CS217289B1 - Toroehenloxy flammable gas and vapor analyzer - Google Patents

Abstract

The invention relates to a thermogenic analyzer of flammable gases and vapors. The invention relates to the field of notanemetry. The essence of the invention is that in the catalytically active detection 1 ▼ catalytically active composition of the cell, irregularities are created, increasing their reactive surface. The invention is suitable for use in determining methane in mines.

Description

The invention is a thermo-high flammable gas analyzer and vapors and elutes reliably prevent the ambiguity of the analyzer data due to the lack of oxygen in the gas mixture being analyzed.

Numerous flammable gas and vapor analyzers utilize changes in the electrical resistance of the wire of platinum or other noble metals and alloys, which occurs during catalytic combustion of the flammable substance on this detection element. The change in the electrical resistance of the detector element, which is the function of the conoentrage of the combustible, is measured by the bridge method, and as a rule, a compensating element similar to the non-combustible element is placed into the bridge. In order to better compensate for the influence of the environment, the compensating element is also placed in the combustion space and then the combustion of the combustible on its surface is prevented by its lower temperature or suppressed catalytic activity. The active detection element and the process for its production with high and stable catalytic activity are solved by the invention according to the author's certificate No. 169 275. If the combustion chamber has such a high concentration of combustible material that the oxygen present is insufficient for its quantitative combustion, then the analyzer is flexible. The temperature rise of the detection element caused by the combustion of the combustible material is not proportional to the concentration of the combustible material in this case. However, in a catalytic analyzer with an active detection and compensation element in the same combustion chamber, by selecting the temperature of both elements, it is possible to achieve that low concentrations of combustibles are only burned on the detection element, whereas high concentrations of combustibles are also burned on the compensating element. signal, ie strongly negative analyzer reading. By the different geometry of the detection and compensation element it is possible to achieve signal inversion at the selected combustible conentrain, eg at its upper explosive limit, but only on the assumption of sufficiently high and constant catalytic activity of both elements. It is very difficult to achieve a high and stable and, in addition, production reproducible catalytic activity of the analyzer detection and compensation element.

This drawback does not occur with a thermo-flame analyzer of flammable gases and vapors with a detection and compensation element according to the invention. It is based on the fact that in the catalytically active detection and catalytically active compensation element of the analyzer, sharpnesses are created which increase the reactive surface of the elements.

The advantages of the analyzer according to the invention are manifested in the high and constant catalytic activity of the detection and compensation element, which allows both a low working temperature and thus a very stable zero value of the analyzer and a reliable signal inversion at a high combustible concentration. The advantages of the solution according to the invention are manifested, for example, in methane analyzers used in gaseous mine, where the use of the invention significantly increases the safety of mining work and mine operation.

The flammable gas and vapor analyzer according to the invention has detection and compensation elements made in the necessary size and shape of catalytically active material, for example of platinum wire, whose reactive surface is enhanced by artificially created inequalities. For example, suitably controlled electrical discharges, etching, mechanical roughening, application of large amounts of fine catalyst particles to the surface of the elements, and the like can be used to create the necessary surface irregularities.

The detection and compensation elements of the analyzer according to the invention are well reproduced in production and are suitable for analyzers of all common combustibles mixed with air or for analyzers of mixtures of flammable gases and vapors with oxygen.

Claims (1)

OBJECT OF THE INVENTION Thermo-hemi-flammable gas and vapor analyzer equipped with catalytically active detection and catalytically active compensation element characterized in that surface irregularities are formed in both catalytically active detection and catalytically active compensation element.