SU436279A1 - IONIZATION CAMERA GAS ANALYZER - Google Patents

Description

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The invention is intended to analyze gas mixtures, and in particular, can be applied as a chromatograph detector.

Three-electrode ionization chambers, powered by alternating current, state H1, are not known from two potential and one measuring electrode, made in the form of a rod, radioactive sources of ionization and fittings for the entrance and exit of gas.

In order to reduce the effect on the ionization current of the chamber, changes in working conditions (as a rule, the ambient temperature, medium and pressure of gas entering the chamber) increase the distance between the potential electrodes to the maximum value of ionizing particles, which leads to a different increase in the ionization volume ( vl yundegos in this case and sensitive volume). This last circumstance, in turn, leads to a decrease in sensitivity to small amounts of the analyte, a deterioration in the dynamics of the passage of this substance through the chamber, an increase in the constant measurement time and a deterioration in the stability of indications caused by the partial destruction and contamination of the active surface of the radioactive source. with direct contact with the analyte (often being chemically active and having adhesion to the metal).

To increase sensitivity and reduce inertia in the proposed ionization chamber in the housing between the potential electrodes, a tube of electrically insulating material with through holes, inside which is installed a rod-shaped measuring electrode, is installed, and this tube is equipped with fittings for input and output of the analyzed gas.

The drawing shows one of the designs of the proposed camera, where radioactive sources 2 are mounted on potential electrodes 1.

These electrodes are mounted in an electrically insulating housing 3 and electrically connected to the contacts 4, to which a variable supply voltage is applied.

The measuring electrode 5 is connected to the current collection terminal 6 and is mounted in the flow channel 7, also made of electrically insulating material. This channel is associated with an ionization volume of 8 holes 9 located along the surface of the measuring electrode 5.

The chamber is sealed with a lid 10.

The ionization chamber works as follows.

Under a certain pressure, a carrier gas directed along the measuring electrode 5 is fed into the flow chamber. During the analysis, the analyte is fed into this chamber during the analysis.

From nozzle 11, the carrier gas is also supplied to the ionization volume 8, and its pressure is adjusted so that only small amounts of it (usually yush, 25-50% of the flow through the flow channel) penetrate into the flow channel 7 and the possibility of reverse penetration is excluded .

In such a state, when a potential voltage is applied to potential electrodes, the ionization current flowing from the measuring electrode 5 flows through the chamber.

The pure carrier gas from the ionization volume 8 through the holes 9 penetrates into the channel 7 and, together with the gas flow passing through it, leaves the nozzle 12.

In this way, the analyte entering the channel 7 is diluted only slightly.

The analyte interacts with charged particles that penetrate from the ionization volume 8 through the openings 9 in channel 7. The result of this interaction is a change in the ionization current through the chamber, i.e., a useful signal is recorded.

Subject invention

An ionization chamber of a gas analyzer containing a cornus with a choke for introducing a gas in which an ionization source is placed, two potential electrodes powered by alternating current, and a measuring electrode, which in order to increase sensitivity and reduce inertia, the cornea between the potential electrodes A tube of electrically insulating material with through holes, inside of which there is a measuring electrode made in the form of a rod, is stiffly reinforced, and this tube is equipped with Water and vgvoda sample gas.