SU1535655A1 - Method of centrifugal classification of powders - Google Patents

Abstract

The invention relates to the centrifugal classification of powders and can be used in the production of building materials, chemical technology, heat and power, and other fields. The purpose of the invention is to increase the efficiency of classification, which tend to agglomerate powders. The classifying gas flow moves through the axial swirling vanes 8, where it twists and continues vortex movement to the loading nozzle 4 between the lids 2 and 3 of the housing 1. Initial material for classification is distributed into several streams before being fed into the swirling gas flow, for which it is loaded into the funnel 9 and the chutes are poured into chambers 11, where at the same time secondary air is fed through nozzles 12, which accelerates the material in the acceleration tubes 16. The acceleration is carried out in the direction perpendicular to the swirling flow aza, and impact braking is carried out therein. The accelerating agglomerates hit the fender plates 17, are destroyed and are immediately subjected to centrifugal countercurrent classification. The coarse fractions are withdrawn from the periphery of the swirling flow through the annular chute 5 and the pipe 6, and the small ones are sucked off together with the gas from the axial zone of the swirled flow through the discharge pipe 4. 1 Il.

Description

The invention relates to methods for the separation of prone to agglomeration of polydispersed powders into fractions, and in particular to methods of centrifugal classification, and can be used in the production of building materials, chemical technology, power engineering and other industries.

The purpose of the invention is to increase the efficiency of centrifugal classification prone to agglomeration of powders.

In the drawing, a central 10 classifier, a longitudinal section is schematically shown.

The centrifugal classifier contains a cylindrical housing 1 with upper 2 and lower 3 horizontal covers. An unloading nozzle 4 is connected to the bottom cover 3 along the classifier axis, and an annular estrus 5 is connected along the periphery, connected with the nozzle 6 of the discharge of the rough classification product. In the upper part of the housing and peripherals, there is an annular device 7 for suction of classified gas 20 containing axial twisting blades 8. Above the upper roof 2, a load funnel 9 is installed along the axis of the classifier, connected by chutes 10 uniformly placed around the circumference with chambers 11, to which ²⁵ nozzles 12 connected by pipelines 13 to a secondary gas collector 14 having a nozzle 15 are connected. Chambers 1 1 in the lower part contain booster pipes 16 passing through the upper cover 2 into the classifier. Under the slices of the booster tubes 16, inclined baffle plates 17 are mounted on the lower cover 3 with the help of rods 18.

The method is carried out as follows30 m

The classifying gas is sucked in through the annular device 7, twisted in axial twisting blades 8 and introduced into the centrifugal countercurrent classification zone formed by the housing ⁴⁰ som 1, the top cover 2 and the bottom cover 3. The source material is loaded into the feed funnel 9 and poured into the chutes 10 in the chambers 11, where at the same time through the secondary gas pipe 15, the collector 14 and pipelines 13 high-pressure secondary gas is supplied, which is accelerated by nozzles 12, captures the starting material that is poured into the chambers 1 1 and onyaet accelerating it into the tubes' 6. Agglomerated particles of the starting material escaping from the accelerating tubes hit the baffle plates 17 placed on the rods 18 so that the reflected particle flow is, on average, oriented along the streamlines of the swirling classification gas. In practice, the installation of plates at an angle of 45 ° to both the axis and the radius of the classifier meets this condition. Particles of agglomerates destroyed as a result of impact are separated in a centrifugal-countercurrent separation zone, and large particles under the influence of the prevailing centrifugal forces move to the periphery, settle on the housing 1, are poured down and discharged through an annular groove 5 through the pipe 6 of the removal of the rough product, and small particles under the action The prevailing forces of entrainment by the gas flow move to the axial zone of the swirling flow, where they are sucked out together with it through the discharge pipe 4.

Thus, the method of centrifugal classification of powders allows to increase the classification efficiency when fractioning materials prone to agglomeration of particles, mainly finely dispersed ones, by impact destruction of agglomerates directly in the centrifugal countercurrent classification zone.

Claims (1)

Claim The method of centrifugal classification of powders, including the supply of the source material in a swirling gas flow, sedimentation and removal of large fractions from the periphery of the swirling flow and suction of fine fractions from the axial zone of the swirling flow, characterized in that, in order to increase the efficiency of the classification of powders prone to agglomeration, additionally serves streams of secondary gas, the source material is distributed into several streams before being fed into the swirling gas stream, and each of them is reported to be dispersed in streams of secondary gas into nap ION, a twisted perpendicular to the gas flow, and impact deceleration is performed therein.