SK229392A3 - Device for cleaning of contaminated water - Google Patents

Abstract

Device contains filtration chambers arranged one after the other with different filter sections and with prearranged cleaning device for leading away of solid matters or matters with low specific density. The cleaning device is located in first filtration chamber (2) on water level and consists of belt filter of disc collector (15).

Description

The apparatus comprises sequentially arranged filter chambers with different filter elements and with an upstream cleaning device for the removal of solids or substances of low specific density. The cleaning device is located in the first filter chamber (2) on the water surface and consists of a belt filter or a disc collector (15).

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Installations for the purification of contaminated water

Technical field

The invention speaks of a device for the purification of contaminated water, preferably for the purification of water from craft activities, pits, construction sites or fire.

An advantage of this apparatus for the contamination of contaminated water is that it can be made transportable.

BACKGROUND OF THE INVENTION

At present, devices for purifying contaminated water from craft activities are commonly known, i.

from workshops and industry, as well as neutralizing equipment for the processing of alkaline water from construction sites.

However, no devices are known which would enable water treatment directly on the site of the damage after the fire has been extinguished. Known devices and mostly work only as so-called. Splitting devices where the harmfulness of the contaminated water is reduced.

water by the addition of Cleavers

However, if these cleavage agents are not added at exactly the necessary rates, they may be harmful to the environment. However, this is not possible in most cases because the water flowing into the plant does not have a constant composition of impurities or a constant flow. Therefore, it is not possible to continually purify the water, which would require subsequent collection tanks to detect analytically the contamination of each batch before adding

Fission means.

SUMMARY OF THE INVENTION

These disadvantages are overcome by the contaminated water purification device according to the invention, with successive filter chambers with different filter elements and a pre-treatment device for the removal of solids or low specific density substances, on which the purification device is located in the first filter chamber on the water surface; It consists of a belt filter or a disc collector.

Advantageously, on this apparatus, the belt filter is tensioned between the supply roll and the roller, wherein the roller is connected to a drive for rotating the filled belt filter onto the roller.

It is also advantageous if the first filter chamber is separated from the second filter chamber by a wall in which tubes with the same or different cross-section extending from the first chamber to the second are inclined.

The device according to the invention may have a filter element and / or a filter block in the second and third filter chambers.

The filter element or filter block may be made of sheets of synthetic foam polyurethane or polyester or polyester.

It is also advantageous if the filter element or filter block consists of one or more plates of the same or different porosity arranged on top of each other.

It is also advantageous if a fourth filter chamber is arranged downstream of the third filter chamber, in which the group of filters is made of ceramite, alumina or ceramic.

Preferably, an activated carbon filter is located in one of the filter chambers.

The device according to the invention may, in a preferred embodiment, have a pump in the first filter chamber or outside of the tank, which is either a screw-type eccentric pump or a comparatively hydraulic pump.

It is also very advantageous if the level level in the last filter chamber is arranged below the level level in the first filter chamber.

Overview of the figures in the drawing

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in more detail with reference to the accompanying drawings, in which: Fig. 1 is a cross-section of a device; Fig. 2 is a cross-section of a device in another embodiment; Figs.

DETAILED DESCRIPTION OF THE INVENTION

The contaminated water purification device is housed in a tank 1, preferably made of stainless steel, which in particular has a cube shape and dimensions allowing transport on a passenger car trailer, on a lorry or on a railway carriage. Unloading of the contaminated water purification device can be accomplished by a forklift truck or crane. The tank 1 is divided into sections - chambers 2,4,6,8, in which the cleaning processes are carried out in succession. The first chamber 2 is formed by a stainless steel partition 5 firmly welded to the tank 7. A plurality of tubes 7 are welded in the intermediate wall 5 connecting the first chamber 2 to the second chamber 4. The axes of the tubes 7, which may be of the same or different cross-section, are inclined such that the outlet side lies lower than the inlet side of the tube. In the left side wall, at the level h1, the inlet pipe 11 is welded, which is connected to a pump 13, which may be a worm eccentric or a slow-running hydraulic pump. 1, the connection of the inlet pipe 11 to the pump 13 is not shown. The pump 13 can also be located inside the chamber 2, so that no aggregates are placed outside the tank X, which could be damaged during transport, during handling of the device or even during operation of the device.

Above the inlet pipe 11 there is a known disk collector 15 which is mounted in a rotary drive (not visible in FIG. 1) and can collect impurities in the first chamber 2 floating on the surface of the purified water. These impurities are then removed by piping, belt conveyor, etc.

