RU2329865C1 - Device for cleaning, modification and regeneration of sorbents - Google Patents

Abstract

FIELD: technological processes, filters.

SUBSTANCE: invention is intended for provision of optimal operation of filter-sorbents for water cleaning. Device for cleaning, modification and regeneration of sorbents includes the following components: bath for sorbents flushing with water solutions of acids, alkalis, salts, device for sorbents washing with specified water solutions, and also closed circuit, in which there is pump for pumping of specified water solutions from bath into separate vessel with sorbents. Bath is made as electroconductive and is kept in electrical insulating protective jacket, at that bottom and side walls of bath serve as the first electrode. Device also contains the following components: device for dosing supply of salts into bath, grounded vessel, which is made as electroconductive and installed in bath in the centre of its symmetry and has properties of water fine cleaning filter, and also the second electrode, which is installed in the specified vessel. In separate vessel for placement of cleaned sorbents in it electrodes are installed that separate sorbents in layers, which are parallel to the flow of water solutions. Electrodes are made with the possibility of energising with direct current voltage that is necessary for creation of electrical field with intensity of 100 - 10,000 V/m in bath and vessel. Device also contains additional vessel for discharge of solutions of acids, alkalis, salts in it after sorbents cleaning. Invention allows to reduce time of sorbents cleaning, modification and regeneration processes, and also to reduce consumption of initial ingredients and reduce concentration of salts in sewage water.

EFFECT: reduction of water cleaning time, reduction of initial ingredients consumption and reduction of salts concentration in sewage water.

1 dwg, 1 ex

Description

The invention relates to a device for cleaning, modifying and regenerating sorbents, is intended to ensure optimal operation of filter sorbents for water purification from the whole spectrum of substances harmful or excessive for plant and living biological objects, for cleaning all types of other liquids from excess impurities dissolved in them , in particular, from organosulfur impurities in crude oil and petroleum products.

Known devices for cleaning, modifying and regenerating sorbents, including a bath for sorbents, a device for washing zeolites with aqueous solutions of acids, alkalis, salts, the device either consists of a closed loop with which aqueous solutions of acids, alkalis, salts are passed through sorbents, or from a device for mixing granules of sorbents in aqueous solutions of acids, alkalis, salts [see A collection of abstracts of the All-Russian meeting on the use of zeolites in the national economy. - N., 1997, p.175].

The disadvantage of these analog devices is the long duration of the processes of purification, modification and regeneration of sorbents that are carried out in them due to the low intensity of the processes of purification, ion exchange that take place in them, the high consumption of acids and alkalis necessary for purification, and salts, for modification and regeneration, high concentration salts in wastewater from purification, modification and regeneration of waters, which worsens the environmental safety of the environment, the high cost of the process of purification, modification and regeneration of sorbents in devices taxes, increased danger to working personnel due to the need for storage, transportation, dilution and use of concentrated acids and alkalis for cleaning sorbents.

The closest technical solution of the same purpose to the claimed device for the combination of essential features is a device for cleaning, modifying and regenerating sorbents, including a bath for washing the sorbents in it with aqueous solutions of acids, alkalis, salts, the cations of which must be filled in ion-exchange containers of sorbents, a washing device sorbents with aqueous solutions of acids, alkalis, salts [see A collection of abstracts of the All-Russian meeting on the use of zeolites in the national economy. - N., 1997, 75 pp.].

The disadvantages of the prototype method are the same as for analogues: the long duration of the processes of purification, modification and regeneration of sorbents in them due to the low intensity of the purification, ion exchange processes that take place in them, the high consumption of the starting ingredients required for purification, and a high concentration of salts in waste water from cleaning, modification and regeneration of waters, which worsens the environmental safety of the environment, the high cost of the cleaning process, modification and regeneration of sorbents in the prototype device, increased danger It is suitable for operating personnel because of the need to store, transport, dilute and use concentrated acids and alkalis for cleaning sorbents.

The technical result of the invention is an increase in the sorbents of the intensity of the cleaning processes, ion exchange during regeneration and modification taking place in the inventive device, a reduction in time and a decrease in the cost of the cleaning, modification and regeneration of sorbents, a decrease in the consumption of the starting ingredients, a decrease in the concentration of salts in the waste water discharged from the inventive device, which improves the environmental safety of the environment, improving safety for operating personnel.

The specified technical result is achieved in that the device includes a bath made electrically conductive, in an electrical insulating protective casing, the bottom and side walls of which are the first electrode; an electrically conductive grounded vessel, also made electrically conductive, located in the bath at the center of its symmetry, having the properties of a fine water filter; the second electrode in the specified vessel, the electrodes are configured to supply them with a DC voltage necessary to create an electric field in the bath with a voltage of 100-10000 V / m; a device for dosed loading into the bath salts; a separate vessel for the location of cleaned, regenerated, modified sorbents in it; electrodes in this separate vessel, delimiting the sorbents into layers parallel to the flow of aqueous solutions, made with the possibility of applying DC voltage to them, which is necessary to create an electric field of 100-10000 V / m in the vessel with the sorbent; pump for pumping aqueous solutions of acids, alkalis, salts; a closed circuit in which there is the above pump for pumping aqueous solutions of acids, alkalis, salts from a bath in an electrical insulating protective casing into a separate vessel with a sorbent; additional capacity for discharge into it after cleaning, regeneration and modification of sorbents of solutions of acids, alkalis, salts.

