SU1634305A1 - Dust separator - Google Patents

Abstract

The invention relates to the purification of gases, is intended to trap dust particles from the gases that are generated during the production of technological processes in various districts of the national economy, and improves the efficiency of gas purification by creating a polydisperse liquid spray. The dust collector includes a rectangular housing 1, a horizontal shaft 2 on which an irrigator is installed across the gas flow, made of ellipsoidal elements tightly adjacent to each other. The branch pipes and branch pipes of the extreme ellipsoidal elements are connected to the places of the adjoining and lateral surfaces. 3 il. Yo

Description

The invention relates to the purification of gases and is intended to trap dust particles from gases that are generated during the production of technological processes in various sectors of the national economy.

The aim of the invention is to increase the efficiency of the gas cleaning process by creating a polydisperse liquid spray.

FIG. 1 schematically shows the proposed dust collector, longitudinal section; in fig. 2 is a section A-A in FIG. 1; in fig. 3 is a diagram of the mechanism of drop formation from the surface of an ellipsoidal element.

The dust collector contains a rectangular case 1, inside which there is an irrigator consisting of a horizontal shaft 2 located across the gas flow. On it tightly, adjacent to each other, ellipsoidal elements 3 are installed. The connecting points and points of lateral surfaces of the extreme ellipsoidal elements 4 branched fluid supply pipe 5

Dust collector works as follows.

A contaminated gas containing dust particles of different sizes enters the dust trap housing 1. At the same time on the surface of the ellipsoidal elements 3 through the pipeline 5 through the pipes 4 is supplied fluid. Under the action of centrifugal forces, which form when the shaft 2 and the ellipsoid elements mounted on it rotate, the liquid spreads along the curvilinear surface of the elements in a decreasing thickness and moves toward its periphery. As the liquid spreads over the surfaces of the ellipsoidal elements, a simultaneous formation and formation of a polydisperse plume, which is fed to the gas cleaning, occurs at the same time. Drip diagram

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the formation is shown in FIG. 3. In section I, where the thickness of the layer is aa and the smallest cross-sectional diameter is D, large-sized droplets form and as the liquid spreads to sections II and III, the size of the droplets formed decreases and their flight speed increases. As a result of the high relative speed of the droplets and particles, inertial trapping of the last drops of liquid is produced. The purified gas is removed from the dust trap housing.

This combination of components and parts in the dust collector allows you to get across the entire cross section of the dust collector case each ellipsoid element in its gas washing area spray a droplet size distribution spectrum that

optimal for efficient capture of trapped dust particles of a polydisperse distribution structure.

The mechanism of the required drop formation is as follows. At a fixed shape and speed of rotation of the ellipsoid element, the main factors for the formation of droplets are the cross-sectional diameter of the ellipsoid element and the circumferential speed of its rotation, as well as the thickness of the liquid layer at the point where the droplets fall off the surface of the element.

Controlling the rotational speed and changing the shape of the element provides the predominant action of centrifugal forces over the forces of adhesion and adhesion along the entire curvilinear surface of the element than

polydisperse droplet formation is achieved, as well as the required distribution spectrum of droplets in the spray cone. Moreover, the thicker the liquid layer and the smaller the cross-sectional diameter of the element at the point of formation and disruption of droplets, the larger the droplets formed. In addition, droplets of different sizes are reported to have different flight speeds, which increases the degree of coagulation. The proposed dust collector differs from the prototype because it creates the possibility of obtaining a polydisperse spray with an optimal droplet size distribution spectrum and different flight speeds I. Flight. As a result, the efficiency of trapping dust particles of the polydisperse distribution structure increases, which generally increases the efficiency of cleaning dusty gases. This will reduce the emission of suspended particles into the atmosphere and prevent pollution of the environment, as well as significantly reduce the damage caused to the national economy.

Claims (1)

DETAILED DESCRIPTION Dust collector comprising a housing, a horizontal shaft, a rotary irrigator and a branched fluid supply pipeline, characterized in that, in order to increase the efficiency of the gas cleaning process by creating a polydisperse spray of a liquid, the irrigator is made of ellipsoidal elements mounted on the shaft tightly adjacent to each other to friend. SHZHOT LALALL7 Phil. one Liquid Fig.i