Process for the recovery of pure aromatics from hydrocarbon fractions containing aromatics

The invention claimed is: 1. A process for the dealkylation of a hydrocarbon mixture rich in C 7 to C 9 aromatics, comprising: submitting the aromatics-rich starting hydrocarbon mixture to an extractive distillation in which the aromatics-containing hydrocarbon mixture is distilled by means of a suitable extracting solvent and freed from it, obtaining a product flow significantly depleted from aromatic hydrocarbons and free of solvent as well as an aromatics concentrate significantly enriched in aromatic hydrocarbons and free of solvent; passing the solvent-free aromatics concentrate to a reactor for hydrodealkylation after the extractive distillation, where it is reacted with hydrogen, giving a dealkylated aromatics stream as main product and a paraffinic hydrocarbon stream and a methane stream as by-products; and passing the aromatic hydrocarbon stream to a purification unit for treatment; wherein the extractive distillation and recovery of the extracting solvent take place in one column. 2. The process according to claim 1 , wherein the purification unit is a fractional distillation stage. 3. The process according to claim 1 , wherein the purification unit is a flash distillation stage. 4. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the aromatics-containing starting mixture is fully hydrogenated pyrolysis gasoline. 5. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the aromatics-containing starting mixture is catalytically reformed gasoline. 6. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the aromatics-containing starting mixture is coke-oven light oil refined under pressure. 7. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the process produces a dealkylated and purified aromatics stream which is pure benzene. 8. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the aromatics-containing starting mixture is submitted to a fractional distillation in a distilling column before being passed to the extractive distillation. 9. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the aromatics-containing starting mixture is brought into contact with water, an acid, a suitable solvent or with a mixture of these substances before being passed to the extractive distillation. 10. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the aromatics-containing starting mixture is submitted to a hydrogenation before being passed to the extractive distillation. 11. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein a hydrogenation is carried out between the process steps of extractive distillation and hydrodealkylation. 12. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the extracting solvent is an N-substituted solvent with 1 to 8 carbon atoms in the substituent. 13. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the extracting solvent is N-formyl morpholine. 14. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the extracting solvent for the extractive distillation is N-methylpyrrolidone, sulfolane, methyl sulfonale, an alkylene glycol or an alkylated alkylene glycol or a mixture of these substances. 15. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to one of claim 12 , wherein an extracting solvent mixture used for the extractive distillation contains water. 16. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the hydrogenation step for hydrodealkylation is a thermal process. 17. The process for the dealkylation of a hydrocarbon mixture rich in aromatics according to claim 1 , wherein the hydrogenation step for hydrodealkylation is a catalytic process. 18. A process for the dealkylation of a hydrocarbon mixture rich in C 7 to C 9 aromatics, comprising: submitting the C 7 to C 9 aromatics-rich starting hydrocarbon mixture to an extractive distillation in which the aromatics-containing hydrocarbon mixture is distilled by means of a suitable extracting solvent and freed from it, obtaining a product flow significantly depleted from aromatic hydrocarbons and free of solvent as well as an aromatics concentrate significantly enriched in aromatic hydrocarbons and free of solvent, which concentrate comprises C 7 to C 9 aromatics; passing the solvent-free aromatics concentrate to a reactor for hydrodealkylation after the extractive distillation, where it is reacted with hydrogen, giving a dealkylated aromatics stream as main product and a paraffinic hydrocarbon stream and a methane stream as by-products; and passing the aromatic hydrocarbon stream to a purification unit for treatment; wherein the extractive distillation and recovery of the extracting solvent take place in one column.