SU1650222A1 - Nozzle for heat - and mass transfer apparatuses - Google Patents

Abstract

The invention relates to chemical engineering, in particular to the design of nozzles for heat and mass transfer processes, which can be applied in the chemical, petrochemical, gas processing, medical, food and other industries. The aim of the invention is to increase the capacity of the nozzle. The nozzle contains a flat partition and plates bent in opposite directions, forming two prism-like figures having a common base and installed at a right angle to one another. 2 Il.

Description

The invention relates to nozzle designs, which are intended for heat and mass transfer processes in chemical technology, petrochemical, gas processing, medical, food and other industries, and can also be used as dropping liquid blockers in column mass exchangers and filters.

The purpose of the invention is to increase the capacity of the nozzle.

Figure 1 presents the proposed nozzle in a perspective view; figure 2 - nozzle with oblique cuts.

The nozzle consists of two prism-shaped figures, formed from two plates 1 bent toward each other, rotated one relative to the other by 90 ° and having a common partition 2. Each pair of plates 1 is directed relative to the other pair in the opposite direction. Due to incomplete docking

gaps 3 are formed between adjacent plates. The blank can be made with perforations.

On two plates that form one of the prism-shaped figures, oblique cuts can be made. Performing a nozzle with oblique cuts allows the material utilization rate to be reduced from 1.65 to 1.6 as compared with the nozzle without oblique cuts.

The nozzle works as follows.

The element of the nozzle is loaded into the apparatus in the pile and placed on the support grid. Gas is supplied to the apparatus from below under the grate. Liquid on the nozzle layer is served on top. Moving from top to bottom along the apparatus with the nozzle, the liquid washes the surface of the elements of the nozzle in contact with the gas moving towards the liquid.

The prism-like shape of the nozzle provides a more loose packing of elements in the column and thus leads to an increase in the throughput of the nozzle by 9-18%.

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The number of elements contained in a unit volume is 19% less than that of the prototype. The bulk weight of the proposed packing is 313 kg / cm / (377 kg / m3 for the prototype).

Hydrodynamic tests were carried out on a pilot plant in a column with a diameter of 500 mm and a nozzle height of 2000 mm on a water-air system at atmospheric pressure in the range of irrigation densities (L0p) 40-135 m3 / m2h. The size of the nozzle 50x50x1 mm.

The nozzle increases the throughput of mass transfer apparatus, and thus the performance.

The design feature of the nozzle, which provides double rotation of the contacting flows by 90 ° within one element, makes it possible to use it as a dropping liquid suppressor in mass exchange column apparatus.

In the manufacture of the nozzle, the process of its manufacture on the bending machines is simplified due to the prism-shaped shape of the bent plates, the productivity of the bending machines increases and the number of workers employed in the production of the nozzle is reduced by 20%. Formula A

Nozzle for heat and mass transfer

apparatus, comprising a flat partition and pairwise placed plates bent from it in opposite directions, characterized in that. in order to increase throughput,

The bent plates with a septum form two prism-shaped figures, installed at right angles to one another, while the bases of the prism-shaped figures are located in two mutually perpendicular planes.

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Claims (1)

Claim A nozzle for heat and mass transfer apparatus, comprising a flat partition and pairwise placed plates bent away from it in opposite directions, characterized in that, in order to increase throughput, the bent plates with a partition form two prism-shaped figures; installed at right angles to one another, while the bases of the prism-shaped figures are located in two mutually perpendicular planes.