PL17364B1 - A way to separate minerals by swimming. - Google Patents

Description

It is known that different minerals can be separated from each other by interaction. According to this method of separation, the minerals are suspended in water with the addition of a variety of chemicals and oils, and a foam is produced which carries one or more of the minerals. A characteristic feature of the interaction is the use of water as a medium for producing foams and suspending the minerals. The present invention makes it possible to carry out the interaction of water-soluble minerals, or to conduct the interaction under completely different conditions. with regard to the liquid used, and therefore, by expanding the applicability and the execution, it presents considerable technical advantages. rl "" "" T "" ". Experience has shown that it is quite possible to apply the treatment of water-soluble minerals such as table salt, potassium, magnesium and other salts to separate them from each other. relative separation of how many accompanying these minerals can be carried out by using as a medium in which to suspend these minerals, saturated solutions of the corresponding salts, all or part of them, in order not to These minerals are soluble in water during the swimming-time. Since some losses occur in the liquid medium during the swimming, you can add a little water to the saturated solution, so that the solution is not completely saturated and only saturates over time. Moreover, the interaction will be carried out in a manner known by the addition of chemicals, foaming agents in saturated salt solutions and oils, which contain only certain minerals. y show the results of the present method. Example L The so-called salt cone, consisting of table salt, how many and small amounts of accompanying minerals such as anhydrite, potassium and magnesia salts were ground in a ball mill for grains below 0, 2 mm in diameter, in the amount of 1 kg. This dust was treated with six liters of brine and coalesced in an acidic solution with the addition of turpentine. After repeating the interaction several times, it was possible to separate the entire quantity in the foam, and thus a pure table salt was obtained, containing an insoluble anhydrite. The expenditure was about 700 g, the amount of the combined amount was 270 g and the loss was 30 g. Example II. The clay sivinite, after grinding to grain of about 0.2 mm, was treated with a six-fold amount of a solution of saturated kitchen salt and potassium chloride at the usual temperature. The suspension was also subjected to the interaction of turpentine and the xylol fraction from the gaseous fluid. The foam contained an abundance and a portion of table salt, which was too much overgrown, with a relatively very small amount of potassium chloride. The sediment in the solution, on the other hand, contained enriched silicium, and slight amounts of table salt and anhydrite. Small amounts of the magnesia salt passed into solution. The efficiency of this process, based on the value component potassium chloride, was about 70%, and the final product, obtained by filtration, was enriched with respect to the raw material containing 20% KCl, for the product containing about 35% KCl. PL

Claims (1)

1. Patent claim. A method of separating minerals by swimming, characterized by the fact that the interaction is carried out in solutions which are saturated or nearly saturated with salts or with salt components, and those which are in equilibrium with all or parts of the minerals subjected to interaction, or in saturated solutions substances in which the minerals are not soluble or only very slowly dissolving. Joint stock company for the exploitation of potassium salts. Print by L. Boguslawski and Ski, Warsaw, PL