TH8067B - Obtaining free aluminum from aluminum scraps using plasma energy that does not require salt water binders. - Google Patents

Abstract

Method for utilization of free aluminum and aluminum oxide compounds from aluminum fractions. in which the aluminum scraps in the furnace will be heated By plasma elimination burners with air being used as a sparking gas, plasma power is used. To heat the furnace, it eliminates the need for salt-based brazing, resulting in a process that is safe for the environment. and low cost, including a method for converting non-metallic aluminum compounds to pure aluminum oxides by heating the compounds back for use. It consists in the infusion of aluminum fractions or non-metallic aluminum residues to pure aluminum oxide by heating the compound with a plasma burner in combination with an oxidizing aid gas. It is the gas that helps the sparking of plasma burners.

Claims (7)

1. Process for obtaining aluminum free from aluminum scrap or recycled aluminum residue. That consists of the ingestion of aluminum debris or aluminum residues into a furnace with a plasma torch burner. To heat the inset, heat the inset. By the plasma energy supplied to the above, the plasma energy is produced by feeding air to the burner. To cause ionization The heating is continued until the inset melts and the separation of the free aluminum in the molten state. 2. Process according to claim 1, where the air will be mixed with nitrogen 3. Process according to claim 1, where the air will be mixed with oxygen 4. process according to claim Clause 1 where the aforementioned kiln will have a rotating hull and the hull will rotate during such heating. 5. The process of claim 1, where it is performed, will be from time to time. 6. The process of claim 1, where it is performed, is a continuous operation with intermittent interception. Of the furnace to separate the free aluminum. 7. Process for obtaining free aluminum from aluminum scraps to be used again. Containing Insertion of aluminum scraps into the rotary kiln With a burner that provides a plasma spark To heat such inset The heating of the inset takes place by providing plasma energy. To such inset produced by the aforementioned plasma-fired burners while the furnace is rotated at a sufficient rate. To form free alumina in the furnace As it melts, such heating continues. While rotating until the inset was completely melted and the free aluminum was incorporated in the trap furnace, he said. And the separation of free aluminum in the molten state from the said furnace, such an operation would be possible without the need to add salt water. 8. Procedure according to claim 7, where air is fed. Also, the plasma spark burner is a gas that allows the ignition of the ignition 9. Procedure according to claim 8, where the air is mixed with oxygen 1 0. Treatment according to claim 8, where the burner The incinerator has a rotatable hull and the hull is rotated during such heating. 1 1. Process according to any of the claims 7 to 10, where the operation shall be Go from time to time 1. 2. Procedure according to any of Clause 7 to 10, where it is performed is a continuous operation with intermittent interception. 1 3. Process according to one of the claims 7 to 10, where the plasma torch It consists of a pathway to divert the plasma emitted by the burner inside the furnace. And the burner is directed so that the outgoing plasma is directed towards the wall of the furnace. 1 4. Procedure according to one of the claims 7 to 10, where the rotation 1 5. Process according to any of the claims 7 to 10, where rotation of such kiln will be stopped periodically 1 6. Process according to the claim. Any of the points 7 to 10 where the furnace Will be a type of burner that gives off sparks that will not pass The cathode is located in front of the burner electrode. 1 7. Procedure according to claim 7, where after the free liquid aluminum has been separated from the furnace, The remainder will remain in the furnace. To perform oxidation with a plasma sparking burner to be operated by oxidizing gas to sparking gas 1 8. Procedure according to claim 17, where The oxidizing gas is oxygen 1 9. Process according to claim 17, where oxidizing gas is a mixture of oxygen and air 2 0. Process according to claim 17, where The oxidizing gas is a mixture of oxygen and nitrogen 2. 1.Processes for reversing solid materials Containing a mixture of non-metallic aluminum parts Which includes at least one of the moo Aluminum Nitrite and Aluminum Chloride with Pure Aluminum Oxide Where it consists of heating the mixture of parts with a Lasma-type sparkling burner. To make the oxidizing gas the same as the sparking gas, and after that, the pure aluminum oxide is returned 2 2. Procedure according to claim 21, where the solid material is the residue arising from the operation of aluminum scraps and independent aluminum separation 2. 3. Process according to claim 21 or 22 where pure oxides contain less than 1% of said nitrides and chlorides 2. 4. Process according to the claim Any of items 21 or 22 or 23, where the oxidizing gas is oxygen 2 5. Process according to the claim clause Any of items 21 or 22 or 23, where the oxidizing gas is a mixture of air and oxygen with more than 50% oxygen 2 6. Process according to the claim clause Any of the above items 21 or 22 or 23, where the oxidizing gas is a mixture of air and oxygen with more than 40% oxygen 2 7. Process according to the claim clause Any of items 21 or 22 or 23, where the oxidizing gas is a mixture of air and oxygen with more than 40% oxygen.