RU2631215C1 - Method of producing metallic aluminium and device for its implementation - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: method includes a preliminary two-stage continuous treatment of bentonite clay in the form of air dredge, whose fractional composition is from 0.001 to 0.05 mm, followed by its activation by an electrostatic field of strength E≈1000 V/m. Then, the air dredge is exposed to an alternating magnetic field, a strength of 1⋅10⁴-4⋅10⁴ A/m, frequency of 20-50 Hz. Stirring of air dredge is carried out in the chamber of aerostatic activation. A device is disclosed comprising a housing made of two chambers - an electrostatic chamber connected to a measuring hopper and containing electrodes of a static field generator connected to a static capacitor battery for electrostatic activation of the air dredge, and a dielectric chamber provided with a vacuum pump and a storage hopper located in its lower part, and two pairs of focusing elements electrically connected to a concentration generator of an alternating electromagnetic field for an electromagnet air dredge.

EFFECT: possibility of a significant degree of extraction of pure aluminium from its oxides.

2 cl, 2 dwg

Description

The invention relates to non-ferrous metallurgy, and in particular to the production or refining of metals, pre-treatment of ores, in particular, it is intended for the electrolytic production of aluminum and devices intended for this.

Known carbothermal method of producing aluminum from alumina with a low content of aluminum carbide, according to which a mixture of aluminum oxide and carbon or carbon-containing material is subjected to a plasma arc. The resulting aluminum flows out from the arc and contains no more than 5% weight. aluminum carbide. A device for producing aluminum contains an anode and a cathode, between which a plasma arc is created, an alumina and carbon feed channel and a gas exhaust pipe, the working space of the device being lined with graphite material (FR 2330772 (A1) - 1977-06-03).

However, the known method does not allow to obtain aluminum of a sufficiently high degree of purity using an electrostatic field of high tension.

A known method of producing primary aluminum, comprising mixing alumina and carbon to obtain a mechanical mixture, reducing the mixture using a plasma arc and precipitating aluminum, in which the mixture is fed directly into the plasma arc, while the temperature of the deposited aluminum melt is maintained using an inductor. To implement the known method, a device is used that contains a reactor with graphite blocks, a feed channel for a mixture of alumina and carbon, a cathode and anode located in its upper part, and a pipe for exhausting gases, and equipped with a solenoid, inductor and pipelines for removing metal and removing slag, a gas exhaust pipe is located in the middle part of the device, the cathode is made of refractory, the feed channel is placed between the cathode and anode, a solenoid is coaxially placed around the anode, and around graphite blocks located in It part of the device coaxially arranged inductor (Patent RU №2170278. Publ. 10.07.2001).

However, the aluminum obtained by the described method and device does not have a high degree of purity and requires additional operations to bring it to the required degree of purity.

A known method of producing aluminum, including heat treatment of aluminum oxide with carbon, obtaining a vaporous aluminum subhalide, its subsequent withdrawal from the reaction zone, cooling and separation of aluminum metal, in which the heat treatment with carbon is carried out in a melt of aluminum oxide with salts of hydrohalic acids and in the presence of aluminum trihalide with obtaining vaporous aluminum subhalide in one operation (Patent RU No. 2280703. Publ. July 27, 2006).

However, in the known method, an electrostatic high voltage field is not used to produce aluminum.

A method of producing aluminosilicates and silicon from an air suspension of sand particles, comprising placing the feedstock in an internal cavity of a container isolated from its environment, and exposing it to a physical field generated to convert it into a final product, which is carried out directly in the zone of its influence, as an object for carrying out the latter, an air suspension of sand particles containing aluminum and silicon oxides with sizes of 1-8 μm is used, and the total volume of these particles relative to the whole bemsya cavity, which is filled with them, is 20-40%, but as the physical field uses alternating rotating magnetic whose intensity, measured in the treatment zone is 2,5⋅10 -1⋅10 ^{6 3} A / m and frequency 40 -70 Hz, and the tank itself with the processed raw materials loaded into it serves as the closing connecting link for the flow generated in the magnetic system used and created in it, and during processing, the jets of compressed sediment are produced in the thickness of the bottom sediment obtained during its implementation air under excess pressure equal to 0.1-0.6 kgf / cm ² and the time period during which such conversion of the starting raw material into final products is performed is 12-17 minutes (Patent RU No. 2467950. Publ. November 27, 2012).

