SU1113728A1 - Method of diagnostic checking of thermocatalytic pickup - Google Patents

Abstract

METHOD OF DIAGNOSTIC CONTROL OF A THERMO-CATALYTIC SENSOR Mine systems for telemeasurement of methane concentration and automatic gas protection, including a test effect, forming a transient process in the sensor, a catalytic thermotransformer element KOTOpoio installed in a gas-permeable reaction chamber, the heart of the unit. l and h ay u and with the fact that, for the purpose of dis (J implementation of the diagnostic control of the sensor without mea tion of calibrated gas mixtures and fur (reaction on the reaction chamber (L chamber, sensor is supplied with a supply voltage at which the heating temperature of the thermal conversion element is insufficient for thermocatalysis), the electrical zero is checked and the composition of the medium in the reaction chamber corresponds to atmosphere under control, stepwise increase the sensor supply voltage to the operating value and measure the output signal variation as a function of time. -vj th 00

Description

The invention relates to the field of controlling the content of combustible gases in the mine atmosphere and can be used in the operation of mine systems for telemeasurement of the concentration of methane and automatic gas protection based on the thermocatalytic principle of operation.

In coal mines that are hazardous for gas, telemeasurement systems for methane concentration in the mine atmosphere and automatic gas protection with thermal sensors are widely used. The methane sensor is the most critical device of these systems; therefore, for their effective use, it is necessary to carry out diagnostic monitoring of the sensor state at certain intervals. The task of such monitoring is to timely receive information on whether the sensor is operational in all modes of its operation, as well as on the causes of the malfunctioning and out of date.

Methods are known that make it possible to partially solve the problem of diagnostic monitoring of a thermocatalytic methane sensor in mine conditions, which makes it possible to verify only the correctness of the readings given by it in the steady state gas mode by comparing the sensor and gas analyzer shown as the reference one in the same medium 11.

There is also known a method for verifying the correctness of the readings issued by the methane thermocatalytic sensor of mine systems for telemetry and automatic gas protection in terms of its calibration characteristic, based on purging the reaction chamber with clean air and a calibrated methane-air mixture. Purging with fresh air monitors the zero position of the sensor, and purging with methane-air mixture monitors the correctness of its readings at one point of the calibration characteristic 2.

However, the known method is not designed for remote information acquisition, since for its realization it is necessary to deliver to the places of installation of sensors of a container with clean air and a calibrated methane-air mixture. In addition, it does not provide a sufficient depth of control of the sensor state, since it does not provide an assessment of one of the most important indicators of its performance, determining the dynamic error in measuring methane concentration at different rates of change in its content in the mine atmosphere.

This method also does not allow to obtain information about the causes of the malfunction of the sensor and the faults present in it.

The closest to the invention to the technical essence is a method of diagnostic control of a thermocatalytic sensor of mine systems of telemetry and automatic gas protection, including a test effect, forming a transient in the sensor, the catalytic thermal conversion element of which is installed in a gas-permeable chamber, measuring the parameters of this process and determining it from sensor performance data. As a test effect, the isolation of the reaction chamber from the influx of the gas mixture from the controlled atmosphere into it and the subsequent restoration of normal gas exchange conditions after burning on the catalytic element of methane remaining in the volume at the time of its isolation is used. Measuring the parameters of the transition process due to the specified test effect, determine the electrical zero of the sensor, the specific performance of the catalytic thermal conversion element during methane oxidation, the resistance of the walls of the reaction chamber to the diffusion transfer of methane and the error in controlling its concentration in the atmosphere. The method allows diagnostic monitoring of the sensor in full 3J.

The disadvantage of this method is the need for mechanical action on the reaction chamber, which is difficult to perform remotely in mine conditions.

In addition, when implementing this method, it is necessary to conduct additional monitoring of the tightness of the insulation of the reaction chamber.

The purpose of the invention is to remotely perform diagnostic sensor monitoring without the use of calibrated gas mixtures and mechanical action on the reaction chamber.

The goal is achieved by the fact that in operations involving a test action that forms a transition process. A sensor whose catalytic thermocoupling element is installed in a gas-permeable chamber, measuring the parameters of this process and determining the sensor performance data obtained, the sensor is supplied with a supply voltage at which the heating temperature of the thermocouple element is insufficient for thermocatalysis, the electrical zero is checked and the composition

Claims (1)

METHOD FOR DIAGNOSTIC CONTROL OF THERMOCATALYTIC SENSOR of mine systems for measuring methane concentration and automatic gas protection, including a test action that forms a transient process in the sensor, the catalytic thermoconversion element of which is installed in a gas-permeable reaction chamber, measuring the parameters of this process and determining the efficiency of the sensor The reason is that, in order to remotely perform diagnostic monitoring of the sensor without using After calibrated gas mixtures and mechanical impact on the reaction chamber, a voltage is applied to the sensor at which the heating temperature of the thermoconversion element is insufficient for thermocatalysis, electrical zero is checked, and if the composition of the medium in the reaction chamber corresponds to the composition of the atmosphere being monitored, the supply voltage jumps up • sensor to the operating value and measure the change in the output signal depending on time. SU., „1113728