The invention relates to electrical engineering, namely, devices for limiting short-circuit currents to earth and can be used in electrical networks and in electrical stations. A device for longitudinal compensation is known, which in each phase of a compensated line contains a series-connected longitudinal compensation capacitor l. The disadvantages of this device are the dependence of the coefficient of use of the capacitor on the installation site on the line and the increase in TOKO short loop 1) by reducing the total reactance of the line. To eliminate the first drawback, on both sides of the capacitor include shunt reactors. A longitudinal compensation device is known, which contains in its order a compensated line a series-connected capacitor, on both sides of which a shunt reactor lj is connected to earth. The disadvantage of the device is. an increase in short-circuit currents by reducing the total reactance of the line. The practice of operating IO kV networks and more, where longitudinal compensation is applied, shows that, on 110-750 kV buses at power stations and junction substations, single-phase short-circuit currents are more likely than three-phase short-circuit currents, and the frequency of single-phase short-circuit currents 80-95% of all short-circuit cases. The purpose of the invention is to limit the earth fault currents, which is an extension of the functions of the longitudinal compensation device. To achieve this goal, a longitudinal compensation device consisting of longitudinal compensation capacitors connected in series to the phases of the compensated line and shunt reactors connected to both sides of the capacitors to earth, the reactors are equipped with secondary windings connected in series according to a hexagon, and the secondary windings An additional reactor connected in series with an additional resistor is connected in series. The drawing shows a diagram of the proposed device. The device consists of capacitors 1–3 longitudinal compensation and shunt reactors 4–9, the secondary windings of reactors 4–9 are connected according to a hexagon, an additional reactor 10 and a resistor 11 are connected to the secondary winding circuit. The secondary windings flow around only the zero-sequence currents and together with reactor 10 and resistor 11 reduces the effect of longitudinal compensation for zero-sequence currents. The degree of current limit is due to the permissible level of zero sequence voltage on the capacitor. Resistor 11 damps self-oscillations that may occur in the circuit. Thus, the use of a secondary shunt circuit with 12–15% longitudinal compensation of power transmission lines makes it possible to reduce single-phase short-circuit currents by 24–30%.

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Claims (1)

LONGITUDINAL COMPENSATION DEVICE, consisting of longitudinal compensation capacitors connected in series in the phases of the compensated line and shunt reactors connected on both sides of the capacitors to earth, characterized in that, in order to limit short-circuit currents to earth, the reactors are equipped with secondary windings connected in series according to a hexagon, and a secondary reactor connected in series with an additional resistor is connected in series to the secondary windings. 1 1152064 2