SU1109601A1 - Method of checking passive remote gas analyzer - Google Patents

Abstract

A METHOD FOR TESTING A PASSIVE REMOTE GAS ANALYZER that contains working and comparative channels, including setting zero and measuring range for a reference signal by adjusting the gain of the recording system to the setting of the reading corresponding to the value specified when the gas analyzer is released, different in order to increase accuracy and simplify verification, as a reference signal, the intensity ratio of the Fraunhofer lines of the absorption spectrum of the solar corona is used, located in the spectral region adjacent to the working region of the gas analyzer, with g this doublet line is spectrally times (L are divided and passed through the working and comparative channels, respectively.

Description

1 The invention relates to an analytical technique and can be used to calibrate passive remote gas analyzers in which, based on the observation of the interaction of natural atmospheric radiation (for example, solar and reflected) with the gases under study (absorption and scattering, information about their concentrations is extracted. There is a known method for calibrating optical-absorption analyzers, which consists in setting zero to decrease} in the working channel of the intense radiation in the spectral region arriving on The absorption bandwidth of the gas in the analyzer receiver, setting its measurement range is I. The disadvantage of this method is relatively large labor and cost, CBHsaftiHbie with the need to use the analyzer throughout its service life to calibrate several pre-certified calibration gas mixtures containing different amounts of the analyzed component. In addition, this method is used to verify remote analyzers of congestion. The closest to the invention in its technical essence is a method for calibrating a passive remote gas analyzer containing working and comparative channels, including setting zero and a measuring range using a reference signal by adjusting the gain of the recording system to set the reading corresponding to the value given gas analyzer. The known method is based on the use of reference cuvettes containing different concentrations of the analyzed gas 2. A disadvantage of the known method is the difficulty of making a standard cuvette, especially for aggressive gases, as well as maintaining the reference concentration of gases in the cuvette due to its adsorption on the stacks. When calibrating with gas mixtures, the restriction on the accuracy of calibration is imposed by the method of determining the concentration of gases in gas mixtures. In addition, according to GOST 13320-81, the ratio of the error with which the content of a component in a test gas mixture is established to the limit of permissible basic error should not be more than 1/3, which further reduces the accuracy of calibration for gas mixture cuvettes. A certain error is also introduced by the method of preparing a calibration gas mixture. Causes a number of technical difficulties and the implementation of the known method of calibration. This is due to the leakage of gases from the filled cuvette, which leads to a change in calibration concentrations. Some gases are aggressive, adsorbed to the walls of the cuvette and, in addition, can decompose into light. Consequently, the reference cuvettes should be stored in the dark, ensuring that the reference concentration is maintained for only a few weeks. This leads to an almost uncontrolled increase in error. The complexity of the preparation of test gases in the reference cuvettes causes the high cost of the instruments that are completed with the reference cuvettes. The purpose of the invention is to improve the accuracy and simplify calibration. This goal is achieved by the fact that according to the method of calibration of a passive remote gas analyzer, containing working and comparative channels, including setting the zero and measuring range of the reference signal by adjusting the gain of the recording system before setting the reading corresponding to the value specified when the gas analyzer is released, as the Reference signal using the ratio of the intensities of the doublet of the Fraunhofer lines of the absorption spectrum of the solar KLopOHbi, located in the spectral blasts to the adjacent working area analyzer, with lines doublet spectrally separated and passed through the working and comparative channels, respectively. The ratio of the intensities of the doublet lines is a constant value and not

Claims (1)

METHOD FOR INSPECTING A PASSIVE REMOTE GAS ANALYZER containing operating and comparative channels, including setting the zero and measuring range for the reference signal by adjusting the gain of the registration system to establish the reading corresponding to the value specified when the gas analyzer was released, characterized in that, in order to increase accuracy and simplification of verification, the ratio of the intensities of the doublet of the Fraunhofer lines of the absorption spectrum of the solar corona is used as a reference signal, conjugated in a spectral region close to the working area of the gas analyzer at this doublet line g spectrally separated and passed through the working and comparative channels, respectively. SU „1109601 1 109601