SU1130361A1 - Jet-directed contact tray for mass-exchange apparatus - Google Patents

Abstract

STRUCTURED CONTACT PLATE FOR MASS-EXCHANGE MACHINES, containing a horizontal canvas. that, in order to increase gas phase productivity by reducing liquid entrainment, every two adjacent visors are connected in such a way that their intersection line forms an acute angle with the plane of the web, the top of which is correct for fluid flow; the upper part of the canopies is bent in the direction of the web and against the flow of the liquid, and the lower part of the canopies is bent in the direction of the flow of the liquid along the plate. ////// Figure 1

Description

The invention relates to heat and mass transfer apparatus, used primarily in the chemical, petrochemical and related industries.

A known straightened contact plate for mass exchangers. The contact plate is made in the form of a horizontal blade with notched elements, includes longitudinal partitions, made with windows with canopies, inclined towards the canvas towards each other in the direction opposite to the movement of the liquid, receiving pocket, drain device 1.

It is known that, as a result of a change in the direction and velocity of the gas-liquid flow, when it interacts with the visors of the partitions, turbulization occurs and additional dispersion of the liquid phase occurs. This process, as well as intensive cross-mixing and an increase in the path of the liquid along the length of the plate leads to an increase in the efficiency of mass transfer. At high loads on the gas (vapor) phase and relatively small liquid loads, the gas-liquid flow, which is liquid droplets dispersed by the gas, takes direction at a large angle to the tray web. In this case, part of the liquid droplets does not interact with the visors and is carried away to the upstream plate. A portion of the liquid droplets, which fall into the gap between each two adjacent visors through one along their length, directed towards each other, is also carried to the upstream plate.

The liquid entrainment by gas flow sharply limits the gas phase performance of the tray at low liquid loads.

The purpose of the invention is to increase gas phase productivity by reducing liquid entrainment.

The goal is achieved by the fact that in a directional contact plate for mass transfer devices every two adjacent visors are connected in such a way that their intersection line forms an acute angle with the plane of the web, the top of which is directed along the flow of the liquid, the upper part of the peaks is bent in the direction of the canvas and against the flow of the liquid , and the lower part of the visors is bent in the direction of the flow of liquid across the plate.

FIG. 1 shows a directional contact plate for mass-transfer apparatus; in fig. 2 shows section A-A in FIG. one; in fig. 3 - axonometrically depicted the junction of two two adjacent adjacent visors.

The directional contact plate contains a canvas 1c with slotted elements 2 and overflow devices 3. Above the canvas are placed longitudinal perforated Hbie partitions 4. In each partition 4, windows 5 are equipped with peaks 6 in a certain step along its length.

The peaks 6 of each two adjacent partitions 4 are inclined to the web 1 along the length opposite to the flow of the fluid and interconnected, with the intersection line forming an acute angle with the plane of the web 1, the top of which is directed along the flow of the fluid. The upper part of the peaks 6 is bent in the direction of the movement of the liquid, and the lower part of the peaks 6 is bent in the direction of the movement of the liquid along the plate.

5 The jetted contact plate for the mass-exchange apparatus operates as follows.

The gas streams entering the web 1 through the perforated elements 2 disperse the liquid that flows from the overflow device 3. The gas-liquid mixture formed, which is liquid droplets distributed in the gas stream, is partitioned by means of longitudinal perforated partitions 4.

5 As a result of the interaction of the gas-liquid flow with the peaks 6, most of the liquid passes into the film moving along them. On the lateral edges and the lower bent part of the peaks 6, the liquid film is again crushed by a gas flow passing through the bored windows of the gap between the lower bent edge of the peaks 6 and the web 1. The resulting gas-liquid mixture hits the following interconnected peaks 6. Thus, an increase in the contact surface of the phases is achieved due to the repeated combination of jet-droplet and film modes of phase interaction.

The bend of the upper and lower parts of the visors 6 reduces the free cross section for

0 movement of the gas-liquid flow in the vertical direction, which contributes to the reduction of liquid entrainment. The inclination of the visors 6 toward the web 1 in the direction opposite to the movement of the liquid on the plate, as well as bending the upper part of the visors 6 towards the web 1 and against the movement of the liquid, promotes that the gas-liquid flow is pressed against the web 1, thereby reducing entrainment. The same purpose is served by the fact that the line of intersection of two adjacent adjacent visors 6 through one along their length forms with the plane of the web 1 an acute angle, the top of which is directed along the flow of the liquid. The absence of a gap between every two adjacent partitions 4 when crossing them leads to the fact that

5 that almost the entire gas-liquid flow interacts with the visors 6 in the horizontal direction, there is no leakage of a part of the gas-liquid flow between each two adjacent visors 6, which reduces the entrainment of fluid to the upstream plate.

After the interaction of the phases, they are separated: the liquid flows into the overflow device 3, and the gas enters the upstream plate.

Example. A prototype of a directional contact plate was made in the laboratory. The area of the free section of the web is 12.6%, the width of the channel between the partitions is 150 mm, the height of the partitions is 100 mm, the gap between the lower edge of the partitions and the web is 25 mm, the bending angle of the visors in the horizontal plane is 25 °, the vertical plane (the angle between the plane of the web and the visor, anti-fluid movement)

75 °, the upper and lower parts of the visors are bent parallel to the canvas of the plate.

The proposed design of a directional contact plate for mass exchangers allows to increase the gas phase performance compared to the known one by reducing the entrainment of liquid due to the fact that there is no gap between every two adjacent walls. every two adjacent partitions form an angle with the plane of the web, the top of which is directed along the flow of the liquid, the upper part of the canopies is bent in the direction lenii to the web and against the fluid motion and the lower part of the visor is folded in the direction of movement of the liquid across the tray.

BUT

Claims (1)

STRIP-DIRECTED CONTACT PLATE FOR MASS-EXCHANGE APPLIANCES, containing a horizontal web with perforated elements, longitudinal partitions made with windows with visors tilted to the web one side to the other, opposite to the fluid movement, characterized in that, in order to increase productivity in the gas phase by reducing fluid entrainment, every two adjacent visors are connected in such a way that the line of their intersection forms an acute angle with the plane of the canvas, the apex of which is directed along reading fluid; the upper part of the visors is bent towards the canvas and against the flow of liquid, and the lower part of the visors is bent in the direction of flow of the liquid on the plate. FIG. 1