RU2211188C1 - Method for integrated processing of iodine- and bromine-containing sodium chloride waters - Google Patents

Abstract

FIELD: natural mineral water processing. SUBSTANCE: invention relates to processing iodine-depleted mineral water obtained from naturally occurring iodine- and bromine-containing sodium chloride waters to produce natural therapeutic mineral waters, edible sodium chloride, tablewater, and salts useful for balneological treatment. Method comprises neutralizing alkali present in original mineral water, treatment with hydrochloric acid and recovering iodine, consecutive primary evaporation of iodine-depleted water to density 1150- 1170 kg/cu.m, treating evaporated water with gaseous chlorine to form iodine salt in iodate form and second evaporation to density 1180-1210 kg/cu. m initiating formation of sodium chloride and sodium iodate crystals, which are separated from salt-depleted water. EFFECT: extended assortment of recovered high-quality natural products obtained under environmental-friendless conditions. 4 cl

Description

 The invention relates to a technology for processing natural hydromineral raw materials, and more specifically relates to a method for the integrated processing of iodine-bromine-containing sodium chloride waters.

 The method will find application in the disposal of waste natural iodine-bromine-containing sodium chloride waters depleted in iodine content for the production of edible table salt enriched with iodine ions, the production of natural therapeutic agents, drinking table water and salts used for balneological procedures.

 There is a method of complex processing of iodine-bromine-containing sodium chloride water, which provides during the processing the preparation of the reagents necessary for the implementation of this method - RF patent 2163572, cl. C 02 F 1/72, 02/27/2001, according to which the alkali contained in the initial iodine-bromide-containing sodium chloride waters is neutralized, then acidification is carried out under hydrochloric acid and iodine is extracted from them by its sequential oxidation, desorption, crystallization and separation of crystalline iodine from mother waters . After extraction of iodine, the water is then subjected to concentration and electrolysis to obtain hydrochloric acid and hypochloride, which are required for the specified processing of the source water.

 The known method provides the formation, in addition to crystalline iodine, of products intended to be obtained in the future, for example, dry edible ice, edible salt, weighting agents used in drilling gas wells. The closest analogue of the invention is a method of complex processing of iodine-bromine-containing sodium chloride water, known from the patent of the Russian Federation 2132819, cl. C 02 F 1/72, 07/10/1999, including neutralization of alkali contained in the source water, treatment of water with hydrochloric acid, treatment with gaseous chlorine and extraction of iodine.

 The objective of the method according to the invention is to expand the range of natural products obtained, to ensure their high quality while maintaining the environmental situation in areas adjacent to the production.

This problem is solved in the complex processing of iodine-bromide-containing sodium chloride waters by a method including neutralizing the alkali contained in the source water, treating the water with hydrochloric acid and extracting iodine from them, in which, according to the invention, after extraction of iodine, the water depleted in iodine content is subsequently subjected to the initial evaporating to a density of 1150-1170 kg / m ³ , treating with gaseous chlorine to form a dissolved iodine salt in water in iodate form, and reevaporating to a density of 1180-1210 kg / m ³ , providing crystallization of sodium chloride and sodium iodate, which are separated from water depleted in the content of chlorine, sodium and iodine.

 The inventive method allows you to dispose of iodine-bromine-containing sodium chloride water after separation of crystalline iodine from them and to obtain from them iodized edible salt containing iodine in an amount of at least 0.5 g / kg, as well as a solution whose composition allows you to use it, for example, as a natural therapeutic products, canteen, drinking water, therapeutic balneological baths.

 To increase the iodine content in the resulting iodized edible salt, it is advisable, according to the invention, after separation of crystallized sodium chloride and sodium iodate, water depleted in the content of chlorine, sodium and iodine, to enter the stage of re-evaporation.

 According to the invention, it is advisable after separation of crystallized sodium chloride and sodium iodate, water depleted in the content of chlorine, sodium and iodine, to undergo electrolysis to obtain predominantly sodium hypochlorite or elemental chlorine, which are the final products of processing the source water.

 According to the invention, to improve the quality of the obtained iodized edible salt, it is useful, after initial evaporation, to introduce sodium bicarbonate solution into the water, which ensures the formation and precipitation of magnesium salts, which are separated, and the remaining solution, depleted in terms of the content of magnesium salts, is introduced into the re-evaporation stage.

 Further objectives and advantages of the claimed invention will become apparent from the following detailed description of a method for processing iodine-bromine-containing sodium chloride water.

 Natural highly mineralized iodine-bromide-containing sodium chloride waters are processed to produce products, including food, based on iodine and / or bromine, and / or sodium, and / or chlorine.

 Natural iodine-bromide-containing sodium chloride waters are treated with hydrochloric acid to neutralize the alkali contained in the source natural waters and to acidify them. Then, according to a known technology, iodine is extracted from the indicated natural waters by its sequential oxidation, desorption, crystallization and separation of crystalline iodine from the mother water.

Further, according to the invention, the spent, that is, remaining after separation of crystalline iodine iodine-bromide-containing sodium chloride water, that is, water depleted in iodine content, having a density of typically about 1031 kg / m ³ , is subjected to initial evaporation to reduce the volume by about five times , that is, up to a density of 1150-1170 kg / m ³ , while concentration occurs, which is contained, in particular, in the waters of the natural compound of sodium chloride (NaCl).

 Then one stripped off the water is subjected to treatment with gaseous chlorine, while the following chemical reactions proceed mainly.

