CS260835B1 - Electrolytic device for ion exchange regeneration from sorption poisons - Google Patents

Abstract

The solution ae relates to an electrolytic device for the regeneration of ions from sorption poisons, which is formed by a cylindrical vessel, which is connected in the upper part to a turbulent cyclone head and in the lower part is connected to an ion separator. The cylindrical vessel is formed from at least two annular electrodes, which are separated from each other by insulating rings and interlacedly connected to a source of electric current. The insulating ring and the annular electrodes are connected to each other by connecting elements. The cylindrical vessel is placed in a casing.

Description

The invention relates to an electrolytic device for the regeneration of ion exchange resin from sorption poisons incorporated in the ore processing line between the last elution column and the ion exchanger separator.

Sorption poisons are removed from the ion exchanger using chemical methods β using selective agents, possibly together with physical action. To remove each sorption poison, a selective chemical compound must be used, depending on the ion exchanger type and the sorption poison type. The regeneration process carried out in this way is not perfect and results either in only partial removal of sorption poisons or can also lead to chemical damage to the active ion exchange surface.

These drawbacks are largely overcome by the ion exchange electrolytic recovery device of the present invention, which consists of a cylindrical vessel connected at the top to a turbulent cyclone head and attached at the bottom to an ion exchanger separator. The cylindrical vessel is formed from at least two annular electrodes which are separated from each other by insulating rings and interleaved connected to a power source. The insulating rings and the annular electrodes are interconnected by connecting elements. A preferred embodiment of the invention is that the cylindrical vessel is housed in a sheet, to which it is attached together with the ring electrode and insulating ring assembly by connecting elements.

Electrolytic device for regeneration of ion exchange resin from sorption poisons according to the invention strengthens the effect of chemical compound acting on sorption poison and at the same time weakens binding of other sorption poisons to ion exchanger, which leads to intensification of overall decontamination effect without increasing temperature and aggressiveness with its sorption capacity.

In the accompanying drawing, one embodiment of a device according to the invention is schematically shown in section.

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The electrolytic device for regenerating the ion exchanger is formed by a cylindrical vessel 20 which is connected in the upper part to a turbulent cyclone head 10. The turbulent cyclone head 30 is connected via an ion exchanger inlet 31 to the last elute column of the ore processing line. In the lower part, the cylindrical vessel 20 is connected to the ion exchanger separator 50 via the bottom 25. The cylindrical vessel 10 having the core 23 is formed by a system of two or more annular electrodes 21 separated from each other by the insulating rings 22. The number of annular electrodes 21 is determined by the desired flow rate of the slurry and the degree of intensification. The annular electrodes 21 and the insulating rings 22 are connected to each other by means of an insulated connecting element 11. The annular electrodes are interleaved to the electrical current source 40. The cylindrical vessel 20 is inserted in a sheet 10 to which it is attached by connecting elements 11.

After desorption, the ion exchanger passes through the inlet 31 into the turbulent cyclone head 10, where, due to turbulence, the ion exchanger is displaced from the entire volume of the suspension approximately to the axis of the cylindrical vessel 20. It swirls in a plane perpendicular to the flow direction. zone 23 is achieved by the passage of electric current, which via annular electrodes 21 supplies a controllable power source 40. Direct or alternating current can be selected and controlled according to ion exchange type, decontamination agent and degree of activity in core 23. After all-round exposure to ion exchange grains in core 23, the ion exchanger proceeds to the bottom 25 of the cylindrical vessel 20 and further to the ion exchanger separator 50.

Claims (2)

Electrolytic device for regenerating ion exchange resin from sorption poisons, incorporated in the ore processing line between the last elution column and the ion exchanger, characterized in that it consists of a cylindrical vessel (20), which is connected in the upper part to a turbulent cyclone head (30). ) and at the bottom is connected to an ion exchanger separator (50), wherein the cylindrical vessel (20) is formed of at least two annular electrodes (21) separated from each other by insulating rings (22) and interleaved connected to a power supply (40); furthermore, the insulating rings (22) and the annular electrodes (21) are connected to each other by connecting elements (11). Device according to claim 1, characterized in that the cylindrical vessel (20) is inserted in a housing (10) to which it is attached by means of connecting elements (11).