The invention relates to a permanent cathode according to the preamble of claim 1 to be used as electrode in the electro-refining and/or recovery of metals, such as copper, zinc, cobalt or nickel.
The invention can be applied, for example, to the electro-refining of copper, wherein anode copper in the form of anodes is transferred onto cathodes by means of an electric current to provide cathode copper. The electro-refining of copper takes place is tanks, in which the anode copper and cathodes are placed by turns and which contain electrolytic liquid. The invention can also be applied, for example, to the electrolytic recovery of copper, nickel, cobalt or zinc.
At present, modern metal electrolyses mainly use what is called a permanent cathode technology, which is based on reducing a metal, such as copper, onto the surface of the mother plate of a permanent cathode made of a suitable steel grade. The metal in the form of a cathode metal half, such as a cathode copper half, is easy to strip from the surface of such a mother plate by a machine (stripping machine) that is built for the stripping. An advantage of the process over the conventional starter sheet technology includes the ability to recycle the permanent cathodes back to the process, and their good flatness (straightness).
The first permanent cathode plants employed what is called the ISA technology, wherein the detachability of the cathode metal was ensured by using a suitable wax both in connection with the edge strips on the sides of the mother plate and on the bottom edge of the mother plate. In the method, one permanent cathode always yields two separate cathode metal halves (both growth halves are separated, the weight being half of the conventional cathode metal). However, the wax used in the method may cause problems both in the electrolysis process and the quality of the cathode metal. Some also consider the light weight of the cathode metal halves to be a problem, as it influences the casting capacity of the foundry in foundries, where the cathodes are fed into the melting furnace one by one.
Another prevailing permanent technology used is the so-called Kidd process, wherein the waxing of the bottom edge of the mother plate of the permanent cathode is omitted and the cathode metal halves are allowed to grow together at their bottom edges, resulting in what is called a taco cathode. If the bottom edge of the permanent cathode plate is completely flat, problems may arise when stripping the metal, as the metal partly gets stuck at the bottom edge of the mother plate. Due to this, the cathode metals thus obtained may have to be pressed straight or straightened in another way, since in stripping, the lower parts of the cathode metal halves curve to some extent, forming a crease/bag.
Both technologies have further been improved by cutting a V groove on the bottom edge of the permanent cathode mother plate. When a suitably deep V groove is used in the ISA technology, the cathode metal halves break off from each other at their bottom edges without waxing. In the Kidd technology, the V groove furthers the stripping of the cathode metal but may cause the cathode metal halves to break off from each other. In that case, some metal cathodes are of the taco style and some are of the ISA style. This in turn may be problematic for the user of the cathode.
In addition to the depth and shape of the groove, the running parameters used in the electrolysis also influence the detachment of the cathode metal halves from each other, when producing taco cathodes. These include, among others, the composition of the electrolyte, e.g., the additives and temperature, the mutual dimensions of the anodes and the cathodes, and their distance from each other and the current density used. Consequently, optimizing the depth and the shape of the groove may be quite challenging, as different electrolytic plants have their own preferences regarding the running parameters of the process.
Publication U.S. Pat. No. 3,798,151 presents a permanent cathode plate.
Publication WO 2004/097076 presents a permanent cathode plate.
The object of the invention is to provide a novel permanent cathode, which solves the problems mentioned above.
The object of the invention is achieved by the permanent cathode according to the independent claim 1.
The preferred embodiments of the invention are described in the dependent claims.
The structure of the edge of the permanent cathode mother plate according to the invention ensures the adhesion of the cathode metal halves, such as cathode copper halves, to each other when stripping the cathodes.
