SU743687A1 - Heat mass exchange apparatus - Google Patents

Description

sprayed with phlegm and removed to the scrubber cooler.

A disadvantage of the known apparatus is that its reflux chamber, loaded with a nozzle, does not ensure high efficiency of heat and mass transfer processes, as a result of which the required regeneration of the mopoethanolamine solution is not ensured. In order to provide the necessary degree of regeneration (in the bottom chamber), the solution is heated to a high temperature, which causes excessive heat consumption for the operation of the known regenerator.

The inefficient operation of the reflux chamber reduces the productivity of the apparatus and determines its large size and high hydraulic resistance.

The aim of the invention is to increase productivity, decrease hydraulic resistance and reduce heat consumption.

This goal is achieved by the fact that the reflux chamber is equipped with a flanged nozzle and blades placed above it with a disk attached to it by a conical shell and a cylindrical shell fixed from below to the flange.

FIG. 1 shows the apparatus, a longitudinal section; in fig. 2 - blade block, plan.

The apparatus contains a reflux chamber / and a bottoms chamber 2, a fitting 3 for introducing heated monoethanolamine, a fitting 4 for conveying the regenerated solution and a pipe 5 for bypassing water vapor and monoethyolamine into the reflux chamber.

The reflux chamber is equipped with fittings 6 7 for introducing the subject to its regeneration of a solution of monoethanolamine and phlegm, fittings S and 9 for outputting a partially regenerated solution and a vapor-gas mixture, for example H2O + CO2, and a nozzle 10 for spraying reflux (hot condensate).

In the cavity of the reflux chamber are placed contact devices consisting of an inlet pipe //, which with the help of radial plates 12 is attached to an overflow cone 13 and diaphragms e 14, forming a plate attached to the body of the reflux chamber. On the flange 15 of the inlet pipe are placed the blades 16, covered with a disk 17 on top with a conical shell 18 attached to it. To the flange 15 of the inlet pipe there is a cylindrical shell 19 attached to the flange 15 of the valve, the apparatus contains a pipe 20.

The device works as follows.

A solution of monoethanolamine coming through the nozzle b, heated to 95–105 ° C, flows through the tube 20 into a container formed by a disk 17 and a conical shell 18. Through the perforations of the disk 17 and shell 18, the liquid flows to the plate and through the non-spinning cone 13 - to the below contact devices. All along its path, the liquid is in active contact (crushed by nar, captured by it and separated) with elevation 1, imis upward water vapor, monoethanolamine and carbon dioxide coming from the bottom of the chamber and released in the reflux chamber. As a consequence, the downward flowing solution is heated and it is partially regenerated.

The partially regenerated solution is discharged from the reflux chamber through the nozzle 8, sent to the boiler (not shown in the drawing), where it is heated to temperature close to boiling, and through the nozzle 3 enters (by gravity) into the vat chamber. The excreted vapors enter through the tube 5 into the reflux chamber, and the regenerated solution through the nozzle 4 is cooled and used in

absorber.

The released vapors and carbon dioxide from the bottom with a temperature of Ii5-120 ° C rise up and in front of the entrance to the nozzle 7 / are in contact with numerous streams of solution flowing out the perforation 3 and the upper cone 13. In this case, part of the liquid is trapped in pairs, enters together with the pairs pipe 11, then the passage of the blade 16,

the flow of gas and liquid intersects the jet of solution flowing through the perforation of the disk / 7. In this case, part of the liquid droplets are separated and scrubbed onto a plate. At the exit from the block the steam-gas blades

the mixture is in contact with numerous streams of the helix, escaping through them through the perforation of the taper of the shell 18 and through the top of the upper serrated edge.

The interaction of the vapor – gas mixture with numerous streams of the solution provides intensive heat and mass exchange, as a result of which the liquid is heated rapidly and the desorption of significant carbon dioxide dissolved in it.

At the outlet of the vapor-gas mixture, the nozzle 10 is flushed with hot condensate TCiM in order to catch the solution droplets carried away with the lars.

Ф о г м у л а and 3 о б

A television and mass transfer apparatus containing reflux and cubic chambers equipped with nozzles for introducing and withdrawing solution and gas streams, characterized in that, its aim is to increase productivity, reduce hydraulic

resistance and reducing heat consumption, the reflux chamber is equipped with a flanged nozzle and blades placed above it with a disk, a conical shell attached to it and a cylindrical shell fixed from below to the flange.

Sources of information taken into account in the examination:

1.Andreev, F.A., et al. Bound Nitrogen Technologists, “Khpmi, 1966, p. 222-223.

2. Andreev, F.P., et al. Bound nitrogen technology, Chem., 1966, p. 200

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Claims (1)

GO Heat and mass transfer apparatus containing reflux and cube chambers, equipped with fittings for input and output of solution and gas flows, characterized in that, in order to increase productivity, reduce hydraulic resistance and reduce heat consumption, the reflux chamber is equipped with a pipe with a flange and placed above it with blades with a disk attached to it by a conical shell and a cylindrical shell fixed from below to the flange.