SU1024816A1 - Hydrogen indicator - Google Patents

Description

The invention relates to a gas analysis technique and can be used to measure the concentration of hydrogen in confined spaces, including in pipelines. Devices are known in which metal oxides, semiconductors and other materials are used as gas-sensitive working elements. The presence and concentration of hydrogen gas in a controlled volume or pipeline is estimated from changes in the resistance of this type of sensor. An example of a hydrogen indicator of this type is a gas sensitive element that is made of ferrite and has conductors for including its electrical resistance in the measuring unit, as well as a heater and a unit for maintaining the temperature of the gas sensitive element 1. The disadvantage of the hydrogen indicator, based on the principle of gas sorption into the material of the working element, which changes its conductivity, is that the use of electric heaters in indicating hydrogen for explosive concentrations is impossible due to safety conditions, and when measuring low concentrations it is necessary to ensure the stabilization of their working temperature, which leads to the complexity and cost of construction. The closest technical solution to the invention is a hydrogen indicator containing a gas sensitive element, made in the form of an inductance coil, the core of which is connected to a container for the analyzed gas behind a non-metallic ampoule, filled with a powder of a substance interacting with hydrogen. This changes the inductance of the coil, which is recorded by a measuring device calibrated to the volume concentration of hydrogen fZ. A disadvantage of the known devices is the low sensitivity due to the small range of variations in maximum permeability of most substances when exposed to hydrogen. The aim of the invention is to increase the sensitivity of the indicator of water of the genus. The goal is achieved by the fact that in the hydrogen indicator containing a gas sensitive element made in the form of an inductance coil, the core of which is a nonmetallic ampoule connected to the analyte gas and filled with a powder hydrogen, the ampoule is filled with powder LaNifH., or FeTiH. -. , -.L. X A block diagram of the indicator is shown in the drawing. In a controlled volume, which is the flow container 1 for the analyzed gas, a non-metal ampoule 2, filled with powdered L.i.Vif hydride and connected to capacity 1 (the message of the ampoule with the medium in the drawing is shown by arrows), is installed. The ampoule 2 is wound around an inductor 3, for which the ampoule 2 with the hydride is the core. Ampoule 2 with hydride and coil-. 3 inductance is enclosed in a ferromagnetic housing k, protecting the ampoule and inductance from mechanical damage and, moreover, being the magnetic core of the coil, significantly reducing the magnetic field dissipation created by the coil connected to the input of the conversion unit 5 | the output of which is connected to the recorder 6. The ampoule can also be filled with hydride y. The device works as obras, ohm. . When gaseous hydrogen appears in the controlled volume, the latter begins to be intensively absorbed by the hydride powder in the nonmetallic ampoule 2. This changes the physical parameters of the hydride, in particular its magnetic permeability, which leads to a change in the inductance of the coil 3, which is measured unit 5, the registrar DOM 6 is fixed. The gas sensitive element is a LaNI HX hydride placed in a glass ampoule with a size of B 110 mm and mm, on which the inductor is wound; ETS W 50. The coil windings incorporated into the circuit ibC amplifier tuned to the frequency range of 1-2 MHz. A gas line is connected to the open end of the ampoule, the second end of which is connected to a cylinder with gaseous hydrogen, equipped with 3 102 1816I,

his consumptiononeron registering the amount of output voltage

The quantity of gas absorbed by the gas-sensing component is proportional to the amount of absorbed gas. As a result of hydrogen, uniform flow of gaseous

Hydrogen absorbed by gas-j hydride. The technical and economic effect of the sensitive element is obtained by reteni expressed in an improvement in the xx dependence (on the I® of the operational characteristics of the whole

OUTPUT voltage, V; A number of devices, where the indicator of water consumption in liters of gaseous hydrogen is used as the primary. From the dependences obtained, one can see a significant converter.

Claims (1)

A HYDROGEN INDICATOR containing a gas-sensitive element made in the form of an inductor, the core of which is a non-metallic ampoule connected to a container for the analyzed gas, filled with a powder of a substance interacting with hydrogen, so that with the aim of increased sensitivity, the ampoule is filled with LaNi ^ -H * or FeTiH * powder. 1 1024 816 ⁴ 1