However, the known method does not provide for the production of aluminum of a sufficiently high degree of purification using an electrostatic field of high tension.

A known method for producing metallic aluminum, comprising loading aluminum-containing clay into a cavity of a device for producing aluminum, reducing it in said cavity when exposed to a generated magnetic field in a treatment zone, depositing and unloading the resulting aluminum, in which the aluminum-containing clay is ground into particles with dimensions of 0.001-1, 0 mm, mixed with water in an amount of 30-40% of the total mass of crushed clay to obtain an aqueous suspension, which is loaded into the cavity, is blown through the processing zone heel compressed air, reduction is carried out with carbon, forming part of the gases present in the jets of air blown through said treatment zone, when subjected to a water slurry alternating rotating magnetic field intensity in the processing zones 4⋅10 -1⋅10 ^{4 6} A / m, frequency of 40-70 Hz by moving the aqueous suspension through the processing zones mentioned in series located in the device body, the number of which is from 2 to 6, and the said treatment zones of the aqueous suspension are used as coupling elements for closing the magnetic flux generated when exposed to a water suspension, and loading and unloading of a water slurry of the finished aluminum performed without stopping the apparatus for producing aluminum. (Patent RU No. 2501870. Published. 12/20/2013).

However, the known method does not provide for the production of aluminum of a sufficiently high degree of purification using an electrostatic field of high tension.

A known cell for the production of aluminum, including a cathode device containing a bath with a carbon bottom, laid out of coal blocks with mounted cathode current leads, enclosed in a metal casing, placed between the metal casing and the coal blocks refractory and heat-insulating materials, the anode device containing carbon anodes, connected to the anode busbar, located in the upper part of the bath and immersed in a molten electrolyte, in which on the coal bottom under each of the anodes floats with higher electrical conductivity than electrolyte electrical conductivity are located, resistant to destruction in cryolite-alumina melts and liquid aluminum, the upper surface of the floats protruding above the level of cathode aluminum, and the floats are movable and / or replaceable (Patent RU No. 2499085. Publ. . 11/20/2013).

However, the known electrolyzer does not allow to obtain an electrostatic field of high tension for the production of aluminum of a sufficiently significant degree of purification.

A known cell for the electrochemical production of aluminum from aluminum oxide dissolved in a fluorine-containing molten electrolyte containing a horizontal carbon cathode bottom protected by a wettable aluminum surface coating, while such a coated cathode bottom is resistant to corrosion and wear, a number of plates made of aluminum wettable mesh porous material filled with aluminum and placed flat on an aluminum wettable surface; thin aluminum bottom layer I am between an aluminum-filled porous plate and an aluminum-wetted surface coating on the top of the carbon cathode bottom, while a thin layer of aluminum wets the surface coating and the bottom of the aluminum-filled porous plates, and the upper layer of aluminum, which is formed on the aluminum-filled porous plates and coated with an electrolyte ( Patent RU No. 2283372. Published on 09/10/2006).

However, the known electrolyzer does not allow to obtain an electrostatic field of high tension for the production of aluminum of a sufficiently significant degree of purification.

A known cell for the production of aluminum, including a cathode device containing a shaft with a coal hearth, laid out of coal blocks enclosed in a metal casing, with refractory and heat-insulating materials placed between the metal casing and the coal blocks, an anode device containing carbon anodes connected to the anode bus located in the upper part of the bath and immersed in a molten electrolyte and an automatic alumina feeding system (APG) containing an electrolyte crust punch and alumina extractor, in which, for collecting and gradually dissolving the alumina supplied to the electrolyte, on the coal hearth, under each APG feeder, a block is installed that is resistant to destruction in cryolite-alumina melts and liquid aluminum, the upper base of which is located at or above the level of liquid aluminum (RU Patent No. 2454490. Published on June 27, 2012).

However, the known electrolyzer does not allow to obtain an electrostatic field of high tension for the production of aluminum of a significant degree of purification.

A known cell for the production of aluminum, containing a cathode device having a bath with a coal bottom, laid out of coal blocks with mounted cathode current leads, enclosed in a metal casing, placed between the metal casing and the coal blocks refractory and heat-insulating materials, the anode device containing carbon anodes, connected to the anode bus, placed in the upper part of the bath and immersed in a molten electrolyte, which is equipped with blocks in the form of bollards or floats, azmeschennymi perimeter of the anode in the interpolar gap on the boundary surfaces of the aluminum cathode-electrolyte, the upper surface which protrudes above the cathodic aluminum, adapted to move and / or replace them if necessary (Patent RU №2550683. Publ., the 05/10/2015).

