SU724995A2 - Device for investigating dust-ridden air - Google Patents

Description

The invention relates to instrumentation and can be used to measure the size and concentration of the gaseous mixture.

A device for researching 5 dust-air mixture according to ed. St. No. 479997, consisting of a light source and a photodetector, which are equipped with dustproof nozzles and are mounted in the duct. Light from the source illuminates a lens ¹⁰ used Followed dusty mixture and a photodetector disposed at an angle to the optical axis of the light source, detects the scattered light.

The output signal of the photodetector is fed to the recording unit.

A disadvantage of the known device is that when measuring the concentration of dust particles in the flue their absorption rate varies, which introduces error in po- ²⁰ in the measurement results.

The aim of the invention is to compensate for changes in the absorption rate of the dust-air mixture during the study. ²⁵

This goal is achieved by the fact that two photodetectors are installed on the same optical axis as the light source on both sides of it, one of which is placed after the test mixture, two 30 optical wedges with reversible motors connected via a switching unit.

The drawing shows a schematic diagram of the proposed device.

The device contains a light source 1, a photodetector 2, mounted in the duct 3 at an angle to the optical axis of the light source, a recording unit 4. Photodetectors 5 and 6 and optical wedges 7 and 8 are installed on the same optical axis as the light source 1. Photodetector 6 is placed in the housing 9 with a light source 1, and the photodetector 5 is located after the investigated dust-air mixture in the duct 3.

The outputs of the photodetectors 5 and 6 are connected to the switching unit 10, connecting the reversing motors 11 and 12 with the optical wedges 7 and 8. After the light source 1 and in front of the photodetector 2 there are lenses 13 and 14.

The device operates as follows.

The luminous flux from the light source 1 through the lens 13 illuminates the dust-air mixture. Part of the light scattered by the dust particles passes through the lens 14 to the photodetector 2. The scattered light by the photodetector 2 is converted into an electrical signal, which enters the recording unit 4.

Before starting measurements in the flue, a certain concentration is established

4 poles Co with an absorption index Κι and the output signal of the photodetector 5 are compensated in the switching unit 10 with the output signal of the photodetector 6 by moving / the optical wedge 7 by the reversing motor 11.

- When passing to the measurement of the same dust concentration with a different absorption coefficient K.2 other than Κι, the measurements are compensated. For this, the dust concentration Co is again established in the flue 10 3 at which the output signal of the photodetector 5 through the switching unit 10 is compared with its previous value. To compensate for the difference between the signals 15 using the block 10 and the reversing motor 12 move the optical wedge 8 so as to balance the signals corresponding to the intensities of the transmitted light:

z ₀ z- ^ = (Z ₀ + A _on ) / - w, 20 where Zo is the intensity of the light illuminating the dusty air mixture;

I is the optical path length;

/ add - the intensity of the additional light introduced during compensation. Z, on = Z _e [ZW- * _s ) C.r_i],

After compensation, measure the concentration of dust particles with a different absorption index (K2)

This device allows you to measure the concentration of particles of the gaseous mixture with a smaller error by compensating for changes in their absorption coefficient.

Claims (2)

The invention relates to instrumentation engineering and can be used to measure the size and concentration of a gaseous mixture. A device for studying a dust-air mixture is known. St. JMb 479997, consisting of a light source and a photodetector, which are equipped with dust caps and are fixed in the flue duct. The light from the source with the help of a lens illuminates the dust-air mixture under study, and a photodetector located at an angle to the optical axis of the light source registers the scattered light. The photodetector output signal is fed to a recording unit. A disadvantage of the known device is that when measuring the concentration of dust particles in the flue duct, their absorption rate may vary, which introduces errors in the measurement results. The aim of the invention is to compensate for changes in the absorption rate of the dust-air mixture during the test. The goal is achieved by installing two photodetectors on one optical axis with a light source on either side, one of which is placed after the mixture under study, two optical wedges with reversing motors connected with a switching unit. The drawing shows a schematic diagram of the proposed device. The device contains a light source 1, a photodetector 2 mounted in the duct 3 at an angle to the optical axis of the light source, a recording unit 4. Photo-receivers 5 and 6 and optical wedges 7 and 8 are installed on the same optical axis with the light source 1 housing 9 with light source 1, and photodetector 5 rational after the dust-air mixture under investigation in gas duct 3. Outputs of photon-receivers 5 and 6 are connected to commutation unit 10, which connects And and 12 reversing engines to optical wedges 7 and 8. After light source 1, light and before pho opriemnikom there are two lenses 13 and 14. The apparatus operates as follows. The light flux from the source 1 of light through the lens 13 illuminates the dust-air mixture. Part of the light scattered by dust particles enters the photodetector through lens 14. 2. The scattered light by the photoreceiver 2 is converted into an electrical signal, which enters the recording unit 4. Before starting the measurements in the gas duct, the determined concentration of CO2 co with the absorption index / Ci is set and the output signal of the photoreceiver 5 is compensated in the photodetector 6 output signal the displacement of the optical wedge 7 by a reversing motor I. is In the transition to measuring the same concentration of dust with a different absorption indicator K2, other than Ki, measurements are compensated. To do this, in the gas duct 3 the concentration of dust Co is again set, at which the output signal of the photodetector 5 through the switching unit 10 is compared with its previous value. To compensate for the resulting difference of signals using block 10 and reversing motor 12, the optical wedge 8 is moved so as to balance the signals corresponding to the transmitted light intensity: D / -. Co (/ „+ / to„), where / o is the light intensity, illuminating the dusty mixture; / is the optical path length; - the intensity of the additional light introduced during compensation. /, Subd./. (//-№-). After compensation, the concentration of dust particles with a different absorption index (Kg) is measured. This device allows one to measure the concentration of particles in a gaseous mixture with a smaller error by compensating for changes in their absorption rate. Claims Apparatus for Investigating a Dusty Air Blend by Aut. St. No. 479997, characterized in that, in order to compensate for changes in the absorption coefficient of the dust-air mixture, two photodetectors are installed on the same optical axis with a light source, one of which is placed after the mixture under study, two optical wedges with reversing motors, using a switching unit. 5 f7 / 7 BUT / / /