SE503076C2 - Method and apparatus for treating filters containing harmful substances - Google Patents

Abstract

Filter or its components are wetted and the substances are pptd. using a suitable pptg. agent before the filter is returned to service. Procedure is carried out while the filter is entirely submerged in water. Filter may be subjected to a mechanical or an ultrasonic treatment while it is in the water. Mechanical treatment may consist of tilting, pushing, moving and/or rotating. Ppte. is collected and removed from below the filter from time to time. Additive such as tenside may be used to reduce the surface tension of the water. Ppte. medium is pref. a sulphur-based substance. Filter (22) is pref. placed in a liq.-filled container (10) provided with a system (12, 26, 24) for collecting and removing the pptn. prods. Adjustable device (20) supports the filter in the liq. (14). Container has a sloping floor (12) with a ppte. removal device at its lowest point. Floor may be an intermediate floor with a closable outlet for the liq. and below which is a filter device (28). Device (32) returns the filtered liq. to the container (10). Source of ultrasound may be directed at the filter (22). USE/ADVANTAGE - Used in cleaning filter cartridges which contain particles of dangerous substances e.g. heavy metals. Heavy metals are easily, safely and reliably removed and collected with a high proportion of recovered for further use. Filter cartridges are not damaged and are returned to service after a short time.

Description

2 which is then taken care of for further utilization.

The wetting of the filter or its constituents is most easily done by immersion in water. The water then penetrates into the cavities in the filter, and thus also penetrates into particularly contaminated filter cloths. The harmful substances are then no longer present in the form of dry dust but in wet form. The simultaneously added precipitant, the nature and amount of which are selected depending on the harmful substances in question, converts the harmful substances into water-insoluble and substantially non-toxic compounds. A significant part of the set purpose has thus been fulfilled so far.

In this way, for example, filter dust in the form of lead oxide can be converted into harmless and water-insoluble lead sulphide, which can be further treated without problems even without protective measures.

It has surprisingly been found that already wetting the particles of harmful substances in a liquid with an added precipitating reagent is sufficient to directly precipitate a substantial part of the existing harmful substances, in particular the particles sitting on the filter walls or on or near the surface of the filter mat. .

The mixing ability of the solids with the water and the rate of the precipitation reaction can be increased by first adding a surfactant to the liquid used. Additives such as surfactants lower the surface tension of the water, thereby increasing the sedimentation capacity of the solid particles.

The precipitated reaction products can be removed more efficiently from the filter by subjecting it to mechanical action in the water. This can be done in different ways.

For example, the filter can be placed on a tilting or shaking device. The bearing surface of the filter is then preferably mesh or grid-shaped, so that the precipitated products formed and other solid particles can immediately sink towards the bottom.

Alternatively, a separate device can be used to, for example, tap the filter or rotate it to facilitate the release of particles from the filter surfaces.

The process according to the invention thus not only makes it possible to convert in itself toxic pollutants, for example those containing heavy metals, into water-insoluble and non-toxic forms, but also has the advantage that the precipitated substances sink quickly to the bottom, and thus easily can be removed.

If the treatment device is designed in a suitable way, the precipitation products can be collected. This is explained in more detail in the description of the device according to the invention.

The procedure can be applied to harmful substances of various kinds. It is particularly suitable for neutralizing heavy metal-containing filters, such as those containing lead, arsenic, cadmium- or nickel-containing impurities or the like.

However, the process can also be used to treat filters containing ÉÛZ fl "'-4- \. F (f) \ 3 other harmful substances. Examples are filters in the exhaust airway from manufacturing sites for plant protection products. These pollutants are also large The process according to the invention can be used in a similar manner also in this case, for example precipitating agents which form complex organic compounds with the harmful substances.

The process can be run both continuously and discontinuously.

Thanks to the described precipitation measures and the possibility of removing the precipitation products, the remaining liquid at most has a small residual content of solids. However, these are in a harmless mineral-like form and can be easily separated with an extra mechanical filter, so that the liquid can then be used again to treat filters. The reuse of the treatment liquid has, among other things, the advantage that, for example, the surfactants that are used and that are not consumed are recycled together with the liquid. Unused precipitating reagent can also be used if, for example, several filters are cleaned simultaneously or one after the other in one and the same liquid.

The described method can be carried out with different devices.

The device according to the invention is characterized in its general form in that it has a liquid-filled container, in which the filters are placed, and a device for collecting and withdrawing the precipitation products which settle during the residence time of the filters in the liquid.

In the simplest case, the container can thus be formed by a container with a removal device for the sedimented precipitation sludge.

The device preferably has a device part for receiving one or more filters. The device part can at the same time be used for mechanical action of the filters in the liquid, for example by raising and lowering, tilting or rotating the filters.

The advantages this provides have already been discussed in connection with the review of the method according to the invention.

The bottom of the device is preferably inclined, especially funnel-shaped, so that the reaction products formed can be led directly to a receiving device connected to the bottom, for example a container, which when filled to a certain level can be closed and disconnected. The container then contains almost exclusively the reaction product formed, for example lead sulphide, and can be used directly in a metallurgical process without any problems. Continuous extraction is another possible alternative.

