SU723446A1 - Gas analysis device - Google Patents

Description

(54) DEVICE FOR THE ANALYSIS OF GASES

one

The invention relates to measurement technology, in particular to devices for the analysis of gases, and can be used to measure the composition of the exhaust gases of internal combustion engines.

Apparatus for analyzing the exhaust gases of internal combustion engines (two) are known, for example gas analyzers with a plasma-ionization detector for determining hydrocarbons, comprising a flame ionization detector, a low-current amplifier unit, a hydrogen generator or a tank with hydrogen; gas analyzers for determining one of the components of the mixture, comprising a heating coil included in the measuring bridge, infrared gas analyzers containing a measuring and comparative camera, an infrared radiation source, a light flow interrupter, a radiation converter into an acoustic signal, an amplifier. The device of gas analyzers with a flame ionization detector has a complex structure. Hydrogen is required for its operation, while other gas analyzers make it possible to determine the concentration of only one component.

Also known is a manual mechanical gas analyzer for the complete analysis of VTI-2 gases, which consists of an absorber of first vessels, a burette for measuring volume, an electric furnace for heating a tube for burning gas fractions, a flow booster, connecting elements, taps, a thermometer, a pressure gauge, and .d one.

0

This gas analyzer has a number of errors, frequency of operation, great labor intensity and duration of the analysis of the selected gas sample.

The closest technical

5 of the essence of the invention is a device for analyzing gases consisting of two parallel branches connected to the gas supply tube, each of which includes sequentially temperature controlled igniters, coolers filters and carbon dioxide sensors connected via a comparison unit to the measuring instrument 2 .

five

The aim of the invention is to improve the accuracy of the analysis.

This is achieved by the fact that the device contains an atmospheric air supply tube connected to one

0 from the branches between the afterburner and the filter cooler, and the bypass channel connecting the gas supply tube to the inlet of the filter cooler of the second branch.

The drawing shows a diagram of the device.

The device consists of connected to the tube 1 for supplying gases of two parallels. branches with cranes 2 and 3. Each of which includes sequentially temperature controlled burners 4 and 5 and other elements. The device contains a tube 6 for supplying atmospheric air, filter coolers 7 and 8, measuring chambers 9 and 1 with two-carbon dioxide sensors placed in them, a flow rate booster 11, a vapor tube 12, a bypass channel 13, comparison units 14, a measuring instrument. three scales - on CO, COg and the amount of hydrocarbons.

To determine the carbon dioxide content, the exhaust gases are driven through flow meter 11 through valve 2, bypass channel 13 and filter cooler 8 through measuring chamber 10. At the same time, air from atmosphere is passed through valve 3 and filter 7 through measuring chamber 9. this sensor

carbon dioxide, located in the measuring chamber 10, produces a signal proportional to the concentration of SOL. in the exhaust gases, which is fed to the input of the comparison unit. This signal in the comparison unit is compared with the signal from the sensor located in the measuring chamber 9.

Their difference is fed to the measuring device. Gases from the device are discharged through tube 12.

To determine the carbon monoxide content, by means of a flow rate driver, part of the exhaust gases through valve 2, bypass channel 10 and filter 8 passes through measuring chamber 10, and another part of gases through valve 2, afterburner 4, heats the gases to 2b ° C to completely burn carbon monoxide to carbon dioxide, valve 3 and filter 7 passes through the measuring chamber 9. In the presence of carbon monoxide in the exhaust gases, the concentration of carbon dioxide in the measuring chamber 9 after the afterburner 4 increases. The comparator unit reacts to the difference between concentrations of carbon dioxide in the branches, which is recorded by the measuring instrument.

To determine the concentration of hydrocarbons by means of a flow rate, part of the exhaust gas passes through valve 2, afterburner 5, which heats the gases up to 850–950 ° C to burn carbon monoxide and hydrocarbons to carbon dioxide, filter 8 and measuring chamber 10, and the other part of the gases passes 2, afterburner-. 4, heating the gases to burn carbon monoxide to carbon dioxide, valve 3, filter 7 and measuring chamber 9. When hydrocarbons are present in the exhaust gases, the concentration of carbon dioxide in the measuring chamber 10 increases from the sensors placed in these chambers various signals are received, the difference of which is recorded by the measuring device.

The use of this device simplifies the analysis of gases, ensures its continuity, and also allows the concentration of three components to be determined, while the known continuous gas analyzers determine the concentration of one component. The proposed device can be used for the analysis of gases both in laboratory tests of internal combustion engines and on. diagnostic points.

Claims (2)

1.Torzhevsky V.P. Automatic analysis. Of chemical composition of gases. M. 1969, p. 42-43. 2.Torzhevsky V.P. Automatic analysis of the chemical composition of gases. M., 1969, p. 163-167 (prototype).