RU2643787C1 - Method of controlling a shunting reactor at disconnection - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention refers to the electric power industry. Technical result is achieved due to the fact that the rectifier in the magnetization circuit is put into the shunting mode at the moment of the mains voltage failure.

EFFECT: higher reliability.

1 cl, 1 dwg

Description

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

The well-known / 1, 2 / method of controlling a shunt reactor (hereinafter CR), which consists in the fact that when the mains disappears, the bias current is kept to a minimum using an independent power source due to the fact that two rectifiers are connected to the bias circuit. The use of two rectifiers significantly complicates the CSR circuit.

The closest in essence is / 3 / the method of controlling the shunt reactor (hereinafter referred to as CSR), which consists in the fact that the bias rectifier is powered from the same network, control the bias voltage of the bias rectifier and, if available, regulate the phases of the pulses supplied to the rectifier in order to maintain a given parameter. When the network disappears, pulses are not supplied to the rectifier, which causes the magnetization current to stop. If this occurs in the automatic reclosure cycle (automatic reclosing), overvoltages may occur.

The technical result achieved in the proposed invention is to increase reliability.

The technical result is achieved due to the fact that with the disappearance of the supply voltage of the rectifier, it is transferred to bypass mode.

In the drawing of FIG. 1 and 2 shows a diagram for implementing the method, respectively, according to options. It contains: 1 - CSR, 2 - mains switch, 3 - main network, 4 - thyristor bridge controlled rectifier, 5 - controller, 6, 7 - phase and shunt control units of the rectifier 4, 8 - voltage control relay. The control method of CSR is as follows. CShR1 is made in a known manner and contains a winding from the power supply of the rectifier 4. The entire operation is controlled by a controller 5, which gives commands, carries out regulatory actions, processes the signals of sensors and control devices. All additional connections that are not necessary to explain the connection process are not shown in the drawings. In the state connected to the network (switch 2 is on), relay 8 detects the presence of voltage, phase control unit 6 supplies control pulses to rectifier 4, as a result of which there is a direct current output to bias CSR 1. Block 7 of the bypass control is turned off. The controller 5 controls the control unit 6 in order to maintain the required voltage level in the network 3. In an emergency - when the network is disconnected, relay 8 is turned off and sends a signal to the controller 5, which locks block 6 and opens the block 7 of the bypass control. This unit supplies control pulses to the thyristors of the bridge connected to one phase or to all thyristors. Since the time constant of the magnetization circuit of CSR 1 lies within 0.5-2 seconds, the magnetization current decreases slowly due to its flow through the rectifier 7, which, in the bypass mode, is a short circuit. The duration of a pause of AR is the same value. That is, all this time CSR 1 is in a magnetized state, which eliminates overvoltage during the subsequent appearance of voltage in the network 3 (after 35–500 kV) after the automatic reclosure or automatic transfer switch. After connecting CShR1 to network 3, rectifier 4 switches to power from CShR 1 in normal operation mode, and the controller locks block 7, opens block 6, as relay 8 is activated. This ensures reliable operation of the installation.

Information sources

1. RF patent No. 2447529, cl. H01F 29/14, 2010.

2. RF patent No. 2473999.

3. The journal "Electro", 2012, No. 4, pp. 37-41.

Claims (1)

The method of controlling the shunt reactor when disconnected from the network and automatically reconnected, which consists in monitoring the supply voltage of the bias rectifier and, if available, regulating the phase of the pulses supplied to the rectifier in order to maintain a given parameter, characterized in that when the rectifier supply voltage disappears put into bypass mode.

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