SU848704A1 - Systems for regulating steam turbine of power unit - Google Patents

Description

one

The invention relates to a power system and can be used to automate the control of steam turbines operating as part of a power unit.

Known control systems for the steam turbine of the power unit contain a servomotor of control valves, to the input of which, through the control mechanism, are connected the outputs of the speed and pressure regulators, the sensor of the mains frequency and the setpoint connected to the input of the speed regulator, and nonlinear blocks in the connection of the outputs of the regulators to control mechanism. With small deviations of the network frequency, the servomotor: is controlled by the pressure regulator, and the signal of the speed regulator does not pass through the nonlinear unit. In case of significant deviations in the network frequency, the speed regulator signal passes to the control mechanism, and the pressure regulator is turned off 1J.

The disadvantage of these well-known systems is the lack of power control and reduced injectivity. Closest to the proposed. is a power unit steam turbine control system containing

servomotor of control valves, to the input of which, through the control mechanism, the outputs of the power and pressure regulators, power sensors of the generator and the frequency of the network and the power setter connected to the input of the power regulator, and a nonlinear unit, the input of which is connected through an adder to the sensor and connected pressure, and the output - with the input of the pressure regulator 12.

The disadvantage of this system should be considered to be the reduced injectivity of a power unit in case of an emergency power deficit.

The purpose of the invention is to increase the injectivity of the power unit in case of emergency power shortage.

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To achieve; this purpose, the system additionally introduced in series connected threshold unit and an inverter, with the input of the threshold unit connected to the adder, sensor

25 and a power setting device and a nonlinear unit output, and the inverter is connected by its output to the input of a pressure regulator.

The drawing shows the scheme of the proposed control system.

The system contains a steam generator 1 turbine 2, a condenser 3, a generator 4, a power regulator 5 with generator power sensors 6 connected to it, 6 network frequencies 7 and a power sensor 8, the output of which is connected via control mechanism 9 and intermediate link 10 to the servomotor 11 regulating valves 12 turbines 2.

The system of automatic regulation also includes a pressure regulator 13, which is connected to the pressure sensor 16 and the pressure setting device 17 through a nonlinear block 14 and the adder 15, and through an inverter 18 with a threshold unit 19 connected by its input to the adder 15 and connected to the sensor b and the power setting device 8, as well as to the output of the nonlinear unit 14. The output of the pressure regulator 13 is connected to the control mechanism 9.

The speed controller does not make fundamental changes to the essence of the system and is conventionally not shown in the drawing.

The system works as follows.

When setting the signal to a significant increase in power from the transmitter 8, the power regulator 5 acts on the opening of the control valves 12 of the turbine 2, which leads to a decrease in the vapor pressure upstream of the valves of the turbine. If the vapor pressure deviation exceeds the zone of sensitivity of the nonlinear block 14, then the signal from this block enters the input of the pressure regulator 13, covering the valves 12 of the turbine 2 and-; reducing the caivibiM vapor pressure. In this case, the threshold unit 19 is locked.

When setting the signal from the power setting unit 8, which is no less significant than in the previous case, the power regulator 5 also increases power by opening the valves 12 through the servo motor 11. However, in the absence of a signal at the output of the nonlinear unit and when the power deviates more than the specified the signal for steam pressure off is turned off via the threshold unit 19 to the inverter 18. The latter provides the pressure regulator 13 to open the valves 12, i.e. in coordination with the power controller 5. This provides additional opening of the turbine control valves and acceleration of the power unit with a controlled deviation of the vapor pressure. The deviation of the vapor pressure in the process under consideration does not exceed the permissible limit determined by the value of the dead zone by pressure, since, when its value is greater than the dead zone, the operation of the control system does not differ from the known one.

5 The conducted studies show that with relatively small power unit power surges, the total effect of pressure and power regulating devices turns out to be more intense than when operating only a power regulator whose performance with modern control systems is limited.

The economic effect from the use of the proposed automatic control system of a steam turbine of a power unit consists in increasing the efficiency of eliminating emergency power shortages in the power system due to an increase in the pickup capacity of the power unit. At the same time, the volume of power consumers forcedly disconnected at

5 emergency power shortage and the absence of other effective means of localizing the accident in the power system.

Claims (2)

1. USSR author's certificate No. 496373, cl. F 01 K 7/24, 1974. 2. Fragin M.S. and others. Systems for regulating condensing turbines of high power LMZ. - Thermal Engineering, 1972 ,, No. 11, p. 19-26.