SU439731A1 - Jet sensor gas composition - Google Patents

Description

- The invention relates to the field of automatic control of the composition of gaseous media and can be used in enterprises of the metallurgical, chemical and petroleum refining industries.

Known inkjet sensor gas composition containing the receiving and supply tubes and a differential pressure gauge.

However, the known sensor does not allow to obtain zero readings in the absence of a detectable component in the gas. To obtain a zero reading, it is necessary to use two known devices, equipping them with a flow switching device, such as a three-way valve.

In order to obtain a zero reading in the absence of a detectable component in the gas in the sensor, the first along the gas flow, the knee of the differential pressure gauge is connected to the intermediate point of the supply tube.

The action of the proposed sensor is based on a comparison of the kinetic energy flowing from the input channel in the laminar mode of the jet of gas being analyzed with the static pressure of the same gas at the intermediate point of the input channel.

The drawing shows a diagram of an inkjet sensor and shows a diagram of the change in gas pressure P as a function of distance /.

The sensor includes a supply tube 1, to which an elbow 2 of the diffmanometer 3 is connected at an intermediate point. A supply tube is inserted into the jet chamber 4,

where at a distance A / from its end and coaxially with it is the receiving tube 5, for example, a receiving nozzle connected to a diffmanometer. The inlet and outlet directions of the test gas are indicated by arrows.

The receiving nozzle acts with its final pressure P-jet of the analyzed gas. A differential pressure meter changes the difference between this pressure and the static pressure of the RP in

the point of attachment of the knee of the diffmanometer to the supply tube.

The total differential pressure APo / i-PZ on the supply tube is kept constant.

(Pi is the initial pressure, PZ is the pressure in the jet chamber).

In this case, the value of the pressure difference APx-Pn-P) h is used as a measure of the composition of the analyzed gas.

A gas laminarly moving along a 1/1-long feeding tube overcomes the forces of internal friction on its way.

As a result of the deceleration of the jet in the receiving nozzle, the kinetic energy is converted

to the potential, which leads to a jump-like increase in pressure by the value of I-Pg.

The distance / 2 between the knee 2 and the end of the feeding tube is chosen so that in the absence of the component being determined in the analyzed gas, the equality

p p - pp

  k 2 Then the readings of the diffmanometer 3 are zero. With the appearance of a detectable component in the analyzed gas, the output pressure difference varies as a function of the composition of the analyzed gas.

The invention makes it possible to simplify and increase the reliability of control over the composition of gas media by explosion-proof means.

Subject invention

An inkjet gas composition sensor containing a receiving and feeding tube, a differential pressure gauge, characterized in that, in order to obtain a zero reading in the absence of a detectable component in the gas, the first knee of the differential pressure gauge is connected to an intermediate point of the feeding tube.