DE414128C - Process for the production of alumina - Google Patents

Description

Process for the production of alumina. The present invention includes a process for the production of alumina from crystallized aluminum chloride, which is obtained from clay or other raw materials containing alumina. From the in known `` 'ice produced by digesting the raw materials with hydrochloric acid It is known that highly enriched solutions can be evaporated by passing in Separate anhydrous, particularly high-percentage hydrochloric acid gases, aluminum chloride and separated from the iron by systematic washing. This method of separation therefore requires the use of anhydrous, high percentage hydrochloric acid gases; it however, it is difficult and expensive to produce such gases in technology.

In-depth experiments have now surprisingly shown that one can avoid this expensive process and even with much weaker hydrochloric acid, z. B. 2oprozentiger, in an impeccable manner a separation of the clay from iron can cause, because in such acid the crystallized aluminum chloride is proportionate slowly and not much more than soluble in strong hydrochloric acid.

Good results are obtained by following the procedure in Way carried out Annealed clay is digested with hydrochloric acid. From the filtered The greater part of the solution is evaporated until a crystal pulp is formed, which essentially crystallizes the aluminum chloride, the ferric chloride in Solution contains. This crystal pulp is sucked off and methodically covered with solutions or washed obtained by filtering the other part of the above Digestion solution treated with the hydrochloric acid water vapor mixture and enriched, the one by the thermal decomposition of the isolated pure aluminum chloride one previous operation. This covering turns the ferric chloride into the crystal pulp largely withdrawn; Finally, it is washed with iron-free hydrochloric acid, which is appropriate from another part of the waste gases of aluminum chloride decomposition by compression or washing with m ater or thin hydrochloric acid is obtained and that of aluminum chloride enriched or saturated acid is reused as long as the iron content it allows. The acidic washing and mother liquors containing aluminum and ferric chloride are either added to the digestion acid or as washing liquors, depending on their content used; if they are highly enriched in ferric chloride, they will eventually become useful Recovery of the hydrochloric acid contained in them is subject to thermal decomposition. Pure alumina is obtained from the pure aluminum chloride obtained.

This procedure ensures that you can handle even the relative dilute hydrochloric acid gases containing air and water vapor from the z. B. in the rotary kiln carried out thermal decomposition can work while one had to use concentrated hydrochloric acid gases according to the previous method, which in usually only from moist gases by drying with sulfuric acid, for example from the muffle furnace gases.

In addition, this method is used to obtain the digestion solution by enriching it with hydrochloric acid and reusing the latter to re-dig clay from the outset stronger aluminum chloride solution, so that one can save a noticeable amount of money achieved at evaporation costs.

Claims (1)

PATENT T CLAIM; Process for the production of alumina from pure, crystallized aluminum chloride, which is made of clay or other alumina containing Materials has been obtained by dissolving the starting material in hydrochloric acid, characterized in that one part of the digestion solution until it is eliminated evaporated from aluminum chloride crystal slurry and the other part of the digestion solution to collect the escaping during the thermal decomposition of the aluminum chloride Hydrochloric acid used, with which part of the extracted crystal pulp for the purpose of separation which washes out iron and aluminum chlorides systematically, with practical at the end pure iron-free hydrochloric acid is used, and that the aluminum chloride obtained subject to thermal decomposition.