SU866443A1 - Device for sampling gas from monitored medium - Google Patents

Description

(54) DEVICE FOR THE SELECTION OF SAMPLES OF GAS FROM A CONTROLLED ENVIRONMENT

The invention relates to a technique for measuring the composition of gases, controlling and attributing the combustion (pyrolysis) process in chemical plants and other industries. A device for the selection and purification of gases, comprising a gas extraction tube with a gas suction opening, a filter TI is known. However, such a device does not withstand the high temperatures that occur in furnaces and some chemical apparatuses, for example, in the apparatus for the pyrolysis of acetylene production or methane converters in the production of synthetic ammonia. A gas sampling device is known, which contains a gas extraction tube with a gas suction opening connected to an ejector, a gas outlet and a constant level tank G23. The gas sampling tube forms a loop entering the controlled medium. The drawbacks of the device are insufficient accuracy and efficiency of the sampler, which is caused by the fact that soot, which is phase-fired during the combustion process, is sucked into the gas-collecting tube, gas-separator and further into the water discharge line, which leads to the accumulation of soot on the walls of the respective channels and their clogging. To clean the clogged channels, it is usually possible to steam them with steam; The gas turbine unit of the pipe has a large amount of pressure in the area of reduced pressure between the take-off hole and the intake fitting of the ejector, which creates congestion for the selection, this is important for furnaces and apparatuses operating under vacuum; water is used as a cooling medium. In high-temperature treatment, to prevent evaporation of water in a gas extraction system, a large amount of water is needed, or water should be specially prepared to prevent the formation of scale.

The chain of efficiency is a step up in the accuracy and efficiency of sampling.

The indicated circuit is achieved by the fact that the gas sampling device from the controlled medium containing the gas sampling pipeline, gas separator, is equipped with shut-off valves installed on the gas sampling pipeline between the ejector and gas-flue gas, the ejector body is made of porous FEL pipe, and the equipment is supplied with a set of spare parts. , made in the form of nozzles, and placed in a controlled environment.

The drawing schematically shows a sampling device.

The device contains a gas sampling line L. gas-removal unit 2. In the gas-collecting pipeline I, there are inlet nozzles 3, output nozzles 4, forming an ejector of an ejector. Nozzles 3 and 4 are located in the ejector body 5 of a porous filter material. On the gas sampling pipe in front of the separator 2 is installed shut-off valve 6.

The device works in the following way.

The working medium, natfimer steam, enters through the gas extraction pipe I into the inlet nozzle 3. The steam entering from the nozzles 3 into the nozzle 4 creates a vacuum inside the body 5, resulting in a controlled medium sucked through the walls of the porous body 5 and enters through the nozzle 4 and the stop valve valve 6 to gas separator 2, where it is separated into water and gas. The water is discharged and the gas is released for analysis. Soot, having a controlled environment, clogs the walls of the body S. When the shut-off valve is closed 6 ne

starts from the inside through the tents of the housing 5, clearing them. Steam, aisle pipeline I, cools it.

Large wall surface area

housing 5 and the absence of a suction pipe from the ejector ensure a small amount of gas extraction.

The walls of the housing 5 are delayed by soot to other mechanical impurities in a controlled environment.

P 1 the opening of the check valve 6, which is automatically carried out, provides for the iodic flow inside the body .5 of steam that cleans the walls of the body from soot on them.

Claims (1)

1. Reference Installation of instruments and means of automation and. Under the river. A.K. Adabash on N. dr. M., Energie, 1972, c-E99. USSR author's certificate No. 572676, kp. Q 01N 1/22, 1974. Kiitrvlildemai Sreva I and 1 1 Working tpedo Gas on ((analysis one