DE1008222B - Process for the flotative processing of crude potash salts - Google Patents

Description

Process for the flotative processing of crude potash salts for flotation of high-percentage potassium salt from a suspension of finely ground sylvinitroh salt In saturated saline solution, aliphatic amines are predominantly used as flotation agents with a chain length of 8 to 24 carbon atoms are used. To get the foam in Adjust the consistency and quantity to an optimum with regard to its discharge, auxiliaries such as alcohols, terpene alcohols, etc. are added. Furthermore is known, to facilitate the floating of larger potassium salt particles in addition Use heating oil, coal tar oil or kerosene.

It has now been found that the flotation can be considerably improved both in terms of concentrate level and output by keeping the boundary between foam and operating liquor, which as a rule gradually merges into one another, is kept sharp. It has also been found that tetralin, decalin and similar substances, added in small amounts during flotation, produce this effect. The mode of operation of the method according to the present invention can be readily seen in detail from the examples. EXAMPLE 1 In a sylvinitroh salt flotation which had been running for a long time with constant results with an hourly throughput of 15 t of sylvinitroh salt with 270 / o KCl with the addition of 32g of alkylamines and 20g of a hexanol per t of crude salt, the supply of hexanol was interrupted and replaced by 24g of tetralin. The foam immediately became drier and at the same time formed a sharper border with the operating liquor underneath. It was much easier to filter than without the use of tetralin. As the figures in the table below show, the content of the floating potash salt rose immediately and the potash content of the residue assumed lower values. 0/0 K C1 content floated salt residue ongoing process 91.8 1.30 Replacement of the hexa- nols through Tetralin after 1 hour 93.5 1.43 after 2 hours 94.5 94.8 0.79 1.03 after 3 hours 96.7 0.87 Example 2 In a sylvinitroh salt flotation which had already been running for a long time with constant results with a throughput of 17 t of sylvinitroh salt per hour with 31.7% KCl with the addition of 49g of alkylamines and 22 g of a hexanol per t of crude salt, the supply of the hexanol was interrupted and replaced by 25 g decalin replaced. The foam immediately became drier and at the same time formed a sharper border with the operating liquor underneath. It was easier to filter than without the use of decalin. As the numbers in the table below show, the content of the floated potash salt rose immediately and the potash content of the residue assumed lower levels. % K Cl content floated salt residue ongoing process 83.55 2.25 Replacement of the hexa- nols through Decalin after 1 hour 86.25 1.0 after 2 hours 86.90 86.8 1.25 1.2 after 3 hours 87.35 1.45 The improvement of the floated salt with regard to its potash content is of particular economic importance, since essentially only highly concentrated potash salts can be sold abroad. The lower potassium content in the residue results in a higher yield. The better filterability of the resulting potash salt foam enables extensive mechanical dewatering and thus a saving in drying costs.

Claims (1)

PATENT CLAIM: Process for potash salt flotation with the help of alkylamines as a collector foamer, characterized in that tetralin, decalin or the like Reagents as a means of sharply separating the foam layer from the pulp can be added. Publications considered: German Patent No. 906 321.