SU420556A1 - - Google Patents

Description

(54) METHOD FOR OBTAINING PHOSPHORIC ACID

one

The invention relates to the production of phosphoric acid, which is widely used in many industries, in particular in the chemical industry in the production of mineral fertilizers.

A known method of producing phosphoric acid by decomposing phosphates with sulfuric acid, followed by repulping, and washing calcium sulfate lolhydrate with solutions of salts of nitrates, phosphates, chlorides, ammonium, sodium, potassium.

The disadvantage of the known method is the multistage Phase separation process and the additional consumption of reagents: nitrates, phosphates, ammonium, sodium and potassium chlorides, as well as the large amount of waste water contaminated with gypsum, fluorine and phosphoric acid, and the need for their sanitary cleaning.

In order to simplify the process and improve the filtering properties of calcium sulfate hemihydrate, it was proposed to stabilize calcium sulfate hemihydrate with concentrated phosphoric acid with a concentration of 35-54% IL.And to supply a suspension of calcium sulfate hemihydrate in concentrated phosphoric acid in the amount of 3-30% to the stage of phosphoric acid decomposition.

The proposed method is carried out but the following technological scheme. Pulp of phosphoric acid and calcium sulfate hemihydrate, obtained by phosphate sulfate decomposition, are filtered and, with countercurrent washing of calcium sulfate hemihydrate with water, it is divided into two parts on the filter. One part (the top layer of crystals) is dumped into the heap, and the other (large crystals

calcium sulfate hemihydrate, left on the filter) —contaminated with concentrated phosphoric acid (35-54% P2O5) or a suspension of calcium sulfate hemihydrate in concentrated phosphoric acid.

In the process of mixing calcium sulphate hemihydrate with concentrated phosphoric acid, the calcium sulphate hemihydrate left on the filter is stabilized and is prevented

dihydrate and, as a result, zappsovanie communication. In order to improve the filtering properties of calcium sulfate nuggrate, the latter is washed from the filtrate with phosphoric acid H as a seed.

crystals in the decomposition of phosphate and crystallization of calcium sulfate hemihydrate.

Prnmer 1. 175 kg sludge calcium sulfate hemihydrate, washed from phosphoric

acid water containing 140 kg CaS04X

X 0.5 H2O and 35 kg of water are treated on a filter at 78-88 ° C with 4200 kg of a suspension of calcium sulfate hemihydrate containing 1400. kg of CaSO4XO, 5 NgO and 2800 kg (50% PsOs) of phosphoric acid. In this case, the calcium sulfate hemihydrate, washed with water, is stabilized and the filtering fabric and communications of the filter unit are prevented from plastering.

The resulting slurry is filtered and washed with 300 kg of water according to the counterflow principle.

As a result of the phase separation and washing operation, 3285 kg (42.7% of PgOb) of phosphoric acid and 1925 kg of calcium sulfate lolhydrate sludge containing 1540 kg of CaSO4XO 5 H2O and 385 kg of water are obtained. 1,750 kg of calcium sulfate hemihydrate slush with water is dumped; 175 kg recycle during filtration.

Example 2. 9 kg of calcium sulfate lolhydrate sludge washed with phosphoric acid with water containing 7 kg of CaSO4XO, 5 HgO and 2 g of water are treated on the filter with 150 kg (42% of P2O5) of phosphoric acid at 70 ° C. When this occurs, calcium hemihydrate is stabilized and its recrystallization to calcium sulfate dihydrate is excluded. The resulting stabilization hemihydrate of calcium sulfate hemihydrate in phosphoric acid is removed from the filter during the decomposition of the FF | Sfat.

159 kg of calcium sulfate lolhydrate suslysis in phosphoric acid, containing 7 kg of CaS04XO, 5 P20, and 152 kg of phosphoric acid at a concentration of about 41% P2O5, are directed to the process of sulfuric acid decomposition of phosphate.

The introduction of calcium crystalline sulfate hemihydrate during phosphate decomposition drastically improves the filtering properties of calcium sulfate hemihydrate, which crystallizes during the process of sulfuric acid phosphate decomposition.

Filtration capacity is increased in the L-hydrate and process by 30% and amounts to 1750 kg / hour CaS04X0.5 P20 instead of the existing one - 1300 kg / hour CaSO4X 0.5 H2O.

Subject invention

Claims (3)

1.Sposob lolucheni phosphoric acid by the sulfuric acid decomposition phosphate, filtering the resulting slurry of calcium sulfate hemihydrate followed by repulping, washing and stabilization of calcium sulphate hemihydrate, characterized in that, in order to simplify the process and improve the filtering properties lolugidrata calcium sulfate, calcium sulfate hemihydrate stabilization are phosphoric acid or a suspension of calcium sulfate hemihydrate in concentrated phosphoric acid. 2. A method according to claim 1, characterized in that the phosphoric acid is taken at a concentration of 35-54%. 3. Method according to paragraphs. 1 and 2, characterized in that a suspension of calcium sulfate hemihydrate in phosphoric acid in an amount of 3-30% is fed to the stage of the sulfuric acid decomposition of phosphates.