SU532694A1 - Control system of the boiler turbine unit - Google Patents

Description

(54) KOTEL-TURBIN BLOCK REGULATION SYSTEM

turbine control valve position sensor 3, turbine control valve position sensor 4, power setting device 5 connected to boiler capacity controller 1, power sensor 6 connected to boiler performance controller 1, turbine pressure sensor 7 in front of the turbine connected to controller 2 turbines, proportional-integral regulator 8, connected between regulator 2 Turbines and sensor 4 of the position of turbine control valves, control valves of the turbine 9, regulator of the boiler 10, differentiator 11.

The system works as follows. At a high power level of the unit, the control valves of the turbine 9 are open more than in the sliding pressure mode. Because of this, the signal from sensors 4 of the control valve is larger than the signal from the setpoint controller 3 of the regulating valves. Therefore, the regulator 8 bites the maximum limit signal aimed at decreasing the position of the turbine valves, or (which is the same) at increasing the vapor pressure reference value in front of the turbine.

The maximum value of this signal is set equal to the signal from the vapor pressure sensor 7 at a vapor pressure equal to nominal. Thus, the irk of all positions of the turbine valves higher than those specified by setpoint 3, the output signal of regulator 8 is maximum, and regulator 3 works as a pressure stabilizer in front of the turbine pressure setting equal to its nominal value.

With an increase in the setpoint by the setter 5 of molos5GI, the boiler capacity regulator 1 will affect the regulator of the boiler 1 and reduce the flow of water, air and fuel into the boiler. At the same time, the steam pressure behind the boiler will decrease and to maintain the set nominal pressure, the regulator 2 closes the regulator; the largest valves of the turbine 9. When the signal from the sensor 4 of the position of the regulating valves becomes less than the signal from the setpoint 3, the regulator 8 will begin to reduce its output signal, The steam pressure regulator 2 serves as a task so that the position of the turbine valves remains equal to the set point 3. At the same time, the unit will switch to the sliding pressure operation mode with the specified turbine valve position, ensuring m max gg

new economy ;.

In the course of further siphoning the task of powering the unit with the setting device 5, the regulator 2 seconds through the Moibra controller 3 will maintain the position of the valves in the steady state constant, while the vapor pressure in front of the turbine will decrease. The minimum limit signal from the controller 8 you is taken so that it is equal to the signal -. from the steam pressure sensor 7 at the minimum allowable vapor pressure in front of the turbine. Once the steam pressure in front of the turbine reaches its minimum level when reducing the power of the unit, regulator 8 is not limited and regulator 2 acting on the valves of the turbine will start working as a pressure stabilizer with a pressure setting equal to the minimum allowable.

5 With a further reduction in power of 5 blocks, the turbine control valves will close, and the regulator 8 will not be able to reduce the pressure reference, as it is on the limit.

Similarly, but in reverse order, the system works with an increase in the unit capacity task.

Disappearing impu. ьс according to the vapor pressure through the differentiator 11 to the regulator 1

made to ensure the invariance of the regulator 1 to the movement of turbine control valves.

By reducing the speed of the regulator G of the torus 8, by changing its dynamic settings, the transients will be improved under internal disturbances and the boiler acceleration will increase as the unit load changes and the transients will also deteriorate due to the deviation of the turbine valve position from

Thus, by changing the setting of the regulator 8, it is possible to ensure the flexibility of the system so that it satisfies the various requirements of operation of the unit.

Claims (2)

1. USSR author's certificate No. 366272, M.C. 01 K 7 / 24,1971g. 2. USSR author's certificate No. 434178, M.Kl.R 01 K 7/24, 1971