SU1593709A1 - Apparatus for centrifugal cleaning of gas or liquid - Google Patents

Abstract

The invention relates to devices for dry cleaning of gases from suspended particles, can also be used to separate solid components from the liquid phase. The proposed device will allow for effective separation of solid particles from the medium being cleaned while reducing energy consumption. The contaminated medium enters the housing 1 through the tangential nozzle 2 and is directed to the blades of the impeller 11 of the rotatable outlet nozzle 3. Due to centrifugal force, suspended particles are thrown to the outer walls of the apparatus and transported to the collection through the annular channel between the wall of the lower part of the housing and the screen 9. The rotating partially cleaned flow enters the lower part of the apparatus, where it is additionally twisted by the blades 10. Due to the additional twisting of the flow, additional purification of the medium from suspended particles takes place. Particles separated in the 1st and 2nd purification steps are transported separately to the collector. 1 hp ff, 4 ill.

Description

blades are twisted 10. Due to the additional swirling of the flow, additional purification of the medium from suspended particles occurs. Particles allocated on the 1st and 2nd steps x

cleaning, transported to the collection separately. 1 hp f-ly, L il.

The invention relates to devices for the purification of liquids or gases and can be used in non-ferrous or ferrous metallurgy and the chemical industry. The purpose of the invention is to reduce energy consumption while ensuring effective cleaning.

FIG. 1 shows the device, a general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. 1; in FIG. 4, node I in FIG. one.

The device comprises a housing 1, an inlet 2 and an axial outlet 3 nozzles. The housing consists of an upper cylinder 4 of smaller diameter with a lock chamber 6 fixed on the lid 5 and a larger diameter lower cylinder 7 connected by a conical adapter 8. A coaxial conical adapter 8 and a cylinder 7 in the lower part of the housing 1 have an annular screen 9, forming an annular wall with their walls flow cavity. In the lower part of the outlet pipe 3, the unwinding blades 10 are installed, bent in the direction opposite to the rotation of the flow. In the upper part of the case 1 there is an impeller 11 with blades bent in the direction of rotation of the flow. The airlock chamber is made in the form of a glass 12 with a fitting 13 for supplying a compressed medium and a flange 14 with a seal 15, and in the lower part of the chamber on the lid 5 there is a support bearing 16 of the outlet nozzle 3. An axial outlet nozzle 17 is mounted on the flange attached to the inner surface of the chamber 6 14 at a distance from the upper edge of the outlet 9, forming a gap 18.

The device works as follows.

The flow of the cleaned fluid of the gas enters the body of the device 1 through the tangential inlet 2 and moves along a spiral trajectory in the small cylinder 4, clearing solid particles due to centrifugal forces. At the entrance to the device, the flow of STS, weaves with the blades of the impeller 11 of the outlet nozzle 3, the last one is around its longitudinal axis. At the same time, the curvature of the blades of the turban 11 further allows initiating the movement of solid inclusions of flow in the radial direction. After cleaning the first stage, the flow moves to the final cleaning stage in the large cylinder 7, and the particles separated in the small cylinder enter the annular cavity formed by the housing and the annular screen 9, moving downwards without secondary grips to the outlet.

When a stream of liquid or gas enters the large cylinder 7 vertically, the component of the velocity of the flow due to 0 is increased by increasing the cross section of the device casing. The rotating outlet nipple with its spinning vanes 10 rotates the flow with an angular velocity equal to the angular velocity of rotation of the blades 10, which 5 initiates greater magnitude centrifugal forces acting on the flow than in the small cylinder. Turning the spinning blades in the direction opposite to the vrasen accelerates separation of particles from the flow and migration of the flow in the radial direction. The dropping out of the particles is deposited, and the cleaned stream through the outlet nozzle enters the outlet nozzle 3, In the volume of the lock chamber 6 through the nozzle 5 13 the purified liquid or gas is supplied under excess pressure, entering the slit gap between the nozzle 3 and the outlet nozzle 17, preventing clogging, bearing 16,

0The proposed device is made with

the possibility of promotion of the outlet pipe due to the influence of the flow itself according to the turbine principle. This makes it possible to use the device when cleaning explosive 5 hazardous environments without using electric motors (inevitably giving sparks or potential explosion hazard) and kinematic pairs {gears, sprockets, V-belts), whose performance due to wear in an abrasive environment which reduces the reliability of the entire device in operation. The use of a sluice chamber excludes additional technical solutions for sealing the joint, 45 as well as depressurizing the joint from vibration, which eliminates additional maintenance costs.

Claims (2)

Claim 1. Device for centrifugal cleaning of gas or liquid, comprising a housing consisting of a lower larger diameter and an upper smaller diameter of cylinders connected by a conical adapter, an inlet and an axial outlet, mounted in a lid for rotation, fixed on it in the lower part of the housing, the unwinding blades, characterized in that. that, in order to reduce energy consumption while ensuring effective cleaning of liquid or gas, it is equipped with a turbine installed in the upper part of the housing on the outlet nozzle, the blades of which are bent in the direction of rotation of the flow, and an annular screen installed in the lower part of the housing 0 between it and the shell wall. at the same time, the unwinding blades are bent in the direction opposite to the direction of rotation of the flow. 2. The device according to claim 1. is distinguished by the fact that it is provided with an airlock mounted on the lid with a choke for supplying the compressed medium, an axial branch pipe recessed into its cavity, mounted on an annular flange attached to the inner surface of the chamber from the upper edge of the outlet pipe. 0us.2 bb fi $ .3 Phie.