+NaCl
Как видно из уравнений, при этом в полученном концентрате образуются соли йода в йодатной форме (NaJO₃) и свободный бром (Br₂

), который извлекают известным методом десорбции.NaJ + Cl ₂ + H ₂ O ------ NaJO ₃ + Hcl
NaBr + Cl ₂ ----- Br ₂

+ NaCl
As can be seen from the equations, in this case, iodine salts in iodate form (NaJO ₃ ) and free bromine (Br ₂

), which is extracted by a known desorption method.

Then, after bromine extraction, reevaporation is carried out to a density of 1180-1210 kg / m ³ , which ensures crystallization of the natural sodium chloride (NaCl) contained in the waters, as well as sodium iodate formed, as described above, that is, the formation of crystals of iodized edible salt containing iodine in an amount of about 0.5 g / kg. The presence of sodium iodate in the food salt stabilizes the iodine content in this food product over time, which leads to an increase in its shelf life.

According to the invention, in order to reduce the content of magnesium salts in iodized edible salt, it is advisable, after initial evaporation, to introduce into the waters having a density of 1150-1170 kg / m ³ sodium bicarbonate (Na ₂ Co ₃ ) mainly in an amount of 0.2 g / l, which provides crystallization and precipitation of magnesium salts. After filtering these waters at a speed equal to predominantly 0.00002 m / s, separation of the crystals of magnesium salts from the waters is achieved.

The water depleted in the content of magnesium salts is subjected, as indicated above, to re-evaporation to a density of 1180-1210 kg / m ³ with the formation of crystals of iodized edible salt, more concentrated in terms of the content of sodium chloride and sodium iodate.

 According to the invention, in order to increase the iodine content in the resulting iodized edible salt, it is advisable, after separation of the crystals of sodium chloride and sodium iodate, that the water is depleted in the content of chlorine, sodium and iodine, and possibly magnesium salts, to return to the stage of re-evaporation.

 Crystals of sodium chloride and sodium iodate formed during reevaporation are then precipitated in a crystallizer and separated from the water by filtration.

It is clear that the resulting iodized edible salt has an ionic composition, depending on the composition of the source iodine-bromide-containing sodium chloride water. As an example, the following ionic composition of the resulting iodized edible salt,%:
Cl - 59,098
Na ⁺ - 38,426
Ca ²⁺ - 0.010
Mg ²⁺ - 0.060
K ⁺ - 0,063
NSO ₂ ^- - 0.215
СО ₃ ^2- - 0,121
Br ^- - 0,092
I ^- - 0.019
After separation of the crystals of sodium chloride and sodium iodate, water can be electrolyzed using, for example, a current density of 500 A, to obtain predominantly sodium hypochlorite, bromine or elemental chlorine.

It is completely clear that natural mineralized waters after the isolation of crystalline iodine and crystals of sodium chloride and sodium iodate from them have a composition that depends on the composition of the initial iodine-bromine-containing sodium chloride waters. As an example, the following components can be mentioned, which are present in the composition of water after the separation of crystalline iodine and crystals of sodium chloride and sodium iodate from them, g / l:
Cl ^- - 187.75
NSO ₃ ^2- - 1.23
СО ₃ ^2- - 6.05
Br ₂ ^- - Up to 5.0
I ₂ - Up to 180.0
However, the average composition of natural mineralized waters after the isolation of crystalline iodine and crystals of sodium chloride and sodium iodate from them, as proposed in the present invention, allows them to be used, in accordance with the main qualification characteristics, as a natural therapeutic agent or table water or medicinal balneological baths.

 To obtain a dry salt saturated with natural trace elements, which is also used in balneological baths, after separation of the crystals of sodium chloride and sodium iodate, as proposed in the present invention, the water is subjected to further evaporation to a dry residue.

 Thus, the inventive method allows you to utilize iodine-bromine-containing sodium chloride water after separation of crystalline iodine from them and get from them iodized edible salt containing iodine in an amount of at least 0.5 g / kg; natural solution, the composition of which allows you to use it, for example, as a natural therapeutic agent, table drinking water, therapeutic balneological baths; as well as sodium hypochlorite, bromine or elemental chlorine.

 The inventive method of processing iodine-bromine-containing sodium chloride water allows you to expand the range of natural products obtained and at the same time ensures their high quality while maintaining the environmental situation in the territories adjacent to the production due to the absence of processing waste.

Claims (4)

1. The method of complex processing of iodine-bromide-containing sodium chloride water, including neutralizing the alkali contained in the source water, treating the water with hydrochloric acid, gaseous chlorine and extracting iodine from them, characterized in that, after iodine extraction, the water depleted in iodine content is subsequently subjected to initial evaporation to a density of 1150-1170 kg / m ^3, treatment with chlorine gas to form a lead in the water dissolved salt iodine yodatnoy form and re-evaporation to a density of 1180-1210 kg / m ^3, the two crystallization ensures, sodium chloride and sodium iodate which separated from the water depleted of chlorine content, sodium and iodine.  2. The method according to p. 1, characterized in that the water at the stage of re-evaporation is introduced after separation of crystallized sodium chloride and sodium iodate, depleted in the content of chlorine, sodium and iodine.  3. The method according to p. 1, characterized in that after separation of the crystallized sodium chloride and sodium iodate, water depleted in the content of chlorine, sodium and iodine is subjected to electrolysis to obtain predominantly sodium hypochloride or elemental chlorine.  4. The method according to p. 1, characterized in that after the initial evaporation, a solution of sodium bicarbonate is introduced into the water, which ensures the formation and precipitation of magnesium salts, which are separated, and the remaining solution, depleted in the content of magnesium salts, is introduced to the stage of re-evaporation.