SU873057A1 - Fluorescent gas analyzer - Google Patents

Description

(54) FLUORESCENT GAS ANALYZER

I

The invention relates to an analytical technique, namely to devices for quantitative gas analysis, operation, principle, luorescence, and food-borne ;. Continuous automatic analysis of pollutants in the atmospheric air, in the air of working premises, in the zones of thermal power plants and areas of heavy traffic.

Fluorescent gas analyzers are known for determining contaminants in gaseous media, in particular for determining 50d, HO, N02, CO,

CO containing a radiation source, a flux / resrescent camera, a photodetector, and sample preparation elements ensuring the passage of the analyzed mixture through the fluorescent camera l.

In the fluorescent method of analysis, the composition of the analyzed mixture is very important (the presence of unmeasurable components and water vapor),

since the moisture and non-measurable components in it quench the fluorescence.

Such gas analyzers have significant errors, especially when measuring the ultramicroconcentrations of contaminants, since the methods used to reduce fluorescence quenching in them will inevitably lead to a change in the composition of the analyzed mixture, including the component being analyzed.

The closest technical solution to the present invention is a fluorescent gas analyzer,

15 holding a radiation source, a photodetector, a diffusion type desiccant, a channel with a fluorescent chamber.

In this gas analyzer, the effect of moisture is reduced by partial

drying the analyzed mixture using a diffusion type dehydrator) installed in the gas analyzer, which allows only water vapor to be separated from the analyzed mixture, keeping the rest of the mixture 2

An inadequate device is the low measurement accuracy.

The accuracy of measuring fluorescent gas analyzers depends largely on the accuracy and frequency of their calibration.

The analyzed air in different zones has a different composition (the presence of contaminating impurities). characteristic of each zone.

Therefore, high measurement accuracy of a fluorescence gas analyzer can be achieved only if the composition of the calibration gas (measured components) used for its calibration is the same as the composition of the analyzed mixture entering the fluorescent chamber. With such a calibration, the gas analyzer takes into account the effect of the non-measurable components present in the analyzed mixture.

Calibration of a known fluorescence gas analyzer is made from external sources of zero and calibration gases, usually placed in cylinders, or from generators of zero and calibration gases, which are self-contained instruments.

In either case, the zero and calibration gas is dry, free from various impurities (non-measurable components), and the zero gas is also from the measured component.

Since the composition of the analyzed air is always different from the composition of such a calibration gas, an additional error is introduced when calibrating a known fluorescence gas analyzer, which reduces its measurement accuracy.

The purpose of the invention is to improve the measurement accuracy of a fluorescent gas analyzer.

This goal is achieved by having a fluorescent gas analyzer containing a radiation source, a photodetector, a diffusion type dryer, a channel with a fluorescent chamber, additionally contains a mechanical flux separator and two channels, one of which includes a filter for cleaning the analyzed mixture from the measured component and an electropneumatic converter, and another flow control unit and a thermostated capsule with a liquid measured component, and also introduced into the channel with a fluorescent chamber

electropneumatic transducer, and. Both of these channels are interconnected, as well as with a channel containing a fluorescent chamber, by means of a mechanical flow distributor, installed after the desiccant along the gas flow.

The proposed fluorescent gas analyzer does not require additional sources for its calibration. calibration gases. Its design allows to obtain from the analyzed air zero and calibration gas of the same composition (humidity, non-measurable components) as the analyzed air itself and with their help calibrate the gas analyzer at any desired time, thereby taking into account the effect of the composition of the analyzed mixture that significantly improves the accuracy of its measurement.

The drawing shows a diagram of a fluorescent gas analyzer.

The fluorescent gas analyzer contains excitation radiation source 1, photodetector 2, filter 3 for cleaning the analyzed mixture from dust, desiccant 4. diffusion type from semipermeable tubes, mechanical flow distributor 5 installed after the dehumidifier and dividing the flow into three Channels, one of which has fluorescent chamber 6, flow adjuster 7, vacuum gauge 8, in the second — flow adjuster 9, a thermostated capsule 10 with a liquid component being measured, in the third — a filter 11 for cleaning the analyzed mixture from measuring th component. The electropneumatic transducers 12 and 13, the tees 14 and 15 connect all the channels to each other and to the rotameter 16, the absolute pressure regulator 17, and the flow driver 18.

The gas analyzer operates as follows.

Claims (2)

1. US Patent I 4045679, cl. 250.-461, 1972. 2. W. I. Zolner, E.W. ClepllnskI, D, V. Dunlap. Furmo Electron Corporation, Wattham, MA 021.54, 1973, report (prototype).