DE2065830A1 - Treatment of ion exchange medium - with application of particulate buffer layer for particle retention - Google Patents

Abstract

Before its application, a mass of ion exchange material is treated with ions of a single known type until no further change is observed in the ion concn. leaving the ion exchange mass which is then in a known charged condition. The mass is washed using fully demineralised or distilled water and either simultaneously or subsequently flushed in such a way that the particles are set in motion and settle out in layers corresp. to their size, the smaller particles lying at the top of the mass, and the larger particles lying on a filter base in the container. A buffer material is then introduced and applied on top of the ion exchange particles. Uniform flow without channel-formation in the bed of the material enables it to be subjected to over 250 operational cycles before purging is necessary. This leads to higher capacity, reduced energy consumption, reduced regeneration times and a saving in consumption of regeneration. medium.

Description

206583Q

Attachment to the patent application
from Oct. 29, 197O Sei / Ma

"Method of treating a filter material

or an ion exchange mass ¹¹

(Separation application from patent application

P 20 53 551.7)

The present invention relates to a method for treating a filter material or an ion exchange mass, wherein the exchange mass is treated with ions of a single specific type of ion prior to their intended use until the Exchanger mass is present in a single specific form of charge. The method makes it possible that a storage of the Particles according to their size is achieved. It is already known to use ion exchange materials, but before their intended use Use in different forms of education and / or are not classified according to size. It is also known from utility models 1 939 125 and 1 933 636 and 6 752 649, the ion exchange compound within to arrange a filter container with a filter base so that it is covered with a buffer material or filter material is.

This elastic compressible and after depressurization its original or approximate shape assuming buffer material can be embedded in the exchange mass but preferably in one layer above the exchange mass

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arranged as a delimitation material to the backwashing space, wherein possibly also the sieve or filter plate or movable sieve plate arranged to the backwashing chamber can be omitted. One of those built-up ion exchanger is particularly advantageous because there is also a movable perforated plate or sieve plate for the backwashing space can be omitted and thus tilting of the perforated plate as a source of error can be eliminated from the outset. Furthermore it is possible to use the ion exchangers, which up to now have been working on the co-current principle, without considerable expenditure on materials and work to move. Furthermore, it is possible to largely save the required control devices. As further advantages this device is a lower use of hydrochloric acid, shorter regeneration times, lower washing water requirement, better use of normal volume capacity and easier operation due to a lower number of work processes to name.

Aim and object of the present invention was that lonenaustauschermasse if possible in a uniform laden form to insert and arrange them by size tix, ie · that the sizes parts should be stored near the filter soil decreases during the grain upwards to slide. The aim was also to ensure that the flow through the entire ion exchange bed is uniform and that the formation of so-called nests, caused by the formation of small particles, which represent compacted zones and thus do not allow the water to pass evenly over the entire filter bed, is avoided will. A so-called road formation in the Austautqherasse, which makes frequent backwashing necessary, should thus be prevented.

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_β 7

A further aim and object of the present invention was to avoid the aforementioned disadvantages and to provide a buffer material to find that does not have any unwanted sticking even after prolonged use. The buffer material should also be used several times The application does not show the formation of lumps, impermeable or partially permeable bonded layers, etc. Therefore, there is also no increased resistance to the liquid, i.e. also no resistance that is only increased in places and otherwise have the aforementioned advantages of the buffer material.

According to the invention it was found that these aims and objectives are achieved by a method for treating a filter material or an ion exchange mass, in which the filter material or the exchange mass is treated with ions of a single specific type of ion before their intended use until a change in the ion concentration introduced no longer takes place after it has passed through the exchanger mass and the exchanger mass is thus present in a single, specific form of charge. The exchange mass is then washed out with fully demineralized or distilled water with simultaneous or subsequent rinsing, which enables the particles to move freely or rearrange according to their size. This treatment of the exchanger mass ensures that the backwashing required after about 5 - 50 work cycles (work cycles) no longer needs to be carried out or can be largely postponed within a period of time. In the case of an ion exchanger according to the present invention, even after 250 work cycles (work cycles)

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no flushing required. This results in, among other things, a considerable increase in capacity, e.g. through savings in labor, shorter regeneration times, etc., as well as a reduction of the regenerants used "

After the particles of the exchange material have been rearranged, buffer material is applied over the exchange material. That According to the invention, the buffer material used consists of a mixture of elastic compressible and after pressure release its original shape or approximate shape assuming material and a hard elastic buffer material.

