CS223641B1 - Coalescent liquid filter - Google Patents

Abstract

]d® is a device that solves the problem of removing unwanted impurities from waste liquid substances by penetrating these substances through a filtration medium with the character of a liquid. The penetration of waste substances through the filter media is enabled by expanding the flow profile of the filter body in the direction of flow, thereby achieving zero relative velocity of the filter media relative to the filter.

Description

The invention solves the removal of undesirable impurities from waste liquid substances by filtration, it belongs to the field of water management.

Existing coalescent filters solve separation of undesirable impurities mostly by flowing of contaminated liquid through solid porous environment with sorption effect. This porous environment, which forms a filter charge, has a certain capacity to trap unwanted impurities, and when exhausted, the charge must be replaced or regenerated while the filter is shut down, putting trained operators, machinery and energy consumption at the same time. The effective cross-sectional area of the filter is greatly reduced by the solid phase of the filter cartridge, which becomes clogged during the filter cycle, thereby increasing the pressure drop of the filter and reducing its capacity.

The above-mentioned drawbacks are eliminated by the coalescent liquid filter according to the invention, the size of the largest horizontal projection of the flow area S of the filter body satisfying the relation:

S Q / v, where Q is the flow rate of the filtered liquid and v is the effective velocity of the vertical relative progression of the filter cartridge to the filtered liquid.

By widening the flow profile towards the flow rate and achieving a zero flow rate of the liquid filter cartridge relative to the filter, the filtered liquid passes through the filter cartridge and is filtered. The liquid filter cartridge permits the filtered liquid to penetrate the entire surface area of the filter, thereby reducing the filter surface area while maintaining its flow capacity. The use of filter media does not increase the pressure drop of the filter or reduce its capacity. The filter cartridge can be changed automatically on the basis of hydraulic principles without the need for operator, machinery and energy consumption. If the undesirable admixture of the filtered liquid and the filter cartridge are identical, the filter cartridge is directly supplied by the filtered liquid, eliminating the need for costly obtaining a new cartridge without the possibility of regeneration, as in most cases. The coalescent liquid filter creates suitable conditions for refining and re-utilization of the entrapped impurities of the filtered liquid, which is very desirable and advantageous especially in the field of waste water pollution by oil products.

The accompanying drawing shows an example of an embodiment of a coalescent liquid filter according to the invention with automatic exchange of a liquid filter cartridge having a density lower than the density of the filtered liquid.

Through the inlet 1 the filtered liquid 5 flows into the filter body 4 with the largest flow area S greater than the proportion Q to v, where Q is the flow rate of the liquid 5 and v is the effective velocity of the vertical relative progression of the filter cartridge 3 to the filtered liquid

5. Ingress of the filtered liquid 5 through the filter cartridge 3, filtration, coalescence and trapping of undesirable impurities in the filter cartridge 3 and removal of the filter cartridge 3 through the overflow 6 outside the filter body 4. The spill 7 keeps the flow rate of pure liquid 8 in the outlet 2 lower. equal to the flow rate of the filtered liquid 5 through the filter cartridge 3.

It is advantageous to use a coalescent liquid filter, for example, in the treatment of mine waste water, waste water from the washing of automobile and agricultural technology, in the treatment of drinking water and for other water management purposes.

Claims (1)

Coalescent liquid filter, consisting of a filter body with a filter charge, inflow, overflow and outflow, with a flow rate of less than or equal to the flow rate of the filter charge which lies below and above the outlet level, at a filtering density lower than or at the inlet and below the outlet level, at a density of the filter charge higher than the density of the filtered liquid, characterized in that the filter body (4) has the largest horizontal projection of the flow area S satisfying the relation: wherein Q is the flow rate of the filtered liquid (5) and v is the effective velocity of the vertical relative progression of the filter cartridge (3) to the filtered liquid (5). 1 sheet of drawings