RU2645752C1 - Shunting reactor with compensation-control winding - Google Patents

Abstract

FIELD: energy.

SUBSTANCE: invention relates to power industry. In reactor, compensating windings, which serve as power supplies of rectifiers and bias, form two parallel open triangles, to terminals of which rectifier and ballast circuit are connected. Novelty is that the rectifier is made by three-phase and the input is connected to the open triangle formed by secondary windings of transformers.

EFFECT: reduction of energy losses.

1 cl, 1 dwg

Description

The invention relates to electrical engineering and is used in electric power systems.

The widely known [1] scheme of a controlled shunt reactor (hereinafter referred to as CSR) contains two windings in each phase, which are connected in pairs with the first terminals in pairs with the windings of the other phases into two stars, and are combined with the second terminals of the windings in each phase and also contains the magnetization winding, to which it is connected pathogen. The disadvantage of this device is its great complexity, due to the need for an independent magnetization winding.

The closest in technical essence and the achieved results are [2] CSR, containing in each of the three phases network windings and two compensation-control windings, which together with the windings of different phases form two open triangles connected in parallel, and to the open terminals of which are connected ballast rectifier circuit and poles. The disadvantage of this device is the complexity due to the need to power the rectifier from an additional source.

The technical result is an increase in reliability and simplification of the design of CSR.

The technical result is achieved due to the fact that the rectifier is made of three-phase and input connected to an open triangle formed by the secondary windings of two transformers, the primary windings of which are connected each to the DC equipotential midpoints of two parallel branches of the compensation-control windings, and these branches are connected to the poles rectifier with opposite alternation of windings.

The drawing shows a diagram of CSR. Each phase of the CSR contains a network winding 1 (composed of two parallel or consecutive half-windings) located on the magnetic cores 2, and two compensation windings 3 and 4, which are located in each phase on different half-rods. Windings 3, 4 of different phases are connected so that they form two open triangles. A three-phase thyristor rectifier 5 is connected to the output points, as well as a ballast circuit 6. The rectifier is powered by transformers 7 and 8 connected to the two extreme windings of open triangles 3, 4.

CSR works as follows. It is a continuously adjustable three-phase inductance and is connected to high-voltage power lines and networks. Changing the DC bias current supplied by the rectifier 5, change the inductance of the CSR, and therefore the reactive power consumed by the CSR from the network. The windings 3, 4 are identical to each other and the current in both branches of the magnetization is the same. In windings 3, 4, both direct currents and alternating currents flow. Alternating currents, along with a small fundamental frequency current, contain triple frequency currents that are closed in two open triangles, forming a closed triangle. This improves the shape of the primary currents-windings 1. Ballast circuit 6 reduces overvoltage. Rectifier 5 receives power (alternating current) from the same windings 3, 4. In this case, direct current is not supplied to the primary windings of transformers 7, 8. The implementation of the rectifier three-phase and powered by control windings simplifies the circuit.

Information sources

1. The journal "News of electrical engineering", 2011, No. 3 (72), Fig. 1a.

2. Bias-controlled shunt reactors. Dmitriev M.V. et al., Ed. prof. Evdokunina G.A., S. Petersburg, Izd. House "Rodnaya Ladoga", 2013, p. 91, Fig. 3.17.

3. RF patent for the invention No. 2132581.

Claims (1)

A shunt reactor with a compensation-control winding, containing in each of the three phases network windings and two compensation-control windings, which together with the windings of different phases form two open triangles connected in parallel, and to the open terminals of which a ballast circuit and poles of the thyristor rectifier are connected, characterized in that the rectifier is made three-phase and the input connected to an open triangle formed by the secondary windings of two transformers, the primary windings of which dklyucheny to each ekvipotentsilnym DC midpoints of two parallel branches Compensatory and control windings, and these branches are connected to the opposite poles of the rectifier alternating windings.

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