DE19817580A1 - Electro-filter for liquid or gas flows - Google Patents

Abstract

The electro-filter has a number of paired electrodes (3,4) in a vertical array, where one electrode (3) is tubular. A ring component structure (6) is round the upper end of the tubular electrode (3), with a ring channel (7) for the flushing liquid and a number of passage drillings leading to the interior of the tubular electrode. A peripheral step (12) round the inner circumference is under the inner openings (11) of the passage drillings, to form the upper end side of the tubular electrode.

Description

The invention relates to an electrostatic filter with a plurality in the we considerably vertically arranged pairs of electrodes, one of which is an elec trode has the shape of a tube, and with the upper ends of the tube devices associated with the electrodes, which are used to supply the inner surface Chen serve the liquid wetting the tubular electrodes. The one on the inside liquid flowing down the wall surfaces of the tube electrodes has the task To take precipitation from the gas to be cleaned and a swamp in the Feed filter housing.

An electrostatic filter of the type mentioned is known from DE-PS 641 194. Of the The content of this document deals with the problem of sufficient benet deposition. The problem of achieving closed, if possible thin wall films, is not mentioned.

In the electrostatic filter according to DE-PS 641 194, the pipe electrodes serve tra the ceiling of the filter housing at the same time as the floor of an overflow space, of the rinsing liquid. The upper ends of the tubular electrodes protrude funnel-shaped extensions into the overflow space. With an elec Trofilter of this type is a safe flushing of all pipe electrodes only then ensures that the top edge of all tube electrodes exactly in one same horizontal plane. If this requirement is not met, it is Uniform supply of the tube electrodes with liquid disrupted. The above Ren faces of the tube electrodes are unevenly from the liquid overflows so that rivulets form instead of closed wall films, leave the large areas of the inner wall surfaces of the tubular electrodes unflushed.  

Only with exact mechanical processing of the upper ends of the pipe electrical system the and with highly accurate assembly and adjustment of the overall structure of the Disadvantages of the type described can be avoided by electrostatic precipitators. The amount of the liquid flowing into the tubular electrodes would be conceivable to increase. A high fluid consumption would be disadvantageous. Besides that would be the formation of closed wall films is not always guaranteed continuous

The present invention has for its object in an electrophotography ter with the features mentioned above, closed wall films at rela tiv low liquid consumption ensure without the described Disadvantages of a complex manufacture and assembly of the electrostatic precipitator To have to buy.

According to the invention, this object is achieved in that the upper end of the tubular electrodes each surrounding ring component a rinsing liquid-containing ring channel is located, which has several holes with the Interior of the associated tube electrode is connected. Thereby, that the washing liquid from a plurality of each in the inner wall surface Tube electrode emerging holes, is a uniform Versor reached their inner wall surfaces with rinsing liquid. As much as possible Drilling ensures the formation of closed wall films.

To keep fluid consumption low, a large number of Holes each of the holes have a relatively small diameter, so that the risk of constipation is high. It is therefore within the scope of the invention particularly expedient to align the holes so that they with of a radial form a relatively large angle. With such, almost tan  The potentially emerging holes receive the liquid in um movement direction directed component, so that even with weni Form wall films closed against holes.

Further advantages and details of the invention will be explained with reference to exemplary embodiments shown in FIGS. 1 and 2.

Show it:

Fig. 1, the upper end of a tubular electrode with a device according to the invention for the supply of the rinsing liquid, partly in section, and

Fig. 2 shows a section through the ring member surrounding the tubular electrode at the level of the holes.

In Fig. 1, the bottom of a filter housing 1 is designated 2 . Only one of the pairs of electrodes (tubular electrode 3 , central wire electrode 4 ) is shown. The tubular electrodes 3 can be suspended from the floor 2 or are supported on a further, below, not shown floor. The tubular electrodes 3 are open at the bottom, so that liquid flowing down their inner wall surfaces into a sump located in the filter housing 1 gelan gene.

The bottom 2 of the filter housing 1 is equipped with openings 5 , the diameter of which corresponds to the outer diameter of the respective upper ends of the tube electrodes 3 . The respective upper end of each tube electrode 3 extends into the opening 5 . Opening 5 and tubular electrode 3 are surrounded by an annular component 6 lying on the bottom 2 , which in turn is equipped with an annular channel 7 . This is connected to at least one feed line for rinsing liquid (connecting piece 8 in Fig. 2).

The ring component 6 is provided with bores 9 ( FIG. 2), which connect the interior of the ring channel 7 to the interior of the ring component 6 or the tubular electrode 3 . The inner mouths of the bores 9 are designated 11 . During the operation of the electrostatic precipitator, rinsing liquid flows out of the openings 11 in the holes 9 and wets the inner wall surface of the tube electrode 3 . The formation of closed wall films can be achieved by a sufficient number of bores 9 .

The embodiment of FIG. 2 shows outer, the ring member 6 through setting holes 12 , with the help of which it is screwed to the bottom 2 of the Filtergehäu ses 1 . It can also be seen that the bores 9 are not aligned radially, but almost tangentially. You form with a Radia len an angle that the expert selects to give the flushing liquid flowing out of the mouths 11 a sufficiently large movement component in the circumferential direction. The angle between a radial and a bore 9 can be, for example, between 45 ° and 85 °. Through these measures, the formation of closed wall films can be ensured even with relatively few holes 9 .

Furthermore, it is advantageous if there is an inwardly directed step 12 below the mouths 11 of the drilling 9 . The liquid must flow over the edge thus formed and contribute to the formation of closed wall films. The step described can be ausgebil det that the mouths 11 of the holes 9 are in the bottom of a umlau fenden, groove-shaped recess. Another possibility is that the stage 12 - as shown - from the upper end of the tube electrode 3 is formed.

Claims (5)

1. electrostatic precipitator with a plurality of substantially vertically arranged pairs of electrodes ( 3 , 4 ), each of which has one ( 3 ) in the form of a tube, and with the respective upper ends of the tube electrodes ( 3 ) to arranged devices that allow the supply of a Internal surfaces of the tube electrodes ( 3 ) are used for rinsing liquid, characterized in that in an annular component ( 6 ) surrounding the upper end of the tube electrodes ( 3 ) there is an annular channel ( 7 ) through which the rinsing fluid flows and which has several bores ( 9 ). is connected to the inner area of the associated tubular electrode ( 3 ). 2. Filter according to claim 1, characterized in that the bores ( 9 ) are aligned almost tangentially. 3. Filter according to claim 1 or 2, characterized in that there is a circumferential step ( 12 ) below half of the inner mouths ( 11 ) of the bores ( 9 ). 4. Filter according to claim 3, characterized in that the inner mouths ( 11 ) of the bores ( 9 ) are in the bottom of a circumferential, groove-shaped recess. 5. Filter according to claim 3, characterized in that the upper Stirnsei te of the tubular electrode ( 3 ) forms the step ( 12 ).