RU2021139667A - METHOD AND INSTALLATION FOR USE OF CARBON OXIDES PRODUCED IN ALUMINUM PRODUCTION - Google Patents

Claims (16)

1. A method of using carbon oxides formed during the production of aluminum by electrolytic reduction of aluminum oxide in the melt, using at least one anode made of carbon-containing material, and pyrolysis carbon is used to obtain at least one anode, and pyrolysis of hydrocarbons, in particular natural gas or methane, as a result of which pyrolysis carbon and hydrogen are formed, characterized in that the hydrogen formed during the pyrolysis of hydrocarbons (1) is mixed with carbon dioxide and / or carbon monoxide from the electrolytic production of aluminum (9) to obtain a gas stream that is fed for further use. 2. Method according to claim 1, characterized in that the gas stream (4) containing hydrogen and the gas stream (12) containing carbon dioxide and/or carbon monoxide, or the gas stream containing a mixture of hydrogen and carbon dioxide and/or carbon monoxide is then fed into the water gas shift reverse reaction (13) whereby at least a portion of the carbon dioxide reacts with hydrogen and is reduced to carbon monoxide, thus forming a synthesis gas stream (15). 3. Process according to claim 2, characterized in that the synthesis gas stream (15) is then fed into a chemical or biotech plant (16). 4. Process according to claim 2, characterized in that the synthesis gas stream (15) is used to produce methanol, to produce methane, at least one alcohol and/or at least one other valuable chemical product. 5. The method according to claim 1, characterized in that the ratio of carbon dioxide and carbon monoxide in the gas stream (12) obtained during the electrolytic production of aluminum is set by choosing the anode current density during electrolysis. 6. The method according to claim 1, characterized in that the ratio of carbon dioxide and carbon monoxide in the gas stream (12) obtained during the electrolytic production of aluminum is set by choosing the temperature of the electrolyte. 7. The method according to claim 1, characterized in that the ratio of carbon dioxide and carbon monoxide in the gas stream (12) obtained during the electrolytic production of aluminum is set by choosing the reactivity of the pyrolytic carbon material of the anode. 8. The method according to claim 1, characterized in that the low-boiling hydrocarbons formed during the production of the anode are returned via line (19) to the hydrocarbon pyrolysis reactor (1). 9. The method according to one of paragraphs. 1-8, characterized in that part of the carbon dioxide generated during the production of aluminum is returned through line (20) to the hydrocarbon pyrolysis reactor (1). 10. A complex of equipment, including an electrolysis device (9) for the production of aluminum by electrolytic reduction of aluminum oxide in the melt, characterized in that the complex of equipment additionally includes at least one reactor (1), in which, as a result of the pyrolysis of hydrocarbons, in particular natural gas or methane, pyrolysis carbon and hydrogen are formed, includes at least one device in which anodes for aluminum electrolysis are obtained from pyrolysis carbon, or a carbon mixture containing pyrolysis carbon, includes at least one device in which hydrogen from pyrolysis is mixed with oxides of carbon from aluminum electrolysis, and at least one device for supplying the resulting gas mixture for further use. 11. The complex of equipment according to claim 10, characterized in that it additionally includes at least one device (13), in which the reverse reaction of water gas shift is carried out, which is in functional connection with the reactor (1), in which methane pyrolysis occurs . 12. The complex of equipment according to claim 10, characterized in that it additionally includes at least one chemical or biotechnological installation (16), which is in functional connection with the reactor (1) or with the device (13) in which the reverse reaction is carried out water gas conversion. 13. The complex of equipment according to claim 10, characterized in that the device (6) for producing anodes from carbon obtained as a result of pyrolysis is connected to the reactor (1) through a feed device (3), and by means of a feed device (3) into the device (6) the carbon obtained by pyrolysis in the reactor is supplied, and by means of an additional feeder (7), a binder and other forms of carbon are fed into the device (6), if necessary. 14. The complex of equipment according to claim 10, characterized in that it includes at least one line (17) for hydrogen, which leads from the reactor (1) to the chemical or biotechnological plant (16), and / or at least one line (4) for hydrogen, which leads from the reactor (1) to the device (13). 15. The complex of equipment according to claim 10, characterized in that it includes at least one line (12) for carbon dioxide and / or carbon monoxide, which leads from the electrolysis device (9) to the device (13) or to the chemical or biotechnological installation (16). 16. The complex of equipment according to one of paragraphs. 10-15, characterized in that it includes at least one line (15) for synthesis gas containing at least carbon monoxide and hydrogen, which leads from the device (13) to the chemical or biotechnological installation (16).