SU715490A1 - Method of water softening - Google Patents

Description

(54) METHOD OF IMPROVING WATER

The invention relates to a method of water treatment and can be used in various fields of industry, for example, to soften seawater used in steam evaporation plants. There is a known method of reducing water with high hardness (sea), containing CaSO, Mg (OH) salts; , CaCOe by introducing copolymers into the water, methacrylic acid 1. The lack of cjiocoea reduces the need to use the target products and their high cost. The closest technically is the method of water softening with high hardness by introducing into it sodium salts of organic (naphthenic) acids, in particular, acidol - a waste product obtained by leaching of oil distillates ASIDOL is a colloidal solution of sodium naphthenic acid salts / in which the mineral is colloidally dissolved, high oil. It is used in the form of a 20–25% solution of oracle with a preliminary filter by removing resinous elements 2. However, the method is characterized by insufficient efficiency of clearing, using a significant amount of asidol (which contains resinous substances in its composition to be removed). . This increases the cost and complexity of water softening technology. The aim of the invention is to increase the degree of water softening with high rigidity, the process economy and simplification of the technology, the lawsuit's claim of the need for an additional stage of resinous elements removal. The goal is achieved by introducing 25% concentrate obtained into the water to be softened. after the extraction of sodium sulfate from waste sulphate water production of synthetic fatty acids (FFA) -, in an amount necessary to get a given water hardness at room temperature at. continuous and moderate stirring. The concentrate contains sodium salts of monocarboxylic acids with the number of carbon atoms in the chain Cj-Cf, sodium salts of dicarboic acids with the number of atoms

Claims (2)

Claim 1. A method of softening water by introducing sodium salts of organic acids into it, characterized in that, in order to increase the degree of softening of water with high rigidity, economical process ₀ and simplifying the technology, a 'concentrate obtained after sulfate extraction is used as sodium salts of organic acids sodium, from carbon in the C ^ chain and alkali salts to the following ratio of components Sodium salts of monocarboxylic acids (C ₂ - C _? ) Sodium salts of dicarboxylic acids (C ₄ - C ^ _o ) Sodium sulfate Alkaline sodium salts (in terms of those on Na ₂ C0 ^) 'When a concentrate is introduced into seawater containing Ca ^{g +} , Mg ² j Ba ^2t ions and other metals, salts of these metals are poorly soluble in water. They are removed from the solution by filtration. Depending on the amount of ^ concentrate introduced, the specified hardness of sea water is obtained, it is preferable to inject the concentrate in an amount of 0.3—2.2%: (in terms of dry matter ^. ’The more organic salts in the concentrate, the deeper the softening process goes. At the source. 25 bones of water .106.7; 8 ^ 78; 73.2 mg -eq / L administration of a concentrate. With a salt content of monocarboxylic acids 25%, dicarboxylic acids'50% and a concentrate with an acid content of 30% and 62% leads to a decrease in the content of hardness salts to 18.6; 11.3; 8.6 and up to 12.2; 6.1; 4.7 mg - equiv / l for each concentrate, respectively. . The introduction of the reagent by a known method gives the following hardness values of softened water ’41.8; 30.4; 29.7, the Method is as follows .. '' In the treated sea water with continuous - and moderate stirring, either concentrate is gradually introduced - the product of the waste product of FFA, or asidol for comparison. After the introduction of these preparations, the water is kept for 15-20 minutes, then the precipitate is separated by filtration through> ·· ordinary filter paper. The filtrate is analyzed for the content of hardness salts by a standard method. The water thus treated does not precipitate upon boiling. : When introduced into hard water by a known method of 0.6; 1.6; 4.2; 6.0] weight. % of the product (dry matter), softened hardness. water (marine) is 73.2; 45.4; 12.7; 12.4 mEq / l, respectively, and with the introduction of 0.2; 0.3; 0.4; 0.8; 2.2; 2.2; 4.0 wt.% Of the product according to the proposed method, respectively, is 73.2; 62.1; 56.3; 47.6; 4.7; 4.8 mEq / L. CIIII Order 9612/4 PPP ’’ Patent ’’ branch, Uzhhorod, st. Design, 4 sulfate wastewater production of synthetic fatty acids. 2. The method of pop. 1, characterized in that the concentrate consists of monocarboxylic sodium salts. acids (Sc-C ₇ ), sodium salts of dicarboxylic acids (C ₄ - C _hell ), sodium sulfate and alkaline sodium salts in the following ratio of components, wt.%: Sodium salts of monocarboxylic ACIDS (C 2 “C ₇ ) Sodium salts. dicarboxylic acids (Su-C / β) Sodium sulfate Alkaline sodium salts (in terms of Na _a CO ₃ ) 3. The method according to PP. 1 liter of tea with the fact that the concentrate is administered in an amount of 0.3-2.2% (in terms of dry matter).