RU1815370C - Control system for gas-turbine power plant - Google Patents

Abstract

Use: systems for regulating low-power power plants and for generating high-quality electric energy. SUMMARY OF THE INVENTION: the system comprises a compressed air heater 10, a damper 12c with an actuator, a second gas discharge line 13 to the atmosphere. The system also includes a temperature sensor 15 and an air temperature controller 14. turbine generator inlet. 1 ill.

Description

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The invention relates to control systems for low power gas turbine power plants for generating high quality electrical energy.

An object of the invention is to increase the reliability of a power plant.

The drawing shows a control system for a gas turbine power plant.

It contains a single-shaft turbocompressor 1, a combustion chamber 2 through which the compressor 3 output and the turbine inlet 4 of the turbocompressor 1 are connected, an air intake pipe 5 from the compressor 3 output to the turbogenerator input 6, in which a flow regulator 7 controlled by a frequency regulator 8 is installed in series connected to the rotational frequency sensor 9 of the rotor of the turbogenerator 6 and a heater 10 of compressed air, the input of the hot channel of which is connected to the discharge line 11 of the exhaust turbine A of the turbocharger 1 into the atmosphere, the heat is powerful whose temperature and the compressed air temperature at the inlet to the turbogenerator 6 is controlled by a damper 12c with an actuator connected to the second discharge line 13 of the turbine 4 of the reset line 11 and controlled by a temperature controller 14, the input of which is connected to a temperature sensor 15 installed in the pipeline 5 at the entrance to the turbogenerator 6 and the output of the frequency controller 8, and the output of the temperature controller 14 is connected to the input of the frequency controller 8 of rotation of the rotor of the turbogenerator 6.

The control system of a gas turbine power plant operates as follows.

The flow rate of compressed air from the output of the turbine 4 of the turbocharger 1 is controlled by the flow controller, 1 controlled by the frequency controller 8 of the rotor rotation of the turbine generator b, and the temperature of the compressed air at the inlet to the turbogenerator 6 is supported by a change in the heat output of the heater 10 due to a change in the flow rate of the combustion products from the exhaust of the turbine 4 of the turbocharger 1 with a damper 12 with an actuator through which, according to the signals of the temperature controller 14 of the compressed air at the inlet to the turbogenerator 6, a controlled discharge of combustion products is carried out from exhaust turbine 4 turbocharger 1 in

atmosphere, mine heater 10.

Coarse regulation of the rotor speed of the turbogenerator b is provided by the flow controller 7 according to the signals of the frequency controller 8, and precise control is provided by changing the temperature of the compressed air at the inlet to

turbo generator 6 damper 12 with actuator

according to the signals of the temperature controller 14.

In this case, the inlet air temperature

the turbo-generator 6 is maintained close to a predetermined value, the excess of which is excluded by the feedback of the temperature controller 14 to the frequency controller 8, and through it to the flow controller 7.

Claims (1)

The claims A gas turbine power plant control system comprising a single-shaft turbocompressor and a combustion chamber, through which a compressor outlet and a turbine inlet are connected, having a Taz discharge line into the atmosphere, a turbogenerator, on the rotor of which a speed sensor is connected to a speed controller connected to a flow controller characterized in that, in order to increase reliability, it further comprises a heater, a damper with an actuator, a second gas discharge line into the atmosphere, a temperature sensor tours and the air temperature regulator at the inlet to the turbogenerator, the input of which is connected to the temperature sensor and the output of the speed controller, and the output - to the input of the speed controller and the damper actuator installed in the second gas discharge line to the atmosphere, connected to the first line discharge in which a heater is installed, the compressor output being connected through a flow regulator and a heater to the turbogenerator inlet.