RU2505354C1 - Regular nozzle (versions) - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: in compliance with first version, regular nozzle is composed of a stack of corrugated sheets made of solid or perforated sheets alternated with corrugated sheets of solid or perforated sheets with holes. Holes at made crimps extending parts facing both adjacent corrugated sheets. Distance between openings equals the pitch of crimps. Extending parts of crimps are fitted in holes of adjacent sheet so that clearances are formed between edge of said holes and said part of crimps. In compliance with second version, regular nozzle consists of the stack of sheets alternated with corrugated sheets rectangular or trapezoidal in cross-section from solid or perforated sheets in shape similar to profile of adjacent sheet. End face part of crimps between holes has a cutout.

EFFECT: higher efficiency mass exchange between gas and fluid, lower drag.

2 cl, 6 dwg

Description

The invention relates to designs of regular nozzles designed for carrying out heat and mass transfer processes in a gas (steam) - liquid system, and can find application in the processes of rectification, absorption, purification and drying of natural gas, for phase separation, as well as in chemical, oil, gas and other industries.

Known regular nozzle for heat and mass transfer apparatus, consisting of vertically mounted corrugated sheets in contact with the protruding corrugations with each other, each corrugation of the sheet is made with back-concave elements that are located at the intersection of parallel lines with the edges of the corrugations. On the corrugations along parallel lines, at the points of intersection with the corrugation ribs, transverse openings are made in the form of notches, and between each pair of notches there are placed concave elements in the form of, for example, isosceles trapezoid, bent so that the inflection line is located on the inverted concave rib corrugations. Between the corrugated sheets, perforated sheets or grids are installed, the cells of which are dimensioned to ensure an uninterrupted flow of fluid through it (RF Patent No. 2188706, IPC ⁷ B01J 19/32, B01F 3/04, publ. 09/10/2002).

Common features of a known solution and proposed solutions are:

- corrugated sheets;

- holes are made on the corrugations;

- Perforated sheets or meshes are installed between the corrugated sheets.

The existing analogue has drawbacks associated with low mass transfer efficiency compared with the claimed device due to the uneven distribution of the fluid flow in the volume of the nozzle (i.e., due to the occurrence of a wall effect, in which the liquid, after passing through several layers of the nozzle, gradually accumulates near the wall column apparatus, which prevents its effective contact with the gas phase and requires the installation of redistribution devices along the height of the column apparatus).

Closest to the proposed regular nozzle and selected for the prototype is a regular nozzle consisting of corrugated sheets with holes, while the corrugations of adjacent sheets are directed relative to each other in opposite directions and are mutually perpendicular. Corrugated sheets can be installed vertically, obliquely or horizontally. On each sheet, holes are made in each part of the corrugations protruding in one direction, and the centers of the holes are located along the lines of the corrugation vertices and the distance between the centers of the holes is equal to the step of the corrugations, while the corrugations protruding to the other side are installed in the same holes of the adjacent sheet with the formation of gaps between the edge of the holes and this part of the corrugation. The gap is created due to the different shape, size of the holes and various configurations of the profile of the corrugated sheet: triangular, trapezoidal, wavy. Corrugated sheets can be made of continuous sheet material, as well as of perforated or profiled, or expanded metal, or expanded metal sheet, or mesh. (RF patent No. 2384362, IPC B01J 19/32, published March 20, 2010).

Common features of the known and proposed solutions for the first option are:

- a package of corrugated sheets;

- corrugated sheets are made of solid or perforated sheet material;

- corrugated sheets have holes;

- holes are made in the protruding part of the corrugations;

- the distance between the holes is equal to the step of the corrugations;

- the protruding parts of the corrugations are installed in the holes of the adjacent sheet with the formation of gaps between the edge of the holes and this part of the corrugations.

Common features of the known and proposed solutions for the second option are:

- a package of corrugated sheets;

- corrugated sheets are made of solid or perforated sheet material;

- corrugated sheets have holes;

- holes are made in the protruding part of the corrugations;

- the distance between the holes is equal to the step of the corrugations;

- the protruding parts of the corrugations are installed in the holes of the adjacent sheet.

A disadvantage of the known nozzle is the occurrence of a wall effect during the regular nozzle operation, in which the liquid, having passed through several layers of the nozzle, gradually accumulates near the wall of the column apparatus, which prevents its effective contact with the gas phase throughout the volume of the nozzle and requires the installation of redistribution devices along the height of the column apparatus. In addition, the turbulization of gas and liquid flows in the known nozzle is achieved due to a significant change in the flow area of the nozzle channels as the gas moves along them, which leads to an increase in hydraulic resistance.

The technical result is to increase the efficiency of mass transfer processes between gas and liquid in the entire volume of a regular packing while reducing hydraulic resistance.

