SU570551A1 - Method of wet separation of potassium sulphate semihydrate - Google Patents

Description

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This invention relates to methods for the removal of calcium sulfate hemihydrate and can be used in the chemical industry for the production of phosphoric acid.

There is a known method of preventing the calcium sulfate hemihydrate from setting by treating it with stabilizing agents such as sodium or potassium silicates.

The disadvantage of this method is that during storage on the ground of a stabilized sediment, alkalization of the ground water sources occurs and, consequently, pollution of the environment.

There is also known a method for the removal of calcium sulfate hemihydrate in the presence of a stabilizing agent, which uses an aqueous solution of ammonia.

The disadvantages of this method are the low stability of calcium sulfate hemihydrate (the hydration time of the hemihydrate is 2-3 hours) and the harmful effect of ammonia on the environment.

The purpose of the invention is to increase the stability of calcium sulfate hemihydrate and reduce the toxicity of wastewater.

The goal is achieved by the proposed method of hydraulic removal of the hemihydrate

Calcium sulphate in the presence of a stabilizing reagent. Calcium-containing compounds are used as an amount of 4–7, preferably 4.5–6.5, for the liquid phase of the hemihydrate suspension.

As calcium compounds, a mixture of calcium carbonate and calcium oxide hydrate is used, taken in a ratio of 10-1; 1 -10, preferably 1: 1-3.

It is also advisable to use alumina production wastes containing p-dicalcium silicate and having a composition, mass. %: calcium oxide - 54-57, silicon dioxide - 29-30, the rest is alumina and other impurities.

The difference of the proposed method is the use of calcium-containing compounds as a stabilizer reagent, which allows to increase the stability of calcium sulfate hemihydrate (the time of hydration of the hemihydrate increases to 10-12 hours) and to reduce the toxicity of effluent PODs, since they contain no harmful impurities.

Example 1. 1.33 t of calcium sulphate iolihydrate washed from phosphoric acid, containing 25% moisture, 0.2-0.4% fluorine and

2.0% of phosphoric anhydride, repulping 4.6 tons of water, adding simultaneously 38 kg of p-dicalcium silicate (in terms of calcium oxide 20 kg). By introducing the reagent, the pH of the liquid phase of the suspension is set at 4.5. The suspension is stirred for 10-15 minutes and pumped to the storage site on the sludge field. The total hydration time of the hemihydrate is 10 hours.

Example 2. 1.33 tons of calcium sulfate hemihydrate precipitate washed out from phosphoric acid, containing 25% moisture, 0.4-1.2% fluorine and 1.0% phosphoric anhydride, repulsively 4.6 tons of water, adding 7.6 simultaneously kg of calcium carbonate and 7.6 kg of calcium oxide hydrate (the total content of calcium oxide is 10 kg, the weight ratio of calcium carbonate to calcium oxide hydrate is 1: 1). By introducing the reagents, the pH of the liquid phase of the suspension is set to 5. The suspension is stirred for 10-15 minutes and pumped to the storage site to the slurry field. The polymerization time for the hemihydrate is 12 hours.

4 Formula, and II 3 o b re shadow

Claims (3)

1. Calcium sulphate iulide hydrate desalination method in the presence of a stabilizer reagent, in order to improve the stability of calcium sulphate aluminate and reduce the toxicity of wastewater, calcium-containing compounds are used as a stabilizer reagent. which take in an amount that provides the pH of the liquid phase hemihydrate slurry from 4 to 7, preferably from 4.5 to 6.5. 2. A method according to claim 1, characterized in that a mixture of calcium carbonate and calcium oxide hydrate is used as a stabilizing agent, taken in a ratio of 10-1: 1-10, and preferably 1: 1-3. 3. The method according to claim 1, characterized in that the reagent-stabilizer used is alumina production waste, containing p-dicalcium silicate and has a composition, mass. %: Calcium Oxide 54-57 Creme Dioxide 29-30 Aluminum Oxide Else