SU305714A1 - Apparatus for depositing aerosol particles - Google Patents

Abstract

DEVICE FOR DEPOSITION OF PARTICLES OF AEROSOL with their condensation coarsening at supersaturation with liquid vapors, comprising a housing with concentrically arranged cooled outer and porous inner tubular elements with nozzles for inlet and outlet and swirlers, characterized in that, in order to expand the limits of regulation of the degree of supersaturation. the elements are made conical and mounted with the possibility of axial movement of one relative to another.

Description

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The invention relates to devices for trapping highly dispersed solid or liquid particles suspended in ha by means of inertial sedimentation as a result of condensation growth when gas is oversaturated with liquid vapor and can be used in the processes of dust removal, gas cleaning, sterilization B-1p1. The limescale apparatus, the deposition of aerosol particles, contains a device with a device for supersaturation with vapor::-кости кости, extracting in the form of a conceptual installed tubing elements: external cooled and internal porous, permeable to steam or under it; fed into the cavity of this element. Spiral swirlers are installed in the working space between the elements for twisting the aerosol flow and centrifugal sedimentation of particles. At the same time, they serve to center the inner element in the cavity of the Hsapy Horo. However, the design of the known apparatus limits the limits and operability of adjusting the degree of over-transmitting; 1 pot-aerosol vapor, which is achieved by maintaining a certain temperature difference on the walls of the hot and cold elements while simultaneously supplying steam to the apparatus's working space. The proposed apparatus differs from the well-known in that it has a concentric mouth} armature: the elements in the cortus are made conical and mounted with the possibility of axial movement of one relative to another. This pacifflipHeT limits the regulation of the degree of overlap in pairs without changing the established temperature difference on the walls of the elements by changing the gap between them when axially shifting the inner element. The drawing shows the design of the described apparatus. The device consists of one or several pairs of concentrically mounted elements made in the form of truncated ones. cone-mounted vertically with large bases The outer elements 1 have a common cooling jacket 2 with nozzles 3 for entering and leaving coolant, and the internal elements 4 are made porous and serve to supply steam to the working space of the apparatus. For this, the cavity of each inner element is connected to the inlet and outlet manifolds for steam or by; 1 Winding liquid evaporation by flexible hoses 5. Screw swirlers 6 are attached to the base of the inner element of each pair at the inlet and outlet of the aerosol from the working space the inner element #HT is centered in the cavity of the outer one and hangs in it in such a way that the base of the swirler located in the upper part of the apparatus rests on the end of the outer element, in order to prevent spontaneous arbitrary rotation of the inner element under the action of an upward flow of aerosol 5; the upper dependencies are provided with a guide lanyan 7 resting on the fixer 8. The apparatus operates as follows. Steam or hot liquid is supplied to the internal fy of the porous element, which evaporates from its surface into the working space of the apparatus bounded externally by the walls of the external element 1 cooled by the fluid circulating in the jacket. The gas flow with particles suspended in it is fed into the apparatus from the bottom up, twists at the entrance and, rotating in the annular gap between the different-temperature walls of the elements, is uniformly surpassed by pairs along its entire path of movement in the working chamber. Under the action of an upward gas flow, the inner conical element is lifted from the seat, .1p del to escape the gas from the working chamber, and moves in the cavity of the outer element in the axial HanpaBJTeHHn, thereby changing the gap between the tubular elements and the volume of the working space, P) in the flow, particles pb of their condensation growth continuously fall on the walls of the apparatus under the action of centrifugal forces developing with rotation, which continuously draw into the process end 3057144

The less active growth is less active. The greater the flow rate of the particulate. The drop-off forces, thrown on the internal ash and, correspondingly, on the center wall of the cooled element, when it is twisted, which forms the condensation tuna, the greater the gap is set to coalesce into a film of sidness, which is 5 conical elements. Thus, the torus, the stack along the walls, carries away the collection, the degree of trapped particles created in itself in the lower overpowering apparatus is regulated by a part of the apparatus.

Claims (1)

APPARATUS FOR DEPOSITION OF AEROSOL PARTICLES with their condensation enlargement upon supersaturation of liquid vapors, including a housing with concentrically arranged cooled external and porous internal tubular elements with inlet and outlet nozzles and swirls, characterized in that, in order to expand the regulation of the degree of supersaturation, the elements are conical and mounted with the possibility of axial movement of one relative to the other. ί 305714 2