The hard buffer material has different mechanical material properties and largely prevents the elastic parts from clumping together. The hard buffer material can be different have elastic properties, for example of hard-elastic properties to almost inelastic properties. Those consisting of differently elastic or inelastic particles Buffer material mixture is particularly advantageously arranged above the exchanger mass. The buffer material particles used can have any shape, e.g. strips, pieces, slices, grains, granulates. That is particularly advantageous Use of spheres or spherical shapes. ,

According to the invention it was also found that there are particular advantages in terms of avoiding the formation of adhesive layers and the like. Can be achieved when the ratio of hard-elastic or inelastic buffer material parts, preferably

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wise balls, to the elastic compressible and after release of the pressure taking on the original shape or approximate shape Buffer material parts, preferably spheres, in the mixture is 1: 0.5 to 1:10. That is particularly useful Using the mixing ratio from 1: 3 to 1: 5 · The elastic compressible and after pressure release The original shape or approximate shape of the buffer material particles, preferably spheres, are expediently made Made of plastics (homo- or mixed polymers), rubber, vulcanized rubber or vulcanized rubber art Mix the substance, the particles should have a specific weight of less than 1.0 kg / dm ^. The used Rubber particles or rubber-plastic mixtures are expediently vulcanized beforehand under pressure. The aforementioned Materials should have elastically deformable properties, but in such a way that after the pressure is released the material returns to its original shape or approximate shape.

The elastic properties of the material should be such that they can withstand the pressures occurring in the ion exchanger can temporarily deform and after the pressure is released the material assumes its original shape or approximate shape. The hard particles should not have these high elastic properties and, for example, only at very high pressures respond to a deformation. A certain elasticity is also particularly advantageous in the case of these particles, so that this is preferred hard elastic particles, especially balls, should be used.

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The use of at least two different ones is particularly advantageous Particle sizes of the buffer material. It was found that the best effectiveness of the buffer material particles occurs when the elastic compressible and after pressure release the original shape or approximate Shape-taking buffer material particles, preferably spheres, have a larger mean diameter than the hard ones Buffer material particles. The elastic compressible and after release of pressure the original shape or approximate Buffer material particles which take on shape, preferably spheres, should advantageously be mixed with inelastic, preferably hard-elastic Particles or spheres, are mixed, the volume of which is equal to, preferably greater than the distance in the from the elastic materials formed cavities.

If the radius of the hard particles is represented by (Rj ₁ ) and the radius of the elastic particles by (R _e ), the radius size of the hard particles should be larger than R _e . (V 2 - 1), preferably greater than Re. (V 3 - 1), but smaller than R _e . It is particularly advantageous if the buffer material particles have a specific weight of less than 1.0 kg / dm ^ and are stored above the exchanger layer. According to a particularly advantageous embodiment, rubber, vulcanized rubber or vulcanized rubber-plastic mixtures (preferably vulcanized under pressure) with a specific weight of less than 1.0 kg / dm ^ are used as the elastic, compressible buffer material that takes on the original shape or approximate shape after releasing the pressure. Polypropylene with corresponding hard-elastic properties has proven to be particularly hard material

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Properties proven to be suitable. The buffer material can with Surface layers are coated that prevent sticking. The buffer material can additionally contain fillers known per se or other additives or materials. According to one embodiment, the buffer material of a Network are enclosed. The mesh size of the network should be smaller than the smallest selected buffer material particle size .

According to one embodiment, a swimming device can be installed above the net be attached, which carries the network with the buffer material and, for example, also a specific weight below 1 owns. It is not in the latter embodiment It is imperative that the buffer material particles have a specific weight of less than 1.0 kg / dm ^. In the drawing, the ion exchanger container (1) is provided with a filling and control opening (6) through which, in particular, buffer material can be refilled (Pig. I). Number 2 shows a filter base or nozzle base on which the ion exchange mass (3) is arranged »The arrangement the ion exchange material is advantageously carried out in such a way that the particles decrease from the nozzle or filter base Diameter are arranged. The size representation of the particles and the size differences are schematic and correspond not the actual size or particle differences.

The buffer material is located above the ion exchange mass (3)

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(4j5) arranged; the hard or hard-elastic ice sheets (5) preferably have a smaller particle diameter than the elastic particles (4). "· ■ - ·, - ■ - - ■ ·

According to one embodiment, a layer ^; 'Be arranged from uniformly sized buffer material particles. According to another embodiment, a movable sieve plate can also be attached above the buffer material, which advantageously has one or more "openings for refilling of buffer material particles"

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Claims (3)

Claims 1. A method for treating an ion exchange mass, thereby characterized in that the exchange mass with ions of a single specific ion type before their intended use The insert is treated until there is a change in the ion concentration introduced after passage through the Exchanger mass no longer takes place and the exchanger mass is therefore present in a single specific loading form, that then a washing out of the exchanger mass with fully demineralized or »distilled water with simultaneous or subsequent flushing that allows free movement or rearrangement of the particles according to their size allows, is carried out and after the rearrangement has taken place Buffer material in the container, which contains a filter base arranged therein, applied over the exchanger mass will. 2. A method for treating an ion exchange mass, characterized in that the ion exchange mass after treatment a buffer material, which consists of a mixture of elastic, compressible and after Depressurization of its original shape or approximate Shape-taking material and a hard-elastic buffer material exists, is applied ο 3. A method for the treatment of an ion exchange mass, characterized in that after the treatment, on -10- 603825/0361 the ion exchange mass-e applied buffer material a movable or rigid sieve plate, perforated plate, filter cover or the like. Is applied. 0 9 8 25/0381