If the bottom is designed as an intermediate bottom and is provided with a closable flow opening for the liquid, the device according to a preferred embodiment can at the same time be designed with an additional filter, through which the already partially purified liquid can flow down into a sedimentation basin, so that it can be reused immediately. .

TI FVT / LJ / 'Û fl? Qkax) 4 The described method and the associated device have obvious advantages. Dry and dusty, highly toxic substances can be easily and rationally converted into harmless, water-insoluble compounds in an aqueous medium.

The formed compounds can then be removed from the filter and neutralized separately. The filter is then practically free of harmful substances and can be taken apart in its parts and disposed of.

For example, the generally common sheet metal frame can be taken care of like ordinary scrap. The metal in the previously mentioned aluminum foils can be reused in the aluminum industry, which also applies to other aluminum parts in the filter.

Often the filters also contain plastic parts, which can also be separated mechanically and, for example, reused in some known process for reusing plastic. The filter mat, for example the said fiberglass mat, can also be utilized without problems. It does not matter if the carpet still contains a certain amount of particles of solids, since these, thanks to the method according to the invention, are in an environmentally acceptable form and can be handled together with the carpet without problems. There is no obstacle to use in a metallurgical process, since the aluminum parts have previously been mechanically separated. The same applies to the above-mentioned additional filter.

The invention is defined in the independent claims. Preferred embodiments are set out in the dependent claims.

The invention will now be explained in more detail with reference to an exemplary embodiment shown in the drawing. In this case, the single figure shows a highly schematic schematic diagram of a device according to the invention for treating lead-containing filters, for example those which arise in battery manufacture.

The device consists of a container 10, which is open at the top and has a funnel-shaped intermediate bottom 12. Above the intermediate bottom 12, the container 10 is filled with water 14. A rod device 16, which carries a grate 20 located in the water 14, projects into the water from a drive motor. 18. A lead-containing filter 22 rests on the grille 20. By means of the motor 18, the grille 20 is moved with the filter 22 up and down in the water.

The water contains about 2% by weight of an organic surfactant (benzalkyl sulfonate) and as a precipitating agent a ten-component mixture.

The filter and its constituents are immediately wetted as they are immersed in the liquid 14. At the same time, the lead oxide particles of harmful substances in the filter react with the sulfur-containing precipitating agent. This results in spontaneous lead sulphide, which is insoluble in water and precipitates.

Thanks to the mechanical processing of the filter 22 via the rod device 16, it is facilitated for the formed precipitation products to fall down through the grid.

The precipitation products slide along the funnel-shaped intermediate bottom 12 and down into a container 24 placed at the deepest point of the funnel, which can be closed at the top

Claims (10)

(fl C 5 L- '7 5 5 in relation to the upper part of the container 10 with a valve 26 and is removed. When the container 24 is filled, the valve 26 is closed. The container 24 can then be removed for further treatment. By opening the valve 26, the water can which are located above the valve flow downwards, passing through a filter 28 arranged over the entire cross section of the container 10, which separates any remaining particles of solids. The purified water is collected in a sedimentation basin 30 located in the filter 28 and can at need is returned upwards to the container 10 through a schematically shown overflow drain 32. It will be appreciated that a person skilled in the art can without difficulty make many changes to the device shown without departing from the invention stated in the claims. Process for treating filters (22) containing harmful substances, in particular heavy metals, characterized in that the filter (22) and its parts are moistened and that the harmful substances are precipitated by adding a suitable precipitating agent before the filter is divided into its individual parts and these are recovered. Method according to Claim 1, characterized in that the filter (22) is subjected to mechanical action in water. Method according to Claim 2, characterized in that the filter (22) is actuated with ultrasound or subjected to constant tilting, shocking, pivoting and / or rotational movements. Method according to one of Claims 1 to 3, characterized in that the precipitate product is collected under the treated filter (22) and is occasionally removed. Method according to one of Claims 1 to 4, characterized in that the filter (22) is moistened with a liquid which contains a certain amount of an additive which lowers the surface tension of the water, preferably a surfactant. Method according to one of Claims 1 to 5, characterized in that the precipitating agent is sulfur-based or a sulfur-acting precipitating agent. Device for treating filters containing harmful substances, in particular heavy metals, by means of the method according to any one of claims 1 to 6, characterized in that the device has a container (10) for receiving the filters (22) and means (12 , 26, 24) to receive and remove the precipitating products which settle during the residence time of the filter (22) in the liquid (14). Device according to claim 7, characterized in that it has a preferably movable member (20) which carries the filter (22) in the liquid (14). Device according to claim 7 or 8, characterized in that it has a sloping bottom (12) and a removal device (24) for the precipitation products at the lowest point of the bottom, the sloping bottom (12) preferably being formed by an intermediate bottom with a closable passage opening ( 26) for the liquid. Device according to claim 9, characterized in that a filter device (28) is arranged below the intermediate bottom (12), and that means (32) are preferably arranged to return it by means of of this filter device (28) purified the water to the inlet of the container (10).