CS260836B1 - Electrolytic electrode-free equipment for ion exchange regeneration from spore poisons - Google Patents

Abstract

The device consists of a cylindrical container, to the neck of which a turbulence cyclone head is connected. The bottom of the cylindrical container is connected to an ion exchanger separator. The cylindrical container is connected to the secondary winding of a transformer, the primary winding of which is connected to an electric current source. The secondary winding of the transformer consists of a pipe connected at both ends to the connections of the cylindrical container through a filter and connected by a filling channel to the turbulence cyclone head.

Description

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

Sorption poisons are removed from the ion exchanger by chemical methods using selective agents, optionally together with physical action. To remove each sorbent venom, it is necessary to use a narrowly selective chemical compound depending on the type of ion exchanger and at the same time on the type of sorbent venom. The regeneration process thus performed is not perfect and results in only partial removal of sorption poisons _; or it can also lead to chemical damage to the active surface of the ion exchange resin.

The aforementioned drawbacks are largely eliminated by the electrolytic electrode-free ion exchanger regeneration device of the sorption poisons of the present invention, which consists of a cylindrical vessel to which a turbulent cyclone head is attached. The bottom of the cylindrical vessel is connected to an ion exchanger. The cylindrical vessel is connected to a secondary winding of a transformer whose primary winding is connected to a power source. The secondary winding of the transformer consists of a conduit connected at both ends to the cylindrical vessel connections via a filter and a connected feed channel to the turbulent cyclone head.

The electrode-free electrode-free ion exchange ion recovery device of the present invention enhances the effect of the chemical compound acting on the sorption venom while weakening the binding of other sorption poisons to the ion exchanger, resulting in intensification of the overall decontamination effect without increasing temperature and aggressiveness of the environment; increase its sorption capacity. The electrode-free introduction of current into the solution results in corrosion being eliminated

260 836 of the electrodes, the electrode material, electrochemical potential and chemical dissolution products of the electrodes are not interfering with the process, and such design-intensive electrode bushings are eliminated.

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

The electrolytic electrode-free device for regenerating the ion exchanger from the sorption poisons is formed by a cylindrical vessel 10. A turbulent cyclone head 20 provided with an inlet 21 is connected to its neck. The bottom 11 of the cylindrical vessel 10 is connected to the ion exchanger separator 50. The cylindrical vessel 10 with the core 14 is connected to the secondary winding 32 of the transformer 30, the primary winding 31 of which is not connected to a power source 40. The secondary winding 32 of the transformer 30 is formed by a multi-threaded piping of electrically insulating material connected at both ends to the connections 12 of the cylindrical vessel 10. To avoid blocking the secondary winding 32 of the transformer 30 with ion exchanger when it passes through the cylindrical vessel 10 and the active zone 14 is a secondary winding 32 connected to ports 12 by means of porous sequins 13 used to separate the ion exchanger. The secondary winding 32 of the transistor 30 is connected via a feed channel 22 to the turbulent cyclone head 20 through an inlet screen 22. The secondary winding conductor 32 of the transformers 30 is formed by an electrically conductive liquid, which is a ion exchanger solution which fills the entire chamber.

The secondary winding 32 of the transformer 30 is filled with the electrically conductive liquid supplied from the turbulent cyclone head 20 by passing through the inlet screen 23 to the feed channel 22 and further into the upper portion of the secondary winding piping system 32.The device is incorporated in the ore processing line between the last elution column and ion exchanger 50. After desorption, the ion exchanger is fed through the inlet 21 to the turbulent cyclone head 22, which is caused by the turbulence to move the ion exchanger from the entire volume of the suspension approximately to the axis of the cylindrical vessel. there is versatile exposure to ion exchange grains, followed by ion exchange in the core

260 836

- 3 11 into the bottom 11 and further into the ion exchanger separator 50.

The intensifying effect in the core 14 is achieved by the passage of an alternating current produced by the transformer 10, fed via a primary winding 31 from a controllable power source 40. The controllable power source 40 determines the current flowing through the secondary winding 32 of the transformer 10, thereby determining the degree of effect in the core 14 of the cylindrical vessel 10.

Claims (2)

SUBJECT OF THE INVENTION An electrolytic nicelectrode ion recovery device for sorption poisons, incorporated in an ore processing line between the last elution column and an ion exchanger, characterized by a cylindrical vessel (10) to which a turbulent cyclone head (20) is attached, while its bottom (11) is connected to an ion exchanger (50), the cylindrical vessel (10) being connected to the secondary winding (32) of the transformer (30), the primary winding (31) of which is connected to an alternating current source (40). Device according to claim 1, characterized in that the secondary winding (32) of the transformer (30) is formed by a pipe connected at both ends to the connections (12) of the cylindrical vessel (10) via a filter (13) and connected by a feed channel (22) to the turbulation. a cyclone head (20).