RU2210531C1 - Plant for production of iodized salt - Google Patents

Abstract

FIELD: plants for production of iodized salts. SUBSTANCE: plant has the first evaporator with holes for supply of initial components and for withdrawal of solution of iodized salt and provided with system for steam supply, crystallizer, gravity filter and finished product drying unit, the second evaporator having the first and second inlet holes and outlet hole connected to crystallizer inlet hole, vacuum pump connected to the second evaporator and crystallizer, and fine filter connected to gravity filter and second evaporator, gravity filter has upper outlet hole communicated through fine filter to the first inlet hole of the second evaporator and lower inlet hole communicated with outlet hole of the first evaporator. Vacuum pump is connected to the second inlet hole of the second evaporator and to outlet hole of crystallizer which is communicated with unit for drying of finished product. EFFECT: provided plant realizing the process of production of iodized salt with stable form of iodine and high concentration of finished product and capable of performance of highly efficient production processes in one plant. 1 dwg

Description

 The invention relates to the chemical industry, more specifically to equipment used for the processing of natural mineral raw materials, namely, to an installation for the production of iodized salt.

 The invention is intended for use in enterprises of the chemical industry and chemical engineering in the production of aggregates and devices for producing iodized salts.

 It is known that evaporators are used to produce salts, which evaporate the molten salt solution by means of water vapor or other high-temperature heating agent supplied to the walls of the apparatus (A. N. Planovsky and others. Processes and devices of chemical technology. 1969, M., Chemistry, pp. 468-469). Such an evaporation apparatus comprises a housing with an opening for supplying the starting components and with an opening for outputting the finished product, as well as a system for supplying a heating agent to the walls of the housing of the evaporator.

 The evaporated solution is heated by transferring heat through the wall of the casing separating the heating agent and the starting components.

 Typically, the evaporator is supplemented by a device for crystallizing liquid solutions (The same, pp. 514-519), in which there is a vessel with a rotating stirrer, and crystallization is achieved, for example, by cooling the vessel through its wall with the help of a cooling fluid moving along a coil installed around the vessel wall.

 Although it is possible to obtain iodized salt using the evaporation vessel-crystallizer system, this system is inefficient and inefficient, in addition, the degree of salt purification is insufficient.

 Therefore, the system is often supplemented with filters of various types, for example, cartridge filters, nutsche filters are known, which are a rectangular or cylindrical apparatus with a filter baffle located slightly above its bottom and used to thicken the sediment, which is discharged at the end of the filtration (Same, p. .258, 267, 269).

 To obtain iodine salt, sumps or thickeners are also used, both periodic and continuous, in the form of a basin without or with mixing devices (Same, p. 246-249) and devices for drying the finished product in the form of chamber dryers or tunnel dryers (To same, p. 756, 766).

However, with such a wide range of apparatuses and devices for carrying out the reactions of evaporation, cooling, filtration, precipitation and drying, there is no installation that allows to obtain iodized salt with a stable form of iodine and provides a high degree of purification of the finished product, for example KJO ₃ or NaJO ₃ .

 The objective of the invention is to provide a plant for producing iodized salt with such a design that would allow the process of obtaining iodized salt with a stable form of iodine and with a high concentration of the finished product when performing high-performance processes in one installation.

 The problem is solved in that the installation for producing iodized salt, containing at least one evaporator having openings for supplying the starting components and for outputting the iodized salt solution and equipped with a steam supply system, a crystallizer, a filter settler and a drying unit for finished products, according to the invention, comprises a second evaporator having a first and second inlet and an outlet connected to the inlet of the crystallizer, a vacuum pump in communication with the second evaporator apparatus and crystallizer, and a fine filter in communication with the filter-sump and the second evaporator, moreover, the filter-sump has an upper outlet communicated through the fine filter with the first inlet of the second evaporator, and a lower inlet in communication with the outlet the first evaporator, and the vacuum pump is in communication with the second inlet of the second evaporator and with the outlet of the mold, which is in communication with the drying unit of the finished product.

 The present invention allows to create an installation for producing iodized salt, which provides a high degree of purification of the finished product in the form of iodized salt with a stable form of iodine, provided that high-performance processes are carried out in one installation, which confirms the fulfillment of the task.

 Other advantages of the invention will be understood after reading the description of its implementation with reference to the attached drawing, which schematically shows the installation for producing iodized salt.

 The proposed installation for producing iodized salt contains the first evaporator 1, which performs the function of pre-evaporation, with a body volume, for example, ten cubic meters, made, for example, in the form of a cylinder of niobium. In the upper part of the housing of the evaporator 1, a cover 2 is installed with an electric drive of an agitator, for example, of the anchor type, located inside the housing (not shown in the drawing). On the cover 2 of the housing of the evaporator 1 there is a fitting 3 holes for supplying the starting components, for example, a solution of iodine-bromine-containing raw materials. The installation also includes a system for supplying steam, for example, in the form of a jacket 4 mounted around the housing 1.

 The installation contains a filter sump 5, which is a hollow apparatus of cylindrical shape with a conical bottom. The filter settler 5, having an upper outlet with a nozzle 6, can be made of steel or titanium and can, for example, have the following dimensions: filter diameter 1.5 m, height 5 m. Installation for producing iodine salt contains a fine filter 7, and the filter sump 5 with its upper outlet with pipe 6 is in communication with the fine filter 7, and with an inlet having a pipe 8, the filter sump 5 is in communication with the outlet of the evaporator 1, having a pipe 9.

