DE140032C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to a method for condensing metal vapors, in particular of zinc, antimony, mercury and cadmium, creating a lighter and more complete Condensation of the vapors is achieved than before, especially when the vapors are diluted to a considerable extent with other gases, such as carbon dioxide gas and nitrogen. The invention consists essentially in the metal vapor from the Still liquefied in numerous thin jets by a mass of the same To allow metal to pull through, which, however, can be obtained at a considerably lower boiling point, i.e. H. only if possible receives a temperature slightly above its freezing point. A recommendable one Safety measure consists in covering the surface of this metal with a layer of a liquid or powdery, non-oxidizing or neutral substance. For According to the inventor's experience, zinc has been made up of zinc chloride either alone or with caustic alkali and tartrate of potash, mixed in approximately equal amounts, has proven to be good.

You can also use charcoal powder for all of these metals. Chlorine cadmium and potash can be used for cadmium; For mercury there is no need for a covering layer at all, but if necessary a thin layer of petroleum with a high boiling point or a thin layer of charcoal powder can be used for this. For potassium and sodium, any oxygen-free liquid hydrocarbon of high boiling point, or a mixture of the chloride and oxide of the metal, is suitable. To carry out the 40

Any suitable means can be used for fumes from the bath; for example, the vapors can be removed with the aid of a pump or an exhaustor aspirate it, or push it through the bath, or you can apply the pressure of the vapors in the retort itself to this Purposes. It is best to let the vapors into the lower part of the molten liquid in the form of numerous thin jets Metal enter, or you can also take the device that the fumes through a number of small tubes to be dipped down into the bath are pressed through. In this way, metal vapor, which to a considerable extent with carbon oxide gas or another neutral gas is diluted, condensing with ease while turning up to now zinc smoke, especially if the same to a considerable extent with carbon oxide gas, Carbonic acid and nitrogen were mixed up, did not condense, and even with mercury a significant loss occurs when the mercury fumes with the combustion gases are mixed up and pulled through ordinary capacitors.

In the liquid condenser according to the present invention, if only one A small amount of liquid zinc or the like is present, the whole amount of metal is taken up. It is obvious that, instead of the gases, one should use the gaseous ones contained therein Metals pass through a mass of the same metal in the molten state to let the molten metal itself in the form of a fine spray through the Can let gases fall through; it has

but this approach is far inferior compared to letting the gases themselves pass through the metal bath.

To better illustrate the invention, a sectional view is included showing the metal bath and the outlet of the retort. By the contents of the retort or consisting of ore and coal or coke χ

\ o Muffle y pull the gases through in order to flow further in the direction of the arrow through the vertical channels ν and the metal bath /. The drain opening r remains closed by a pin until the zinc or the like in the bath has reached the appropriate level; then one pulls out the pin, whereupon the bath goes down to its usual level and the siphon closure η then comes into effect.

In order to regulate the temperature of the metal bath, either a heating medium or a coolant is let into the cavity η above it.

Claims (3)

Patent Claims:
. i. Process for condensing distillable metals, characterized in that the metal in vapor form is passed in numerous thin jets through a molten bath of the same metal which is kept at a temperature well below the boiling point of the metal. 2. Embodiment of the method according to claim 1, characterized in that the metal bath with a non-oxidizing, neutral liquid or powder Covered substances which, if it is liquid, have a boiling point below the melting point of the metal used. 3. Embodiment of the method according to claim 1, characterized in that the metal vapors enter the molten bath through a number in the molten metal submerged pipes are supplied to thereby break the vapors into numerous thin streams. 1 sheet of drawings.