SU65338A1 - Gas analyzer - Google Patents

Description

Industrial chemical gas detectors used in industry, such as Ados, Mono, Thermotechnik and others, have sufficient accuracy in: Kazan) IL, cannot be complete; but can not meet the requirements for flHM due to a significant delay (inerdion) indications (25-30 analysis®: per hour). Various kinds of physical gas analyzers, such as, for example, Ranarex-Dommer, were not widely used (in modern npaiKTHKe, because of the complexity) of not being able to work in severe external conditions (sharp fluctuations in ambient temperature, gas pressure, etc.). Boiler electric gas analyzers

Siemens-Halske and others, have low inertia, do not provide the required accuracy of readings, etc.

G. F. Knorre was offered a continuous pulsed chemical gas analyzer (ed. Certificate no. 55939), the drawing of which is given in FIG. 1 of the attached drawing.

Vertical working chamber / filled with absorber. The gas mixture being analyzed passes through the die plate 3 (a plate with small holes) and in the form of fragmented gas bubbles evenly (under constant pressure) is passed through the absorber. In the head: by the content of the component of the analyzed gas mixture. interacting with the absorber (for example, COz absorbed by the KOH solution), the physical properties of the gas-liquid mixture change, which determine the KCKt content of the analyzed component of the gas mixture.

As a physical comp | No mixture that could give an impulse to measure, proposed to measure the level of a liquid, which varies (Due to the different size of the unabsorbed volume of gas.

As a result of experiments with the use of a float and a U-shaped micromanometer 2 (Fig. 1) as a pulsed organ, connected to the working part of the chamber /, the principle of the gas analyzer proposed by G. F. Knorre turned out to be correct, but its practical implementation. It is required to maintain a constant gas pressure in front of the device, which makes work extremely difficult.

The purpose of this proposal is to comfy the CI | equate the influence of fluctuations in gas pressure on the reading of the gas.

The Scheme of the Proposed p-ribo, ra is given in FIG. 2 drawings.

In parallel, with the working chamber / another non-working chamber 6 is installed, filled with an inert liquid (HanpHiMep, NaCl solution). Chamber 6 is also equipped with a filler 7 and a float 8 with an I indicator. .

The gas mixture to be analyzed is transmitted in two parallel streams simultaneously through both chambers / and 6, with the SPE | The change in the flow rate of both the floats 4 and S is proportional to the change in the flow of the incoming gas, and when the content of the CO 2 iB in the analyzed gas mixture changes - (Only the amount of travel of the float 4 immersed in the absorber changes.

The CRIs are wavelength pointers 5 and 5 that are profiled in such a way that their intersection point with respect to vertical divisions of the scale 10

shifts only when the content of the component being changed is changed13. In the analyzed gas mixture, regardless of the pressure fluctuations in the gas entering the instrument.

Subject matter of the invention;

Claims (2)

1. The form of an instrument for analyzing gases ino to author's certificate No. 55939, so that in order to take into account the influence of vibrations | cause the test gas on the instrument's readings, parallel to the absorption vessel U, to the gas pipeline for supplying gas B - a device with its lower part — a vessel 6 filled with a liquid inert to the gas, for example, a solution of sodium chloride, and a change in the level of which in the vessel 6 takes into account the change in the pressure of the gas under investigation. 2. The form of the instrument fulfillment according to claim 1, characterized in that the floats 4 to 8 used for measuring the changes in the vessels of the vessel U and 6 are flooded with directional arrows 5, 9, curved in such a way that their intersection point on the JO scale shifts only with a change in the content of the component being determined in the test gas. No. 65338 - 3 - FIG. one FIG. 2