SU7860A1 - Method of conducting electrolysis with soluble anodes - Google Patents

Description

In the industry of inorganic substances, it is relatively common to find cases where the most dissolving metals are used as the starting material for preparing these or other soluble or insoluble metal compounds. Thus, for example, most of the compounds, lead, silver, copper, etc., are prepared by dissolving these metals in strong acids acting simultaneously as an oxidizing agent or in acetic acid, with the assistance of atmospheric oxygen, and then processing the resulting solutions into the required compounds.

Due to the inconvenience and high cost of this kind of work, methods of electrolytic dissolution of metals or the direct production of the required little soluble compounds have repeatedly arisen; however, these methods have not found wide application due to the difficulties and complications that occur during mass practical application in the technique.

Chief among these difficulties are the inevitable, even when using diaphragms, penetration and

re-planting on the cathode of metal ions formed at the anode or, conversely, penetration of anions and especially hydroxyl ions into the anode space and the formation of insoluble compounds on the anode, which provide significant transient resistance and hinder electrolysis.

The practical application of other methods is difficult, firstly, by contamination by accumulation of sediments inside the electrolytic bath and contamination of the electrodes and, mainly, by the simultaneous dissolution of the metal and the formation of the required low-dilution compound, it is necessary to observe all the necessary equilibrium conditions for obtaining the required properties and composition, for example, lead white, lead yellow paints, basic copper acetate, and so on.

The proposed method is intended to eliminate these disadvantages and to realize the possibility of producing anodic dissolution of metals with obtaining solutions of their salts or poorly soluble compounds without returning the metal on the cathode.

According to the invention, the movement of the electrolyte solution occurs non-electrically to the direction of movement of the ions carrying electricity, and carries the last-minute movement behind them at a certain ratio of the speeds of both these movements.

This movement of the intermediate electrolyte solution is carried out by circulating it inside the interdiaphragmatic chamber, formed by two vertical diaphragms separating the anode and cathode spaces and, in conducting the process, should eliminate the irony of the dissolved -Metal ions from the anode space into the cathode and anions. for example, hydroxyl ions from the cathode to the anode space.

In this case, according to the author, the electrolytic processes occurring on the electrodes are made completely independent of each other, and in the anode space it is possible to obtain solutions of metal corresponding to the appropriate strength, for example lead acetate or copper, lead chlorate acid, which are used for processing or other poorly soluble compounds.

The intermediate flow solution flowing out of the electrolytic cell, containing the dissolved metal, undergoes periodic processing, for example, precipitating entrained metal ions as an insoluble compound and again circulates in the aperture chamber.

The proposed method, in its practical implementation, should allow a large number of variations, depending on the metal to be dissolved {{requiring its compounds, as well as to enable, through the use of diaphragm fluids in the form of a circulating flow solution, to use less dense diaphragms, for example , of linen and cloth, than can be achieved by maintaining a relatively low voltage of electric current.

The subject of the patent.

1. A method of conducting electrolysis with soluble anodes, in order to obtain soluble and insoluble metal compounds, characterized in that the anode and cathode spaces are separated from each other by a chamber formed by two vertical diaphragms, and through circulation, through the tube, with definite the speed of the electrolyte solution, the metal ions, and the cathode anions, which break in the correct course of the process, are scattered out of the anodic space and are ironic in the dog.

2. Acceptance of the method according to and. characterized in that by periodically treating the flow solution with appropriate reagents, metal ions (for example, lead, copper, and iroch) entrained from the anode are extracted from it in the form of the desired compounds (white, carbon-salt and the like). return to the cell.