SU1103323A1 - Device for adjusting reactive power - Google Patents

Abstract

1. A DEVICE FOR REGULATING REACTIVE POWER, containing a three-phase three-winding transformer, a three-phase capacitor bank connected by a star, and three linear reactors connected in series with three pairs of counter-parallel thyristors, a switch that is different in that with the aim of expanding the functionality and increasing efficiency , the switch is made six-contact, two-position, to the first three movable contacts of which a capacitor battery is connected, to the second three pods common parallel thyristors, fixed contacts of the first position of the switch are connected respectively to the leads of the secondary windings of a three-winding transformer, while the first fixed contacts of the second position of the switch are connected to the second fixed contacts of the first position, and the second fixed contacts of the second position of the switch are connected to the first fixed contacts first position. 2. The device according to claim 1, characterized by the fact that, in order to ensure continuous control of reactive power, the secondary windings are wired with a ratio of output voltages to Y2.

Description

The invention relates to electrical engineering, in particular to static devices of reactive power of industrial enterprises or individual plants with a change in the consumed or generated reactive power in a wide range. Reactive power compensators are known that contain an unregulated capacitor bank (filter-compensating unit) and linear reactors, the magnitude of the reactive power consumed (current) of which is controlled by changing the unlocking angles of three pairs of parallel-opposing tyors 1. The disadvantage of such devices is the complexity of their power circuit, which increases the cost of the compensator. The device closest to the invention is a device containing a star-connected static capacitor, a three-phase three-winding transformer and three pairs of parallel-opposite thyristors that are connected in series with three linear reactors and three switch contacts to the output terminals of the first or second secondary windings of the transformer C23. However, the battery of static capacitors in the known device is connected directly to the phase terminals of the power supply network and the stepwise change in the power of the compensator is carried out only by changing the connection circuit of the parallel-opposite thyristor couple branches — the linear reactor to the output terminals of the two secondary windings of the transformer, which limits the functional capabilities of the compensator, reduces its range of adjustment and reduces efficiency. The aim of the invention is to enhance the functionality of the compensator, increase efficiency and ensure continuous control of reactive power. The goal is achieved by the fact that in a device for controlling reactive power, containing a three-phase three-winding transformer, a three-phase capacitor bank connected by a star, and three linear reactors connected in series with three pairs of opposite parallel thyristors, the switch is 32, the latter is six-contact, two-position, to the first three moving contacts of which are connected to a capacitor battery, anti-parallel thyristors, fixed end points to the second three moving contacts acts first position of the switch terminals are connected respectively to secondary windings of a three-winding transformer, with the first fixed contacts of the switch are connected to the second position with the second fixed contacts of the first position and the second position of the second fixed contacts of the switch are connected to the E-perv1 first stationary contacts position. In addition, the secondary windings are made with a ratio of output voltages to Y. The drawing is a schematic diagram of a device for controlling reactive power. The device contains a star-connected three-phase capacitor bank 1 and triangle-connected three branches of parallel-opposing thyristors - a linear reactor 2, which are connected through the windings of a three-phase three-winding transformer (3 primary winding, V4. First secondary, 5 - second secondary) and two-position six-pole switch contacts 6 to the phase terminals of the mains supply A (., B, C. The coils and the connection circuits of the secondary windings 4 and 5 of the transformer are chosen in such a way (for example, a star and a triangle) that the output The first secondary winding 4 (terminals A, B, C) is not equal (for example, more) to the output voltage of the second secondary winding (terminals A, The device operates as follows. When the moving contacts are left (first position) of the switch 6, the battery of static capacitors 1 is connected to the output terminals A, B, C of the first secondary winding 4 of the transformer, and the controlled branches 2 are connected to the output terminals A, B, C of the second secondary winding 5. The total reactive power of the compensator Q is equal to the sum of the unregulated generated reaction hydrochloric battery power capacitors Q ,. and adjustable by

Claims (2)

1. DEVICE FOR REGULATING REACTIVE POWER, comprising a three-phase three-winding transformer, a three-phase capacitor bank connected by a star, and three linear reactors connected in series with three pairs of counter-parallel thyristors, a switch, characterized in that, in order to expand functionality and increase efficiency , the switch is made of six-contact, two-position, a capacitor bank is connected to the first three movable contacts, to the second three movable contacts counterclockwise thyristors, fixed contacts of the first position of the switch are connected respectively to the terminals of the secondary windings of the three-winding transformer, while the first fixed contacts of the second position of the switch are connected to the second fixed contacts of the first position, and the second fixed contacts of the second position of the switch are connected to the first fixed contacts of the first position g 2. The device according to p. 1, characterized in that, in order to ensure continuous regulation of reactive power, the secondary windings are made with a ratio of output voltages up to 72. >