SU1615400A1 - System of automatic control of power unit - Google Patents

Abstract

The invention makes it possible to improve the accuracy of controlling the parameters of a power unit with intraframe gasification of solid fuel due to the fact that the influence of the gas pressure control loop on the power control loop is eliminated by means of a correction link. 1 il.

Description

The invention relates to power engineering and can be applied to power units with intra-cycle gasification of solid fuels.

The purpose of the invention is to increase the regulation accuracy.

The drawing shows the structures on the scheme of the automatic control system.

The power unit includes a boiler 1, a turbine and a gas generator 3. The system contains a steam flow controller 4, the input of which is connected to the output of the first adder 5, and the output is connected to the steam supply control valve 6 to the turbine; gas, the output of which is connected to the gas supply control valve 8 to the boiler, steam pressure sensors 9 and power 10, whose outputs are connected to the inputs of the steam flow controller 4 and the first adder 5, respectively, gas pressure sensor 11 connected to the second adder 12, output

which is connected to the inlet of the gas flow regulator 7, the steam-air blow control unit 13, connected to the control valves for the air supply 14 and the steam supply 15 to the gas generator, the corrective element 1b whose input is connected to the output of the second adder 12, and the output is connected to the block 13 controlling the supply of steam-air blowing, while the output of the first adder 5 is connected with the input of the control unit 13 of the delivery of a steam-carrying engine of a stuffy blowing.

The automatic power control system works as follows

in a way.

The reduction of the load of the block caused by an external disturbance, the error signal between the output signal of the power sensor Yu and the task from the output of the first adder 5 is fed to the input of the steam flow controller 4, thereby opening the control valve 6 for supplying steam to the turbine, which causes an increase in power output

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turbine 2, and to the input of the steam air supply unit 13, which opens the control valves for the steam supply 15 and air 14 to the gas generator, as a result of which the gas pressure in the gas generator increases, while the gas generation process also increases, which causes a rapid increase in gas pressure, and hence a faster response of the gas flow controller 7 due to the occurrence of an error signal between the output signal of the gas pressure sensor 11 and the reference, which is also applied to the correction code of the chipper link 16. The gas flow regulator 7 maintains the target.,. the pressure by venting the gas to the boiler, and the supply of a gas pressure error signal to the inlet of the steam-air supply control unit 13 to blow through the correction link 16 does not allow the air and steam supply to the gas generator to be changed until the specified gas pressure is restored. An increase in the gas flow rate in the chamber. By the regulator 7, the increase in vapor pressure, measured by the sensor 9, is compensated for and compensates for a certain drop in the vapor pressure associated with the force feed.

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Claims (1)

signal from the output of the first adder 5 to the regulator 4 of steam flow to the turbine. Invention Formula The system of automatic control of a power unit with a boiler, a gas generator and a turbogenerator, containing steam and gas flow controllers connected by outlets, respectively, to control valves for supplying steam to the turbine and gas to the boiler, a corrective unit, unit, h. steam-AIR flow control, connected to the outlets with control valves for supplying air and steam to the gas generator, the first adder, the output of which is connected to the input of the steam flow regulator, the second adder, the output of which is connected to the input of the corrective element, sensors and power settings, pressure steam and gas connected respectively to the inputs of the first adder, the steam flow controller and the second adder, characterized in that, in order to increase the control accuracy, the output of the second adder. no entry to the gas flow rate regulator of the torus, and the output of the first adder and an output of level korrektiouyug er coupled to the input of a blo--.tgrav- laziness feed parozozdugonogo dutp,