ITBO940512A1 - PROCESS OF ACCELERATED CORROSION AND SEPARATION OF METALS IN METAL ATTACKING PLANTS BY AMMONIA TREATMENT - Google Patents

Abstract

The current versions consider the nitrate contained in the electrolytic cell to be a disturbing factor and try to eliminate it in whole or in large part from the corrosive solution. The present invention proposes to operate the plants for the treatment of corrosion with a certain optimal content of nitrate, which causes a considerable acceleration of the speed of the corrosive action and proposes to limit its concentration by adding reducing agents, which for example in copper present the further advantage of promoting the accelerated transformation of copper II into copper I in the electrolytic cell.

Description

DESCRIPTION

of the industrial invention entitled "PROCESS OF ACCELERATED CORROSION AND SEPARATION OF METALS IN METAL ATTACKING PLANTS BY MEANS OF AMMONIA TREATMENT"

SUMMARY

Current versions consider the nitrate contained in the electrolytic cell as a disturbing factor and try to eliminate it in whole or in part from the corrosive solution.

The invention proposes to operate the metal etching systems with a given optimal content of nitrate, which causes a considerable acceleration of the rate of the corrosive action, and proposes to limit its concentration by adding reducing agents, which, for example in copper, have the further advantage of favoring the accelerated transformation of copper II into copper I in the electrolytic cell.

DETAILED DESCRIPTION

Metal attack systems, which work with ammonia corrosive products, are particularly suitable for the regeneration of the corrosive product in recycling processes, in which the corroded metal is simultaneously metallically separated in electrolytic cells.

To make these recycling plants economical, it is very important that the corrosion rate, as well as the separation rate of the metal in the electrolytic cell, is accelerated.

In this regard, it is important that as far as possible, in the course of the corrosion and regeneration process and in the metal separation process, the resulting materials are not present in excessive concentration. As far as possible, secondary disturbing reactions should be avoided. The purpose of the invention is to indicate a process that comes as close as possible to this ideal goal.

In this regard, particular importance is to be attributed to the concept of the invention, since in current systems with electrolytic cell, the secondary disturbance effect - namely the formation of oxygen and the oxidation of ammonium ions into nitrate as a reaction secondary - is definitely useful.

For example, the published patent DE 4218 843 A1 describes a process, which proposes the removal of the nitrate from the corrosive product by reaction with a reducing agent.

In this case, the acceleration effect of the nitrate on the corrosive process has been totally neglected, an effect which, in case of subtraction from the corrosive product, no longer occurs if the residual content is between 10 and 40 g / l.

According to the invention, the nitrate which forms in the corrosive product on the electrodes of the electrolytic cell has a concentration comprised between a minimum of 50 and 200 g / l. In this way, a considerable acceleration of the corrosive process is obtained.

To avoid excessive nitrate concentration, it is recommended to add reducing agents if the values increase too much.

Formaldehyde is recommended as a particularly effective reducing agent, an experimented product, known in the electroplating field.

A higher nitrate content, associated with added reducing agents as indicated by the invention, also improves the separation of metals in the electrolytic cell, since, for example for copper, the reduction from copper II to copper I, necessary for the separation, is accelerated. of copper itself.

The process proposed by the invention with a high nitrate content has the further advantage of being usable also for certain acceleration additives, for example based on compounds containing vanadium.

The invention also proposes the addition of accelerators containing selenium or cobalt.

The advantages of the proposed processes are evident, since they do not form substances that affect the corrosion process.

Examples of corrosive solutions are listed, as per invention, with traces of vanadium as an accelerator:

Solutions 1 and 2 also contain ammonia for adjusting the alkaline pH value.

It is known that the corrosion rate depends on the temperature and the pH value. In the examples of corrosive solution proposed by the invention, temperatures ranging from 35 ° C to 60 ° C, pH values ranging from 8.1 to 8.8 and a nitrate content of 70-80 g / 1 were found to be optimal.

It is not crucial to add and dose the reducing agents to avoid too high nitrate concentrations. In most cases, a weekly analysis and addition is sufficient.

Obviously it is also possible to dose the addition continuously, for example by means of dosing pumps, since the formation of nitrate is more or less proportional to the quantity of separated copper and / or to the current balance of the electrolytic cell and as such, it can be easily calculated in advance.

If the addition of reducing agents is dosed continuously, it is recommended to carry out it close to the electrolytic cell, for example at the power supply, in order to obtain a better result, such as for example in the transformation of copper II into copper I.

Claims (7)

CLAIMS 1. Accelerated corrosion process with ammonia corrosive products and subsequent regeneration of the corrosive product, in which the corroded metal is separated in an electrolytic cell, characterized by the fact that the nitrate formed during electrolysis in the corrosive product has a minimum concentration 50 up to 200 g / 1. 2. Process according to claim 1, characterized in that the excessive increase of the nitrate concentration beyond an optimum working point is prevented by adding reducing agents. 3. Process according to claim 2., characterized in that formaldehyde is added as a reducing agent. 4. Process according to one or more of the preceding claims, characterized in that an accelerator containing vanadium is further added to the corrosive product. 5. Process according to one or more of the preceding claims, characterized in that an accelerator containing selenium is added. 6. Process according to one or more of the preceding claims, characterized in that an accelerator containing cobalt is added. 7. Process according to one or more of the preceding claims, characterized in that the reductant is added close to the electrolytic cell.