DE575046C - Process for removing silver and bismuth - Google Patents

Description

Methods for Removing Silver and Bismuth The present invention relates to a process for removing silver and bismuth from lead in one three-step operation. The silver is ixi known in the Parkes process removed by zinc. In a further step, the bismuth is replaced by an alkaline earth metal eliminates what is also known per se. however, the demutation takes place according to according to the invention, preferably by calcium, without the lead being dezincified beforehand will. It turned out that the demutation, contrary to expectations, despite the presence of zinc, on the order of; as is the case with desilvering remains in the work lead, is not disturbed. With the great affinity of calcium Such knowledge is surprising about zinc, and it offers in the present Application form significant advantages. The elimination of zinc and in minor Amounts of remaining alkaline earth metal is done with the help of chlorine.

The alkaline earth metal used for de-mutation, preferably the calcium, is expediently in the form of an alloy, expediently one Calcium-lead alloy, added.

The elimination of bismuth by the method described is over the more perfect the lower the temperature at which one works. It has It turns out to be advantageous that the bismuth is in the form of a bismuth - lead - calcium - Foam, which also contains zinc, is removed below 35o ° C.

By progressively cooling the bath to almost freezing point of lead, d. H. around 330 °, you can get more amounts of scabies that too still contains bismuth. This scabies can be peeled off, poured into blocks and covered with the forming crusts together with a new load before the bismuth extraction, d. h .. so be added at the same time with the alkaline earth metal. This reduces calcium consumption.

The bismuth foams containing zinc and calcium are no longer required benefited by treatment with chlorine under a zinc chloride blanket. It is in this way possible to remove the calcium first, because of its larger size Affinity for chlorine increases with the formation of a calcium chloride blanket on the surface and is exhausted-. This is followed by further chlorine treatment Zinc in the form of a chlorzinkreiel.en salt or in the form of pure chlorzinc separated. This way of working allows the lead to be completely removed from the very liquid slag constituents to be secreted because the air is kept out by the salt cover, so that oxidation does not occur and that a very thin, pure metal bath is obtained will.

One can also work up the bismuth foams in such a way that one It melts under a blanket of calcium chloride-rich salt, creating a clean Separation is effected in two layers. Then the metal is separated from the chloride ceiling, it segregates and recovers the zinc by distillation in the well-known furnaces. The zinc can then be used again for desilvering.

Claims (6)

PATENT CLAIMS: i. Process for removing silver and bismuth made of lead, characterized by a three-stage process, the first of which Silver stage through zinc, in the second stage bismuth without prior dezincification of the lead by an alkaline earth metal, preferably calcium, and in its third Stage the zinc and the alkaline earth metal are removed from the lead by introducing chlorine will. 2. Embodiment of the method according to claim i, - characterized in that when calcium is used to de-mutate the work lead, the calcium is added in the form of an alloy, preferably a calcium-lead alloy. 3. The method according to claim i or 2, characterized in that the peeling off the bismuth-containing foam takes place at low temperature (below 35o °). q .. Method according to claim 3, characterized in that the last occurring bismuth-containing foams and crusts of a new charge at the start of de-mutation be added again. 5. Procedure for carrying out the chlorine treatment according to Claim i, characterized in that the bath after subtracting the bismuth containing Foams are heated and chlorine is introduced under a zinc-chlorine blanket, whereupon the first the calcium chloride-rich salt cover from the later zinc-chloride-rich salt cover is separated. 6. A method for working up the in the method according to claim i to 3 resulting bismuth foams, characterized in that the foams with the calcium chloride-rich salt obtained in the process according to claim 5 is melted are segregated, the metal separated from the chloride blanket and from the zinc-rich Seiger residue the zinc is recovered by distillation and at the desilvering step is added.