DE448035C - Production of active coal - Google Patents

Description

Active coal production. It is known that impregnation of carbonaceous substances such as wood, peat, cellulose, sawdust, lignite, coal, animal waste, etc., with zinc chloride and charring the impregnated material gives decolorizing carbons of the highest decolorizing power. These coals are in very excellent measure for decolorizing sugar careful, Stagrkesirupsäften, discoloration and deodorization of oils, improve the taste of wines etc. They are most convenient for use in powder form, with no special requirements are placed on their mechanical resistance.

Furthermore, due to their particularly high adsorption power, these decolorizing carbons are also suitable for the extraction of valuable components from gas or vapor mixtures and their cleaning of undesired components. In contrast to its use as decolorizing charcoal, however, the lumpy form of charcoal is more advantageous for gas adsorption purposes (leave for the full utilization of the advantages offered by the h5chstaktive carbon at the gas adsorption method, the application of the counter-current principle is required, since only thereby at the same time full Z, removal of adsorbable components, the balance between the concentration of the adsorbate in the coal and Its concentration in the original gas corresponds to the highest load of all the charcoal. In the recovery of the adsorbed substance, the charcoal must be heated, and the less heat to be applied per unit of recovered substance, the more of the charcoal is possible loaded i st. The most practical, simplest and most perfect implementation of the countercurrent principle consists in moving the coal against the gas stream to be cleaned. This method alone also allows only as much colileschiclite to be passed through by the gas as is necessary for its full purification by removing the fully saturated coal from the gas inlet end of the layer and replacing it with fresh or regenerated unloaded coal at the outlet end. Through (read the minimum of the coal layer, the resistance of the coal to the gas flow and thus the force to be exerted to overcome it is reduced to a minimum.

When moving, however, the a-as use normal wood, fir, Spruce, beech lis-iv., Produced coals mechanically. It arise through friction and splintering of finer parts, some of which are carried away by the gas would cause losses and contaminate the gas, Partially the finer parts are stored in healing cavities between the coarser grains which increases the resistance that the coal offers to the gas flow will.

It is therefore of great importance, coals of high adsorptive power and large to generate mechanical resilience. One way to do this is through the known Process whereby powdered peat or lignite is impregnated with a liquid, is pressed into threads with the help of spray nozzles and then charred. A preserved one Chlorine-zinc coal has a * three times higher mechanical resistance than the common chlorozinc coal, but it is not as adsorptive as that latter.

Since the production of activated carbon with zinc chloride is based on the solution of the wood substance in zinc chloride and the deposition of carbon from this solution, so So far it did not seem possible to produce a mechanically resistant material using the zinc chloride process To produce coal without the use of special measures, such as briquetting, but unfortunately at the same time have an unfavorable effect on the sorption capacity of the coal.

It has now been found that one can also without briquetting and the like mechanically very resistant and yet very highly active carbon with the help of Chlorine-zinc can be obtained by using special starting materials for the production of activated carbon used. Coconut shells and walnut shells have proven to be useful for this purpose and other particularly hard woods in piece form. This deviation of the named substances from the normal behavior of the chlorinated coal production, previously used materials in terms of good mechanical resistance cannot be explained otherwise than by assuming that the carbon particles when the hard wood substance is separated from the zinc chloride solution, it also reappears ag lomer into one.ern hard building.

"g The manufacture of active charcoal from coconut shells is in itself known; However, up to now it has not been carried out by impregnation with zinc chloride, but rather by charring the coconut shells and activating the resulting charcoal with water vapor or other gases at a very high temperature. Those produced in this way Coals are also mechanically more resistant than those previously used Chlorine-zinc carbons, but they are not as highly active as those according to the method of the invention, and their production is due to the high activation temperatures expensive.

Claims (1)

PATENT CLAIM: Process for Her . Position of vän active charcoal of high mechanical resistance by impregnating wood with chlorine zinc lye and charring the impregnated material according to patent 29o656, characterized in that particularly hard woods, expediently coconut shells or walnut shells in pieces are used.