DE581557C - Process for compressing sulfur and arsenic from gases containing sulfur arsenic - Google Patents

Description

Process for compressing sulfur and arsenic from arsenic-containing sulfur Gases When smelting sulphide ores containing arsenic in a shaft furnace in an upper one Part of the furnace's neutral or reducing atmosphere, the arsenic and the im going on Sulfur present as a volatile arsenic compound along with ore the furnace gases and can, if the outside air is shut off from the furnace and the pipes from the gases as arsenic sulfur with varying arsenic or sulfur content be condensed.

If the arsenic sulfur were present alone in the gases, leave it at a temperature which is considerably higher than the melting point of arsenic sulfur, condense completely and would in this case be obtained in a liquid state and can thus be easily withdrawn from the condenser. Because the presence of non-compressible gases such as carbonic acid, carbon dioxide and Nitrogen must be in the furnace gases, but the condensation and deposition of arsenic sulfur take place at a considerably lower temperature, generally the melting point of arsenic is obvious.

Usually the condensation starts at a temperature above is the melting point, the condensate being obtained in liquid form; ever after the sulfur arsenic has condensed out, the temperature must be reduced, so that the condensation does not stop, which is why part of the sulfur arsenic is under the melting point is deposited, whereby it is obtained in solid form. In this way one obtains both liquid and solid arsenic, which together form a semi-liquid, sticky mass, which in the connecting tubes and adheres to the compression walls and only with great difficulty of has this .removed. This causes such great disadvantages that the Making it almost impossible to maintain regular operations.

The invention relates to a method of overcoming these difficulties to eliminate. The invention is that, the arsenic-containing gas before : it has been cooled so much that condensation occurs with one indifferent gas is diluted in such a large amount that no considerable condensation of arsenic sulfur takes place above the melting point of arsenic sulfur. When cooling the precipitated arsenic is obtained as a powder: obtained without Difficulty removing from the condenser.

To facilitate cooling, it is advantageous that the diluting, indifherente gas has a relatively low temperature because the condensation device themselves can thereby run with smaller dimensions. The temperature of the gas mixture should then after the addition of the indifferent. Gas is best with or below the dew point in this gas mixture and, as mentioned above, below the melting point of arsenic.

A part of the cooling gas can advantageously be used as the diluting gas Use obtained, non-condensable gas. This is already in the capacitor cooled to low temperature; but you can, if @ desired, to a Lower temperature to cool in a special cooler before moving it to the arsenic sulfur Gases is introduced.

The process can also be used for other gases containing arsenic sulfur; that contain permanent gases, such as furnace gases.

The arsenic sulfur powder obtained can be melted without the admission of air be converted into larger pieces, which is desirable for transportation and storage can be. Such a melting has the advantage that the same time with the Arsenic sulfur, if necessary, precipitated arsenous acid is mixed with the arsenic sulfur converts so that the melt is free of arsenic acid.

Claims (1)

PATENT CLAIMS: i. Process for the extraction of arsenic in solid Form from a gas mixture containing sulfur and arsenic, which apart from this also contains permanent gases, characterized in that the gas mixture at one over its - dew point lying temperature indifferent gas supplied in such a large amount is that when cooled, arsenic arsenic turns into powder form without substantial liquefaction condensed. a. Method according to claim i, characterized in that. the indifferent Gas has such a low temperature before its addition. that! that after the addition The gas mixture obtained had a temperature that was at or below the dew point des - sulphurous arsenic. 3. The method according to claim i, characterized; that as an indifferent gas a part of that received during the condensation of the sulfur arsenic @, non-essential gas is used. q. Method according to claim i, characterized in that that 'arsenic sulfur, which is compacted as a powder, is fused without admission of air.