SU1449830A1 - System for automatic regulation of temperature of air at the outlet of heat-accumulating air preheater - Google Patents

Abstract

The invention improves the quality of regulation. The inlet 2 is divided by a rotary valve 9 and a partition into channels (K) 10 and P. A heat-accumulating nozzle 4 with electric heating elements 5 is installed in the housing with the formation of a peripheral gap 8, which is connected to K 10. air and outlet K 7 nozzles. The sensor (D) 14 t-ry air regulator 13 t-ry is installed in the outlet pipe 3. The regulator 13 controls the actuator 12, which moves the valve 9. In the socket 2, a change is established (L s; i 00 00

Description

the humidity meter 15, the air flow meter 16 in K 6 and D 19 air t-ry, and in nozzle 3 - D 18 air t-ry in K 7, Outputs D 18 and 19 are connected to the input of the device 17 for measuring the difference t-ry, the output of which is connected to one of the inputs of block 20, the two other inputs of block 20 are connected to the outputs of meters 15 and 16, and the output of block 20 is connected to the controller 13 to correct its parameters. The t-ry deviation at the outlet is eliminated by moving the valve 9, with which the air flow rate changes in K 11 and, thus, in K 6 nozzles. Signals about the change in air humidity in the pipe 2, the flow rate in K 11 and the differences mr 7 and 7 and the pipe 2 go to block 20, and from there to the regulator, torus 13. 1 Il.

one

The invention relates to control systems for heat storage air heaters,

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

The drawing shows a structural diagram of the system for automatic control of the temperature at the outlet of the heating valve of an irradiating air preheater with its longitudinal section.

The system includes an air heater case 1 with inlets and outlet air nozzles 2 and 3, respectively, and heat storage fitting 4 with electric heating elements 5 and channels 6 dp air passage of the output channel 7 installed in the housing 1 with the formation of a peripheral gap 8. In the inlet nozzle 2 is installed an air supply regulator in the form of a rotary valve 9 dividing the nozzle 2 into two channels 10 and P, one of which is supplied to the peripheral gap 8, and the other to the channels of the nozzle. The valve 9 moves. Executive a mechanism 12 controlled by a temperature controller 13 with a sensor 14 in the outlet nozzle 3,

The system is equipped with a moisture meter 15 in the inlet nozzle 2, an air flow meter 16 into the channels 6 of the nozzle 4, and a device 17 measuring the current difference value of the air temperature of the output channel 7 of the nozzle 4 by the sensor 18 and the inlet 2 by the sensor 19, the output of which is connected to the input of the control unit 20, and the output of the control unit 20 is connected to the temperature controller 13 to adjust its parameters.

The system of automatic control of the temperature at the outlet of the heat-accumulating air heater works as follows.

The nozzle 4 is preheated to 1000 ° C by the electric heating elements 5. The air supplied to the inlet 2 is divided by valve 9 into two streams.

One of the flows is directed through the channel 10 and the peripheral gap 8 without contact with the surface of the nozzle 4, and the other through channel 11 and the channels 6 of the nozzle into the output channel 7. Both streams are mixed in the outlet nozzle 3.

When the temperature at the outlet deviates from the setpoint, the temperature controller 13 receives a deviation signal and by means of the actuator 12 moves the valve 9 and changes the air flow in the channel 11, the same in the channels 6 of the nozzle 4, and eliminates this deviation. When the air humidity in the inlet pipe, the air flow in the channel 11 and the temperature difference between the output channel 7 and the inlet pipe 2 changes, the signals at the output of the meters 15 and 16 and the device 17, which enter the control unit 20, change. In the latter, a linear combination of these signals is formed, which enters the temperature controller 13, where the incoming signal is converted and the parameters of the regulator 13 are adjusted almost instantly. This is due to the fact that the control object has inertia by three orders of magnitude than the control system.

Claims (1)

Formula invented and The system of automatic control of the air temperature at the outlet of the heat accumulator to the air heater with the inlet pipe divided by a rotary valve and a partition into two channels, one of which is connected to the peripheral gap, and the other to the nozzle channels, containing the sensor and air temperature setting device connected to the regulator144 1449830 Temperature controller, the output of which is associated with a rotary valve, characterized in that, in order to increase accuracy, the bkstam also contains a humidity sensor and air temperature in the inlet pipe, flow sensors and air temperature, installed at the entrance and exit of the channel nozzles, an adder and a control unit, while the air temperature sensors in the inlet and outlet channels of the nozzle are connected to an adder, the output of which is connected with the humidity and air flow sensors through the control unit ene with regulator.