SU67866A1 - Absorption vessel for gas analyzers - Google Patents

Description

Existing absorption vessels of gas analyzers have a number of significant drawbacks that make it difficult to work with them.

In surface absorption vessels, Ors-type gas analyzers, where the absorbing liquid wets the surface of the aggregate, in the case of glass tubes, gas can break through through the tubes. A Norse vessel does not have this disadvantage, but the presence of a three-way valve makes it difficult to work with it.

In the Norse instrument, as well as in surface absorption devices, due to the slow absorption of gas by the absorbing liquid, it is impossible to achieve a high gas analysis rate; In addition, the vessels in the Ors and Norse gas analyzers are very fragile and require careful handling.

The proposed absorption vessel for gas analyzers aims to eliminate these drawbacks and is of the type of known absorption vessels having a reservoir with a retention tube placed inside. The tank ends with an open bottom process, immersed in the flask with the absorption liquid, which overflows from the tank into the flask when analyzing.

A distinctive feature of the proposed swallowing vessel for gas analyzers is that the vessel’s reservoir is separated from the appendix by the diaphragm, and the retaining tube is immersed in the cup located under the diaphragm, intended to form a film of liquid and which is a hydraulic shutter. whereby the gas is simultaneously subjected to double treatment — first by its surface absorption in the process, and then by sparging its at the top of the vessel. The absorption vessel consists of a gas capillary 1 connected to the retention tube 2 and fixed in the upper part so that the entrance to the capillary is at the highest point of the tank.

The vessel is divided into two parts by the diaphragm 4, through which the retention tube 2 is passed. The gap between the tube and the diaphragm is 0.8-1 mm.

Under the diaphragm 4, the cup 6 is fastened, which is held by means of three protrusions (tape) 5.

The gap between the cup 6 and the wall of the process 7 is 0.5-0.8 mm, and between the bottom of the cup and the end of the retention tube 1 -1.5 MMf

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To simplify the cup 6 and the diaphragm 4 can be fastened to the tube 2, leaving gaps for the passage of gas.

In collapsible vessels, the internal device (diaphragm, tube, and fungus connected together) can be made removable and secured with the PS-power of the rubber ring.

The depth of the calyx is 5-6 L1m, but it may be greater. The upper vessel 5 is immersed by the process 7 in the flask 8 filled with absorption liquid.

The device operation is as follows: when a vacuum in the measuring burette and an open shut-off valve is used, gas is sucked from the upper tank 5 through the capillary V and the absorption liquid, rising up, fills the entire volume of the vessel 3 to the zero mark and the capillary /, then the instrument ready for action.

A sample of gas measured in the buret is quickly introduced into the absorption vessel, as a result of which part of the liquid from the upper reservoir 3 and the retention tube 2 is displaced, and the gas passes into the gap between the baffle 6 and the tube 2, being pulled out by small bubbles through the absorber layer.

Under the pressure of the gas, the liquid level in the process 7 decreases, as a result of which the gas to be processed, the passage into the gap between the cup 6 and the wall of the process 7, should break through through a thin layer of absorbing liquid overflowing from the upper reservoir 3 of the vessel and flowing from the edges: This forms a curtain of absorbing liquid through which the gas to be treated passes.

The absorptive capacity of the film curtain, on both sides, is washed with gas, with a continuous flow of fresh reagent so great that the component from the gas is completely absorbed during one or two pumpings.

After the gas is completely transferred from the measuring burette B to the absorption vessel, the process is reversed; at the same time, in the upper part 3 of the vessel, a reduced pressure is created, as a result of which the liquid in the tube 2 rises, creating a hydraulic shutter, and closes the reverse flow of gas into the tube 2; Having a free passage into the gap between the tube 2 and the diaphragm 4, the gas escapes fine bubbles, breaking through the LAYER of liquid in the upper part 5 of the vessel. As the gas is removed from the vessel, the liquid fills the entire vessel, after which it is again ready for action.

With such a vessel arrangement, the component from the gas is completely absorbed with one or two shakes, which, along with the simplicity of the instrument and ease of operation, significantly speeds up the gas analysis process.

Prev ET and 3 ABOUT with and and

An absorptive vessel for gas analyzers having a reservoir with a retention tube inside, terminating in an open bottom process, immersed in a flask with absorbing liquid, overflowed during the analysis from reservoir to flask, in order to absorb the analyzed gas due to the surface contact the liquid with its subsequent bubbling through the latter, reserve 2 is separated from the process 7 by the diaphragm 4, and the retaining tube 2 is immersed in the plate 6 above the diaphragm 4, hydrochloric to form a liquid film and is yuschuyus hydraulic gate.