SU519619A1 - Optical-acoustic gas compensation gas analyzer - Google Patents

Description

(54) OPTICAL-ACOUSTIC GAS COMPENSATION

GAS ANALYZER

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The invention relates to the field of analytical instrumentation.

Gas analyzers are known that contain a sensor for detecting a component to be detected in an analyzed mixture, a pavement measuring circuit with a current source, a recording device and a reohord connected to the sensor.

The Mostova measuring electrical circuit contains a current source with an adjustable resistor connected in series with it and a recording device. Unregulated resistors and reohord included in the shoulders of the bridge. The moving contact of the reichord is short-circuited to one of its extreme conclusions.

The moving contact of the reichord mechanically moves the reversing motor of the sensor in such a way that with increasing concentration of the component being detected, the resistance between the outermost leads of the reichord increases. The readout of the recorder increases monotonically.

However, the described measurement scheme is applicable only in the case of a linear calibration characteristic (i.e., a direct proportional proportional relationship between instrument readings and the concentration of the component to be determined). For optoacoustic gas-compensating gas analyzers, the calibration characteristic is not linear. For example, in industrial gas analyzers of types OA-2109, OA-2209, OA-2309, OA-0306T and other gas-compensated devices, the use of the described scheme leads to a negative deviation of the calibration characteristic from the linear, i.e. reading instrument in the central part its scales are underestimated compared with those that correspond to the direct proportional dependence of the indications on the concentration of the component being determined.

Therefore, in the measuring circuit of the specified gas analyzers, a shunt correction resistor is connected between the outermost leads of the reichord. Selection of this resistance allows to reduce the negative deviation of the calibration characteristic from the linear one.

In known gas analyzers, a significant residual deviation of their calibration characteristics from linear ones is observed. The known scheme does not completely eliminate this deviation in more than one point on the scale of the gas analyzer. In addition, this scheme does not make it possible to reduce the positive deviation of the calibration characteristic from the linear one (i.e., when the readings in the central part of the scale are too high compared with the direct proportional dependence.