SU1511836A1 - Method of starting a power installation - Google Patents

Abstract

The invention relates to electrical engineering and can be used to control the launch of power plants containing a steam or gas turbine or a turbogenerator. The aim of the invention is to reduce the required installed power of the thyristor converter and increase the reliability of the start. The method consists in connecting a thyristor conversion unit (TPU) 7 to the stator of the stationary turbogenerator of the power unit, energize the turbogenerator, turn on the shaft-rotary device 3 and at the same time create a prohibition of the control pulses of the TPU from the shaft device, then close the pulse switching circuit of the TPU control unit and form the turbo generator stator current with a frequency varying synchronously with the rotation frequency of the rotor using the TPU. 1 il.

Description

3151

The invention relates to electrical engineering and may be used to control the launch of energy systems containing a steam or gas turbine and a turbine generator.

The purpose of the invention is to reduce the required installed power of the thyristor converter and increase the reliability of the start.

The drawing shows a diagram of a power plant for carrying out the proposed method.

The generator 1 is located on the same shaft with the turbine 2 and the shaft-turning device (TLU) 3. The stator winds of the generator I are connected to the low-voltage winding of the high-voltage operating transformer 4, the high-voltage winding of the transformer 4 is connected via the switch 5 to the power system b. Thyristor conversion device (TPU) 7 contains a control rectifier 8, a link 9 and a constant current, a dependent inverter 10 and a control unit P. TPU 7 through the input switch 12 is connected to the switchgear 13 of its own devices, and through the output switch 14 to the generator 1. The operational control unit 15 is connected to the outputs to the control inputs of the high voltage switches 12 and 14, independent of each other. A tee 16 connected to the winding 17 of the excitation of the generator 1 is also connected to the input 18 of the pulses of the control unit 11 and the elements 19 and 20, respectively, of the prohibition of the supply of the control pulses and the time delay. Synchronized gate of the control unit 1 1 through the transformer 21. voltage is connected to the stator winding of generator 3.

The process is as follows.

On command of the operational control unit 15, the switches 12 and 14 turn on, the independent driver 16 and the current in the excitation winding 17 are set to a current equal to the idle rotor current. The VS 3 is turned on and simultaneously the control pulse prohibiting element 19 is started and the time delay element 20. A three-phase alternating voltage arises on the stator winding of the air-powered generator 1, rotated by means of the TLU 3.

It is determined by the frequency of rotation of the TLU. This voltage through the transformer 21 is supplied to the control unit 11 as a synchronizing voltage for the TPU control system. The control system is synchronized. The time required for the control system to be drawn in must be at least 0.5 times the period of rotation of the generator rotor from the TLU. An increase in the retraction time to a value greater than the period of rotation of the generator rotor from the TLU is not permissible under the conditions of cooling of the generator rotor at a low frequency of rotation when current flows in the rotor equal to the idling current.

I

At the end . time delay

element 20, closes the pulse switching circuit of the TPU control unit. At the same time, the TPU control system ensures the formation of a sequence of TS thyristor control pulses synchronously with the rotor speed of the turbogenerator.

The magnitude of the moment of moving the power unit with a capacity of 200 MW is 3–4 times the value of the torque moment needed to start and maintain the rotor speed at 3000 rpm. Since the magnitude of the rotating moment is proportional to the installed power of the TPU-, the implementation of the proposed method makes it possible to reduce the installed capacity by 3-4 times.

Claims (1)

Invention Formula Starting method of the power plant - HOBKiij equipped with a generator c. a system of excitation, whose shaft is co-connected with a shaft-mounted device, a thyristor frequency converter connected by output terminals in the start-up mode to the generator windings at which the generator is energized, the voltage in the stator circuit of the generator is measured with synchronization by this voltage thyristor - other frequency converter, turn on the last one and perform synchronous start of the generator. put (lm of changing the frequency of the thyristor frequency converter, .o tl and h ay D (and so that, in order to reduce the installed power tyrnstornoy conversion. The crankshaft rotates and rotates the geotherm shaft and increases the reliability of the start, the nerator by the roller, after the generator has been excited, simultaneously after a 0.5–1 period of the shaft rotation, the frequency converter is constantly turned off: The frequency converter is turned on.