 The proposed installation for producing iodine salt contains a second evaporation apparatus 10 having a housing, for example, of a cylindrical shape, with a volume of, for example, at least 1.25 cubic meters. The second evaporation apparatus 10 is equipped with a stirrer installed inside the housing (not shown in the drawing) and connected with the electric drive 11 mounted on the cover 12 of the housing of the second evaporation apparatus 10.

 In the proposed installation for producing iodine salt, the evaporation apparatus 1 performs the function of pre-evaporation, and the second evaporation apparatus 10 performs secondary evaporation due to the heating system having a jacket 13 mounted around the housing of the second evaporation apparatus 2. There is a first inlet in the cover 12 of the second evaporation apparatus 10 with a pipe 14, which is in communication with the fine filter 7, and a second inlet with a pipe 15. In the bottom of the second evaporator 10 there is an outlet with a pipe 16.

 Installation for producing iodine salt contains a water valve 17, a mold 18 and a container 19 for finished products node for drying the finished product. Through the valve 17 carry out communication between the outlet of the second evaporator (pipe 16) with the mold 18 and the tank 19 for the finished product. The installation comprises a vacuum pump 20, which is in communication with the pipe 16 of the outlet of the second evaporator 10 through the mold 18 and with the pipe 15 of the second inlet of the second evaporator 10.

 Thus, the mold 18 is connected to the pipe 15 of the second inlet of the second evaporator 10 through the vacuum pump 20.

 A device for producing iodine salt works as follows.

The initial component 1 enters the initial component in the form of iodine-bromine-containing raw materials in the form of a solution, the level of which is simply controlled by a float (not shown in the drawing). After filling the body of the evaporator 1 to the prescribed technological level, steam is supplied to the jacket 4 of the heating system and, under vacuum conditions, preliminary evaporation is carried out at a temperature of 80 ^o C. Heating is carried out with constant stirring to prevent salt crystallization. Evaporation continues until the concentration of iodized salt is increased to a density of p 1.15-1.17, while the steam enters through the jacket 4 and exits through the side opening in the form of condensate. The partially evaporated solution leaves the outlet of the first evaporator 1 through the nozzle 9 and enters the filter sump 5. Note that the height of the filter sump 5 is 5 m and the diameter is 1.5 m. Due to the dimensions of the filter sump 5, the liquid a partially stripped off solution entering through the nozzle 8 into the lower bottom section of the settling filter 5 rises and settles at the same time, while the fluid velocity in the settling filter is 0.005-0.006 m / h. Periodically, the settled solution is poured into a sludge collector-solvent (not shown in the drawing), and the clean (clarified) solution comes from the settling filter 5 through the outlet (pipe 6) to the fine filter 7, where the solution is further purified to completely eliminate it mechanical impurities. Then, the solution purified from mechanical impurities enters through the first inlet with a nozzle 14 into the second evaporation apparatus 10, where, upon receipt of steam in the jacket 13, a second evaporation of the solution and crystallization of salt occurs, and the evaporation process is accompanied by continuous mixing of the solution. Evaporation is carried out under vacuum (pressure of about 0.4 kilograms per square centimeter) at a temperature of more than 70 ^o C, and in addition, in the process of evaporation, the salt solution is constantly drained into the crystallizer 18, where cooling is constantly carried out, as a result of which the salt crystallizes on a drum (not shown) of the mold 18, from which the purified wet salt enters the drying cabinet 19 of the drying unit and then to the packaging section of the finished product (not shown). From the crystallizer 18, condensate flows out through the jacket of the crystallizer 18 and the mother liquor is drained through the pipe 21. Part of the mother liquor in order to ensure the continuity of the process through the vacuum pump 20 enters the second upper hole of the second evaporation apparatus 10 through the pipe 15 and the secondary evaporation of the mother liquor is repeated, as described above.

 Salts of bromine, boron, sodium iodate, obtained using the described device, can be used as a heavy liquid for medical procedures, for example, for balneological baths, as well as for the production of mineral water or for such medical procedures as, for example, electrolysis.

 Thus, in the proposed installation for producing iodized salt, it is possible to obtain many finished products in one installation, that is, the universal production of iodized salt with a high degree of purification, with a stable form of iodine and with a high concentration of the finished product in one corresponding apparatus, is performed when performing high-performance processes in one installation.

 The proposed device for producing iodized salt can be created at the enterprises of the chemical industry.

Claims (1)

 Installation for producing iodized salt, containing a first evaporator having openings for supplying the starting components and for outputting a solution of iodized salt and equipped with a system for supplying steam, a crystallizer, a filter settler and a drying unit for finished products, characterized in that it contains a second evaporator having a first and second inlet and outlet connected to the inlet of the mold, a vacuum pump in communication with the second evaporator and crystallizer, and a fine filter source connected with the filter-settler and the second evaporator, and the filter-settler has an upper outlet communicated through a fine filter with the first inlet of the second evaporator, and a lower inlet communicated with the outlet of the first evaporator, and the vacuum the pump is in communication with the second inlet of the second evaporator and with the outlet of the mold, which is in communication with the drying unit of the finished product.