SU311201A1 - METHOD OF SELECTION OF SAMPLES OF SAZHEVB1X AEROSOLS WITH REHEATING1 - Google Patents

Description

The invention relates to the field of the actomatization of dust control by gas capture and it is intended to use a sample of x based on afterburning and the analyzed aerosol with the following analysis of a specific gaseous component as a function of the measured solid phase aerosol.

The known method and the application of hfs, in particular, to control the weight content of soot in the pelvic streams, where the volume lonneitration of CO in the products of complete combustion, the analysis of the sample is a display of the parameter of interest. Depending on the cyclical nature of sampling, dozhit and analysis of gases, water can be classified as either continuous or continuous.

These devices contain samplers. usually carried out in the form of a tube with a nozzle of a certain lrofil, directed by nrotn; main stream sal avoto aerosol. The sampling tube has an internal clal for moving the aerosol to be withdrawn and further connects with all the absorbing units to prepare the sample for analysis, for example, a furnace and a gas analyzer for COO. In this case, it is necessary to observe the axial condition of sampling aerosols and to eliminate such phenomena as the removal of soot from the main stream and a decrease in the rate of its movement below a certain level (soot does not settle at a speed of 12 °).

Sampling and transportation of samples of cold aerosols (with a temperature of 20-100 ° C) is provided by the required cross-section of the internal gas extraction channel} of the 10th tube at the source E) of its dynamic response.

When sampling, vykotem-peratur; 1Y: l rosol, for example, the reaction gases of soot reagents with a darkness of 700-- - 1500 C, a temperature gradient appears but the length of the sampling tube. Gases, at temperatures of 700–1500 ° C at the beginning of the channel, are cooled to 100–150 ° C at the end of the channel as a result of contact of the tail part of the sampler with the environment. Lnneip gas velocity decreases sharply, and the Sacchi particles settle on the channel walls, gradually blocking its flow area. Soot settled in the tube is not subjected to afterburning, therefore it cannot be taken into account by the gas analyzer, which reduces the accuracy of control.

The described method allows the provision of

5 uninterrupted operation of the device for continuous continuous sampling and higher measurement accuracy by significantly reducing (to the minimum) the movement path; P1 aerosol and carrying it out to the nose of the shot-collection tube.

- In the piping with a nozzle of a certain profile, the dry gas mixture (in general, there can be any aerosol). It overcomes a considerable distance from the sampling point to the measuring unit of the dust meter. According to the proposed method, the aerosol moves only along the opening in the nozzle (with a small diameter of the wire), i.e. from the mouth to the inner end of the nozzle. Keeping the dimensions of the sampler body, ensuring that the internal volume of a thermostable material is mechanically filled for mechanical particle retention: soot in the high temperature zone and air is supplied to the zone limited by the end cut and the filtering layer, it can be burned. The air consumption for combustion in this case should be less than the suction of combustion products. The difference between the volumes of incoming air from the combustion products is the volume of flow to the aerosol sampler.

The drawing shows a recording of the recording device of a gas analyzer of an ator at LONG and short cacti | ills sampling: ik, respectively, equal to 535 mm and 40 mm. In both cases, a serial CO-type gas analyzer with minor alterations was used. In the first case (curve 1), the afterburning is carried out in a spraying furnace in the open air with an electric heater and a filtering layer. In the second (“Riva 2”), the same casing and sampler tips were used, but the air is supplied to the –internal nose of the sampler, the working volume of which contains a filtering layer of А12Оз granules

0.25 mm. Afterburning of the soot-gas mixture occurs with the use of tenla reaction gas:) in a soot reactor at 700-730 ° C. The gas analyzer operated in continuous mode for 170 hours. At the same time, kalal did not block with soot.

The subject is invented and

The method of sampling of particulate aerosols with afterburning for analyzing a gas analyzer to determine the weight concentration of soot in high-temperature gases, characterized in that, in order to improve the accuracy of determination, the soot after soot is carried out in the nose of the sampler containing the filter layer, and using the heat of the reaction gases to create goren conditions; n particles of soot and combustible gases.

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