RU2359735C1 - Cartridge-type filter - Google Patents

Abstract

FIELD: production processes, filters.

SUBSTANCE: invention refers to alcoholic drinks production; namely, to cartridge-type filter structure for alcohol-water mixture processing - mixture of specially prepared water and ethyl nutrimental alcohol - and vodka. Cartridge-type filter contains outer cylinder course with radial channels of liquid input, coaxially installed inner cylinder course with radial channels of liquid output and sorption-filtering material located between outer and inner courses. The latter are hermetically connected by end covers with central holes connected with output channels. Sorption-filtering material contains layer of grainy silver-containing carbon and additional layer of fibre sorption-filtering material located first to liquid streamwise. Note that fibre and grainy material layers height ratio amounts from 1:20 to 1:2. Radial channels of liquid input are located in the zone of one end face of corresponding course, and radial channels of liquid output are arranged in the zone opposite end face of corresponding course.

EFFECT: general reduction of filter resistance, improvement of vodka purification quality.

1 tbl, 1 dwg

Description

The invention relates to the production of alcoholic beverages, and more particularly to the design of a cartridge filter for processing vodka sorting - a mixture of specially prepared water and ethyl alcohol and vodka.

A known cartridge filter design comprising an outer cylindrical shell with radial fluid inlet channels, a coaxially mounted inner cylindrical shell with radial fluid outlet channels, located between the outer and inner shells, hermetically connected end caps with central openings in communication with the outlet channels, sorption-filtering material comprising a layer of granular silver-containing coal. RU 2222586 Cl, C12G 3/08, 01/27/2004, LLC NPP Tekhnofiltr.

The disadvantages of this filter are the uneven processing of sortings and vodka due to the disorganized flow movement through the sorption-filtering material, its rapid mechanical wear and high hydraulic resistance of the filter.

The objective of the invention is the creation of a cartridge filter that improves the quality of the processing of vodka, reducing resistance and increasing the service life of the filter.

The problem is solved and the technical result is achieved due to the fact that in a cartridge filter containing an outer cylindrical shell with radial channels of fluid inlet, a coaxially mounted inner cylindrical shell with radial channels of fluid outlet located between the outer and inner shells, hermetically connected end caps with central the holes in communication with the exit channels, sorption-filtering material, including a layer of granular silver-containing coal, are new is that the sorption-filtering material further comprises a layer of fibrous sorption-filtering material, which is used non-woven carbon material located first along the liquid flow, and the ratio of the height of the layers of fibrous and granular materials is from 1:20 to 1: 2, wherein the radial fluid inlet channels are located in the area of one end of the corresponding shell, and the radial fluid inlet channels are located in the area of the opposite end of the corresponding shell.

The drawing shows a section of a cartridge filter.

The table shows the comparative indicators obtained when processing vodka on cartridge filters without a layer of fiber sorption-filtering material and with a layer of fiber sorption-filtering material of different heights.

The cartridge filter contains an outer cylindrical shell 1 with radial channels 2 of fluid inlet, a coaxially installed inner cylindrical shell 3 with radial channels 4 of fluid outlet, located between the outer and inner shells 1 and 3, hermetically connected by end caps 7 with central holes 8 in communication with the channels 4 outputs, sorption-filtering material, including a layer 5 of granular silver-containing coal, while the sorption-filtering material further comprises a layer 6 of fibrous sorption-filtering material, which is used as a non-woven carbon material, located first along the liquid flow, the ratio of the height of the layer 6 of fibrous and layer 5 of granular materials is from 1:20 to 1: 2, while the radial channels 2 of the fluid inlet are in the zone of one end of the corresponding shell 1, and the radial channels 4 of the fluid outlet are located in the zone of the opposite end of the corresponding shell 3.

The cartridge filter operates as follows.

The fluid flow through the radial channels 2 of the fluid inlet located in the lower zone of the end face of the shell 1 enters the lower layer 6 of the fibrous sorption-filtering material (non-woven carbon material), is evenly distributed over the section of the layer 6 and rises, passing through layer 6 and the layer sequentially 5 granular silver-containing coal with a constant speed, determined by the ratio of the height of the layer 6 of fibrous and layer 5 of granular materials, which is from 1:20 to 1: 2. The fluid flow, after passing through two layers of sorption-filtering material, exits through the upper radial exit channels 4 and then through the central holes 8.

Thus, due to the fact that the specified fibrous carbon material has a lower hydraulic resistance than the granular material, the replacement of part of the granular material with fibrous leads to an overall decrease in filter resistance.

In addition, the fibrous carbon material has a large specific sorbing surface and, therefore, a larger sorption capacity than the granular material, so the filter has a longer service life. In this case, it is not advisable to completely replace the granular sorbent with fibrous, since granular coal has a more selective sorbing ability specifically for vodka.

And also the fibrous sorption material additionally sorb substances whose sorption is beyond the power of the granular sorbent, which increases the overall quality of vodka purification.

Claims (1)

A cartridge filter comprising an outer cylindrical shell with radial fluid inlet channels, a coaxially mounted inner cylindrical shell with radial fluid outlet channels, located between the outer and inner shells, hermetically connected end caps with central holes in communication with the outlet channels, a sorption-filtering material, including granular silver-containing coal layer, characterized in that the sorption-filtering material further comprises a fiber layer sorption-filtering material, which is used as a non-woven carbon material, located first along the fluid flow, and the ratio of the height of the layers of fibrous and granular materials is from 1:20 to 1: 2, while the radial channels of the liquid inlet are located in the area of one end the corresponding shell, and the radial channels of fluid exit are located in the zone of the opposite end of the corresponding shell.