The invention is illustrated in the drawing.

The device includes a bath made electrically conductive in an insulating protective casing 1, the bottom and side walls of which are the first electrode 2; an electrically conductive grounded vessel 3, made electrically conductive, located in the water tank in the center of its symmetry, having the properties of a fine filter of water; the second electrode 4, located in the specified vessel, the electrodes 2 and 4 are made with the possibility of applying to them the DC voltage necessary to create an electric field in the bath with a voltage of 100-10000 V / m; device 5 for dosed loading into the bath salts; a separate vessel 6 for the location of cleaned, regenerated, modified sorbents in it; electrodes 7 in the vessel 6, delimiting the sorbents into layers parallel to the flow of aqueous solutions, configured to supply them with a direct current voltage necessary to create an electric field of 100-10000 V / m in the vessel with sorbents; pump 8 for pumping aqueous solutions of acids, alkalis, salts; closed loop 9, in which there is the above pump 8, for pumping aqueous solutions of acids, alkalis, salts from the bath in the electrical insulating protective casing 1 into a separate vessel 6 with sorbents; additional capacity 10 for dumping into it after cleaning, regeneration and modification of sorbents of solutions of acids, alkalis, salts.

The device operates as follows.

Water is poured into the bath 2, which is in the insulating protective casing 1, salts are loaded into the water with the device 5 in the quantities necessary to obtain a concentration of these salts in the bath water of 5-10%, a direct current voltage is applied to the electrodes 2 and 4, necessary for creating an electric field in the bath with a voltage of 100-10000 V / m, for cleaning the sorbents, a positive potential is applied to electrode 2, a negative potential is applied to electrode 4, salts are converted into acids in the bath 2, a constant voltage is applied to electrodes 7 The current required to create an electric field with a strength of 100-10000 V / m on sorbents activates a pump 8 for circulating an aqueous solution of acids in a closed loop 9, thereby washing and purifying the sorbents with an acid solution, and disconnecting the voltage on electrodes 2 and 4 , the acid solution is discharged into the tank 10, the bath is again filled with water, salts 5 are loaded into the water with the device 5 in the quantities necessary to obtain a concentration of these salts in the bath water of 5-10%, negative potential is applied to electrode 2, d 4 - positive, in the bath salts are converted into alkalis, the pump 8 is activated to circulate the aqueous alkali solution in a closed loop 9, thereby washing and purifying the sorbents with an alkaline solution, disconnecting the voltage on the electrodes 2 and 4, and discharging the alkali solution into the tank 10, water is poured into the bath, salts 5 are loaded into the water with the device 5 in quantities necessary to obtain a concentration of these salts of 5-10%, the zeolites are washed for 3-10 hours at a constant electric current voltage necessary to create vessel with sorbents electric field intensity 100-10,000 V / m.

The limits of the processing parameters indicated in the description are selected for the following reasons. The lower limit of the electric field with a voltage of 100 V / m when applying a DC voltage to the electrodes 2, 4 and 7 is necessary and sufficient for cleaning, modifying and regenerating sorbents when maximum salt concentration of up to 10% is introduced into the water, the upper limit of the electric field with a voltage of 10000 V / m when applying a DC voltage to electrodes 2, 4 and 7 is necessary and sufficient for cleaning, modifying and regenerating sorbents when a minimum salt concentration of 5% is added to water.

Example. The device includes a stainless steel bath, which is a cylindrical vessel with a diameter of 1.0 m, a height of 1.5 m, a wall thickness of 0.008 m, the bottom and side walls of which are the first electrode 2, the bath is in a protective casing 1 of thick plastic 0.01 m; a grounded vessel 3, located in the bathtub at the center of its symmetry, which is a cylinder made of sheet stainless steel with a diameter of 0.20 m, a height of 1.0 m with a bottom, without a top cover, the upper section of which protrudes 0.05 m above the water level in bathtub, with through holes with a diameter of 0,0005 m, located in increments of 0.001 m; the second electrode 4 in the specified vessel, which is a hollow cylinder of stainless steel without a bottom and a cover with a wall diameter of 0.05 m, a height of 0.8 m, to the electrodes 2 and 4, made with the possibility of applying DC voltage to them, necessary to create in a bath of an electric field with a strength of 100-10000 V / m; device 5 for dosed loading into the bath salts; a separate vessel 6 for the location of cleaned, regenerated, modified sorbents in it, which is a cylindrical vessel made of stainless steel with upper and lower flanges, connected to a closed loop, with a diameter of 1.0 m, a height of 1.5 m, and a wall thickness of 0.008 m; coaxial cylindrical electrodes 7 of stainless steel mesh with cells of size 0.002 × 0.002 m, height 1.0 m in vessel 6, delimiting sorbents into layers parallel to the flow of aqueous solutions located at distances of 0.05 m, which allow applying voltage to these electrodes direct current required to create in a vessel with sorbents an electric field with a strength of 100-10000 V / m; pump 8 for pumping aqueous solutions of acids, alkalis, salts; closed loop 9 of stainless steel pipes with a diameter of 1 inch, including a pump 8 for pumping aqueous solutions of acids, alkalis, salts from a bath 2 in an electrical insulating protective casing 1 into a separate vessel 6 with sorbents; additional capacity 10 for discharge into it after cleaning, regeneration and modification of sorbents of solutions of acids, alkalis, salts in the form of a cylindrical vessel of stainless steel with a lower flange with a diameter of 1.0 m, a height of 1.5 m, a wall thickness of 0.008 m, connected to the system sewers.

