SU992925A1 - Apparatus for controlling air-fuel ratio - Google Patents

Description

The invention relates to devices that regulate the ratio of two streams, and can be used in the metallurgical industry, in heating devices for reversing the process of burning fuel and maintaining a given fuel-air ratio.

A device for regulating the fuel-air ratio / containing unit, temperature sensors of the mixture and two mixed flows, a flow sensor and a flow valve for one of the flows connected to each other through a controller to which counter temperature sensors 1 are also connected is known.

A disadvantage of the known device is a decrease in the accuracy of maintaining the flow ratio due to the neglect of the dependence of the thermophysical properties of the flows on temperature. In addition, it is intended to control the ratio of two streams having different temperatures.

The purpose of the invention is to improve the accuracy when using the device to regulate the combustion process.

The goal is achieved in that it additionally contains

three functional units included in the communication line of temperature sensors with a regulator, and a unit for determining the density of the mixture, the input of which is connected to the mixture temperature sensor, and the output with a regulator, while the unit is configured as a gas flow sensor.

The drawing shows a device for adjusting the ratio of gas flow to air flow rate.

Circuit diagram contains thermocouples 1, 2 and 3 installed in pipeline 4 for supply of ejection reactor (compressor)

15 air,, channel 5, recirculation of the combustion products and mixing chamber b, respectively. Sensors 1, 2, and 3 are connected with functional blocks 7, 8 and 9, respectively, and sensor 3 with unit 10 for determining the density of the mixture. The regulator 11 contains a block 12 for calculating the ejection coefficient, the output of which is connected via a corrective unit 13 to the regulating

25 to the block 14. The output of the block 14 through the actuator 15 is connected to the control valve 16 installed on the supply line 4. The discharge (compressor) vost30. of the spirit. To block 12 are connected counter

functional blocks 7,8,9, and to block 13 the outputs of block 12 and block 10. The circuit contains sensors 17 and 18 of gas and air flow with its secondary devices 19 and 20. The output of device 19 is connected to the regulating unit 14, and device 20 - with corrective block 13.

The scheme works as follows. . The signals from the three thermocouples 1,2 and 3, proportional to the temperatures of the compressor (compressed), recuperator and mixed air, go to the corresponding functional blocks 2,3 and 4, which form signals proportional to the product of the heat capacity and the temperature of the corresponding flow. Due to the fact that the outputs of blocks 7 and 9, 8 and 7 are connected by an opposite, forming signal proportional to the difference of the above signals, arriving at the input of the signal generating unit 12,. proportional to the ejection coefficient. Next, the signal arrives at the input of unit 13, where the air flow adjustment signal is generated. In addition, the signal from block 10 is proportional to the density of the mixed air depending on the temperature change. The signal from the output of block 13 adjusting the flow rate of the air mixture enters the regulating unit 14. Gas and air flow rates are monitored by sensors 17 and 18, secondary devices 19 and 20. Signals from the output of the secondary device 20 are fed to the input of block 13, and from the output of device 19 proportional to the flow gas to the input of the regulating unit 14. Next, from the output of the block 13, the signal is fed to the input of the regulating unit 14 ..

From the output of the fuel-to-air ratio control signal, an actuator 15 is actuated, which actuates the air damper 16. When the air temperature of any component changes, the electrical signal passing through the system of functional blocks, changes accordingly and the fuel-air ratio device adjusts the flow rate to oxidize the fuel into the working space of the heating well. The inclusion of functional blocks and a density determination unit allows an increase in the accuracy of the device operation.

Claims (1)

1. USSR author's certificate number 334555, cl. 6 05 D 11/16, 1970.