SU1106960A1 - Device for checking incompleteness of fuel combustion - Google Patents

Abstract

1. DEVICE FOR CONTROLLING INCOMPLETE OF COMBUSTION OF FUEL, containing a sampler, flow booster, afterburner with electric heater, porous refractory nozzle, oxygen concentration sensors before and after the nozzle and secondary device, characterized in that, in order to improve accuracy, the device contains additional afterburner a chamber with an electric heater, shut-off valves associated with a flow booster and a software device connected to a flow booster, electric heaters, concentration sensors and oxygen and the secondary device, wherein the oxygen concentration sensor when the nozzle is installed in the additional dozhigatelnoy chamber. 2. A device according to claim 1, characterized in that the electric heaters of the afterburning chambers contain temperature controllers. f-i

Description

The invention relates to heat and power engineering and can be used in areas of national economy, using boiler units, furnaces and fuel devices operating on solid fuel, and is intended to control the values of chemical and mechanical underburning in the composition of the combustion products in the flue gases.

A device is known for monitoring the incompleteness of combustion in the ash of boiler units, including samplers, an analyzer of the composition of the ash and a system for dumping the analyzed sample. The incompleteness of combustion in this device is determined by the change in the dielectric constant of the sample of entrainment depending on its carbon content 1.

The disadvantage of this device is low accuracy.

Closest to the invention is a device for monitoring incomplete combustion of fuel, comprising a sampler, a fuel booster, an afterburning chamber with an electric heater, a porous refractory nozzle, oxygen concentration sensors before and after the nozzle, and a secondary device 2.

A disadvantage of the known device is the low accuracy associated with the presence of an error in measuring the magnitude of mechanical underburning in the presence of chemical underburning in the composition of the combustion products, since as a result of the sample afterburning, oxygen is consumed for both carbon and carbon monoxide and the measurement is reduced to the definition values of total chemical and mechanical underburning.

The purpose of the invention is to improve the measurement accuracy by separately determining chemical and mechanical underburning.

The goal is achieved by the fact that the device contains an additional post-heating chamber with an electric heater, shut-off valves associated with a flow booster and a software device connected to the flow booster, electric heaters, oxygen concentration sensors and a secondary device, the oxygen concentration sensor after the packing is installed in the additional afterburner.

Moreover, electric heaters of the afterburning chambers contain temperature regulators.

The drawing shows a diagram of the device for controlling the incomplete combustion of fuel.

Sampler 1 is installed in the boiler flue. An afterburning chamber 2 for the afterburning of the ash and an additional afterburning chamber 3 for the afterburning of carbon monoxide, between which a porous refractory nozzle 4 is installed, are placed in the sampler. The afterburners are the heating elements 5 and 6,

sensors 7 and 8 oxygen concentration. Attached to the body of the sampler is a flow booster 9, consisting of a bellows 10, a solenoid 11, springs 12, which form a reciprocating mechanism connected by means of a pin 13 to slam-shut valves 14-16.

The software device 17 is connected with a flow rate booster 9, oxygen concentration sensors 7 and 8, electric heaters 5 and 6, and a secondary device 18.

Temperature regulators 19 and 20 include temperature controllers, the sensors 21 and 22 of which are located in the after-heater chambers 2 and 3.

A device for controlling incomplete combustion of fuel works as follows.

Software device 17 produces a sequential inclusion of the operation cycle. The solenoid 11 is turned on and the choke 13 is moved down, opening the shut-off valves 14-16, while the bellows 10 is compressed and displaces the remaining gas from its volume, thus purging the after-burning chambers. In this case, the heating elements 5 and 6 are turned off.

The oxygen concentration sensors 7 and 8 are included to measure the initial oxygen concentration in the sample prior to afterburning.

0 The solenoid 11 is turned off and under the action of the spring 12, the slider 13 returns to its original position, while the bellows 10 is expanded and the sample is taken for analysis. The operation ends with the complete closure of the afterburning chambers 2 and 3.

5 When a sample is seeping through the porous refractory nozzle 4 into an additional chamber 3, a sample propellant passes a part of the sample freed from the ash of ash, and part of the sample with ash of ash remains in the additional chamber 2.

0

The oxygen concentration sensors 7 and 8 are turned off and the heating elements 5 and 6 are turned on, the sample is burned out in a closed volume of the afterburning chambers for a predetermined time. Wherein

5, the temperature in the afterburning chambers is measured by sensors 21 and 22 and is controlled by regulators 19 and 20. Sensors 7 and 8 are turned on for oxygen concentration and the concentration of oxygen in the afterburning chambers is measured.

 The signals of the oxygen concentration sensors 7 and 8, produced before and after burning through the software device to the secondary device 18, determine the chemical underburning (by decreasing the oxygen concentration in the additional afterburning chamber 3), the total chemical and mechanical underburning ( faded away

j1106960d

The concentration of c-hydrogen in the afterburning device. thereby measuring accuracy.

Claims (2)

1. DEVICE FOR MONITORING THE FUEL COMBUSTION COMPLETENESS, comprising a sampler, flow rate inducer, an afterburner with an electric heater, a porous refractory nozzle, oxygen concentration sensors before and after the nozzle, and a secondary device, characterized in that, in order to increase accuracy, the device contains an additional afterburner a chamber with an electric heater, shut-off valves associated with a flow inducer and a software device connected to a flow inducer, electric heaters, acid concentration sensors Orod and the secondary device, wherein the oxygen concentration sensor when the nozzle is installed in the additional dozhigatelnoy chamber. 2. The device according to π. 1, characterized in that the electric heaters of the afterburner g chambers contain temperature controllers. 09690 And OS