SU1264966A1 - Method of regeneration of anion exchanger filters of chemical demineralizing plant - Google Patents

Abstract

A METHOD FOR REGULATING ANIONITE FILTERS OF THE HYMOBE-RESISTANT INSTALLATION involves transferring an alkaline solution through a weakly basic anion exchange resin operating in the mode of absorbing sulfate ions to obtain a waste solution of anemone filter, which is designed to eliminate a solution of anionite filter, which is designed to eliminate the need to find a solution of anion exchangers, in order to reduce the cost of a template. the solution is passed through an apparatus loaded with a suspension of lime, and the resulting solution of lime, containing 25–30 mg eq / l of calcium sulfate, is directed to t on the list of anionite filters.

Description

11 The invention relates to a method for the regeneration of ion exchangers in the process of water purification and can be used in water treatment plants in the chemical, energy and other industries. A known method of regenerating weakly basic anion-exchange filters of chemical-desalting plants is 0.5–1.5% with a lime suspension l. The disadvantages of this method are: low utilization of the exchange capacity of the anion exchanger, deterioration of the quality of the filtrate due to contamination with hardness ions, as well as contamination of water bodies with spent regeneration solution of anion exchangers. Closest to the invention is a method for regenerating weakly basic anion-exchange filters of a chemoobessing unit with an alkaline solution, for example, lime, with a concentration of 40-44 meq / l 2. The disadvantages of the known method are the large volume of wastewater generated during the regeneration process (water consumption for preparing the regeneration solution of 30 m / m) „water consumption for washing anionite.8 and contaminating water bodies with spent solutions of anionite filters (total amount of wastewater discharged in reservoirs, 38 m / m). The purpose of the invention is to reduce the cost of the process by eliminating the generation of wastewater. The goal is achieved by the proposed method of regenerating anionite filters of a chemical desalting plant, including passing a solution of lime containing 2530 meq / l of calcium sulphate through a weakly basic anion exchange resin operating in the mode of sulphate ion absorption, obtaining the spent regeneration solution, passing the latter through the apparatus, loaded with a suspension of lime, and the direction of the resulting solution of lime, containing 25-30 meq / l of calcium sulfate, to the regeneration of anion exchangers. The difference of the proposed method lies in the fact that the spent regeneration solution is passed through the apparatus loaded with a suspension of lime, and the resulting solution of lime containing 23-30 sulpha 6 of calcium is sent to the regeneration of anion-exchange filters. Passing the spent regeneration solution through the apparatus loaded with lime slurry and directing the resulting lime solution containing 25–30 mg eq / l of calcium sulfate to the regeneration of anionite filters is essential, since it provides the transfer of sulfate ions from the anionite filter loaded with a suspension of lime, their release in the form of sulfate calcium and the transfer of hydroxide ions from the apparatus loaded with a suspension of lime into an anionite filter, regenerated by the latter. The proposed method is carried out as follows. / The spent regeneration solution of anion exchangers operating in the mode of absorption of sulfate ions from the tank is passed through an apparatus, for example, a saturator loaded with a suspension of lime. When this occurs, calcium sulfate precipitates and the solution is saturated with calcium hydroxide. Next, a solution of lime with a certain content of calcium sulfate with a rate of 10–15 m / h is passed through anion exchange resin, where hydroxide ions are replaced with sulfate ions, i.e. the regeneration of the anion exchange filter occurs and the calcium sulfate solution leaves the anion exchange resin. This solution is passed through an airgam loaded with a suspension of lime, where calcium sulfate precipitates into the sediment and the solution is saturated with calcium hydroxide, after which the resulting solution is sent to an anion-exchange filter. Thus, the same solution circulates between the anion-exchange filter and the apparatus loaded with lime slurry. In this case, the sulfate ions from the anionite filter are transferred to the apparatus loaded with lime slurry and found there in the form of calcium sulfate, and from the apparatus loaded with lime suspension, hydroxide ions are transferred to the anionite filter, to the regenerator. The regeneration of the anion-exchange filter is performed until the composition of the spent solution is close to the composition of the solution fed to the filter. The anion exchanger filter is washed with 9 after hydrogen-cation resin.

Claims (1)

METHOD FOR REGENERATING ANIONITE FILTERS OF CHEMICAL DESIGN-FREE SOLUTION OF THE INSTALLATION, including passing an alkaline solution through weakly basic anion exchange resin operating in the mode of absorption of sulfate ions to obtain a spent regeneration solution of anion exchange filters, characterized in that, in order to reduce the cost of the process, eliminating the generation of waste water, the spent waste solution is passed through through the apparatus loaded with a suspension of lime, and the resulting lime solution containing 25-30 mEq / l of calcium sulfate, sent to p ege * "hieratsion of anion exchange filters. >