SU1573298A1 - Device for automatic control of straight-through boiler - Google Patents

Abstract

The invention makes it possible to increase the accuracy of automatic control of the power supply of the boiler in the firing continuous mode due to the fact that in separator mode the output of controller 1 is turned off by switching unit 6 from regulator 7 of the power supply and connected to the input of the integrator 5, whereby the controller 1 is automatically balanced the integrator 5. At the moment of switching over to the flow mode, the switching unit 6 disconnects the output of the controller 1 from the input of the integrator 5 and connects it to the regulator 7 of the power supply. Simultaneously, the switching unit 6 disconnects the output of the correction regulator 8 from the input of the dynamic communication unit 11, which automatically balances this controller, and connects the "more" of the latter to the input of the integrator 5. Under the influence of the signal from the temperature sensor 9, the correction regulator 8 changes the signal of the integrator 5, coming through the block 4 multiplying the input of the power supply controller 1 from the value corresponding to the fuel-water ratio at the moment of transition to the starting starting mode, to the value corresponding to new boiler operation with nominal steam parameters. 1 il.

Description

The invention relates to the automatic regulation of the power supply of boilers in start-up modes and is intended for use in direct-flow boilers burning fuel oil and gas.

The purpose of the invention is to improve the accuracy of adjustment in the pilot continuous mode.

The drawing shows a diagram. devices.

The input 2 of the feedwater flow rate and the fuel flow rate sensor 3 are connected to the input of the controller 1 through the multiplication unit 4. The output of the integrator 5 is connected to the second input of the multiplication unit 4 through the switching unit 6 connected to the regulator 7 of the power supply and to the input of the integrator 5. A correcting regulator 8 is connected to the input of the integrator 5 through the same switching unit 6 sensor 9 for steam temperature behind the starting injecting desuperheater, unit of the nominal temperature behind the boiler 10, the output of the integrator 5 and the output of the dynamic communication unit 11, the input of which is connected to the output of the corrector through the switching unit ktiruyushchy regulator 8.

During the separator operation of the boiler, the output of the regulator 1 is switched off by the switching unit 6 from the regulator 7 of the power supply and connected to the input of the integrator 5, whereby the regulator 1 is automatically balanced by the integrator 5. At the same time, the signal scaling factor for fuel consumption is set by the integrator 5 corresponding to the current the value of the ratio of fuel - water. At the same time, the output of the correction regulator 8 is connected by the switching unit 6 to the input of the dynamic communication unit 11, providing dynamic balancing of the correction regulator 8, and disconnected from the integrator 5.

At the moment of switching to the continuous mode, the switching unit 6 disconnects the output of the controller 1 from the input of the integrator 5 and connects it to the regulating authority 7 of the power supply. In this case, the ratio of fuel to water corresponds to its value at the moment when switching unit 6 triggers, and the connection itself is unstressed.

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At the same time, by the same switching unit 6, the output of the correction regulator 8 is disconnected from the dynamic communication unit 11 and connected more directly to the input of the integrator 5. The static setting of the correction regulator 8 is set so that when the temperature rises

jg of the primary steam behind the starting injecting desuperheater from the current value corresponding to the time of switching unit 6 to the nominal value, integrator

j "l 5, determining the value of the fuel-water ratio, passed from the current position reached at the time of the switching of the switching unit 6 to the position corresponding to the nominal 2 steam parameters, i.e. the main p mode.

This change is monotonous due to the fact that the executive

chain less corrective regulation

The torus is not connected to the integrator. Due to the dynamic balancing of the correction regulator using the dynamic communication unit 11 during the period of the separator mode, there are no stringent requirements for the dynamic adjustment of the correction regulator, but it must ensure a slower transient process than in the regulator acting on the starting injection desuperheater .

Thus, an additional adjustment regulator automatically adjusts the fuel-water ratio in accordance with changes in the boiler parameters, which eliminates significant disturbances in its temperature conditions at the start-up stages before connecting the main mode corrector to controller 1. Connecting fuel consumption sensor 3 to the controller 1 through the D multiplication block eliminates the influence of the multiplication block 4 on the gain of the regulator and thereby stabilizes its stability margin without introducing automatic subs oyki regulating device.

Claims (1)

The claims of the device for automatic regulation of the power supply of a rotary-type boiler with a regulating power source and an injecting desuperheater containing fuel flow sensors and 515732986 feedwater, steam switch units for start-up injection and multiplication, integrator, regulating desuperheater and setting unit feed notor connected via block terminal temperature, connected to the regulator body by the integrator and unit of the power flow and the integrator input, output In this case, the output of the switch is connected to the input of the block of the smart controller via a switch block, which is differently connected to the input of the block by dynamite, in order to improve the accuracy of the connection, and the circuits are larger — adjustments in the start-up run- “l are connected to the integrator input, and a sensor is connected to the input to the regular mode; block of dynamic communication and correction flow of feedwater and sensor tATiruyu regulator with the sensor of fuel consumption through the multiplication unit.