SU1009489A1 - Jet tray for mass exchange apparatus - Google Patents

Abstract

1. JET PLATE FOR MASS-EXCHANGE MACHINES, including a canvas with yrosechkam, bumper elements with punched holes in the main gaps, installed above the cooling plate, and transfer devices, which are different in that with the aim of increasing the mass transfer efficiency by reducing the loss of liquid and improving the conditions of the contact of phases in the inter-shell space, the axes of perforations of the fender elements are parallel to the plate of the plate, and in the adjacent openings of the perforation the pro- gram are oriented and opposite. 2. A plate according to claim 1, of which I and a so that each fender element is made in the form of several sections in which the perforations are perforated (The openings are oriented to the opposite sides.

Description

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This invention relates to plate-type contact devices for mass transfer apyarats and may be used in the petroleum refining industry.

The design of a sieve bag with baffle elements made of sheet material with slots is known, with the baffle elements mounted above the container at an angle of 50, and the slits in them are made at an angle to the plane of the baffle and directed downwards Cl 1

The disadvantage of this dish is the low efficiency and insufficient contact of the phases in the inter-tray space.

Also known is a jet tray for mass transfer processes, comprising a web with notches arranged in parallel rows and directed in adjacent rows to opposite sides 3

Such a plate provides better gas and liquid contact on the web of the dish, but poor contact remains in the inter-spaced space; phases, which reduces e4 4) efficiency, especially in the field of increased loads on gas,

The aim of the invention is to increase the efficiency of mass transfer by reducing the entrainment of liquid and improve the conditions of contact of the phases in the melisooped space.

This is achieved by the fact that, in a jetting container & ny, which slips a sheet with notches, baffle elements with holes in the form of cuts and shifting devices, the cuts axis of the baffle elements are parallel to the plane of the plate, and in adjacent bog elements of the notches in opposite directions.

Each breaker element can be made in the form of several sections in which the perforation of the perforation is oriented to opposite sides.

FIG. 1 shows the proposed plate, a long section; in fig. 2, a breaker element in the form of one section in FIG. 3 the same, in the form of two sections.

The plate contains a horizontal blade 1, on which perforations 2 are located. The plate is equipped with irradiating devices 3 and perforated baffling elements 4,

The perforations of the perforation 5 of the baffle elements are positioned so that they are parallel to the plane of the plate, and in the adjacent baffle elements the perforations are oriented in opposite directions. If these conditions are preserved, the engaging element can be made in the form of several longitudinal or transverse sections, in which the perforations of the perforation are oriented in opposite directions.

The plate works as follows.

The liquid comes from the overlying

s plates through the overflow device and moves along the plate to the discharge point on the underlying plate. The vapor, the passage through the slits in the base, disperses the liquid. form a gas-liquid

0 system. The vapor-liquid flow moves in the direction of the drain to the underlying plate, meeting on its way the breaker elements. On the bumper elements. The separation of the vapor-liquid system occurs, as a result of which the liquid enters the next contact zone of the plate and the steam rises to the overlying plate. Due to the pressure axis of the perforations of the perforations of the bogging elements parallel to the plane of the plate in the contact zone, the horizontal component of speed is formed. vapor and provides better separation of the liquid from the vapor. The orientation of the perforation slots in the adjacent fender elements in different directions helps to better utilize the kinetic energy of the vapor flow to intensify the contact of the phases. When performing each of the baffle elements in the form of several sections, in which the perforations of the perforations are oriented in opposite directions, the vapor-liquid flow in the contact zones of the tray is divided into separate flows

5 moving in opposite directions. This leads to the creation of areas in the interbag space where counter-two-phase flows interact, which provides a better intensification of the contact of the phases and the subsequent separation of them in the inter-cavity space where the baffle elements are installed, and a decrease in the entrainment of liquid by the vapor flow to the overlying plate . These features of the proposed dish leads to an increase in the efficiency of mass transfer.

Claims (2)

/ '1. JET PLATE ^ν FOR MASS EXCHANGE APPLIANCES, including a plate with perforations, perforated baffles in the form of perforations, mounted above the plate plate, and overflow devices, characterized in that, in order to increase mass transfer efficiency by reducing fluid entrainment and improving contact conditions of phases in the inter-tray space, the axis of the perforations of the perforation of the baffles: the elements are parallel to the plane of the plate, and in the adjacent baffles of the perforation the opposite sterons are oriented. \ 2. Plate in π. 1, with the fact that each fencing element is made in the form of several sections in which the perforation notches are oriented in opposite directions.