This result is achieved by the fact that according to the first embodiment, in a regular nozzle for heat and mass transfer apparatus, consisting of a package of corrugated sheets made of continuous or perforated sheet material, the corrugated sheets have holes made in the protruding part of the corrugations and the distance between the holes is equal to the step of the corrugations, while the protruding parts of the corrugations are installed in the holes of the adjacent sheet with the formation of gaps between the edge of the holes and this part of the corrugations, new is that the package consists of corrugated sheet s made of continuous or perforated sheet material, alternating with corrugated sheets of continuous or perforated sheet material with holes, the holes being made in the protruding parts of the corrugations facing both adjacent corrugated sheets of solid or perforated sheet material.

The proposed set of features according to the first embodiment, namely, the formation of a regular packing package by alternating corrugated sheets made of continuous or perforated sheet material, with corrugated sheets made of solid or perforated sheet material, with holes made in the protruding parts of the corrugations, in which the protruding parts of both adjacent corrugated sheets from solid or perforated are installed with the formation of gaps between the edge of the holes and this part of the corrugations This sheet material allows you to create channels in a zigzag shape, the cross section of which practically does not change over the entire height of the nozzle layer, which reduces resistance and improves the mass transfer characteristics of the nozzle in its entire volume.

This result is also achieved by the fact that according to the second embodiment, in a regular nozzle consisting of a package of corrugated sheets made of continuous or perforated sheet material, the corrugated sheets have holes made in the protruding part of the corrugations and the distance between the holes is equal to the step of the corrugations, while the protruding parts the corrugations are installed in the holes of the adjacent sheet, the new one is that the package consists of corrugated sheets made of solid or perforated sheet material, alternating with corrugated sheets of continuous or perforated sheet material of a rectangular or trapezoidal profile with holes, the holes being made in the protruding corrugations facing both adjacent corrugated sheets of solid or perforated sheet material, and the holes in shape correspond to the profile of the adjacent corrugated sheet, and the end part the corrugation between the holes has a slot.

The inventive combination of features according to the second option, namely the formation of a regular packing package by alternating corrugated sheets made of solid or perforated sheet material, with corrugated sheets made of solid or perforated sheet material, rectangular or trapezoidal with holes corresponding in shape to the profile of the adjacent the sheet and the execution between the holes of the slots, contributes to the creation between adjacent sheets of channels having throughout their height about otherness section that reduces the hydraulic resistance of the nozzle and increases the efficiency of mass transfer processes between a gas and liquid throughout the volume of regular nozzles.

In Fig.1, 2 presents fragments of the nozzle in a perspective view according to the first embodiment.

Figure 3 schematically shows the movement of the gas phase flow in the nozzle channels according to the first embodiment.

Figure 4, 5 presents fragments of the nozzle in a perspective view of the second embodiment.

Figure 6 schematically shows the movement of the gas phase flow in the nozzle channels in the second embodiment.

The regular nozzle according to the first embodiment consists of a package of corrugated sheets made of solid or perforated sheet material. In this case, the package consists of corrugated sheets 1 made of continuous or perforated sheet material, which alternate with corrugated sheets 2 of continuous or perforated sheet material with holes 3 (FIGS. 1, 2). The holes 3 are made in the protruding parts of the corrugations 4 of the corrugated sheet 2, facing both adjacent corrugated sheets G of solid or perforated sheet material. The distance "a" between the centers of the holes 3 is equal to the step of the corrugations of the corrugated sheet 1 (figure 3). In the holes 3 of the corrugated sheet 2, the protruding parts of the corrugations 5 of the adjacent corrugated sheets 1 are installed with the formation of gaps 6 between the edge of the holes 3 and this part of the corrugations 5. The gaps 6 are created due to the different shape, size of the holes 3 and the different profile configuration of the corrugated sheets 1, 2: rectangular (see figure 1), triangular (see figure 2), trapezoidal or wave-like (not shown in Fig), moreover, the profile of the corrugations of the corrugated sheets 1 and 2 can be the same (figure 2), as well as in various combinations for example, as shown in figure 1, the corrugations glass sheets 1 - triangular profile and corrugated sheets 2 - rectangular profile.

Corrugated sheets 1 and 2, laid in a package, form channels 7, in which the main movement of gas and liquid, as well as mass transfer between them (Fig. 3) takes place.

