SU1047843A1 - Method of na-cl ionizing of water - Google Patents

Abstract

1. METHOD OF Na-CK-IOC1T WATER, including passing it through an ion-exchange filter followed by regeneration by a reactive agent, characterized in that, in order to simplify and reduce the cost of the process by eliminating multistage and reducing the consumption of reagents, water is passed through a mixed layer of ion-exchange filter, consisting of anion exchanger of any basicity and a strongly acidic cation exchanger, and the regeneration of the displaced layer is carried out with an acidified solution of sodium chloride or natural brine containing NaCE, or acidified seawater . 2. A method according to claim 1, characterized in that the anion exchange resin of any basicity and the strongly acid cation resin is taken in a ratio from 1: 1 to 4: 1. (L

Description

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 The invention relates to water purification and can be used in the energy and other industries in the production of softened water with reduced alkalinity.

The known method is Na-CE water ionization / which involves sequentially passing water through Na-cation-exchange filters, and then through CE anion-exchange filters. In case it is required to obtain deeply softened water, it is then passed through Ma-cation resin filters of the second stage.

The disadvantages of this method are its multistage and the need to use for the regeneration of the Cf-ano-mitt filter a solution of sodium chloride, which does not contain calcium and magnesium impurities. Since commodity table salt always contains these impurities, it is necessary to soften the regenerating salt solution, for example, with caustic soda, and use deep softened water to dilute it. Such auxiliary operations, such as loosening the anion exchanger layer before skipping the regeneration salt solution and subsequent washing of the anion exchanger from the regeneration products, should also be carried out with softened water to prevent the anion exchanger of sparingly soluble CaCO and Md (OH) 2 from being released.

In addition, weakly basic anion exchangers in a known way are inoperable, since they quickly (after 2-3 cycles) lose the ability to absorb ions, and the strongly basic anionites, although they have satisfactory characteristics, are scarce and expensive.

The purpose of the invention is to accelerate and reduce the cost of the process by eliminating multistage and reducing reagent consumption.

The goal is achieved by the method of Na-C6 water ionization, which involves passing water through an ion filter and then regenerating it with a reaction agent, passing water through a mixed layer of an ion-exchange filter consisting of anion exchanger of any basicity and strongly acidic cation exchanger, and the regeneration is carried out with an acidified solution salt or natural brine containing NaC &, or acidified seawater.

In addition, any basic anion exchange resin and a strongly acid cation exchanger are taken in a ratio from 1: 1 to 4: 1.

In the implementation of the proposed method using the ion-exchange filters of the bulk type, the download of which consists of a mixture of any resin anion

novel and strongly acidic cation exchanger in salt forms, and HM ihHO anion exchanger in C-form, cation exchanger in Na-form. The regeneration of the spent mixed layer of ion exchangers is carried out - acidified solution of 1 chloride

sodium or natural brine containing NaCe, or acidified sea water.

The choice of the proposed ratios O of anion exchanger of any basicity and strongly acidic cation exchanger (1: 1) - (4: 1) is determined by the quality of the source water and the adsorption capacity of the used ion exchangers, which allow to achieve a certain degree of water purification at maximum values of the working exchange capacity of ion exchangers and minimum specific reagent costs for regeneration.

Q A decrease in the pH of the initial regeneration solution eliminates the danger of the sparingly soluble compounds CaClOd and Mg (OH) 2 on the anionite grains. in the process of regeneration and

5, the conversion of a part of the cation exchange resin into the H-form is provided. Due to the appearance of exchangeable hydrogen ions in the cation exchanger, the pH of the filtered liquid reaches, other things being equal, lower values than in the layer of one anion exchanger in the method of separate Na-ce ionization. The shift of the pH of the filtered liquid to a region of lower values creates favorable conditions for the use of lower basicity in the mixed layer of anion exchangers, and also prevents the formation of carbonate sediments when hard water is passed through the filtering layer.

0 When processing natural waters with a high sulphate content, the possibility of formation of a calcium sulphate solid phase during the regeneration, which is delayed

5 in the filter bed, in a subsequent operating cycle may cause an increase in the residual stiffness of the filtrate of the Na-ce ion-exchange filter. To obtain a high effect of gcheni when processing; Water of this type after the first stage of joint Na-CE ionization should include second-cation resin filters.

Example 1. A mixture of cation exchanger KU-2 and anion exchanger AN-2FN at a ratio of 1: 1 is loaded into a laboratory, column to a height of 30 cm. Regeneration is carried out with acidified 8% saline solution with a specific flow rate of 140 kg / m. For loosening

0 and washing using the source water composition, mEq / l:

Total hardness 3.1-3.2 Alkalinity 2.3-2.4

Sulfates 0.7-0.8

5 Chlorides 0.05-0.06 Water flow rate 20 m / h, and regeneration solution and wash water 7-10 m / h. Disconnection of the column for regeneration is carried out at an alkalinity value of the filtrate of 1.6 mEq / l. The table shows data on the quality of the water produced and the working exchange capacity of the ion exchangers used. Example 2. A mixture of anion exchanger AN-2FN and cation exchanger KU-2 at a ratio of 4: 1 is loaded into a standard ion-exchange filter with a diameter of 2.0 m. Re-generation of the filter is carried out with acidified sea water. For loosening and washing, the initial fresh water of the composition, mEq / l is used: Total hardness 8.0 Alkalinity4.5 Sulfates1, .9 Chlorides3.4 Filtration rate in the operating cycle 15 m / h, during regeneration and washing 7 m / h. Filtrate was obtained with residual hardness of 0.1 mEq / L and alkalinity of O, 6-0.7 mg-EQ / L. Thus, as follows from the obtained data, the use of regenerating acidified uncompleted solution of common salt or sea water, as well as uncommitted water for loosening and washing the mixed layer of ion exchangers during the regeneration, simplifies and reduces the cost of the process by refusing to soften the regeneration solution and water consumed for their own needs. In addition, the required effect of water purification is achieved with the use of a cheap weakly basic anion exchange resin AN-2FN, the value of the working exchange capacity of which, with repeated repetition of operating cycles under the indicated regeneration conditions, remains stable, i.e. The weakly basic anion exchanger is operable in the proposed method of joint Na-CE ionization of water. The techno-economic effect of the proposed method is due to the simplification of the process by reducing the number of ion-exchange filters and eliminating auxiliary devices for softening the regeneration solution of sodium chloride and cheapening the process by using cheaper brands of anion exchangers and reducing the consumption of reagents for processing the regenerative agent and water consumed for their own needs. filters. Approximately the expected economic effect from the implementation of the proposed: mrgo method on the installation with a production of 200 M / h will be 45 thousand rubles. in year.

Claims (2)

1. METHOD OF Na-Ct-LOCATION WATER, including passing it through an ionic filter with its subsequent regeneration by a reaction agent, characterized in that, in order to simplify and reduce the cost of the process by eliminating multi-stage and reducing the consumption of reagents, water is passed through a mixed layer of an ionite filter, consisting of anion exchange resin of any basicity and strongly acidic cation exchanger, and the regeneration of the mixed layer is carried out using an acidified solution of sodium chloride or a natural brine containing NaCf, or acidified with sea water. 2. The method of pop. 1, characterized in that the anion exchange resin of any basicity and strongly acidic cation exchange resin are taken in a ratio of from 1: 1 to 4: 1.