SU783486A1 - Power unit control system - Google Patents

Description

(54) ENERGY BLOCK REGULATORY SYSTEM

one

The invention relates to a power system and can be used to automate the power units of a steam generator-turbine.

Power unit control systems are known that contain a power regulator, the inputs of which are connected to a sensor and a power setting device and a differentiator connected to the steam pressure sensor in front of the turbine, and the output is connected to the input generator setting of a steam generator I. In these systems, a joint effect on the steam generator regulators is ensured and signal turbines for power and vapor pressure ahead of the turbine.

The disadvantage of these known systems is the reduced quality of control when signals are supplied from the emergency automation of the power system. A power control system is also known, which contains a power regulator, to the inputs of which are connected a sensor and a power setting device and a differentiator connected to the steam pressure sensor in front of the turbine, and the output connected to the input of the set generator performance steam.

a switch with a control input and a fuel regulator with its own set-. com u1. In this system, the switch is connected to the emergency control automation unit and switches the control inputs in a number of power system modes.

This system is the closest to the technical essence.

to and the achieved result.

The disadvantage of this known system should be considered to be the lower quality of power control, mainly in the mode of constant setting of the power of the unit when

15 fuel composition.

The purpose of this invention is to improve the quality of power control. To achieve this goal, a switch is connected between the controller,

20 . power and setting device manufacturer-. fuel control unit is connected to the switch parallel to the performance master, and the control input of the switch is connected

25 with the input of the setpoint adjuster power.

The drawing shows a schematic of the system. The power unit control system 30 consists of the setpoint adjuster 1 of the power regulator, sensor 2, power regulator, setting device 3 for steam pressure in front of the turbine, pressure sensor 4 for steam pressure in front of the turbine, differentiator 5, controller 6, acting on the turbine valves, turbine valves 7, power torus 8, switch setpoint generator 10 for steam generator performance, fuel control adjuster 1, measuring fuel control meter 12, measuring unit 13 for boiler power regulator. The switch 9 contains a differential switch 14, an adder 15, an analog transceiver 16, a relay 17 {, a time relay 18 and a control 19.

; The system works as follows.

; The power regulator 8 receives the AND | Gnal of the set power value from setpoint 1, a signal characterizing the actual power of the power unit, from sensor 2 and speed signpc on the vapor pressure ahead of the turbine, fs differentiated by the differentiator 5.

; With a constant task of power E1 ergobloka switch 9 connects to the controller B for power unit 11 controller of the fuel controller and at the same time disconnects the unit 10 processor performance of the steam generator. The setting units P15 are pulsed I1 tagging units. In this case, changes in the signal from sensor 2, which characterizes the actual power output of the power unit, associated with changes in the fuel supply channel, are com- plexed with the C5 fuel regulator, and the power and air control do not come into operation. Changes in the signal from power sensor 2 caused by the movement of turbine valves 7 are compensated at the input of regulator 8 by a signal from differentiator 5, and the signal of the change in vapor pressure upstream of turbine from sensor 4 is restored by regulator 6 by acting on turbine valves 7.

When the power unit's power task changes, the signal from setpoint 1 affects the switch 9, triggering it as follows. The power setting device 1 is displaced from an external control device pulse, which also switches on relay 17. Relay 17 switches 20 time relay circuit 18, which, with its normally open contacts 21, sets performance setpoint 10 to controller 8 and simultaneously turns off with its normally closed contacts 22 setting knob 11 of the fuel regulator

A change in the feed water supply leads to a change in the output signal of the measuring unit 12 of the fuel regulator, which leads to the operation of the analog-discrete converter 16 and to its contact 23 with the contacts 23 of the self-feed circuit of the time relay 18 with the contacts 24.

At the end of the transient, the output signal of the measuring unit of the fuel regulator 12 is close to zero, while the signal at the output of the differentiator 14 is close to zero. As a result, at the output of the adder-amplifier 15, the signal is within the dead band of the analog-discrete converter 16, which leads to opening contact 23 in the self-timer circuit of time relay 18 and restoring circuit B to its original state.

Thus, the power regulator, with a constant setting of the power of the power unit, affects only the fuel regulator, improving the quality of power control and parameters of the steam generator (steam temperature, excess air, etc.).

Claims (2)

1. Author's certificate of the USSR 434178, cl. F 01 K 7/24, 1971. 2. USSR author's certificate | Software for vek 2669691, cl. F 01 K 13/0 1978.