RU2156642C1 - Self-regenerated filter for fine gas dedusting - Google Patents

Abstract

FIELD: gas cleaning. SUBSTANCE: filter constitutes a box-shaped apparatus provided with plate-type filter elements of porous material and is distinguished by accommodating shaft with a set of impellers rotating between filter elements. The latter widens application area for filters with linked structure (ceramics, metal-ceramics, metallic filter gauzes). EFFECT: simplified regeneration of filter elements. 2 dwg

Description

 The invention relates to filters for cleaning gases from dust and can be used in enterprises for the production of building materials, food and chemical industries, ferrous and non-ferrous metallurgy, in traditional and nuclear power systems.

 The closest in technical essence and the achieved result to the claimed solution is a filter, which is a box-shaped apparatus, equipped with plate-type filter elements made of porous material, and containing a housing with a supply manifold and a discharge pipe, cleaned and contaminated gas chambers, trapped dust bin, filter elements (Belov S.V. Porous metals in mechanical engineering. - M.: Mechanical Engineering, 1981, 248 p.). The disadvantage of the prototype is the lack of a regeneration system of filter elements.

 The technical task is to increase the efficiency of the filter and its performance, expand the boundaries of the use of filters with porous partitions with a related structure (ceramics, cermets, metal filter grids) according to the input concentration, simplify the regeneration of filter elements, reduce the flow of regenerated gas.

 The technical problem is achieved by the fact that a shaft with an impeller, the blades of which rotate between sections of the filter elements, is placed in the body of a self-regenerating filter for fine cleaning of gases from dust.

 The drawing schematically shows a self-regenerating filter for fine cleaning of gases from dust (A - front view, B - side view).

 A self-regenerating filter for fine dust cleaning of gases contains a housing 1 with a supply manifold 2 and a discharge pipe 3, chambers 4 and 5 of cleaned and contaminated gas, a dust trap 6, plate-type filter elements 7. A shaft 8 with an impeller 9 is placed in the filter housing. The dust collector shaft is double-bearing, connected by a rigid coupling to an electric motor (not shown in the drawing).

 The work of the self-regenerating filter for fine cleaning of gases from dust is as follows.

 Dusty gas is supplied to the filter housing through a manifold that evenly distributes the flow to each filter element. The impeller blades 9 rotate between sections of the filter elements. When the shaft with the impeller rotates inside the housing, the largest dust particles inertia move to the walls of the housing and pour into the hopper. The rotation of the shaft creates a sufficiently large dynamic force close to the filtering surface of the elements. In this case, the upper layers of dust sediment on the filter element are destroyed - regeneration occurs. Regeneration can be constant (by varying the shaft rotation speed, the thickness of the dust layer on the elements can be controlled, and as a result, the filter efficiency (or periodic) to achieve a certain pressure drop. Thus, the aerodynamic mode of operation allows the filtering process to be carried out with an adjustable pressure drop on the filter element To remove dust that has settled in the pores of the filter element, a well-known system for the regeneration of air-pulse reverse blowing is provided (not shown in the drawing). cauldron).

 Compared with the prototype, the proposed technical solution of a self-regenerating filter for fine dust gas cleaning allows to increase the input dust concentration, increase the overall productivity of the installation, simplify the regeneration process, reduce the flow of gas supplied to the regeneration of filter elements, and increase the filtering efficiency.

Claims (1)

 A self-regenerating filter for fine cleaning of gases from dust, comprising a housing with an inlet manifold and an outlet pipe, contaminated and purified gas chambers, a dust trap, plate-type filter elements made of porous materials with an associated structure, characterized in that a shaft with an impeller is placed in the filter case whose blades rotate between sections of filter elements.