SU1301430A1 - Vortex heat-mass exchange apparatus - Google Patents

Abstract

The invention relates to the chemical and related industries of the industry and can be used in the processes of absorption and rectification, as well as in wet dust removal and will allow to simplify the design and increase the efficiency of mass exchange. In the vortex heat and mass transfer apparatus, including a cylindrical body 1, in which the helical elements contain contact elements in the form of overflow ducts consisting of vertical sections made in the form of plates 2 with droplet separators 3, and wedge-shaped sections 4 installed at an angle to the axis of the device The drift eliminators communicate with the wedge-shaped portions that are provided with visors 5 fixed to the upper surface and directed against the gas stroke. The visor of the contact element forms with the upper surface of the previous element a cavity 6 for collecting and draining a film of liquid. On the bottom surface of the wedge-shaped areas of the contact elements are liquid distributors. 4 il. Rig.Z (About with oo

Description

The invention relates to the chemical and related industries of the industry and can be used in absorption and rectification processes, as well as in wet scrubbing.

The aim of the invention is to simplify the design and increase the efficiency of mass transfer.

FIG. 1 shows a frontal contact element; in fig. 2 - the same, side view; in fig. 3 - layout of contact elements in the housing of the apparatus, in isometry; in fig. 4 shows section A-A in FIG. 3

The apparatus consists of a cylindrical body 1, in which the helical elements contain contact elements in the form of overflow ducts consisting of vertical sections made in the form of plates 2 with drift catchers 3, and wedge-shaped sections 4 installed at an angle to the axis of the apparatus. The drift catchers communicate with wedge-shaped sections that are provided with visors 5 fixed to the upper surface and directed against the gas stroke. The visor of the contact element forms with the upper surface of the previous element a cavity 6 for collecting and draining a film of liquid. On the bottom surface of the wedge-shaped areas of the contact elements are located the liquid distributors 7, which can be made in the form of slots, cuts, holes or gaps. The contact elements are provided with sleeves 8, by means of which they are fixed on a common axis 9. There is a gap 10 between the sleeve and the wedge-shaped section. Droplet separators can be made tapering upwards as the amount of separated and flowing into the wedge-shaped section of the liquid increases from top to bottom. The wedge-shaped section can be located either as a node with an angle to the horizontal plane in accordance with the helix pitch, or horizontally. But at the same time, the inclination a to the axis of the apparatus is retained.

The device works as follows.

The liquid is supplied to the upper contact elements, flows out through the distributors 7 on the bottom wall of the wedge-shaped sections 4 and is dispersed by a high-speed swirling gas flow moving along a screw channel formed by the elements. The droplets in the swirling gas flow are acted upon by centrifugal forces, pressing them against the wall of the apparatus, where the droplets fall into the Droplet separators 3 and flow into the wedge-shaped sections of the contact elements. From the wedge-shaped sections 4, the liquid flows through the distributors 7 into the gas stream and is again dispersed, but already below the original place. This is achieved by selecting the velocity of the gas and the location of the outflow and separation points, which provide the angular trajectory of the flight of droplets from the discharge point to the separation point, not exceeding

0

five

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five

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five

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360 °. Thus, with direct flow interaction of the gas with the liquid within a single turn of the screw channel as a whole, the apparatus carries out a countercurrent.

The fluid, hitting the screw surface formed by the wedge-shaped sections, is transported through it to the cavities 6 under the visors 5. In these cavities, the film loses speed and flows down to the center of the apparatus, where it flows through the gap 10 at the central sleeve 8 to the next turn.

The implementation of the vertical section of the contact element of the vortex apparatus in the form of a plate with drop catchers simplifies the design due to the absence of a cavity for collecting the separated liquid in the form of a closed box with perforations on the front wall. Plates of adjacent elements are overlapped along the gas and from top to bottom. This eliminates the ingress of liquid onto the wall of the cylindrical body 1: 1 and its flow downwards without contact with gas, which increases the efficiency of mass transfer.,

The visor on the upper surface of the wedge-shaped section of the element, directed against the gas stroke, forms with the wedge-shaped section of the previous element a cavity into which a film of liquid falls, transported by a high-speed gas flow through the wedge-shaped sections of elements. The film of liquid is collected in the cavity and walls to the center of the apparatus, where it is dispersed. Thus, the visors, forming a cavity for collecting a film of liquid, exclude its discharge along the helical surface onto the overlying turns. This increases the efficiency of mass transfer.

The location of the distributors on the lower surface of the wedge-shaped area allows an increase in the efficiency of mass exchange due to the uniform distribution of the dispersed liquid throughout the volume of the screw channel. The uniformity is achieved by the fact that the distributors on the lower surface allow the liquid to be supplied to the gas flow not only in the center, but also shifted in the radial direction. And the absence of a central glass - a liquid distributor simplifies the design of the contact element.

Claims (1)

Invention Formula Vortex heat and mass transfer apparatus, including a cylindrical body with contact elements located in it along a helical line in the form of overflow ducts consisting of vertical sections parallel to the wall of the device and wedge-shaped sections installed at an angle to the axis of the device, with fluid distributors differing from that, with a view simplify the design and increase the efficiency of mass transfer, the vertical sections are made in the form of plates with drop-driers connected to the wedge-shaped sections, and the wedge-shaped sections are provided with visors mounted on the upper surface and directed against the gas stroke and the liquid distributors on the bottom surface, with the plates of adjacent elements being overlapped along the gas and from top to bottom, and the visors form with the previous elements cavities for collecting and draining the film of liquid. at ie.1 {Rig.2 5 6 % F Editor A. Petrov Order 925/6 Compiled by A. Sondor Tehred I. Veres Corrector A. Ilyin Circulation 657 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Design. four Rig.