In a preferred embodiment of the permanent cathode according to the invention, the edge of the permanent cathode mother plate comprises two essentially parallel side edges and a bottom edge. In this preferred embodiment, a groove portion is formed on the bottom edge and the groove portion comprises at least one V groove and at least one flat portion that provides a bridging section between the sides of the mother plate. Such a structure combines the best properties of both the V groove and the flat bottom edge, so that the V groove ensures an easy stripping of the cathode metal and the straight portion ensures the adhesion of the cathode metal halves, such as cathode copper halves, to each other (a “hinge”). For example, at least one V groove is cut in the main part of the mother plate bottom edge but, e.g., a straight bottom edge or a corresponding bridging section is left to extend over an adequately long distance. For example, the straight bottom edge can comprise one section in the middle of the mother plate bottom edge and the length of the straight bottom edge may be about 5-about 50 cm, more preferably about 10-about 40 cm, most preferably about 20-about 30 cm, or it may consist of several short sections. In addition to the adhesion of the cathode metal halves, such as cathode copper halves, one advantage of the structure is that the short straight section does not cause a crease/bag in the lower part of the cathode metal halves, such as cathode copper halves. In that case, the separate pressing straight or straightening of the cathode metal, such as cathode copper, is not needed.
The principles of the invention are found in the structure of the metal, such as copper, which is reduced onto the bottom edge of the permanent cathode mother plate. Without the V groove, the metal, such as copper, precipitates as uniform growth that has no separate boundary surface to facilitate breaking. With the V groove, a clear fracture zone is formed in the growth of the metal, along which the detachment of the cathode metal halves, such as cathode copper halves, from each other takes place.
In the following, some preferred embodiments of the invention are described in detail with reference to the appended figures, wherein:
The figures show the permanent cathode 3 that is to be used as electrode in the electro-refining and/or recovery of metals, such as copper, nickel, cobalt or zinc.
The permanent cathode 3 comprises a planar mother plate 4 that is made of metal and comprises two sides 5.
The mother plate 4 comprises an edge 6, which at least partly surrounds the metal plate.
The edge 6 comprises a groove portion 8 provided with a groove 7.
The groove portion 8 comprises at least one bridging section 9 for joining together, over the groove portion 8 of the edge 6 of the mother plate 4 at the said at least one bridging section 9, the cathode metal halves 15, such as cathode copper halves, cathode nickel halves, cathode cobalt halves or cathode zinc halves, which are formed on the sides 5 of the mother plate 4 in the electro-refining of the metals.
In accordance with the invention it is possible that the groove portion 8 is dimensioned and/or designed such that the cathode metal halves 15 that are formed in electro-refining or electrowinning of metal on the sides 5 of the mother plate 4 are configured to at least partly be connected over the groove portion 8 of the edge 6 of the mother plate 4, and that said at least one bridging section 9 of the groove portion 8 is dimensioned and/or designed such that between the cathode metal halves 15 is at a such bridging section 9 of the groove portion 8 configured to be formed a stronger connection between the cathode metal halves 15 over the edge 6 of the mother plate 4 than between the cathode metal halves 15 over the edge 6 of the mother plate 4 at other parts of the groove portion 8.
In addition, the mother plate 4 shown in the figures comprises a suspension means 10 of the metal plate.
In the permanent cathodes 3 shown in
The groove portion 8 in the permanent cathodes 3 shown in
Deviating from
If the mother plate 4 comprises two parallel side edges 11, it is possible that at least one of the essentially parallel side edges 11 may be provided with an edge strip 13. In
According to the invention, it is possible that the groove portion 8 comprises several grooves and that the bridging section 9 is located between two grooves 7, as shown in
According to the invention, it is possible that the bridging section 9 is formed in the groove 7 so that a portion lower than the rest of the groove 7 is formed in the groove 7, providing the bridging section 9 over the groove 7, as shown in
According to the invention, it is possible that the metal plate at the bridging section 9 is essentially flat or groove-free, as shown in
According to the invention, it is possible that the bridging section 9 forms an essentially flat portion at the groove section 8, as shown in
The groove 7 is preferably, but not necessarily, a V groove.
If the groove 7 is a V groove, it is possible that the bridging section 9 is formed by at least partly removing, from the V groove, the other half of the part of the metal plate that forms the V groove at the bridging section 9, as shown in
In the following, some preferred embodiments of the mother plate 4 according to the invention are described in detail.
It is obvious to those skilled in the art that with the technology improving, the basic idea can be implemented in various ways. Thus, the invention and its embodiments are not limited to the examples described above but they may vary within the claims.
Number | Date | Country | Kind |
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20085928 | Oct 2008 | FI | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FI2009/050791 | 10/1/2009 | WO | 00 | 6/20/2011 |