SU130293A1 - Electrohydrofilter - Google Patents

Description

Existing filters for cleaning liquids from small insoluble particles have a number of disadvantages that limit their use. Slotted, mesh, paper, felt and other filters allow cleaning the liquid only from relatively large particles. - Magnetic filters cannot remove insoluble particles from diamagnetic materials from a liquid. Centrifugal filters are relatively complex in design and cannot remove relatively large metal particles with malm gross weight from the liquid.

It is well known that electrostatic precipitators are used for dedusting gases. It is also known to use high voltage fields to clean liquids from suspended particles (e.g., oil from suspended water droplets).

The described electrohydrofilter is characterized in that its collecting electrodes are covered with plates of ceramic insulating material. The porosity of the ceramic plates is not uniform in thickness, it decreases towards the electrode. This makes it possible to increase the grain capacity of the electrohydrofilter and expand its scope.

The drawing shows schematically the described electrohydrofilter.

It consists of a metal case I with a cover- 2, mounted on the gasket 3 and bolted. Inside the case are placed electrodes 4, covered with plates 5 of ceramic material and assembled with them in a common package. Insulating lugs 6 are placed between the packages. The electrode packages are separated from the housing 1 by insulating spacers 7. To the insulated electrodes 4 and from the high-voltage circuit, a voltage of positive and negative potential is applied across the conductors 8.

 130293-2 Cleanable dielectric fluid flows from the described electro-hydraulic filter through fitting 9 and out of it through fitting 10.

During operation, insoluble particles, which are in constant friction about the dielectric fluid, have an electric charge, regardless of what material they are made of. When these particles move in a powerful electrostatic filter field, forces arise in them, under the action of which The charged particles will be attracted to the negative electrode, and the negatively charged will be attracted to the positive one. On the way to the electrode, they will meet a porous ceramic plate and enter its pores.

The pores of the ceramic plastics are reduced towards the electrode, as a result of which insoluble particles are strongly wedged in theirs. At the same time, insoluble particles will not touch the electrode, therefore, the electric charge contained in them cannot "neutralize" it. The strength of the electric attraction will continue.

When the electrohydrofilter is switched off, the particles also cannot be released And fall out of the pores of the ceramic plates. Therefore, the plates after a certain time are removed and replaced with clean ones, and the contaminated ones are washed with clean liquid under high pressure on the side adjacent to the electrode.

Subject invention

An electrohydrofilter equipped with collecting electrodes, characterized in that, in order to increase its capacity, the collecting electrodes are covered with plates of ceramic insulating material with a variable thickness porosity, decreasing towards the electrode.

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