SU37076A1 - Method for the production of potassium sulfate and hydrogen chloride - Google Patents

Description

The method of decomposition of potassium chloride with sulfur dioxide in the presence of oxygen from the air to produce potassium sulfate and hydrogen chloride, proposed by Gargreaves, lasts for such long periods of time that, despite the significant technical advantages of this method, its application on an industrial scale has not found wide distribution. At one of the existing factories, the production process lasted from three to four weeks, and there are indications in the literature (Keppeler, Chim. Fnd, 1905) that various methods of accelerating this process have not yet achieved practical results.

At present, its time has been proposed to use catalysts for this process. It turned out that some of them are able to accelerate the process by a factor of ten.

Such catalysts include alloys and chemical compounds containing oxides of iron, ammonium, silicon and alkali.

Example 1. Chemically pure potassium chloride was uniformly mixed with 1% finely chopped, passed through a sieve with 4900 openings per 1 s.i2, slag containing 57% FeO,

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 Si02, 10% Llo, 5% Mazo and 1% MgO. As a result of the treatment of potassium chloride mixed with this slag, sulfur dioxide and air in the presence of water vapor, it was possible in 1, i-2 hours to achieve up to 95-97% decomposition of potassium chloride and its transition into potassium sulfate. Without slag-catalyst the same process for 20 hours. showed the degree of decomposition of potassium chloride about 5%.

Example 2. The same admixing of slag obtained from 96% ReZoz, 3% clay and 1% CaO to potassium chloride made it possible to extract 90% of decomposition of potassium chloride in 2 hours.

In a number of other experiments, slags were prepared - catalysts by fusing pyritic butts or iron oxide with clay, sodium bicarbonate and other alkaline and alkaline earth compounds.

The optimal standards used in the experiments of catalysts were from 0.5 to 1% by weight of potassium chloride.

When mixing potassium chloride with the above catalysts, in an amount up to 0.5% by weight of potassium chloride, by passing sulfur dioxide in excess against the stoichiometric norm with

fine grinding of salt and catalyst; it is possible to obtain a product containing 99.8% K2SO4 within one hour.

Several tens of experiments have confirmed that the previous difficulties in the implementation of the studied process, caused by its slowness, due to the use of these catalysts at the present time, can be "considered eliminated.

The subject matter of the invention.

A method of producing potassium sulphate and hydrogen chloride from potassium chloride when treated with sulfur dioxide and air according to the method of Gargreaves, characterized in that potassium chloride mixed with slags of metallurgy or thermal production of phosphorus is used for the reaction.