DE379512C - Process for the production of pure aluminum salts - Google Patents

Description

Process for the production of pure aluminum salts. To the aluminum salts which for various purposes, e.g. B. used in dyeing or in medicine very high purity requirements are made. In particular, will complete The absence of heavy metals such as iron, lead or copper is required.

The production of pure aluminum salts is not inconsiderable Difficulties associated. Either you have to start from completely pure raw materials, which are naturally expensive, or one is forced to leave without special Precautions manufactured aluminum salts remove the impurities in cumbersome Way to remove.

The present Verfahr§n consists in that one in an electrolysis cell Aluminum is subject to anodic oxidation, the electrolyte containing the acid whose aluminum salt you want to manufacture. In this way, aluminum salts succeed to produce economically advantageous in the highest purity and in a simple manner. It is by no means necessary to use pure aluminum as the anode, but can you can also use impure aluminum. It has surprisingly been found that the impurities in the aluminum are deposited on the cathode. Neither it is necessary that the electrolyte is free of heavy metals, as are those in the electrolyte dissolved heavy metals are excreted, apparently through the action of the cathodic hydrogen. The cathode can be base metals, such as. B. Copper or copper alloys. After the electrolysis has been carried out, solutions are obtained or suspensions of pure aluminum salts. Is characteristic of the procedure So that from impure raw materials, i. i in the presence of heavy metals, in in all cases contains pure aluminum salts.

Example I.

The anode used is a sheet of technical aluminum of about 98 percent pure content, a copper wire mesh as cathode, 6 percent as electrolyte Acetic acid, which is useful for increasing the conductivity about o, x percent calcium acetate or aluminum acetate or another acetic acid salt, e.g. B. Alkali acetate, contains, and electrolyzed under cooling with an anode current density of about 0.5 amps per Square decimeters. “After about 24 hours, you pull off the electrolyte and separate it remove it from the small amount of sludge formed by filtration and thus obtain one bright and colorless aluminum acetate solution, which meets the purity requirements of the Aizneibuch is sufficient in every way.

Example II.

A solution is electrolyzed which contains 75 g of tartaric acid per liter, optionally with the addition of tartrate salts, which improve the conductivity raise, z. B. tartrate aluminum, tartrate alkali, with the help of an aluminum anode. It A solution of pure tartaric aluminum is formed in a smooth manner, which is free from heavy metals. Plan can be the won solution either as such use or by known methods on crystallized, tartrate aluminine rework.

The process can also be used to prepare aluminum salt solutions, which have been produced in any other way and contaminated with heavy metals are to be rid of the latter. The effect of electrolysis then consists in essential in the fact that the heavy metals are deposited cathodically, so that pure solutions are obtained in a simple manner from impure aluminum salt.

Example III.

An aluminum acetate solution, which due to a content of dissolved Iron of o, i percent colored deep yellow and for purposes of dyeing, such as medicine, is unusable, is subjected to the El; @ktrolv se with the help of an aluminum anode. After a short time, the solution has become colorless and free of iron.

i) The procedure is in no way similar to that given in the examples Embodiments bound. You can also use other organic or inorganic acids use, whereby the corresponding pure aluminum salts are formed. Instead of other cathode materials can be used for copper. The current density can be in wide limits can be changed. Instead of using a dormant Electrclyt, you can the electrolvse can also be operated with a steady flow of the electrolyte.

Claims (1)

PATENT CLAIMS: i. Process for the production of pure aluminum salts from impure raw materials, characterized in that acids, optionally with the addition of their salts in order to increase the conductivity, are subjected to electrolysis with aluminum anodes. Process according to Claim i, characterized in that the corresponding impure aluminum salts are electrolyzed with aluminum anodes instead of the acids.