RU19775U1 - NOZZLE FOR HEAT AND MASS EXCHANGE UNITS - Google Patents

Description

NOZZLE FOR HEAT AND MASS TRANSFER APPARATUS

The utility model relates to nozzles for heat and mass transfer apparatuses and can be used to carry out rectification, absorption, stripping, desorption and other processes in the oil refining, petrochemical, chemical and related industries.

Known nozzle for heat and mass transfer apparatus, containing a package composed of corrugated sheets with the arrangement of corrugations in adjacent sheets at an angle to each other (see, for example, US patent 4296050, CL 261-112, 1981). The known nozzle has a relatively low performance due to the effect of partial uneven distribution of gas over the apparatus cross section and the relatively low mass transfer efficiency, since it is determined mainly by the surface of the nozzle along which the liquid film flows.

The closest in technical essence is the nozzle for heat and mass transfer apparatus selected by the applicant for the prototype, containing a package composed of corrugated sheets with corrugations arranged in adjacent sheets at an angle to each other, made with notches passing through the corrugated peaks and troughs, with folding the surfaces of the sheets between pairs of cuts in opposite directions (see, for example, US patent 4740334 CL 261-112, 1988). The notch of the known nozzle does not significantly change the volumetric structure of the nozzle and therefore it

VO and 19/32

does not significantly affect the uniformity of the phase distribution, the performance of the apparatus and the efficiency of mass transfer.

The technical problem to which the utility model is directed is to increase the productivity of the apparatus in which the nozzle is located and the mass transfer efficiency.

The solution to this problem is achieved by the fact that the nozzle for heat and mass transfer apparatus, containing a package composed of corrugated sheets with the arrangement of corrugations in adjacent sheets at an angle to each other, made with cuts passing through the tops and troughs of the corrugations, with the folding of the surfaces of each sheet between pairs of cuts in opposite directions, according to the utility model, the notches are arranged in such a way that the distances from one arbitrary notch to adjacent notches on both sides along the corrugation line are not equal to ug

to a friend.

It is advisable to make cuts in the form of straight lines located parallel or at an angle to each other, in the form of broken or curved lines.

In FIG. 1 shows a front view of a nozzle; figure 2 is a section of one sheet of the nozzle along A - A of figure 1; Fig. 3 is a section through a nozzle sheet according to B - B of Fig. 1; in FIG. 4 shows the execution of notches in the form of broken lines, in FIG. 5 - execution of notches in the form of curved lines; Fig. 6 - general view of the nozzle package

The nozzle for heat and mass transfer apparatuses contains a package composed of corrugated sheets 1 and 2 with the arrangement of corrugated sheets at an angle to each other, made with notches 3 passing through the tops 4 and troughs 5 of the corrugations, with folding surfaces 6

each sheet between pairs of cuts in opposite directions, with distances L and LS from one random cut to adjacent cuts on both sides along the corrugation line are not equal to each other. The notches can be made in the form of straight lines 7 located parallel or at an angle to each other; notches can be made in the form of broken lines 8 or curved lines 9. A small wave-like structure is formed in the nozzle package with the formation of parallel channels 10 on the surface of each corrugated sheet for gas passage, directed at an angle to the channels formed by the sheet corrugations. The surface of the corrugated sheets may be smooth or rough with notched tubercles, grooves, or risks.

The nozzle works as follows. Liquid sprinkles the nozzle, and gas flows from below. Gas and liquid, moving in countercurrent and passing through channels intersecting each other between adjacent sheets of the nozzle, interact with intensive mixing. Due to the equalization of the gas flow along the cross section of the apparatus by intersecting jets of gas, the productivity of the apparatus increases, and due to the crushing of the liquid into jets and droplets in the entire nozzle volume, a high mass transfer efficiency of the proposed nozzle is achieved.

The location of the groove with uneven distances along the corrugation line when bending the surface of each sheet between the pairs of grooves in opposite directions ensures the formation of parallel channels for gas passage on the surface of each sheet, directed at an angle to the channels formed by the corrugations of the sheet, due to which a small wavy structure of the nozzle is formed. Shallow education

the wave-like structure of the nozzle with intersecting channels for gas passage and ensures the development of a developed phase contact surface in the volume of the nozzle with a uniform distribution of flows over the cross section of the apparatus.

Performing cuts in the form of lines other than straight lines (inclined, broken and curved) increases the efficiency of heat and mass transfer by updating the contact surface of the phases.

Thus, the nozzle for heat and mass transfer apparatuses provides an increase in the heat and mass transfer efficiency and productivity of the apparatus due to a more even distribution of gas and liquid flows over the cross section of the apparatus and closer contact of the phases in the volume of the nozzle.

The authors

Yu.N. Lebedev

(jiJiJiJS.

Applicant-patent holder LLC NPK "KEDR-89 General Director

I.A. Alexandrov

V.G. Chekmenev (

Claims (3)

1. Nozzle for heat and mass transfer apparatus, containing a package composed of corrugated sheets, with the arrangement of corrugations in adjacent sheets at an angle to each other, made with cuts passing through the tops and troughs of the corrugations, with the folding of the surfaces of each sheet between pairs of cuts in opposite directions, characterized in that the notches are arranged in such a way that the distances from one arbitrary notch to adjacent notches on both sides along the corrugation line are not equal to each other.  2. Nozzle for heat and mass transfer apparatus according to claim 1, characterized in that the notches are made in the form of straight lines located parallel or at an angle to each other. 3. Nozzle for heat and mass transfer apparatus according to claim 1, characterized in that the notches are made in the form of broken or curved lines.