DE2312040A1 - FILTER MATERIAL - Google Patents

Description

Filter material The invention relates to a filter material for Manufacture of asbestos-free filter sheets, in particular filter sheets that primarily intended for the food and luxury food industry, with a mixture of cellulose and one or more additives with a high adsorption effect.

The filter layers customary for the purposes mentioned have existed since then usually from different amounts and types of pulps in which different Amounts of asbestos broken down to different degrees, i.e. different amounts of fine asbestos and the finest asbestos fibers are embedded.

When it comes to sheet filtration, there are two basic types be distinguished, namely the so-called surface filtration, in which due to the safety effect only occurring on the surface, only small amounts of output can be expected, and the so-called deep filtration, in which the entire or at least largely all of the space within the scrub layer works. At the same time, the fine fibers, which are matted like a scrub, develop a very effective one Adsorption effect.

An essential prerequisite for an effective depth effect is the mean pore diameter of the filter layer. It is expediently chosen larger than the particles to be retained in the filtration. This applies both to when yeast and micro-organisms are to be filtered out, as well as when colloidal opacities should be removed. Due to their relatively large, medium pore diameter, layers flilt depth effect a high volume output, The Wiresamlreit the depth filter is based above all on the bridgeRtldng the wedging, adsorptively held turbidity parts in the upper part the depth of the layers. Even if these are formed by the captured haze parts Bridges partially collapse under greater pressure, so they become free again Turbidity parts or

Microorganisms in the still unpolluted, subsequent areas adsorbed again in the filter layer and thus finally retained. The for a high throughput is required, but relatively large pore diameters only possible and effective if a sufficiently large proportion of adsorbent Fibers or other appropriately adsorbing additives into the cellulose fiber structure is built in. The pulp works with the usual asbestos-containing filter sheets above all as a carrier for the finely and finely opened asbestos, which is for the Formation of the adsorptive fine fiber network is the cause.

When using asbestos-containing filter sheets for food and luxury food filtration, fear has been expressed that the finest particles of asbestos could get into the digestive tract with the filtered material and there could possibly lead to damage with an existing disposition. The invention is accordingly based on the object of producing a filter material of filter layers, in particular of filter plates, to accomplish, in which no asbestos is used, but instead of adsorbent asbestos other and of course harmless additives with a high adsorptive effect are added.

Attempts have been made earlier with diatomaceous earth as an additive to achieve a similarly good effect as with asbestos. However, since Diatomaceous earth has little or no adsorption effect, the middle one had to The pore diameter of such layers is kept correspondingly narrower in order to provide sufficient Safety to be able to prevent cloud particles from breaking through and the sterility endanger the filtrate. In their mode of action, those are similar to kieselguhr as an additive layers containing more of a membrane layer with a predominant surface effect as a layer suitable for depth filtration.

In order to achieve the object described above, it is proposed according to the invention that that the adsorptive citric acid is practically insoluble aluminum hydroxide contains or consists of aluminum hydroxide. The adsorptive effect is mainly based that aluminum hydroxide has strong positive charges. One special A good filter effect is obtained if, in a further embodiment of the invention, two contain differently charged substances in the adsorptive additive and are attached to the cellulose serving as a support structure.

For this purpose, it is provided in a further embodiment of the invention that the additive contains aluminum hydroxide and aluminum silicate. The aluminum silicate namely, has strong negative charges. Instead of aluminum silicate, after Another proposal of the invention also uses a special calcium silicate which also shows strong negative charges.

In addition, it is very important that the aluminum hydroxide is on a grain size of 0.5 to 0.2 in (10 6m) is crushed.

The aluminum or calcium silicate can advantageously be used as a complex on the negatively charged pulp fibers should be drawn up, so that both one accordingly fine mean pore radius as well as a strong electronic microfield within the entire filter layer is ensured. The proportion of adsorption additives here is expediently about 20 to 5o%.

The pulp can partly also by the finest kieselguhr and / or finest glass fibers are replaced. The finest kieselguhr or fine glass fibers are primarily intended to reduce the mean pore diameter. The latter can but can also be achieved by appropriate digestion of the pulps.

The adsorption effect is based on the fact that it is aluminum hydroxide and with aluminum-silicate -or. Calcium silicate as well as cellulose around polyelectrolytes acts. First of all, due to its negative charges, the silicate binds to the Aluminum hydroxide that is positively charged. Other positive ones available Charges of the aluminum hydroxide O 1 (OH)) x are sufficient to form the complex aluminum hydroxide aluminum silicate or calcium silicate to attach to the negatively charged cellulose fiber. Important for this physicochemical process, however, is that the ratio of aluminum hydroxide to the silicate and the pulp is optimally adjusted, as shown in the below Described exemplary embodiments is shown.

The optimal absorption of the adsorbent (s) is dependent on various factors, e.g. on the type and degree of digestion of the pulp, on the nature of the so-called circuit water as well as on the, if applicable required addition of a suitable retention aid.

The invention is illustrated below with reference to two embodiments explained in more detail.

1st embodiment: 32 g sulphite pulp 16 g aluminum hydroxide 30 ml of 0.5% polygal solution as retention aid 1 ml of wet strength agent.

The filter material produced from this mixture allows production of filter layers with which yeast, especially brewer's yeast, is filtered out with certainty can be.

2nd embodiment: 25 g of sulphite pulp, 9 g of sulphate pulp 8 g aluminum hydroid 8 g aluminum silicate 50 ml 0.5% polygal solution as a detention agent 1 ml wet strength agent.

Filter sheets made from a filter material of this type allow sterile filtration to remove yeast and various microorganisms A longer series of tests carried out with the second exemplary embodiment resulted to the result that such a filter layer under otherwise identical conditions-um about 40C ~ compared to the known asbestos filter layers and at a maximum pressure difference of 2.5 atm still resulted in absolutely sterile filtrates. In contrast, an asbestos filter layer used for sterile filtration is generally used 100% used even when a pressure difference of 1.2 - 1.5 atmospheres is reached viewed because practice has shown that the desired sterile effect at higher Values of the pressure difference cannot always be guaranteed.

Claims (1)

Expectations 1. Filter material for the production of asbestos-free filter sheets, in particular of filter plates, with a mixture of cellulose and an additive of high adsorption, characterized in that the additive consists of aluminum hydroxide consists or contains aluminum hydroxide. 2. Filter material according to claim 1, characterized in that the Contains additive aluminum hydroid and aluminosilicate or calcium silicate. Filter material according to claim 2, characterized in that the Aluminum hydroxide and the aluminum silicate or the calcium silicate as a complex on the negatively charged cellulose fibers is raised. 4. Filter material according to one of claims 1 to 3, characterized in that that the aluminum hydroxide and the aluminum silicate or calcium silicate »one grain size is shredded from 0.5 - 0.2 µm. 5. Filter material according to one of claims 1 to 4, characterized in> that part of the pulp is replaced by the finest diatomaceous earth. 6. Filter material according to one of claims 1 to 5, characterized in that that the proportion of the adsorptive additive is 20 to 50. 7. Filter material according to one of claims 1 to 6, characterized in that that the filter material contains about 0.5, o 'Polygal as a retention aid. 8. Filter material according to one of claims 1 to 7, characterized in that that the pulp serving as the basic structure more or more depending on the circumstances being less open-minded. 9. Filter material according to one of claims 1 to 8, characterized in that that possibly some of the cellulose has been replaced by the finest glass fibers.