SU555900A1 - The method of extraction of mercury from the anion - Google Patents

Description

one

This invention relates to methods for extracting mercury from anion exchangers and can be used in the field of ion exchange purification of mercury-containing solutions, mainly formed in the production of chlorine and caustic soda, by electrolysis with a mercury cathode.

The known methods for removing mercury from anion exchangers are based on treating it with a solution of mineral acid, in which the complex mercury anions have a distribution coefficient of not more than 30. Such a small distribution coefficient indicating the weakness of mercury retention by the anion exchanger in this medium is nitric acid. However, mercury chloride complex anions, due to their high affinity for anion exchanger with nitric acid, are practically not extracted 1.

A method is known for extracting mercury from an anion exchanger used in the process of purifying mercury-containing solutions by treating the anion exchanger with a solution of a sodium-containing compound, such as an acidic saturated solution of sodium chloride at 40-80 ° C. complexing chlorine ion, in which mercury, as one of the few metals, has the highest distribution coefficient, equal to 1000, which characterizes its high strength live anion exchange resin. Therefore, to achieve the goal by a known method, it is necessary to heat the regeneration solution, which entails an accelerated destruction of the functional groups of the anion exchange resin and the subsequent low degree of mercury recovery from the anion exchange resin and solutions.

The purpose of the proposed invention is to increase the degree of extraction of mercury from an anion exchanger for subsequent effective use of it in the process of cleaning solutions from mercury.

For this, the treatment of the anion exchanger is carried out first with alkaline sodium compounds and then with a solution of mineral acid. Another difference is that the treatment is carried out first with a solution of sodium hydroxide and then with a solution of nitric acid at a concentration of the last 20-80 and 30-120 g / l, respectively. In addition, the treatment is carried out in several cycles, first with a solution of sodium sulfate and alkali with a concentration of 1.0-

90.0 g / l, and then with a solution of sulfuric acid.

The proposed method through anion exchange resin with absorbed chloride complex anions of mercury is passed with a speed of 1.0-5.0 cm / min sodium alkali solution with

concentration of 20-90 g / l or sodium sulfate