SU1651018A1 - System for automatically controlling parameters of vapor downstream of power-generating boiler - Google Patents

Abstract

The invention relates to the automation of heat and power equipment. In order to improve the quality of controlling the steam parameters behind the energy technological boiler, a third piecewise linear element (CLE) 16, a fourth CLE 17 and a steam temperature sensor installed in front of the superheater outlet section are introduced into the system. With an increase in the disturbance at the intermediate point of the steam path above the value determined by the dead zone of the fourth CLE 17, the signal through the third CLE 16 limiting the value of the corrective action and through the adder 11 enters the input of the regulator 10 pressure reducing the disturbance on the steam load. 1 il. i

Description

The invention relates to the field of automatic control of steam generators.

The aim of the invention is to improve the quality of regulation of steam parameters.

The drawing shows a functional diagram of a system for automatically controlling steam parameters behind an energy-technology boiler.

The energy-technology boiler is equipped with a superheater 1 with an injection system (cooling water, the superheater outlet section 2 'and is connected by the steam outlet 3 to a steam consumer. The automatic steam control system includes a water injection valve 4 connected to a temperature controller 5, a first adder 6, connected with an output the temperature regulator 5, and the inputs connected to the setter 7 and to the steam temperature sensor 8 in the output steam line 3, a steam valve 9 connected to the pressure regulator 10, and a second adder 11, the output is connected to a pressure regulator 10, to the first input of which a pressure sensor 13 in the output steam line 3 is connected through the first piecewise linear element 12, a steam temperature sensor 8 in the output steam pipe 3 is connected to the second input through the second piecewise linear element 14, and a second master 15 is connected to the third input of the second adder 11, and between the second piecewise linear element 14 and the second adder And a third piecewise linear element 16 is installed, to the second input of which is connected via the fourth piecewise linear element 17 chen steam temperature sensor 18 is mounted in front of outlet section 2 superheater.

The regulatory system operates as follows.

When the temperature of the steam deviates from the output steam line 3, the first adder 6 generates a mismatch between the signal from the setter 7 and from the steam temperature sensor 8 in the output steam line 3. A signal proportional to the mismatch is processed by the temperature controller 5, which changes the flow rate of cooling water with valve 4 to injection.

When the steam pressure deviates in the output steam line 3, the signal from the pressure sensor 13 is fed through the first piecewise linear element 12 to the first input of the second adder 11, the third input of which receives a signal from the second setter 15. The different slope of the characteristics of the first piecewise linear element 12 provides a weakened regulatory effect with small pressure deviations and a strong forced regulatory action with large pressure deviations.

When a sharp change in the flow rate of the selected steam or when the flow rate of the process fuel changes, the signal from the temperature sensor 8 is fed to the input of the second piecewise linear element 14 and then to the input of the third piecewise linear element

16, which implements a characteristic of the form

У Y = Y _max for X> X!

for X Xi <X <Xi У — - Utah. For X <-X |

Perturbations associated with a change in process fuel consumption are received from the steam temperature sensor 18 in front of the outlet section 2 of the superheater to the inlet of the fourth piecewise linear element

17, having a characteristic of the form fU = 0 for -X ₂ <X <X ₂

Y = K ₂ (X — X ₂ ) for X> X ₂ (Y = A ₂ (X + X ₂ ) for X <—X ₂

The signal from the fourth piecewise linear element 17 is fed to the input of the third piecewise linear element 16, which forms a limitation of the signal fed to the second input of the second adder 11. An adjusted signal begins to arrive at the input of the pressure regulator 10, which reduces the level of perturbation with respect to the steam load.

Claims (1)

Claim The system of automatic control of steam parameters behind an energy technological boiler, containing an injection valve connected to a temperature regulator, a first adder, an output connected to a temperature controller, and inputs connected to the first setpoint and a steam temperature sensor in the output steam line, a steam valve connected to a pressure regulator, and the second adder, with an output connected to a pressure regulator, to the first input of which a pressure sensor in the output steam line is connected through the first piecelinear element, A temperature sensor in the output steam line is connected to the second input through a second piecewise linear element, and a second control unit is connected to the third one, characterized in that, in order to improve the quality of steam parameter control, the system additionally contains a third and fourth piecewise linear elements and a steam temperature sensor in front of the superheater, the third piecewise linear element is installed between the second piecewise linear element and the second adder and is connected by a second input through the fourth piecewise linear element with a sensor com steam temperature in front of the superheater.