SU1504780A2 - Arrangement for controlling voltage and reactive power of power station - Google Patents

Abstract

This invention relates to the automatic control of power plant modes for voltage and reactive power. The purpose of the invention is to increase reliability by improving the accuracy of setting reactive power. In the control mode from the centralized control system, the switching unit 1 provides for the passage of control signals from the reactive power regulator 23 to the control units 3-5, which respectively change the settings of the excitation regulators of the generators 14-16. When the station reaches the required value of reactive power, if the communication channel is damaged, or on command from the centralized control system, the control unit 7, acting on the switching unit, switches the control units to signals from the secondary voltage regulator 6, providing autonomous voltage regulation on the tires power plants. 1 il.

Description

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The invention relates to the field of automatic control of power plant modes for voltage and reactive power.

The purpose of the invention is to increase reliability by increasing the accuracy of setting reactive power.

The drawing shows a diagram of the device.

The device contains a switching unit 1, remote control input 2, generator control units 3-5, voltage regulator 6, control unit 7, inputs 8-10 of the generator exciter controllers installation devices, automatic generator regulators 11-13 (ARV) generators 14-16, upstream transformers 17-19, power station busbars 20, measured voltage circuit 21, reactive power adder 22, reactive power regulator 23,

The input of the setpoint adjustment of the reactive power of the connections to the input terminal (2) of the remote control, and the output of the controller are connected to the input of the control unit 7 and through the switching device (1) to the combined first inputs of the control units 3-5. A second circuit of the switching unit 1 connects the output of the voltage regulator 6 to its own setpoint change input.

The control input of the switching unit 1 is connected to the output of the control unit 7. The control units 3-5, receiving information about the mode of the generators 14-16 in the form of voltages and currents of the stators, perform the role of excitation limiters and devices for distributing reactive power between the generators.

The outputs of the control units 3-5 through the terminal 8-10 are connected to the outputs of the automatic regulators 11-13 of the generator excitation, respectively. The second inputs of the control units 3-5 are connected to the inputs of the adder-meter 22 of reactive power and through the terminals 24-26 to the outputs of the measuring circuits of the generators 14-16, which are connected to the station buses through transformers 17-19, He also connected the measuring input of the secondary voltage regulator. The output of the adder 22 is connected to the measuring body of the regulator 23 of reactive power.

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The device works as follows

In the initial static state, input 2 does not receive a signal from the centralized control of the voltage of the power grid's power supply. The control unit 7 is not excited, there are no signals at its output, and the position of the switching unit 1 corresponds to the shown} to the inputs of the generator control units 3-5 and the output of the secondary voltage regulator 6 is connected, and if the bus voltage goes beyond its deadband then the mode is controlled as usual.

When a task arrives from the centralized control system at the input, the control unit is energized and switches the circuits to the opposite position shown in the drawing. At the input of the reactive power regulator 23, a reference to reactive power is recorded. Further, the regulator 23 compares the set value with the actual value and performs control until the actual reactive power matches the set value, which affects the position change of the APB adjusting devices 11-13 through control units 3-5 . Each control unit controls the mode of its generator and acts on changing the setpoint of the corresponding excitation controller 11-13, providing the required value of the generated reactive power with its simultaneous distribution between the generators. Upon reaching the limiting mode, the control units act on the excitation limitation, keeping the generator mode within acceptable limits. The bus voltage through the input terminal 21 is continuously monitored by the secondary voltage regulator 6, so that its setpoint is maintained equal to the current value of the voltage. When a special signal is received from the centralized control system or the station reaches the required reactive power (one of these features is selected, it is understood that the emergency signal comes after all stations have reached the reactive power reference) the switching unit 1 is switched by the control unit 7 to in which the chain of change is broken

the settings of the secondary voltage regulator 6, the inputs of the control units are disconnected from the output of the reactive power controller 23 and connected to the output of the secondary voltage regulator 6. The station switches to autonomous voltage control by signals from the secondary voltage regulator 6 until the next change of the reference by the centralized control system.

The proposed device for controlling the reactive power and voltage of a power plant will significantly improve the reliability of the control system due to the fact that the reactive power control function of the station is performed by the local secondary reactive power regulator and the centralized system is responsible for the optimal distribution of reactive power between the stations. In addition, by maintaining the voltage

rum voltage, the device ensures optimal operation of the first node of the power system both in normal and emergency modes, which also increases the reliability of the control system,

Claims (1)

The formula of the invention, ... A device for regulating the voltage and reactive power of a power plant in a.s. No. 1317639, characterized in that, in order to increase reliability by increasing the accuracy of reactive power setting, connected between the first input of the switching unit and the clip for connecting to the remote control, and the reactive power meter-generator of the individual generators, the output of which is connected to the second input reactive power controller, the output of which is connected to the input On station tires, the secondary control unit is 25 control units.