SU1308863A1 - Gas analyzing system - Google Patents

Abstract

The invention relates to a gas analytical system for monitoring the chemical composition of gases in process lines, can be used in various areas of industry and improves the accuracy of the analysis by eliminating the effect of changes in atmospheric pressure and consumption of the analyzed gas mixture. The gas analysis system contains interconnected gas analyzer 1 and pneumo7 3 on the second side 2, 3, 4. Pressure regulator 5 and throttle 6 are installed on the carrier gas supply line 7, and chokes 8 and 9 are in the gas mixture supply line 10 . In the diffusion diluent 11, the membrane I2 divides its internal volume into two chambers 13 and 14. In the supply line 17, pneumatic resistances 18, 19, 20 and repeaters 21 and 22 are offset. The pneumatheater 2 is connected to the discharge line of the gas mixture through the flow booster 16, and the pneumatic follower 4 is connected to the repeater 22. The pneumatic follower 3 is located after the diffusion diluent I1 and is connected to the discharge line of the gas mixture through the flow inducer 16. The output of the absolute stabilizer 15 is connected to the discharge line through the flow booster 16, and the input is connected to the pressure regulator 5, the pneumatic actuator 3, the repeaters 21, 22, and the supply line 17 through the pneumatic resistance 19. 1 or . , § (Л со about 00 00 05 Od

Description

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The invention relates to the field of gas analysis and more specifically to gas analyzing systems for controlling the chemical composition of gases in technical lines, in particular, when analyzing diffusion-diluted gas mixtures during sample preparation, and can be used to control hydrogen, carbon monoxide, oxides of nitrogen and other gases.

The purpose of the invention is to improve the accuracy of the analysis by eliminating the effect of changes in atmospheric pressure and the flow rate of the analyzed gas mixture.

The drawing shows the block diagram of the gas analytical system.

The gas analytical system contains a gas analyzer 1, pneumatic repeaters 2-4, a pressure regulator 5 and a throttle 6 located on the carrier gas supply line 7, inductors 8 and 9 in the gas mixture supply line 10, a diffusion diluent 11 with a 12 sharing membrane him

internal volume into two chambers 13 and 14, absolute pressure stabilizer 15, flow rate booster 16. B line 17 power supply installed pneumatic resistance 18-20 and repeaters

21 and 22 with a shift. Pneumatic repeater 2 is located after the gas analyzer 1 and is connected to the discharge line of the gas mixture through the flow booster 16. Pneumatic 4 is located

on the supply line 10 of the gas mixture to be analyzed and is connected with a repeater

22 with a shift and line 17 of the power supply through the pneumatic resistance 20, and with a discharge line - through the flow stimulator 16. The pneumatic actuator 3 is located after the diffusion diluent 11 and is connected to the discharge line of the gas mixture through the flow booster 16. The output of the absolute pressure stabilizer 15 is related to q. discharge line through the booster 16 flow, and the input

It is connected to the pressure regulator 5, to the pneumatic controller 3, to the repeaters 21 and 22 with a shift, and to the line 17 through the pneumatic resistance 19.

The gas analytical system works as follows.,

The gas to be analyzed, passing through the choke 9, is divided into two streams: the gas to be analyzed. with constant flow through. choke 8 flows into the chamber 14 of the diffusion diluent

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11, and the rest of the gas is discharged through the flow chamber of the pneumatic repeater 4 and the flow booster 16. The carrier gas through the controller 5

5 and the choke 6 enters the upper chamber 13 of the diffusion diluent 11, where it is mixed with the component to be diffused through the membrane 12 from the chamber 14. A portion of the gas stream flowing out of the chamber 13 is fed to the gas analyzer 1, which, taking into account the dilution that occurred in the diluent 11, measures the concentration of the measured 5th component in the analyzed gas. The other part of the gas flow from the chamber 13 is mixed with the stream flowing from the chamber 14 and discharged through the flow chamber of the pneumatic follower 20 and the flow booster 16. The gas flow flowing out of the gas analyzer 1 is also discharged into a common discharge line through the flow chamber of the pneumatic repeater 2 and

 The driver of 16 ra.skhoda.

The pneumatic repeater 3, the flow booster 16 and the pneumatic resistance 19 maintain the constant absolute pressure set by the stabilizer 15 before entering the gas analyzer 1. The pressure difference across the diaphragm 12 is 0. With the help of the pneumatic repeater 4, the follower 22 is shifted, the absolute pressure of the compressor 15 is absolute, - The flow rate and pneumatic resistance sensors 16 and 19 are maintained at a constant pressure drop across the throttle 8, which ensures a constant flow rate of the analyzed gas through the chamber 14.

Pneumatic pickups 2 and 3, follower 21 with shift, booster 16

flow rate and pneumatic resistances 18 and 19 maintain a constant differential of the gas analyzer 1,

The application of the invention will improve the accuracy of the analysis due to

excluding the effect of changes in atmospheric pressure and flow rate of the analyzed gas mixture on the operation of the system.

Claims (1)

Invention Formula Gas analytical system containing diffusion diluent, with gas permeable for controlled a component that divides its internal volume into two chambers, one of which is connected to the supply line of the analyzed mixture, and the other to the carrier gas supply line with a gas analyzer installed in it, connected to the outputs of diffusion diluent chambers, gas discharge line and throttles, characterized in that, in order to improve the accuracy of the analysis by eliminating the influence of changes in atmospheric pressure and the size of the analyzed gas mixture, the system additionally contains pneumo repeaters, one of which installed in the supply line of the analyzed mixture, and the other two - at the exit of the diffusion diluent and gas analyzer, respectively, shear pneumatic repeaters, flow booster and absolute pressure stabilizer associated with pressure regulator control chamber chambers, pneumatic rectifier and diffusion diluent pneumatic repeater chambers; are equipped with flow-through chambers of corresponding pneumatic repeaters with a shift, and the outputs of pneumatic repeaters shear pneumatic repeaters and an absolute pressure stabilizer are connected to a vent line through a flow booster.