SU1108869A1 - Device for gas sampling from gas duct - Google Patents

Abstract

1. A DEVICE FOR THE SELECTION OF SAMPLES OF GAS from the flue, containing chambers installed at different levels, interconnected in the lower part by a pipeline with an adjustable speed drive, and valves, characterized in that, in order to enhance the functionality, the accuracy of sample dosing and reliability, it is supplied with a gas source, additional pipelines connecting the upper parts of the chambers with the flue, the chamber located at the lower level is filled with liquid and is made with a volume larger than .KaMepjaj NPA at the top level, on the additional conduit connecting yuschem chamber disposed at a lower level, a valve with a gas flue, and a conduit connecting the chamber located at the top level, with the flue pipe is provided with flow measurement. cuvette. (L 7 Y0 00 00 a co

Description

2. The device according to claim 1, about tons of l and each such that it is equipped with an additional discharge pipe connecting the chamber located at the upper level through the valve with the flue,

3. The device according to claim 1, of which the camera is located on the upper level.

it is supplied with the additional valve installed in its top part.

4, the device according to claim 1, which is provided with an additional pressure pipe connecting the chamber located at the upper level with the gas consumer.

The invention relates to the field of gas analysis, in particular, to the design of gas flow boosters, and can be used in analytical instrumentation and in other areas where a metered supply of gas, including aggressive gas, is required. A device for sampling gas containing two containers connected to its lower part of the pipeline and partially filled with liquid. When the containers are moved in the vertical direction, the liquid flows from the container to the container, into the emptying container for, the gas sample i is sucked. A disadvantage of this device is the narrow pressure range and the need for manual control. . A known water aspirator for air sampling, containing chambers installed at different levels and interconnected in the lower part of the pipeline with a regulated throttle, and valves 2. A disadvantage of this device is that it has a complex structure, a narrow range of operation and is controlled manually. The purpose of the invention is to expand the functionality, improve the accuracy of sample dosing and reliability of the device. The goal is achieved by the fact that, in a gas sampling device, gas wires, which contain chambers installed at different levels, are interconnected in the lower part by a pipe with an adjustable throttle, and the valves are provided with a gas source, additional pipelines connecting the upper parts of the chambers with the flue, the chamber located at the lower level is filled with liquid and is made with a volume larger than the chamber located at the upper level, on the additional pipeline connecting the chamber located at the lower level, a valve is installed with the gas duct, and the pipeline connecting the chamber located at the upper level with the gas duct is equipped with a flow measuring cell. The device is equipped with an additional discharge pipe connecting the chamber located at the upper level through the valve with the gas duct. The camera, located at the top level, is equipped with an additional to the apan installed in its upper part. In addition, the device is equipped with an additional pressure pipe connecting the chamber located on the upper level with the gas consumer. FIG. 1 and 2 are diagrams of a device for taking metered gas samples; in fig. 3 - devices dp dosed supply of gas to the consumer. The device contains a bottom-filled chamber 1 filled with liquid, an upper metering chamber 2, a pipeline 3 with an adjustable throttle 4, a three-way valve 5, a valve switching device 6 (e.g., a pneumatic pulse generator), a gas source 7 whose pressure exceeds the gas pressure value in gas duct 8, pipelines 9 and 10. On

3

The upper outlet of the dosing chamber is fitted with a valve 11, which is, for example, a plate with a membrane located beneath it in a blunt diaphragm in which openings are not coincident with each other. A measuring cuvette 12 is installed on the pipe 10. When an additional discharge pipe 13 is used (see FIG. 2), the dosing chamber is connected to the pipes 10 and 13 by means of a switching valve 14 controlled by the device 6, or check valves 15 and 16 are installed on these pipelines (see Fig. 3).

The device works as follows.

In the initial state, when chambers 1 and 2 are connected to the flue 8, the liquid fills only the lower cavity of the drive chamber and the lower section of the pipeline 3. In the period of time when, at the command of device 6, valve 5 connects chamber 1 to the gas source 7, liquid is displaced from chamber 1 to 2. In this case, the gas in chamber 2 is displaced into the gas duct 8 through line 10 through cell 12 (see fig. 1) or through valve 14 through line 13 (see fig. 2) or through valve 16 through line 13 to the consumer (see Fig. 3). After the gas is completely displaced from the dosing chamber, the valve 11 is closed (the membrane is pressed against the plate), and the dosing process is stopped.

In the period of time when the chambers are again communicated with the flue, under the influence of hydrostatic pressure, the liquid from chamber 2 flows into chamber 1, and into chamber 2 from

694

of the duct 8, a portion of the gas is sucked in through the tube section 10 either through the cuvette 12 (see Fig. 1), or through the cuvette 12 and the valve 14 (see Fig. 2), or through the valve 15 (Fig. 3).

By supplying gas from a source c. pressure above the gas pressure in the flue is possible before the suction stroke

create a significant difference in the levels of the drive fluid in the chambers, thereby ensuring reliable and intensive suction of gas through the cuvette, as well as accelerate the process of displacing gas from the dosing chamber and carry out the dosing of gas to the consumer under pressure greater than the pressure in the gas flue.

The device is made of

a material that is resistant in the media being analyzed and is filled with a liquid that does not interact with the gas to be extracted.

Compared to the base object

The proposed device has a simpler design, is more durable, safer in operation, provides much greater dosing accuracy and allows to automate the process of gas sampling.

The use of the device allows to obtain an economic effect due to a significant reduction in operating costs, it is possible to use the device in flammable and explosive conditions.

It is intended to use a device for sampling gas and supplying it to a measuring cell. analyzer in the quality of the gas sampler from the ventilation systems, as well as for the calibration of gas meters.

Claims (4)

1. DEVICE FOR TAKING GAS SAMPLES from a gas duct, containing chambers installed at different levels, connected to each other in the lower part by a pipeline with an adjustable throttle, and valves, characterized in that, in order to expand the functionality, increase the accuracy of sample dosing and reliability of operation, it is equipped with a gas source, additional pipelines connecting the upper parts of the chambers to the gas duct, the chamber located at the lower level is filled with liquid and is made with a volume larger than the chamber located at the upper level, on an additional pipeline connecting the chamber located at the lower level with the gas duct, a valve is installed, and the pipeline connecting the chamber located at the upper level with the gas duct is equipped with a flow measuring cell. 1 108869 2. The device according to claim 1, characterized in that it is equipped with an additional discharge pipe connecting the chamber located at the upper level through a valve with a gas duct. 3. The device according to claim 1, characterized in that the camera located on the upper level is equipped with an additional valve installed in its upper part. 4. The device according to claim 1, which is characterized in that it is provided with an additional pressure pipe connecting the chamber located at the upper level with the gas consumer.