SU823334A1 - Method of treatment of extractional calcium sulfate semihydrate - Google Patents

Description

one

This invention relates to a chemical technology for the processing of the extraction of calcium sulfate hemihydrate (tA-nCK) waste in the production of extraction phosphoric acid in order to obtain stable N, pec that can be easily removed to the dump or transported to the consumer.

Known suspending agents are the setting of gypsum strangers: sodium and potassium phosphates, sodium acetate, NH40H, CaCO, tartaric and citric acid, animal glue, etc. Til However, known retarders have insufficient effectiveness, scarcity and high cost.

The closest in technical essence and the achieved result to the proposed is a method of treating repulpation of A / -GGSK with an aqueous suspension of Ca (OH) and with W: T 10: 1 to a pH of 2.3 - 7.6. At the same time, after b h, after treatment, the degree of hydration dl / - PS K is 53 and 7%, respectively (for pH 2.3 and 7.6 G2).

The use of Ca (OH) 2. for delaying the setting time of the phosphopuhydrate is not sufficiently effective, since reliable operation

hydrotransport units are provided only with full hydration inhibition (at least 10-15 h).

The purpose of the invention is to increase the oJ-nCK setting time.

The goal is achieved by the fact that in the method of treating extraction "(.-Hemihydrate by repulping or extracting it with an aqueous solution), repulping or washing with 0.1-0.5% aqueous solution of sodium sulfide with a weight ratio of calcium sulfate hemihydrate and solution 1: 3-1: 5.

five

Primb: ry regshizatsii method are given in Table. one.

In each of the examples given in the table of examples, a sample of dry crushed hemihydrate of FSZ, sphogypsum (S 1520 cm

0 / g, -NaOkrisg 6.7%, RAC ,. 2.05%) is treated with an aqueous solution of a Na / jiS moderator, either in the process of repulpation of a phospho-hemihydrate in an aqueous solution (T: W 1: 5), or

5: when processing - FCC on the filter (T: W 1: 3-1: 5). The stability of the material obtained is judged by the content of NaOO; rgt in the samples, depending on the time they are exposed to in conditions of saturated water.

The proposed inhibitor (0.5%, 99.5% H,) has the most effective, retarding effect. For example, I, the content of the known case already after 0.25 days is 7.61%, in the proposed after 5 days the% 0ts content. 7.30%

The results of comparative tests are presented in Table. 2..

From the table it can be seen that under the proposed conditions, the most effective retarder for the seizure of phosphogypsum hemihydrate is Na / jS. The mechanism of action of this additive reduces, on the one hand, the increased stability of the negative agaomini AlF, A1P | hemihydrate of phosphogypsum, which, according to literature data, slows down the setting, and on the other hand, the formation of MaA1Pd compounds dramatically slow down its setting.

 In the case of use; l Ca slowing (OH) the destruction of aluminum fluoride complexes occurs with the formation of CaF primer, which is an effective accelerator of the setting and solid and hemihydrate of phosphogypsum.

With increasing T: W to 1:10, respectively. lime treatment conditions, a slowing down effect of Ca (OH1 is reduced to the formation of calcium phosphates, which block the surface of the hemihydrate - phosphogypsum and retard its seizure.

Thus, the mechanisms of the slowing effect of Ca (OH) and

Na.S are completely different.

Increasing T: W to 1: 10 is impractical due to the occurrence of significant volumes of wastewater requiring disposal. In addition, even with an increase in T: W to 1:10 in the case of the use of Ca (OH) 2, the effect of the retarding effect is much less than in the case of use in T: W 1: 5. The degree of hydration in the case of Ca (OH) in b is em 7-53%, and in the case of Na-jS - 0%.

Table 1

0.1

Na,; jS

0 99.9

0.5 99.5

Q

0.5

99.5

0.5

99.5

N ,,, 0

0.0

100

.

Known pH 7.6-7.61 pH of 2.3-14.24

T: F 1: 5

8.31

Filtration T: F 1: 3

7.30

Filtration T: F 1: 4

7.26 Filtration T: F 1: 5

8.21

7.10 Repulpation T: W 1: 5.

14.0

13.50 13.8 Repulphates

Repulpation

 . H, .0

Ca (OH) a.

Na., S

Flushing on

filter H.0

Ca (OH) 2

H, 2.0

Claims (2)

1. Bibachev. Construction, NRB, 1973, XX, No. 2, p. 9-12. 2. Yavgel E.V., Pozin MB, Gul, Lehr B.D. et al. On the effect of some additives on the hydration process of a half-half calcium sulfate sulfate, Journal of Applied Chemistry, 1978, v.11, 8.