SU1392028A1 - Method of purifying acid chloride solutions of mercury - Google Patents

Abstract

The invention relates to hydrometallurgy, in particular to methods for treating wastewater containing mercury, and allows to intensify the process by increasing the capacity of mercury anion exchangers. The essence of the method is that iron salts (IIT) are added to acidic mercury chloride solution to a concentration of 10-25 mg / l of iron (III) and then sent for sorption by anionite (VP-1Ai, AV-17-8 ), At the same time, the capacity of the anion exchanger is increased by 1.2-1.4 times with a residual mercury concentration below the MPC (rO, 005 mg / l) 1 C. f-ly, 2 tab.

Description

The invention relates to methods for the purification of industrial wastewater containing mercury, for example, produced in the production of chlorine and alkali by electrolysis with a mercury cathode,

The purpose of the invention is to intensify the process by increasing the capacity of the anion exchanger for mercury.

EXAMPLE 1 A solution, which is an artificial mixture of sodium chloride and soluble mercury salt in water or chlorine produced wastewater containing 30–50 g / l of sodium chloride and 5–30 mg / l1 of mercury, is acidified. hydrochloric acid to pH 3-4, treated with chlorine water to: convert all forms of mercury to Hg (P) t add a solution of iron (III) salt in an amount that provides the concentration of Fe ions (IIl in the range of 10-25 mg / l. The resulting solution is fed to the lower part of the adsorber at a rate of 30-80 m / h and output from the upper part of Anionite VP-1AP t in the upper part of the adsorber, moves countercurrent with respect to the solution and is withdrawn from the lower part of the apparatus periodically or continuously as we experience mercury.

Table 1 presents comparative data on the purification of solutions from mercury by known and proposed methods.

EXAMPLE 2 Sorption was carried out from an acidic chloride solution with a mercury concentration of from 1 to 300 mg / l on various anion exchangers with the same iron concentration of 20 mg / l. The sorption characteristics of anion exchangers at a concentration of 20 mg / l are given in tabLo2,

As follows from the examples, the capacity of anion exchangers with respect to mercury when cleaning solutions containing 10–25 mg / l of Fe (III) ions increases 1.8–1.4 times and approaches its capacity of chlorine 3.3–3, 5 (mEq) / g, which allows to intensify the cleaning process

Claims (1)

Invention Formula The method of purification of acidic chloride solutions from mercury by sorption on anion exchange resin, characterized in that, in order to intensify the process by increasing the capacity of the anion exchange resin for mercury, sorption is carried out in the presence of iron (III) ions at the concentration of iron (III) ions in solution -25 mg / l, Table 1 Dynamic exchange capacity of anion exchanger for mercury, mg / g The mercury content in the purified solution, mg / l 662 663 662 660 473 0.005 0.005 0.005 0.004 0.003 0.005 The experiments were carried out in the absence of elemental chlorine in solution 1, since this anion exchanger in solutions containing active chlorine, is destructed. table 2