SU816519A1 - Horisontal adsorber - Google Patents

Description

one

The invention relates to a technique for the separation of gases, more specifically to absorbers, and may find application in the chemical and gas processing industry, for example, for the separation and drying of natural gas.

A horizontal absorber is known, which includes a cylindrical body with connections for supplying and discharging contacting phases, inlet and outlet vertical segment partitions, a support grid, an irrigator and a separator between them.

However, the contact of gas and liquid in the in-flow causes the amount of circulating absorbent to be increased in comparison with the countercurrent apparatus. The productivity of such an apparatus is limited by the fact that the increase in the gas velocity and the dispersity of the absorbent makes it difficult to separate the two-phase mixture in the apparatus and increases the entrainment of the absorbent by the gas exiting the contact chamber.

The purpose of the invention is to increase productivity by improving degassing conditions.

This goal is achieved in that the adsorber is provided with additional vertical partitions made with openings in the upper and lower parts and installed parallel to the axis of the apparatus.

It is advisable that the sprinkler be installed in the upper part of the apparatus under the separator, made in the form of a rolled corrugated mesh with inclined corrugations.

It is also advisable that the absorber was provided with vertical partitioning walls installed between the irrigator and the supporting grid, the edges of the holes of which

flanged up, and the free section is 2-6%.

Figure 1 shows the horizontal absorber / longitudinal section; figure 2 - section aa in figure 1.

The absorber includes a cylindrical body 1 with nozzles for supplying 2 and exhaust 3 gas. Vertical segmental partitions of the entrance 4 are installed in the case with a cut-out in the lower part

and exit 5 with a cutout at the top. A supporting grid 6 with a grid 7 is installed between these partitions. The holes of the supporting grid are flanged upwards, and the free section is 2-6%.

Along the lateral edges of the support grid parallel to the axis of the apparatus, additional vertical partitions 8 and 9 are installed.

In the lower part of the partition walls there are holes 10 and 11 for the passage of fluid, 12 and 13 for gas. To remove the saturated absorbent, nozzles 14 and 15 are provided. Sectional baffles 16 are installed between the sprinkler and the support grate. A tubular sprinkler 17 is connected to the absorbent supply nozzle 18 between the partition baffles. On the sprinkler is placed a separator 19, made in the form of a rolled corrugated grid with inclined corrugations.

The volume bounded by the supporting grid, part of the segmental partitions and additional partitions, forms the chamber B.

Volumes limited by the housing of the apparatus and additional partitions form the degassing chambers B and G.

The device works as follows.

Gas through pipe 2 enters the apparatus, passes through the lower cut-out of the inlet segmental partition 4 under the support grill b and is distributed evenly over its entire area due to the small free cross-section of the grill (2-6%). Pass through the holes of the lattice 6, the gas enters the contact chamber B, filled with a nozzle. The absorbent is introduced into the apparatus through the pipe 18 and the tubular sprinkler 17 Passing through the nozzle from the bottom up, the gas is in contact with the absorbent coming from the tubular sprinkler 17 and moving along the nozzle from top to bottom. The cleaned gas then passes through the grid separator 19, where it separates the liquid from the droplet entrainment, and through the upper cutout of the output segment partition 5, and the outlet nozzle 3 is directed to the main gas pipeline.

Stack on the nozzle, the absorbent accumulates on the supporting grid 6 and through the holes 10-11 in the lower part of the additional vertical partitions 8 and 9 is diverted into chambers C and D where it is degassed. The degassed saturated absorbent is then discharged from chamber C and D of the apparatus through nozzles 14 and 15. The gas released in the chambers C and D is discharged from them into the main gas stream through the openings 12-13 in the additional partitions 8 and 9.

The edges of the openings of the support-distribution grid of the lattice are flanged upwards in the direction of gas flow and have the shape of a Venturi nozzle, which eliminates the absorbent wire from the contact zone under the lattice at low loads on the gas. The layer of mesh 7 above the grill eliminates the overlapping of the holes by the nozzle.

Contact Zone Sectioning

cross-partition apparatus

16 on the cassettes prevents lateral uneven distribution of the gas flow and the absorbent, aligns the flow resistances along the length of the apparatus.

Such a design allows the adjustment of the unit power change by sequential installation of the required number of cartridges along the length of the absorbent.

In Vir chambers, a liquid level is maintained at 0.3-0.8 of the height of the packed layer in the contact zone B, which allows for the most efficient mass transfer with a flooded nozzle.

Claims (3)

1. Horizontal absorber, comprising a cylindrical body with inlet and outlet nozzles for contacting phases, inlet and outlet vertical segmented partitions, a support grid, an irrigator and a separator installed between them, characterized in It is equipped with additional vertical partitions, made with openings in the upper and lower parts and installed parallel to the axis of the apparatus. 2, Absorber according to Claim 1, of which I and I C I by the fact that the irrigator is installed in the upper part of the apparatus under the separator, made in the form of a rolled corrugated grid with inclined corrugations.  3. Absorber: Popp.1 and 2, characterized in that it is provided with vertical partitioning walls installed between the opro. by the bridge and the supporting grid, the edges of the holes of which are flanged upwards, 5a, the free section is 2-6%. Sources of information taken into account in the examination 1. The patent of France No. 2117103, cl. At 01 D 53/00, 07.21.72.