SU1191787A1 - Optical absorption gas analyser - Google Patents

Abstract

An OPTICAL ABSORPTION GAS ANALYZER, including a measuring and comparative cell, a radiation source optically coupled through a shutter containing a specular blade with the cuvettes and a radiation receiver. characterized in that, in order to increase the accuracy and sensitivity by eliminating the influence on the measurement results of non-selective contamination of the measuring cell windows with the test gas, the measuring cell is located along the radiation path compared to the same cell coaxially with it, the radiation source and receiver are located in front of the comparative cell on each side of the optical axis of the device, the obturator, made in the form of a hollow cone with an apex angle of 90 °, is located inside the measuring cell with the orientation of the base ōnusa near its entrance window, while the opposite end of the cell are arranged optical radiation source elements to turn the receiver radiation. about v 8

Description

The invention relates to optical absorption devices for measuring the concentration of a detectable component in gas mixtures and can be used to monitor the exhaust gases of internal combustion engines.

The purpose of the invention is to increase the accuracy and sensitivity by eliminating the influence on the measurement results of non-selective contamination of the windows of the measuring cell by the gas under study.

Figure 1 presents the scheme of the detector; figure 2 - two-blade obturator.

The device contains radiation source 1, light filter 2, comparative cuvette 3, measuring cuvette 4 inside which the obturator 5 is located, made in the form of a hollow truncated cone with specular blades, radiation receiver 6, secondary information processing device 7, indicator 8. Measuring cuvette 4 equipped with two flat mirrors 9 and 10 to rotate the radiation flux from source 1 by 180 ° C.

The device works as follows.

The light flux from the radiation source 1 passes the light filter 2, the comparative cuvette 3, through the inter-blade opening of the obturator 5 freely passes the measuring cuvette 4, reflected by the mirror 9 turns 90 °, again reflected by the mirror 10 rotates 90 ° and passes the measuring cuvette 4, the second inter-blade opening of the obturator 5, the comparative cuvette 3 falls on the radiation receiver 6. When the obturator 5 is rotated around the axis, the inter-blade openings and the reflecting blades 11 and 12 are displaced by 180 °. The radiation flux passes the light filter 2, comparative cell 3, is reflected by the mirror loness 11, rotates 90 °, again

0 reflected by the mirror blade 12 is rotated 90 ° and the comparative cuvette 3 passes to the radiation receiver 6. Signals received at different positions of the obturator 5 are fed to the secondary information processing device 7, where they are converted and displayed as the concentration of the component being determined. The received signal enters the recording device 8. Since the signals generated from the passage of the light flux

0 through a comparative and measuring cuvette, take into account the contamination of the obturator and the reflecting optical system, then with the algebraic summation of these signals with different signs, the factor of contamination of the windows of the cuvette is compensated.

The correct adjustment of the mode of combustion of motor fuel in engines, which the invention provides in addition to the economic effect, leads to its more rational expenditure, i.e. to save energy resources.

Claims (1)

OPTICAL ABSORPTION GAS ANALYZER including a measuring and comparative cuvettes, a radiation source optically connected through a mirror-containing blades obturator with cuvettes and a radiation receiver, characterized in that, in order to increase accuracy and sensitivity by eliminating the influence of non-selective contamination of the measurement windows cuvettes with the investigated gas, the measuring cuvette is located along the radiation behind the comparative cuvette coaxially with it, the radiation source and receiver are located In front of the comparative cuvette, they are opposite sides of the optical axis of the device, the obturator made in the form of a hollow cone with an angle of 90 ° is located inside the measuring cuvette with the orientation of the cone base near its entrance window, and the optical elements of the source radiation receiver. FIG. 1