RU1778444C - Device for automatic control of temperature of superheated steam in steam generator - Google Patents

Abstract

A device for automatically controlling the temperature of superheated steam in a steam generator. Usage: heat, when controlling the temperature of superheated steam. SUMMARY OF THE INVENTION: the device comprises a temperature sensor for superheated steam in a steam collector, a comparison unit, and an inverter. The output of the comparison unit is connected directly to the input of the first controller and, through the inverter, to the input of the second controller. 1 ill.

Description

The invention relates to industrial power engineering and can be used to control the temperature of superheated steam in a steam generator having two superheaters on the sides of the steam generator working on a common collector, each superheater having a desuperheater.

A device is known for automatically controlling the temperature of superheated steam in steam generators having parallel injections along steam streams, each having its own controller for supplying feed water to the final injection, the first input of which is connected via a differentiator to the temperature sensor of the superheated steam behind the final injection, the second input of which connected to a steam temperature sensor at the outlet of the superheater.

The specified device has the following disadvantage; when thermal imbalances occur in the superheater x

the sides of the steam generator are not maintained at a predetermined temperature of superheated steam in a common steam manifold.

The aim of the invention is to increase the accuracy of controlling the temperature of superheated steam in a steam generator operating on a common steam collector.

The goal is achieved in that a device for automatically controlling the temperature of superheated steam in a steam generator having two superheaters on the sides of the steam generator working on a common steam collector, each superheater having a steam cooler installed between its steps, containing steam temperature sensors at the outlet of the first and second superheaters respectively , superheated steam temperature sensors behind the injection of the first and second superheaters, respectively, connected to the inputs respectively First and second differentiators, the outputs of which are connected to the first inputs

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the controllers for supplying feed water to the desuperheaters of the first and second superheaters, respectively, the outputs of which are connected to the actuators of the respective controllers, further comprises a sensor and a set point for superheated steam temperature in the steam collector, a comparison unit and an inverter, and the output of the superheated steam temperature sensor in the steam collector is connected with second inputs of feed water regulators to desuperheaters of the first and second superheaters, respectively, to the third inputs of which The output of the superheated steam temperature setter in the steam collector is connected, the negative and positive inputs of the comparison unit are connected to the outputs of the superheated steam temperature sensors at the output of the first and second superheaters, respectively, and its output is connected to the fourth input of the feed water regulator to the desuperheater of the first superheater and with the input an inverter, the output of which is connected to the fourth input of the feed water regulator to the desuperheater of the second superheater.

The drawing shows a diagram of the claimed device.

The device comprises a superheated steam temperature sensor 1 behind the injection of the first superheater, the output of which is connected to the input of the first differentiator 2, the output of which is connected to the first input of the first feed water regulator 3 into the desuperheater of the first superheater.

The device also contains a superheated steam temperature sensor 4 behind the second superheater injection, the output of which is connected to the input of the second differentiator 5, the output of which is connected to the first input of the second feed water regulator 6 to the desuperheater of the second superheater.

The output of the superheated steam temperature sensor 7 in the steam collector is connected to the second inputs of the first 3 and second controllers 6, and the output of the superheated steam temperature setter is connected to the third inputs.

The device also contains sensors 9 and 10 of the temperature of superheated steam at the outlet of the first and second superheaters, respectively, the outputs of which are connected respectively to the first (negative) and second (positive) inputs of the comparison unit 11, the output of which is directly connected to the fourth input of the first controller 3 and

through the inverter 12 to the fourth input of the second controller 6.

The output of the first controller 3 is connected to the input of the actuator 13 for supplying feed water to the desuperheater of the first superheater.

The output of the second controller 6 is connected to the input of the actuator 14 for supplying feed water to the desuperheater of the second superheater,

The device operates as follows.

The signal of the superheated steam temperature sensor 1 after the injection of the first superheater is fed to the input of the first differentiator 2, which generates a signal according to the rate of change of the temperature of the steam behind the injection of the first superheater. This speed signal arrives at

the first inlet of the first feed water regulator 3 to the desuperheater of the first superheater. Similarly, for the second superheater: superheated steam temperature sensor 4 signal behind the injection

the second superheater enters the input of the second differentiator 5, which generates a signal according to the rate of change of the temperature of the steam behind the injection of the second superheater. This speed signal

enters the first input of the second controller 6 of feed water supply to the desuperheater of the second superheater. The temperature sensor 7 is overheated about steam in the steam collector generates a signal supplied to

the second inputs of the first and second controllers, to the third inputs of which the reference signal for the temperature of the superheated steam in the steam collector is supplied from the setter 8. The signal of the superheated steam temperature sensor 9 at the output of the first superheater is fed to the first (negative) input of the comparison unit 11, the sensor signal 10 temperature of superheated steam at the outlet of the second superheater enters

the second (positive) input of the comparison unit 11, which generates an imbalance signal between the indicated temperatures. The imbalance signal is fed to the fourth input of the first controller 3 and to the input of the inverter 12, which generates a signal opposite in sign to the imbalance signal. The signal generated by inverter 12 is fed to the fourth input of the second controller 6. In accordance with the received signals, the first and second controllers generate signals arriving at the actuators for supplying feed water to the desuperheaters of the first and second superheaters, respectively.

Claims (1)

SUMMARY OF THE INVENTION A device for automatically controlling the temperature of superheated steam in a steam generator having two superheaters on the sides of the steam generator working on a common steam collector installed between its steps, comprising steam temperature sensors at the outputs of the first and second superheaters, superheated steam temperature sensors after injection of the first and second superheaters, connected to the inputs of the first and second differentiators, respectively, the outputs of which are connected to the first inputs of the regulator feed water into the desuperheaters of the first and second superheaters, respectively, the outputs of which are connected to the actuators of the respective regulators, characterized in that, in order to increase the accuracy of regulation, it contains a sensor and a set point for superheated steam temperature in the steam collector, a comparison unit and an inverter moreover, the output of the temperature sensor of superheated steam in the steam collector is connected to the second inputs of the regulators for supplying feed water to the desuperheaters of the first and second superheat respectively, to the third inputs of which the output of the superheated steam temperature setter in the steam collector is connected, the inputs of the comparison unit are connected to the outputs of the superheated steam temperature sensors at the output of the first and second superheaters, respectively, and its outputs are connected to the fourth input of the feed water regulator to the desuperheater of the first superheater directly, and with the fourth inlet of the feed water supply regulator to the desuperheater of the second superheater through the inverter. I feed the feed. 8odes Feed feed. 6 odes