SU1052680A1 - Turbine control device - Google Patents

Abstract

A DEVICE FOR REGULATING A TURBINE, comprising a sensor and a pressure setter connected to the inputs of the error generator, a power sensor connected to the first input of the regulator, the second input of which is connected to the output of the minimum signal connected to one of the inputs to the output of the specified power generation unit, and the rest are connected to sensors of limiting signals, and a control unit, characterized in that, in order to increase reliability, a switch with information and control inputs is inserted into it, moreover, the switch output is connected to the first input of a predetermined power generation unit, the information input is connected to the output of the error signal conditioner, and the control input is connected to the output of the control unit, to which the third regulator input and the second input of the predetermined power generation unit connected to the third input are also connected with power sensor output.

Description

JV Yu

O5

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y / y /

The invention relates to a power system and can be used to automate the control of steam turbines of power plants.

Turbine control devices are known, comprising a sensor and a laziness adjuster connected to the inputs of the error generator, a power sensor connected to the controller input, and a control unit 1.

These devices do not provide maximum power limitations on the state of technological equipment and thus do not provide a sufficiently high reliability.

Closest to the present invention is a turbine control device comprising a sensor and a pressure setter connected to the inputs of the error generator, a power sensor connected to the first input of the regulator, the second input of which is connected to the output of the minimum signal connected to one of the inputs the output of the unit of formation of a given power, and the rest to the sensors of the limiting signals, and the control unit 2.

A disadvantage of the known device is somewhat lower reliability.

The purpose of the invention is to increase the reliability of the device.

The goal is achieved in that a turbine control device comprising a sensor and a pressure setter connected to the inputs of the paccoi lasier signal generator, a power sensor connected to the first input of the regulator, the second input of which is connected to the output of the minimum signal connected to one from the inputs to the output of the generating unit of a given power, and the rest to the sensors of the limiting signals, and the control unit, a switch with information and control inputs is inserted, and the output is The body is connected to the first input of the unit for generating a given power, the information input is connected to the output of the error signal generator, and the control input is connected to the output of the control unit, to which the third input of the controller and the second input of the fi rm unit of the given power are also connected. with power sensor output.

FIG. 1 is a diagram of a device for adjusting a turbine; on f. 2 - block diagram of the formation of a given power.

Turbine control device {FIG. 1) contains a unit 1 for generating a given power, a detector 2 for a minimum signal, one of the inputs of which is connected to the output of a unit 1 for generating a given power, and for the remaining inputs

signals are received from sensors of limiting signals that limit the power reference (the sensors in Fig. 1 are not shown). The output of the minimum 2 signal of the signal is connected to the primary input of the regulator 3, designed to form a reference for the valve position regulator {fig. 1 is not shown) according to the output signals of the detector 2. The minimum signal and power sensor 4. The device also contains a paccoiMacoBan shaper 5, whose input signals are the output signals of pressure sensor 6 and pressure setpoint 7. The output of the error signal generator 5 through the switch 8 is connected by the command of the control unit 9 to the input of the unit 1 for shaping the specified power. Unit 9 also controls the operation of unit 1 to generate a given power and controller 3.

A power generation unit {fig. 2), contains the power setting driver 0 and the adder 11, intended for summing in the pressure control mode of the steam of the power task with correction for pressure from the error signal generator 5. The power setting generator 10 consists of a setpoint adjuster 12, two controllers 13 and 14, a switch 15 which, in the steam pressure control mode, according to command from the control unit 9, connects the output of the comparator 14 to the input of the counter 16, and the code-to-voltage converter 17 .

In the loading mode, with a planned loading rate, the power generation unit 1 generates a power task that increases to the level specified by the operator. The output signal of the unit of formation of a given power is fed to the input of the detector 2 of the minimum signal. The remaining inputs of the min. 2 signal of the Minimal signal receive signals requiring the limitation of maximum power. Such signals are the signals from the setpoint adjuster of the maximum permissible power according to the state of the process equipment, from the setpoint adjuster of the maximum load value corresponding to the temperature and humidity of the steam, from the pressure limiter form signal from the rotor relative elongation sensor, etc.

If the signal from the output of the block 1 to form a given power is not greater than any of the levels of limitation, then from the output of display 2 the minimum signal as a setpoint is fed to the input of controller 3, which, depending on the value of the setpoint and the signal from the sensor 4, forms setting the valve positioner.

If the signal from the output of block 1 of the specified power exceeds at least one of the levels of limitation, then at the output of miniature 2, a signal appears that corresponds to the lowest level of limitation, which as a setpoint is fed to the input of regulator 3. Thus depending on the state of the process equipment, the temperature and humidity of the steam, the relative elongation of the rotor, etc. Further loading will be carried out in the event of a level being removed, limiting moschv of the task of controlling the vapor pressure mode output signal shaper 5, an error signal formed by signals from the pressure sensor 6 and the pressure set point 7 through the switch 8, the control command of the block 9 is supplied to the output unit 1 forming a predetermined power. At the same time, at the command of the control unit 9, the unit for generating a given power is transferred to the tracking mode for the current power value received from the sensor 4, and the settings (parameters) of the control law are changed in controller 3. In addition, in this mode, the unit of formation of a given power sums the task on the power equal to the current value of the power, with correction for the pressure coming from the driver 5 of the error signal. The output signal of the specified power generation unit 1 is fed to the input of miniature 2 sig. If the output signal of the power setting generation unit 1 does not exceed any of the levels of limitation, then from the output of miniature 2 the minimum signal as a setpoint is fed to the input of the regulator 3, another input which receives a signal from the power sensor 4. In the pressure control mode, the setting of the valve position controller formed by the controller 3 does not depend on the value of the current power and is actually determined only by the output signal of the error generator 5. If the signal from the output of block 1 exceeds any of the levels of limitation, then at the output of reader 2 of the minimum signal, a signal will appear that corresponds to the smallest ..,. "" "," Level of limitation that the setpoint is fed to the input In this case, the controller 3 sets the position controller. .. „....,.„ ,. „t valves maintain the power at the level reached at the time of limitation, which prevents emergencies and increases the reliability of the turbine unit. By adjusting the level limiting the signal of the power setting unit-1, the controller 3 again sets the task to the valve position controller, which maintains the vapor pressure. Thus, the introduction of a given power in the pressure control mode of the given power, which allows you to limit the power in both the power control mode and the pressure control mode, increases the reliability of the turbine unit and prevents emergency situations.

Claims (1)

DEVICE FOR REGULATING A TURBINE, comprising a sensor and pressure regulator connected to the inputs of the imbalance signal generator, a power sensor connected to the first input of the regulator, the second input of which is connected to the output of the minimum signal detector connected to one of the inputs to the output of the set power generating unit, and the rest - to limit signal sensors, and a control unit, characterized in that, in order to increase reliability, a switch with information and control inputs is introduced into it, The output of the switch is connected to the first input of the set power generating unit, the information input is to the output of the mismatch signal driver, and the control input is connected to the output of the control unit, which also connects the third input of the regulator and the second input of the set power generating unit connected to the third input by the output power sensor. SU „„ 1052680 FIG. A>