In the other chamber 4, formed on one side by the intermediate wall 5 and on the other side by the intermediate wall 17, which is welded to the tank 1 as well as the intermediate wall 5, is inserted a filter element ,9 which fills the entire horizontal cross-section of the second chamber 4. . Polyurethane or foamed polyester. The filter element 19 may also be composed of a plurality of individual filter elements superimposed on each other. It is also possible to superimpose filter cells with different pore sizes. On the inlet side, which is lower in this embodiment, the filter elements 19 are protected by grids or perforated sheets 20. The filter elements 19 can also be inserted into the second chamber 4 in closed filter baskets. The intermediate wall 17 terminates above the surface of the filter element 19, so that as the water flows from bottom to top above the filter element 19, partially purified water accumulates to keep the filter moist. If this water crosses the upper edge 21 of the partition 17, it can flow into the filter block 23, which is located in the third chamber 6. Like the filter element 19, the filter block 23 can be composed of one or more plates of the same or different size pores.

The third chamber 6 is separated from the fourth chamber 8 by a wall 25 which, however, is not connected to the bottom 27 of the tank 1 so that water can flow into the last chamber on the underside of the filter block 23.

A filter 29 located in the fourth chamber 8 is used as the last filtration stage. The filter 29 may be composed of ceramite, alumina or porous ceramic. In the outlet wall 31 is located above the filter 29, which may be formed as a group of filters, an outlet pipe 33 through which purified water can be discharged.

The device, which is open from above in FIG. 1, may be covered from above by a lid 35, as indicated by a dashed line. This covering prevents the contamination of the water in the chambers 4 to 8 with air contaminants.

In Fig. 2 another equipment of the first chamber 2 is shown. Instead of the disc collector 15, a belt filter 37, consisting e.g. of textile cobweb or paper. The belt filter 37 is held taut between the supply roll 39 and the roller 41. It is advantageous to connect the belt filter to a drive which allows the filled filter to be wound up. The contaminated water is fed from the top of the belt filter through the inlet pipe 11, through which the impurities are trapped by the belt filter 37 and, after the active section has been filled, can be removed by winding on the roller 41.

In FIG. 3 and 4, the filter elements 19 and the filter blocks 23, which are composed of the same or different plates or plates with different pore sizes, are shown.

The method and operation of the contaminated water purification device will now be explained in brief. Contaminated water, e.g. from craft, industry, construction sites or fire is sucked in by pump 13. It is advantageous if the water is very little swirled by the pump 13, which results in very little emulsification of the water. The aspirated water is supplied to the first chamber 2, in which specifically light impurities and floating fatty substances can be removed by the disk collector 15 or the belt filter 37. Through the tubes 7 the water thus purified is drained by gravitational force into the second chamber 4. After passing the water through the filter element 19, at least a part of the water flows through the upper edge 21 into the third chamber 6. In this chamber the water flows again from top to bottom through the filtering block 23. .

If required or necessary, the water thus purified then flows through the filter (s) 29 from bottom to top. This filtration in the fourth chamber 8 can be used mainly in the purification of fire water. However, this step is not absolutely necessary.

Activated carbon filters 30 may be added to the filters mentioned above, depending on the water purity requirements and the composition of the tolerated impurities.

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Claims (10)

A device for the purification of contaminated water comprising sequential filter chambers having different filter elements and upstream of a cleaning device for the removal of solids or substances of low specific density, characterized in that the cleaning device is located in a first filter chamber (2) on the water and consists of a belt filter (37) or a collector (15). Device according to claim 1, characterized in that the belt filter (37) is tensioned between the supply roll (39) and the roller (41), the roller (41) being connected to a drive for rotating the filled belt filter (37) on the roller (41). Device according to claim 1 or 2, characterized in that the first filter chamber (2) is separated from the second filter chamber (4) by a wall (5) in which tubes (7) with the same or different cross-section are positioned obliquely. from the first chamber to the second. Device according to one of Claims 1 to 3, characterized in that a filter element (19) and / or a filter block (23) is arranged in the second filter chamber (4) and the third filter chamber (6). Device according to claim 4, characterized in that the filter element (19) or the filter block (23) is made of synthetic polyurethane foam or polyester-based boards. Device according to claim 4, characterized in that the filter element (19) or the filter block (23) consists of one or more plates with the same or different porosity. arranged on top of each other. Device according to Claims 1 to 6, characterized in that a fourth filtration chamber (8) is arranged downstream of the third filter chamber (6). wherein the group of filters (29) is of ceramite, alumina or ceramic. Device according to Claims 4 to 6, characterized in that an activated carbon filter (30) is arranged in one of the filter chambers. Apparatus according to one or more of points 1, 3, 4 and / or 7, characterized in that a pump (13), which is either a screw-type eccentric pump, is disposed in the first filter chamber (2) or outside the tank (1). low-speed hydraulic pump. Device according to any one of claims 1 to 9, characterized in that a level in the last filter chamber is arranged below the level in the first filter chamber (2). IV enzyme 0BR.2