SU1369758A1 - Oil cleaning filter - Google Patents

Abstract

The invention relates to the field of filtration, namely to the structures of alluvial sorption filters, intended for deep desalting and fine water purification from corrosion products. The purpose of the invention is to increase the efficiency of cleaning the liquid by ensuring that the auxiliary filtering substance is applied uniformly to the filter element. The filter includes a housing 1, a supply pipe 2, a pipe 3 for removal of the filtrate and filter elements 4 with a layer of an auxiliary substance that is washed on their outer surface. The filter elements are made in the form of spherical perforated shells, equipped with internal, concentric spherical perforated chambers connected to vertical cylindrical collectors, while the spherical shells are made of finely meshed mesh, and the total perforations of the chamber perforations are smaller than the total perforations of the shell perforations. 1 hp f-ly. 4 il. c (L co 05 co l 00 g fig /

Description

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The invention relates to fil1, transport, namely to the construction of washable sorbion filters designed for deep desalting and fine water purification from corrosion products.

The purpose of the invention is to improve the efficiency of cleaning the liquid by ensuring that the auxiliary filtering substance is evenly applied to the filter element.

FIG. 1 shows the filter, a general view; in fig. filter element filter; in fig. Section A-A in FIG. 1 J in FIG. 4 is a section BB in FIG.

The alluvial feedwater includes a housing 1, a supply pipeline 2, a pipeline 3 for removing the filtrate and filter elements 4, each of which is made in the form of a spherical perforated casing, equipped with an internal spherically perforated spherical chamber 5 connected by a branch pipe 6 with a vertical cylindrical collector 7.

The chambers 5, the nozzles 6 and the collector 7 constitute the collection and distribution system of each section of the filter elements 4 located in the same horizontal plane.

The filter may contain a different number of such sections of filter elements.

A supply manifold 8 is installed in the middle part of the body with beams 9 attached to it, which are made with perforations over the entire surface.

A spherical perforated casing of the filter element 4, made of finely meshed mesh, is fitted with a cover 10 of permeable material on which layer 11 of auxiliary filtering material is laid. The total flow area of the perforation of the chamber 5 is substantially less than the total flow area of the perforations of the shell.

Nozzles 6 in each section of the filter are made of pipes of the same diameter and the same length.

Alluvium filter works as follows.

Ha tweeted pulp, for example, powder of the ion exchanger enters the filter through P () dppdiy pipe 2. As a result of filtering through the covers 10 and fine 1 cellular shells

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A layer 11 of powdered ion exchanger is formed on the outer cover of the cover 10.

The water purified from the powder enters through the perforations of the chambers 5 and the pipes 6 and the collector 7, from where it is removed from the filter through pipe 3.

Subsequently, the initial filtering of the initial I-IJI occurs analogous to the operation of an alluvium. When passing through a layer of, for example, powdered ion exchanger, the source water is freed from suspended, colloidal and dissolved impurities.

The filter is washed from the washed layer by one of the well-known methods, for example, by feeding water # 1 through conduit, oh 3, collectors 7, nozzles 6, chamber 5, casing filter 011, its element 4, covers 10 and draining water | -1 through the pipe 1 located at the bottom of the filter 2. When the layer of powder-like ion-exchanger that was previously washed up, the layer of powder and powder is torn off, washed out and taken out of the filter together with the pressure bottom.

The implementation of each filtering element in the form of a spherical shell of a finely meshed mesh provides for one dimension over each other (dispersion and a ground layer of auxiliary filter media and liquid). More complete utilization of the 11O1 of the upper body (one of the working element. With:) By means of an additional device, 11u | by the device, the rag will be equipped with the filter VOD11 according to section II (-1l of filter element 4 and the same hectare: -n 1m formation of a uniform topgtsine uaNftiBHoro layer.

The implementation of the nozzles 6 of each section of the filter of pipes of odipkovogo diameter and the same length ensures a uniform flow pattern /, the passage 1 of the pulp between the filter elements, i.e. education on k. of them are the same to us

The invention allows to increase the efficiency of cleaning of the hearth at thermal and nuclear power plants, increasing the reliability and eco-efficiency of their operation.

Claims (2)

1. Alluvial fi. p.tr, comprising a housing, filtering 1l: .1eit1.1, made in the form of spherical1: iy. shells. 136 under the pipelines (5nod and filtrate pipelines, which are used for the purpose of improving the effect of cleaning the liquid by reducing the uniform) application to the filter (the element of the ventilation substances, filter elements are provided with concentric 1 gm spaced internal spherical perforated chamber 1-1i, connected eight with a filtrate outlet pipe and placed at a certain distance from the shells, while the total area of the perforations of the chamber is smaller than the area of the perforations of the spherical shell. 2. The filter according to any one of claims, 1, 1 and 2 with the fact that the shells are made of finely meshed mesh. /; FIG. 2 Fig.Z 6-6 fie. t