DE19841973A1 - Electro-filter separator filter for purifying aerosol gases has atomizer electrode with multiple points positioned beneath stainless steel demister filter - Google Patents

Abstract

The atomic electrode (10) has a number of points (10') and is positioned below a separation filter (11) of stainless steel perpendicular to the natural gas flow which is ionized before passing through the separator.

Description

The invention relates to a spray electrodes and an electric filter stage formed by a precipitation electrode (Electric separator), especially for separating aerosols should. The parts charged in the electric field exerted force used for their separation.

In known filter stages of this type, spray and low are used Impact electrodes parallel to their surface, that is to say same, through which the raw gas flows.

For example, for filtering industrial exhaust gases Common plate-type electrostatic precipitators Never plate-shaped the impact electrodes at a distance above or next to each other other in the space between two plates of spray electrodes Installed.

In this respect, such a construction has a certain inadequacy ness than behaves in relation to the efficiency reasonably large construction volume of the separator results.

The invention has for its object an electrical filter to create a level with optimal efficiency Minimum construction volume and effort required and as an assembly with additional, arbitrarily designed filtering Stages can be combined.

This object is according to the invention with the characteristic note paint the claims 1 and 4 solved.

Further developments and expedient refinements of the invention are characterized in claims 2, 3, 5 and 6.

The invention will he in the following with reference to the drawing purifies.  

Show it:

Fig. 1 is an example embodiment of the electric filter stage, schematically,

Fig. 2 is one of a electrostatic precipitator stage and two of these in terms of flow upstream, non-electrically acting filtered Stu fen existing filter means for divorced from aerosols (oil mist and the like.)

Fig. 3 shows a variant embodiment of a separation device according to the Combined FIG. 2.

The electric filter stage illustrated by FIG. 1 consists of a unit of spray electrodes 10 , 10 'and egg ner, which is adapted to the prevailing conditions in terms of number and shape, and egg ner arranged at a suitable distance (for example between 30 and 350 mm) above precipitation electrode 11 , which is preferably designed as a stainless steel demister or demister package. The elevations 10 'of the spray electrodes 10 directed towards the underside of the precipitation electrode 11 are thorn-shaped or similar and are provided at a suitable distance from one another.

The precipitation electrode 11 is at least substantially perpendicular to the flow direction (see arrows) of the z. B. from lubricant mist to be cleaned raw gas (air) so that it is fully flowed through by the raw gas, and only when the raw gas stream has passed the spray electrodes 10 , 10 'and has been subjected to an ionization process.

The spray electrodes 10 , 10 'and the precipitation electrode 11 are housed in a front closable housing 12 , the precipitation electrode 11 being at least in the inside of the two housing side walls 13 , 14 , guide rails 15 , 16 brought z. B. is kept removable for cleaning purposes and the spray electrodes 10 , 10 'are attached to the housing walls electrically insulated.

Stainless steel is also suitable as the material for the spray electrodes 10 , 10 '. As a material for the spray electrodes and for the precipitation electrode, other, if necessary also more cost-effective metallic materials, e.g. B., egg sen- or steel wire can be used.

The separated solid and liquid substances (aerosols) ge reach into a receptacle, not shown, with an outlet connection is provided.

Two combined separation device for aerosols from gases in FIG. 2 includes the electric filter circuit 10, 10 ', 11 upstream space and fluidly filtered deposition steps 17, 18 in the form of mechanical wire mesh cassettes (agglomerators) for the oil or emulsion separation. The filtering stage 17 has a disc shape, whereas the filter stage 18 is hollow-cylindrical.

The two pre-separation stages 17 and 18 have the effect that only the finest liquid and (non-air) substances are applied to the electric filter stage. The pollution of the electrical filter stage is therefore greatly reduced, with the long service life of this filter being achieved. Depending on the need, only one filtering stage can be connected upstream of the electric filter stage or an additional filter stage can be used.

The separated liquid and solid substances (oils etc.) ge long on an inside the housing 19 attached inclined surface 20 to which an outlet port 21 is connected. In order to be able to dissipate creeping oil, larger oil droplets, etc. that settle in the inflow region 22 of the gas or the aerosol-containing air, ei ne further inclined surface 23 with outlet connection piece 24 can be seen in this area.

The filtration device of Fig. 2 is composed of three assemblies 25, 26 and 27 assembled, which are united by means of flanges 25 'and 26' together.

In the device according to Fig. 3 of the electric filter circuit 10, 10 ', 11 two above or upstream of juxtaposed filtering stages, which each consist of two inclined to successively arranged wire mesh cassettes (agglomerators) 28, 28' and 29, 29 ' consist. As in the case of FIG. 2, various combinations of electrical filter stages and agglomerators can also be implemented here.

The settling in the inflow region of the raw gas into the housing 30 from z. B. from oil etc. arrive at an inclined surface 31 and can emerge from the housing via a nozzle 32 .

This separation device is also formed from three assemblies 33 , 34 and 35 , which are connected to one another by means of flanges 33 'and 34 ' (assemblies 25 and 33 are identical).

The design of the filter stage or the combined separator furnishing depends on the respective condition the media to be filtered as well as the chemical and physi calic boundary conditions. The operating voltage is about Range between 20 and 50 KV. The voltage connections of the Spray electrodes are in the figures shown schematically not included.

It is also possible in principle, the electric filter stage to arrange in the flow direction of the raw gas in front of a filter unit 17 and / or 18 and 28/28 'and / or 29, 29'.

The precipitation electrode 11 consisting of filtering material can also be cleaned in its installed position or operative position.

Claims (7)

1. From spray electrodes and a precipitation electrode formed electric filter stage for separating ent contained in raw gases aerosols, characterized in that the Nie derschlagselektrode ( 11 ) the spray electrodes ( 10 , 10 ') in the direction of flow of the aerosol-laden gas back and forth to the raw gas -Flow direction is arranged and consists of filtering material. 2. Electric filter stage according to claim 1, characterized in that the precipitation electrode ( 11 ) is ausgebil det as a demister. 3. Electric filter stage according to claim 1 or 2, characterized in that the precipitation electrode ( 11 ) consists of stainless steel. 4. Electric filter stage according to one of the preceding claims, characterized in that it is housed in a front lockable housing ( 12 ), on the in nenwandung guides ( 15 , 16 ) for the up and removal of the precipitation electrode ( 11 ) attached are. 5. Electric filter stage according to one of the preceding claims, characterized in that it is arranged at least one filtering pre-separation stage ( 17 , 18 , 28 , 28 ', 29 , 29 ') downstream or upstream in the direction of flow of the gas to be filtered. 6. Electric filter stage according to claim 5, characterized in that the pre-separation stages each by wire mesh are embodied.   7. Electric filter stage according to claims 1 to 4, characterized in that it is formed as an assembly ( 25 , 33 ) and can be combined with similar assemblies and / or with non-electrically acting filtering assemblies ( 26 , 34 ).