SU909237A1 - Power generation unit automatic control system - Google Patents

Description

one

The invention relates to a power system and can be used in the automation of power units.

The known systems of automatic power control of power units include a boiler power regulator connected to a boiler load control unit via a logic unit, a turbine power regulator connected to a turbine control mechanism through the same unit, a power limiter with its sensor and an emergency control unit connected to it output with input logic unit 1.

When the emergency automation unit is triggered, the logic unit switches the connections between the power regulators and the turbine control mechanism and the boiler load control unit, and the power limiter sends an additional signal to the turbine control valves.

In these systems, there are no special measures to increase the quality of regulation during the operation of the emergency control automation unit.

The closest to the proposed is the automatic control system

A power unit containing a boiler power regulator, a steam pressure regulator in front of the turbine and a static boiler control unit connected to the boiler load control unit via a logic unit, a turbine power regulator connected to the turbine control mechanism through the same unit, the power limiter with its own sensor and block emergency control; connected by its output to the input of a logic block 2.

The disadvantage of this system should be considered as a lower control quality when the emergency control unit is activated.

The purpose of the invention is to increase the quality of control when an emergency control unit is activated.

This goal is achieved by introducing a constant integration block and a memory block into the system, the inputs of which are connected to the power sensor and the emergency control automation unit directly, and with the constant integration block via a logic block, the output of the memory block is connected to the input of the limiter power, the output of which is connected to the input of the logic unit, and the input of the setter of static boiler control is connected to the power sensor and the setpoint of the boiler load. .

The drawing shows a schematic diagram of the proposed system.

The automatic power control system of the power unit contains a boiler load setting device 1, a boiler power regulator 2 with a power sensor 3 and a differentiator 4, a turbine control mechanism 5 with turbine control valves 6, a turbine power regulator 7 with a sensor 8 for pressure fluid in a pulse line, a setting device 9 , the steam pressure sensor 10 in front of the turbine connected to the controller 7 directly and to the controller 2 through the differentiator 11, the unit 12 of forming a predetermined power unit, connected to the controller 2 rarely through the differentiator 4 and to the controller 7 - through the differentiator 13. The power unit turbine is equipped with a high-speed static power limiter - 14, acting on the control valves 6 of the turbine through the electro-hydraulic converter 15 on command from the automatic control unit 16. The system also contains a static boiler control unit 17, one input of which is connected to a power sensor 3, and another input connected to a boiler load output 1 of the boiler, a steam pressure regulator 18 in front of the turbine, the input of which is connected to a front steam sensor 10 a turbine, the memory block 19 whose output is connected to the input of the static power limiter 14, and the input is connected to the sensor 3 of the MOTORNESS and to the output of the block 16 of the emergency automation, directly and to the output of the block 20 constant integration logical block 21 connecting the outputs of the boiler power regulator 2, the generator 17 static control of the boiler and the steam pressure regulator 18 in front of the turbine with the input of the boiler load adjuster 1, and the output of the turbine power regulator 7 with the input of the turbine control mechanism 5. One input of the logic unit 21 is connected to the output of the high-speed static power limiter 14, and the other input is connected to one of the outputs of the anti-accident automation unit 16.

The system works as follows. In normal operating modes of the automatic power control system of the power unit, for example, in the basic mode or when working out the daily load schedule, the signal from the emergency control automation unit 16 is absent, and through the logic unit 21 the boiler power regulator 2 controls the boiler load regulator 1, and The power torus 7 controls the turbine valves 6 through its control mechanism. At the same time, the system ensures high quality of maintaining the technological parameters of the power unit and, therefore, reliable and economical operation of the power unit equipment.

In emergency modes, if you need a quick change and a long retention of the post-emergency value of the power unit within the regulated

The range of the block 16 of the emergency control automation acts on the high-speed static power limiter 14, and the change in the power of the power unit is carried out with the speed of the turbine. At the same time, at the command of the emergency control automation unit 16, the memory unit 19 memorizes the pre-emergency power unit power value and the logic unit 21 disables the control of the boiler load control unit 1 from the boiler power control unit 2 and

Q control of the turbine control mechanism 5 from the turbine power regulator 7. At the same time, logic unit 21 connects the load setpoint 1 input to the output of the static control setpoint 17 of the boiler, which matches the output of the load setpoint 1 of the boiler and the new turbine power value set by the high-speed static power limiter 14, and thus roughly loads the load of the boiler tour bins. Exactly the load of the boiler to the load of the turbine is caused by the steam pressure regulator 18 in front of the turbine, for which logic unit 21 switches the control of the boiler load regulator 1, from the generator 17 of the static boiler control to the steam pressure regulator 18 in front of the turbine. After that, the logic unit 21 turns off control of the boiler load control device 1 from the steam pressure controller 18 in front of the turbine and connects the control circuit of the turbine control valves 6 through the control mechanism 5 to the high-speed static power limiter 14 from the power turbine regulator 7. At the same time, logic unit 21 connects the control circuit of memory unit 19 from unit 2Q.

5 constant integration in the direction opposite to the action of the emergency control unit. Since statically the load of the power unit is determined by the load of the boiler, the static power limiter 14, receiving a command from the memory unit 19, will only dynamically change the power of the power unit, and the dynamic power deviation is determined by the rate of change of the signal from the constant integration unit 20. Impact on regulatory

Claims (2)

5, turbine valves 6, a static power limiter 14 changes the adjustable parameters of the turbine power regulator 7, the restoration of which by the turbine power regulator 7 leads to a decrease in the dynamic power deviation and to an additional decrease in the output signal of the static power limiter 14. Thus, a gradual transfer of the signal controlling the turbine control valves 6 from the electro-hydraulic converter 15 to the control mechanism 5 is carried out, after which the logic unit 21 disconnects the control circuit of the memory unit 19 from the constant integration unit 20 and connects the control circuit of the control mechanism 5 turbines from turbine regulator 7 of power in the direction opposite to the action of the emergency control automation unit. Thus, the proposed automatic unit power control system provides higher quality control of the technological parameters of the power unit and the required speed when controlling from the emergency control automation unit and increasing the accuracy of maintaining the power of the power unit during the transfer of the control effect from the turbine control mechanism. Claims The power unit automatic power control system comprising a boiler power regulator, a steam pressure regulator in front of the turbine, and a static boiler control unit connected to the boiler load regulator via a logic unit, a turbine power regulator connected to the turbine control mechanism through the same unit, a power limiter with its sensor and an emergency control automation unit connected by its output with the input of the logic unit, characterized in that, in order to increase the quality control, when an emergency control automation unit is triggered, a continuous integration block and a memory block are entered into the system, the inputs of which are connected to the power sensor and the emergency automation block directly, and the logic block, the output of the memory block is connected to the input a power limiter, the output of which is connected to the input of the logic unit, and the input of the unit of the static control of the boiler is connected to the power sensor and the setpoint of the boiler load. Sources of information taken into account in the examination 1. USSR author's certificate number 729372, cl. F 01 K 13/02, 1978. 2. USSR author's certificate for application No. 2823472, cl. F 01 K 13/02, 1979.