A device for producing aluminosilicates and silicon from an air suspension of sand particles, comprising a container for accommodating the processed raw material in it, as well as working elements that ensure the formation of a physical field acting on its constituent particles, which are connected to an external electric power source, in wherein said working elements are made in the form of plates of magnetically conductive material joined together, forming a closed rectangular angle during their installation three loops-coils, each of which is connected to the corresponding phase of an external three-phase electric power supply, and in one of these elements included in the circuit there is a through groove, the dimensions of which provide placement in it containing an air suspension of the container, and its upper part has a lid installed on the end of the latter, isolating the internal volume of the container from its direct connection with the external environment surrounding the container, and at the bottom wives are muffled from the end of the pipe, the walls of which have perforation holes that allow the outflow of compressed air supplied through them to the surrounding bottom layers of the processed raw material, and the internal cavity of this pipe communicates with the external supply line of the latter under overpressure (Patent RU No. 2467950. Publ. November 27, 2012).

However, the known device does not allow to obtain an electrostatic field of high tension.

A device for producing metallic aluminum is known, comprising a housing for placement of a processed aluminum-containing clay in its cavity, working elements for creating a magnetic field connected to an external source of electrical power, a solenoid placed on the working element, and means for loading said clay and unloading the obtained aluminum, which is equipped with a screw located in the inner cavity of the aforementioned housing, rotating around its axis to move the treated aqueous suspension of aluminum-containing clay and water from the front end of the casing to its rear end, the auger drive to provide angular movements of the auger at a given speed and nozzles for supplying compressed air, and in the front end of the casing there is a hole in communication with the cavity of the loading hopper located above it for supplying the said suspension and at its rear end there is a hatch for unloading of the obtained aluminum from it into a drive installed under the hatch, the working elements are made in the form of plates of magnetically conductive materials joined together Series mounted in a closed rectangular circuit in an amount of 2 to 6, the solenoids are made in the form of three electrical winding coils located in the body of the working elements that make up each closed rectangular contour, each electrical coil is connected to the corresponding phase of an external three-phase electric power source moreover, in each circuit in one of the working elements a through groove is made covering the housing mentioned therein, and the circuits are sequentially set to equal m distance from each other (Patent RU No. 2501870. Publ. 12/20/2013).

However, the known device does not allow creating an electrostatic field of high tension to produce aluminum, which has a significant degree of purification, approaching 100%.

The objective of the present invention is to develop an environmentally friendly and energy-saving method and device for producing aluminum, the result of which is manifested in the possibility of a significant degree of extraction of pure aluminum from its oxides, by the action of an alternating electromagnetic field on pre-activated aluminum oxide molecules using a high-voltage electrostatic field.

The problem is solved in that in a method for producing metallic aluminum, including the use of bentonite clay, the restoration of aluminum, the use of a magnetic field, the set intensity and frequency, a two-stage continuous processing of bentonite clay is carried out, the finely dispersed composition of the air suspension of which is from 0.001-0.05 mm, then pre-prepared composition of bentonite clay is activated by an electrostatic field of intensity E≈1000 V / m for at least 10 minutes, after which fine-grained bent nits clay is subjected to an alternating magnetic field intensity from 1⋅10 -4⋅10 ^{4 4} A / m, a purity of 20-50 Hz for 20-40 minutes in a closed insulated dielectric space in which under the action of the alternating magnetic field occurs recovery of pure aluminum.

It is advisable to ensure the energy readiness of the molecules of aluminum oxides to break the interatomic bonds carry out the energy activation of bentonite clay through exposure to an electrostatic field.

To implement the method, a device for producing aluminum metal is used, comprising a housing, a hopper, elements creating a magnetic field, in which the housing is made of two chambers (1, 4), one (1) of which is connected to the metering hopper 3 (2) and it is intended for electrostatic activation of aerosuspension by means of electrodes of a static field generator connected to a battery (10) of a static capacitor (10), the second is dielectric (4), it is intended for electromagnetic processing of aerosuspension, while the dielectric chamber ( 4) is equipped with a vacuum pump (5), a storage hopper (6) located in the lower part of the dielectric chamber (4), and two pairs of focusing elements 9 (7), electrically connected to a concentration generator of an alternating electromagnetic field, while the pairs of focusing elements are located symmetrically with respect to the longitudinal axis 10 (12) and each other with respect to the transverse plane 11 (13).