In the second embodiment, the regular nozzle also consists of a package of corrugated sheets made of solid or perforated sheet material. The package also consists, as in the first embodiment, of corrugated sheets 1 made of solid or perforated sheet material, which alternate with corrugated sheets 2 of a rectangular or trapezoidal profile of solid or perforated sheet material, but with holes 8 (see 4, 5). The holes 8 are made in the protruding parts of the corrugations 4 of the corrugated sheet 2, facing both adjacent corrugated sheets 1 of solid or perforated sheet material. The holes 8 in shape correspond to the profile of the corrugated sheet 1. The distance "a" between the centers of the holes 8 is equal to the step of the corrugations of the corrugated sheet 1 (Fig.6). In addition, between the holes 8, the end parts of the corrugations 9 of the corrugated sheet 2 have slots 10 that can be made in the center of the end part 9 (see Fig. 4) or in the form of recesses 11 of the end part 9 along the periphery from the side of the holes 8 (see Fig. .5) In the holes 8 of the corrugated sheet 2, the protruding parts of the corrugations 5 of the adjacent corrugated sheets 1 are installed. According to the second embodiment, the corrugated sheets 1 and 2, stacked in a bag, form channels 12, providing lateral movement of the contacting flows and distribution between the channels through slots 10 or 11 .

Corrugated sheets 1, 2 can also be made of perforated sheet, representing, for example, profiled, or expanded metal, or expanded metal sheet material, or mesh. In this case, the free section of the sheet material is taken depending on the technological requirements for the operating conditions of the nozzle.

Corrugated sheets 1 and 2 for both options in the package are installed vertically, while depending on the materials used corrugated sheets 1 and 2, corrugated sheets 1 and 2 can be installed relative to each other at different angles from 20 ° to 90 °, while corrugated sheets 1 in most cases installed horizontally, and corrugated sheets 2 vertically

The nozzle works as follows.

According to the first option, the gas flow passes from bottom to top through the packet of corrugated sheets 1 and 2 through channels 7, making a zigzag path, thereby reducing the entrainment of the liquid phase together with the gas phase, since with a zigzag motion of the stream, droplet liquid separates from the gas phase on the protrusions formed by the peaks of the protruding part of the corrugations 5 of the corrugated sheets 1 located across the stream.

In the channels 7, the liquid flows downward, encountering obstacles in the form of the peaks of the protruding part of the corrugations 5 of the corrugated sheets 1, due to which the path of the liquid in the channel increases, the degree of turbulization of the liquid flow increases, which leads to an intensification of the heat and mass transfer between the liquid and gas phases in the channels and on the surface of the nozzle. At the same time, part of the liquid and gas flows through the gaps 6, and when corrugated sheets 1 are made of perforated sheet material, is also redistributed between adjacent channels 7 of the regular nozzle through this perforation.

In the second embodiment, the gas flow passes from bottom to top through channels 12 (see Fig. 6), making a zigzag path, which reduces the entrainment of the liquid phase together with the gas phase, since with a zigzag motion of the stream, droplet liquid separates from the gas phase on the protrusions formed by the vertices of the protruding part 5 of the corrugated sheets 1 located across the flow.

In the channels 12, the liquid flows downward, encountering obstacles in the form of the peaks of the protruding part of the corrugations 5 of the corrugated sheets 1, due to which the path of the liquid in the channel increases, the degree of turbulization of the liquid flow increases, which leads to an intensification of the heat and mass transfer between the liquid and gas phases in the channels and on the surface of the nozzle. Moreover, part of the fluid and gas flows through the slots 10 or 11, as well as through perforation in the corrugated sheets, are redistributed between adjacent channels 11 of the regular nozzle.

Claims (2)

1. A regular nozzle consisting of a package of corrugated sheets made of continuous or perforated sheet material, corrugated sheets have holes made in the protruding part of the corrugations, and the distance between the holes is equal to the step of the corrugations, while the protruding parts of the corrugations are installed in the holes of the adjacent sheet to form gaps between the edge of the holes and this part of the corrugations, characterized in that the package consists of corrugated sheets made of solid or perforated sheet material alternating with corrugations corrugated sheets of continuous or perforated sheet material with holes, and the holes are made in the protruding parts of the corrugations facing both adjacent corrugated sheets of solid or perforated sheet material. 2. A regular nozzle for heat and mass transfer apparatus, consisting of a package of corrugated sheets made of continuous or perforated sheet material, corrugated sheets have holes made in the protruding part of the corrugations, and the distance between the holes is equal to the step of the corrugations, while the protruding parts of the corrugations are installed in the holes of the adjacent sheet, characterized in that the package consists of corrugated sheets made of solid or perforated sheet material, alternating with corrugated sheets of continuous o or perforated sheet material of a rectangular or trapezoidal profile with holes, and the holes are made in the protruding parts of the corrugations facing both adjacent corrugated sheets of solid or perforated sheet material, the holes in shape correspond to the profile of the adjacent corrugated sheet, and the end part of the corrugations between the holes has a slot.

Images