SU731179A1 - Apparatus for automatic control of direct-flow boiler feed in heating-up mode - Google Patents

Description

The invention relates to the field of automatic control of power supply of boiler units in start-up conditions and is intended for use in once-through boilers burning fuel oil and gas.

A device for automatically controlling the power of a once-through boiler in a direct-flow kindling mode, comprising a controller with fuel and feed water flow sensors, the last of which is connected to the controller through a multiplication unit, the output of which through the switching unit is connected to a power control valve and an integrator [1].

The second input of the multiplication unit is connected to the j output of the tracking system, the input of the controller of which is connected to the fuel consumption sensor and the master, and the output is through the same block of the switch with the integrator input. 2

At the separator stage of the ignition mode, the switching unit disconnects the regulator output from the power supply control valve and connects this output to the integrator input, and also connects the integrator input of the tracking system to the output of its regulator. The output of the tracking system determines the fuel-water ratio.

At the moment of transition to direct-flow ignition mode, the switching unit switches the controller output from the integrator input to the power control valve. 5 Due to the fact that the regulator is continuously balanced until it is connected to the control valve, this connection is made without impact. Disabling the integrator of the tracking system allows 0 to fix the static adjustment of the controller at the time of switching to the entire subsequent stage of kindling.

Thus, the device in question automatically generates a static 5 setting of the power regulator, providing such a change in the flow rate of feed water in the direct-flow mode, in which, regardless of the fuel consumption at the time of direct-flow mode! 0 mA, the fuel and feed water consumption take certain predetermined values.

In the direct-flow kindling mode, the flow rate and temperature of the medium along the boiler path! 5 must continuously increase up to their nominal values. For this, the ratio of the increase in feed water consumption to the increase in fuel consumption should be less than in the main modes, since at the time of the transition to direct-flow mode, the fuel consumption is percentage greater than the water consumption, then the static adjustment of the power regulator in this way provides such a change in water consumption, in which the ratio of the increase in water consumption to the corresponding increase in fuel consumption is greater (or in the extreme case equal) than in the main modes.

This circumstance causes a decrease in temperatures along the boiler path in the ignition mode and out of the control range of the ignition injections, and therefore, a decrease in the output temperature of sharp steam, which is unacceptable under conditions of heating of thick-walled elements of the turbine unit.

Moreover, a decrease in temperature along the boiler path with a closed discharge of medium from the built-in separator can lead to water being thrown into the superheated heating surfaces, and, consequently, to the appearance of excessive thermal stresses in them.

Thus, in the known device is not achieved maintaining the required temperature in the path of the boiler.

The aim of the present invention is to increase the reliability of the boiler and simplify regulation.

This goal is achieved in that the integrator output is connected to the second input of the multiplication unit.

The drawing shows a diagram of the device.

It contains a controller 1 with sensors for fuel consumption 2 and feed water 3, the last of which is connected to the controller 1 through the multiplication unit 4. The output of the controller 1 through the switching unit 5 is connected to the control valve 6 of the power supply and the integrator 7, the output of which is connected to the second input of the multiplication unit 4.

The device operates as follows.

During the separator mode, the output of the controller 1 is disconnected by the switching unit 5 from the control valve 6 of the power supply and connected to the input of the integrator 7, so that the controller 1 is automatically balanced. The balancing of the regulator 1 by the integrator 7 through the multiplication unit 4 changes the scaling factor of the signal according to the feed water flow, setting it so that at each moment of time the fuel-water ratio corresponds to its current value.

At the time of transition to direct-flow mode, the switching unit 5 disconnects the output of controller 1 from the input of the integrator 7 and connects it to the control valve (power supply 5. At the same time, the fuel – water ratio is maintained for the entire next 5 stage of kindling equal to its value at the moment the switching unit is activated.

Due to the fact that until the regulator 1 is connected to the control valve 6, the regulator 1 is continuously balanced10, this connection is shockless.

Such a static adjustment of controller 1 provides the required rise in the temperature of the medium along the path of the boiler, which increases the reliability of the boiler and simplifies regulation.

Claims (1)

Formula and Testing A device for automatically regulating the power of a once-through boiler in a straight-through heating mode, comprising a controller with fuel and feed water flow sensors, the last of which is connected to the controller through a multiplication unit ₉₅ , the output of which through the switching unit, is connected to a power control valve and an integrator, characterized in that that, in order to increase the reliability of the boiler and simplify regulation, the integrator output is connected to the second input of the multiplication unit. Sources of information taken into account during the examination 1. Copyright certificate of the USSR 35 No. 429242, cl. F 22D 5/32, 1972.