The present invention is explained in a detailed description, an example implementation and diagrams in which:

FIG. 1 is a front view of a device for producing aluminum according to the invention;

FIG. 2 shows a top sectional view by plane AA of the dielectric chamber of the electromagnetic processing of the air suspension at the level of the focusing elements.

A method of producing metallic aluminum using the device is as follows.

A device for producing aluminum metal contains a housing made of the first chamber 1, intended for electrostatic activation of air suspension, and the second dielectric chamber 2 (Fig. 1). Camera 1 is connected to a metering hopper 3. Electrostatic activation of air suspension is possible through electrodes 4 of a static field generator connected to a battery of static capacitor 5. The second chamber 2 is dielectric, designed for two-stage electromagnetic processing of air suspension. In this case, the dielectric chamber 2 is equipped with a vacuum pump 6, a storage hopper 7. A vacuum pump 6 and a storage hopper 7 are located in the lower part of the dielectric chamber 2. In addition, the dielectric chamber 2 is equipped with two pairs of focusing elements 8 (Fig. 2). In this case, the pairs of focusing elements 8 are located symmetrically relative to the longitudinal axis 9 and to each other with respect to the transverse axis 10.

To obtain metallic aluminum Al, finely dispersed concrete clay Al ₂ O _{3 is used} . Fine bentonite clay is preliminarily cleaned of organic impurities and dried in a drying chamber at a temperature of 150 ° C. Then fractionated by grinding to obtain fractions in the form of particles with a size of from 0.001-0.5 mm Then the fractions of bentonite clay are poured into the hopper of the dispenser 3 (Fig. 1). From the hopper of the dispenser 3, said bentonite clay enters the first chamber of electrical activation 1, in which a high-voltage electric field with E≈1000 G / M is created. Under the influence of electrostatic voltage, the fractionated particles of the raw material mass of bentolite clay are electrified, which is in the electrostatic activation chamber 1 in the form of an air suspension and preliminary energy activation of interatomic bonds in aluminum oxide molecules. The resulting air suspension is forced into chamber 2 (Fig. 2). The pressure differential in chambers 1 and 2 is formed as a result of pumping air out of chamber 2 using pump 6. Forced air suspension is ensured by the effect of excessive pressure on it, which is formed as a result of the pressure difference in chamber 1 and chamber 2. Fine particles of air suspension, possessing a certain electric charge, under the influence of an alternating magnetic field (PMF) with a strength of 1⋅10 ⁴ -4 410 ⁴ A / m are polarized and the aluminum reduction reaction occurs. Reduced aluminum under the action of gravity enters the hopper 7 drive.

The present invention allows the use of an environmentally friendly and energy-saving method and device for producing aluminum.

In addition, it is possible to substantially extract pure aluminum from its oxides through the action of an alternating electromagnetic field on pre-activated aluminum oxide molecules using a high-intensity electrostatic field.

The present invention allows to obtain chemically pure aluminum with a minimal technogenic impact on the natural environment and with reduced energy consumption of the process.

Claims (2)

1. A method of producing metallic aluminum from bentonite clay, including cleaning clay from contaminants, drying, grinding it to obtain particles with a size of 0.001-1 mm and restoring aluminum using a magnetic field of a given strength and frequency, characterized in that the finely dispersed bentonite clay is activated by electrostatic field strength E ~ 1000 V / m for at least 10 minutes to obtain activated air suspension, which is then exposed to an alternating magnetic field of intensity from 1 April ¹⁰ -4 × 10 ⁴ A / m, a frequency of 20-50 Hz for 20-40 minutes in a dielectric chamber slit providing aluminum recovery. 2. A device for producing metallic aluminum from bentonite clay, comprising a housing, a hopper, elements for creating a magnetic field, characterized in that the housing is made of two chambers, one of which is a chamber for electrostatic activation of aero suspension, connected to a metering hopper and contains electrodes a static field generator connected to a static capacitor battery, and the other is a dielectric chamber for electromagnetic processing of air suspension, equipped with a vacuum pump and a storage hopper, Assumption in its lower part, and two pairs of focusing elements effects the alternating magnetic field, electrically connected to the concentration alternating electromagnetic field generator, wherein the pair of focusing elements are arranged symmetrically about the longitudinal axis of the device and to each other relative to the transverse plane of the device.

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