When the magnitude of the electric field in the bath is 2,100 V / m created by electrodes 2 and 4 when a DC voltage of 80 V is applied to them, and the same magnitude of the electric field between the electrodes 7 in the vessel 6 filled with sorbents is created when they have a voltage of 5 V, with a minimum concentration of common salt of 5%, any type of sorbent is cleaned, in particular, granules of the natural zeolite of the Kholinsky deposit, with acidic, alkaline aqueous solutions are carried out for 1-2 hours, modification and regeneration w sorbents - within 10 hours. With an increase in the electric field at the electrodes in bath 2 and vessel 6 to 10,000 V / m and a salt concentration of up to 10%, the sorbent cleaning time decreases to 0.5 hours, the regeneration and modification time to 3 hours. As a result of processing according to this example, the sorbents have an initial degree of purity and an initial sorbing ability, in particular, an initial dynamic exchange capacity. Aqueous solutions of salts with a concentration of not more than 2% are discharged into wastewater.

If a prototype device is used for cleaning, modifying and regenerating, then in order to achieve the same degree of purification of the sorbent granules and restore the optimal sorbing ability, in particular, the optimal dynamic exchange capacity of the sorbents (during regeneration and modification), which would be required in the above example apply delivery, storage at the place of production of cleaning sorbents of concentrated acids, alkalis, diluting them in water, cleaning (without an electric field), carry out over time, an order of magnitude longer, Vat regeneration and sorbents modifications, in particular zeolite in sodium chloride solution concentration of 20% for 48 hours, i.e. it would take at least twice as much salt and 5-20 times more processing time, after the end of the process of modification and regeneration of zeolite in wastewater from the production, there would be 10 g / l of residual amount of sodium chloride, i.e. five times more than in the proposed device for its implementation. An 8-fold reduction in the time for modification and regeneration, a two-fold reduction in the amount of salt needed for the regeneration and modification of table salt in the above method and apparatus leads to a significant reduction in the cost of production costs, a 5-fold reduction in the concentration of salts discharged into wastewater improves the environmental environmental safety.

Using the proposed device allows to realize the technical result of the invention: increasing the intensity of the cleaning processes, the intensity of ion exchange in the sorbents during regeneration and modification taking place in the inventive device, leading to a reduction in time and cost of the processes of cleaning, modification and regeneration of sorbents, reducing the consumption of the number of starting ingredients, a decrease in the concentration of salts in wastewater discharged when using the inventive device, the improvement of environmental environmental safety, increasing safety for operating personnel.

Thus, the above data indicate that when using the claimed invention, the following combination of conditions:

- a tool embodying the claimed device in its implementation, is intended for use in industry, namely to ensure optimal operation of filter sorbents for water purification from the entire spectrum of substances harmful or excessive for plant and living biological objects, for cleaning all types of other liquids from excessive impurities dissolved in them, in particular, from organosulfur impurities in crude oil and petroleum products;

- for the claimed device in the form described in the independent clause of the claims, the possibility of its implementation using the means and methods described in the application or known prior to the priority date is confirmed.

Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (1)

A device for cleaning, modifying and regenerating sorbents, including a bath for washing sorbents in it with aqueous solutions of acids, alkalis, salts, the cations of which must be filled in ion-exchange containers of sorbents, a device for washing sorbents with aqueous solutions of acids, alkalis, salts, characterized in that the bath is made electrically conductive, located in an insulating protective casing, the bottom and side walls of the bathtub are the first electrode, the device also has: a grounded vessel made of electric oprovodnym disposed in the bath at the center of its symmetry properties of the filter having fine water; the second electrode in the specified vessel, the electrodes are configured to supply them with a DC voltage necessary to create an electric field in the bath with a voltage of 100-10000 V / m; a device for dosed loading into the bath salts; a separate vessel for the location of cleaned, regenerated, modified sorbents in it; electrodes in this separate vessel, delimiting the sorbents into layers parallel to the flow of aqueous solutions, made with the possibility of applying a direct current voltage to them, which is necessary to create an electric field of 100-10000 V / m in the vessel with sorbents; pump for pumping aqueous solutions of acids, alkalis, salts; a closed circuit in which there is the above pump for pumping aqueous solutions of acids, alkalis, salts from the bath in an electrical insulating protective casing into a separate vessel with sorbents; additional capacity for discharge into it after cleaning, regeneration and modification of solutions of acids, alkalis, salts.