SU530004A1 - The method of obtaining gypsum surviving - Google Patents

Description

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This invention relates to a process for the manufacture of live materials, in particular, to methods for the production of gypsum materials for living in a liquid medium.

A known method of obtaining gypsum in living by dehydration of phosphogypsum in a liquid medium. However, this method results in a low quality one.

There is also known a method for producing gypsum gypsum in living by dehydrating phosphogypsum in a liquid medium under pressure in the presence of a crystallization regulator at a pH less than 7. This method is closest to the described invention in its technical essence and the achieved result.

The disadvantage of this method is the fast setting time and the decrease in strength in the grip during solidification in an alkaline medium, for example, in the composition of displaced gangs.

The aim of the invention is to slow down the setting time and increase the strength when cured in an alkaline medium.

This is achieved by the fact that the dehydration of phosphogypsum is carried out at pH 8-14.

An alkaline medium with a pH of 8-14 is created by introducing an alkaline component, such as lime, into the phosphogypsum suspension. As a result, phosphoric acid, phosphates, fluorides, and other impurities that are in a free state in phosphogypsum and embedded. into crystals, bound in poorly soluble compounds and not incorporated into the resulting crystals with α-hemihydrate.

The method is carried out as an example, as follows: the initial clefts of phosphogypsum with pH 1-7 are repulped with water or recycled filtrate to a F / T of about 1, lime is added to the resulting suspension in an amount of 0.5%, while the pH of the slurry rises to 9,

The impurities present in the liquid phasephospho gypsum interact with calcium ion, bound to poorly soluble compounds. To obtain large crystals of poddrate, a hemihydrate crystallization regulator is added to the suspension, with a quantity of 1.0% by weight of dry phosphogypsum.

The resulting mixture is subjected to heat treatment, in an autoclave, under a pressure of 3 atm at a temperature of 13 ° C (with continuous suspension stirring). During processing, phosphogypsum is dehydrated from a supersaturated solution having an alkaline | The medium is crystallized from calcium sulfate hemihydrate, pC-modification. The impurities released from the phosphogypsum crystals when it is dissolved, are bound to the ion: calcium into poorly soluble compounds and remain in the substance as an inert component, which does not significantly affect its own substance. After dehydration of phospho; gypsum hemihydrate suspension under the action; overpressure flows to the vacuum filter. Filtered hemihydrate grred for drying and grinding.

Result of tests for residents in the table The developed method makes it possible to slow down the time taken for the gypsum to strangle to harden by 2-3 times, in particular, as part of the mixture of the survivors, for example, gypsum-cephalopuzzolanic, and 3-4 times more yu1tsegos in the same usinov Col x.

The method can be used in the building materials industry for the production of gypsum from phosphogypsum in ginger used in the composition of gypsum-cement-psuzuolan compositions.

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Claims (1)

The invention of the crystallization torus, o tl and h a y n and y The method of obtaining gypsum binding and increasing the strength of the primer by dehydration of phosphogypsum in liquid depiction in an alkaline medium, dehydration of fossadium under pressure in the presence of regulogypsum is carried out at pH 8-14, 530004 so that in order to slow down