SU638355A1 - Method of preparing to regeneration ionite filters used for desalinating water - Google Patents

Description

(54) METHOD FOR PREPARING IONITE FILTERS USED TO WALK WATER TO WATER REGENERATION

Claims (2)

The invention relates to the reduction and desalination of water and can be used in water treatment. Methods are known for loosening the washing of IONITE filters of plants for softening and desalting fresh water by feeding the washing water of previous regenerations or clarified source fresh water l The closest to the described invention to the technical essence and the achieved result is the method of preparing IONITE filters used for water desalination, to regeneration, including loosening of the IONITE filters with the wash water of the previous regeneration 2. The method consists in that the end is washed Ion exchange filters regeneration water from the product is collected in a tank, then this water is used for backwashing. The disadvantages of the above methods are that as a result of this process, the ratio of calcium, magnesium and sodium ions in the ion exchanger hardly changes. Since the main part of the total capacity of the ion exchanger is composed of calcium ions (up to 80-90%), and the regenerability of this ion is most difficult. specific consumption of reagent for regeneration increases. In addition, there is a danger of precipitating calcium sulfate crystals on the surfaces of cation exchangers in H-cation-exchange filters; therefore, the concentration of sulfuric acid is no more than 1-2%, which also increases the specific consumption of acid and water to prepare an acid solution. The aim of the invention is to simplify and reduce the cost of the process by allowing partial regeneration of ion exchangers in the process of loosening and reducing the consumption of reagents for regeneration. This is achieved by the fact that the loosening of IONITE filters is conducted by sea or salt water. In the implementation of the proposed method in the process of loosening ion-exchange filters of sea or salt water, there is a substitution of magnesium and sodium ions of sea water for calcium ions in conite. As a result, the content of calcium ions in the ion exchanger sharply decreases, while magnesium and, especially, sodium ions sharply increase. Loosening the ionite filters with seawater causes the bulk of the total exchange capacity to be sodium and magnesium ions, resulting in improved removal of sulfuric acid solutions from ion-exchange filters of sulfuric acid solutions and the possibility of regenerating H-cationic filters of more concentrated sulfuric acid. {4-5% and above). This reduces the specific consumption of acid and water for the preparation of a solution of sulfuric acid. In Na-cationite filters, as a result of loosening with seawater, partial filter regeneration occurs, which sharply reduces the specific consumption of table salt for regeneration. Example. Depleted in salts of fresh water (, 5; С 1.4, where С is the concentration of ions COiAAgf, Nq in water in mg-eq / kg) H-cation filter, loaded with cation KU-2-8, with an intensity of 3 l / Msec are loosened with water by the Caspian Sea {Ssa –1b; S –bO; 140). With the main process of loosening the washing of the cation exchanger, the ratio between the exchange capacity of the cation exchanger for calcium, magnesium and sodium ions from 85: 14: 1 to 30: 46: 2, respectively, i.e. 65% calcium ions are removed from the cation exchanger. It has been established that during loosening of the H-cation filter, desalting unit loaded with cation exchanger KU-2-8, and processing fresh water of the Caspian Sea, the specific consumption of sulfuric acid decreases by 1.51, 8 times (at the same working exchange capacity), and the consumption fresh water for preparing a solution of sulfuric acid is reduced by 3 times (concentration of sulfuric acid solution 4, 5% versus 1.5% by a known method). The method of preparing ion-exchange filters used for water desalting to regeneration, including the soaking of ion-exchange filters with water, which, in order to simplify and cheapen the process by allowing partial regeneration of ion-exchangers during the process of loosening and reducing the consumption of reagents for regeneration loosening lead sea or salt water. Sources of information taken into account in the examination: 1. Water treatment at thermal power plants. Iod ed. Golubtsova, Energie, 1966, p. 89 2.Vikhrev V.F. and others. VodopodgotovEnergi, 1973, p.311,