Method and installation for concentrating aqueous hydrogen halide solutions

The invention claimed is: 1. An installation for concentrating an aqueous hydrogen halide starting solution, the installation comprising: a distillation device configured for an extractive distillation of the aqueous hydrogen halide starting solution in the presence of an extraction agent, said distillation device having a lower portion and an upper portion; at least one removal line at said upper portion of said distillation device for removing concentrated hydrogen halide vapor and/or hydrogen halide gas from said upper portion of said distillation device; at least one removal line at said lower portion of said distillation device for removing an extraction-agent-containing solution from said lower portion of said distillation device; an evaporation device for concentrating the extraction-agent-containing solution removed from said lower portion of said distillation device, said evaporation device being configured to concentrate the extraction-agent-containing solution removed from said lower portion of said distillation device by evaporation at a pressure that is greater than atmospheric pressure thereby forming a concentrated extraction-agent-containing solution; and a return line for returning said concentrated extraction-agent-containing solution removed from said evaporation device to said distillation device, wherein the return line does not have a pump, wherein said installation is configured such that concentration of the extraction-agent-containing solution in the evaporation device is carried out at a higher pressure than the extractive distillation in the distillation device. 2. The installation according to claim 1 , wherein said evaporation device is configured to concentrate the extraction-agent-containing solution by evaporation at an absolute pressure of from 0.15 MPa to 1 MPa. 3. The installation according to claim 1 , wherein said evaporation device is configured to concentrate the extraction-agent-containing solution at a temperature of from 80 to 300° C. 4. The installation according to claim 1 , wherein said evaporation device comprises at least one evaporator selected from the group consisting of natural circulation evaporators, forced circulation evaporators, kettle evaporators, falling film evaporators and any combination thereof. 5. The installation according to claim 1 , wherein an inner surface of said evaporation device consists of or is clad with, at least in portions thereof, a material selected from the group consisting of graphite, silicon carbide, carbon-fiber-containing composite materials, fluorinated polymers, enamels, glass, rubberized steels and any combination of two or more of the above-mentioned materials. 6. The installation according to claim 1 , wherein said return line for returning the extraction-agent-containing solution is connected to feed the solution into said upper and/or a central portion of said distillation device from the evaporation device after concentration. 7. The installation according to claim 1 , which further comprises at least one line for bringing an exhaust vapor formed by evaporation in said evaporation device into direct contact in a heat exchanger with the extraction-agent-containing solution from said lower portion of said distillation device in order to heat said distillation device. 8. The installation according to claim 1 , which further comprises at least one line for bringing an exhaust vapor formed by evaporation in said evaporation device into indirect contact in a heat exchanger with the extraction-agent-containing solution from said lower portion of said distillation device in order to heat said distillation device. 9. The installation according to claim 8 , wherein the at least one line for bringing the exhaust vapor formed by evaporation discharges into a heat exchanger configured to condense the exhaust vapor therein, a feed line also discharges extraction-agent-containing solution removed from the lower portion of the distillation device into said heat exchanger, said heat exchanger being configured to evaporate the extraction-agent-containing solution fed to said heat exchanger via said feed line by released condensation heat, and said heat exchanger including a discharge line for returning the vapor formed in said heat exchanger to said lower portion of said distillation device. 10. The installation according to claim 1 , wherein said removal line at said upper portion of said distillation device for removing concentrated hydrogen halide vapor and/or concentrated hydrogen halide gas discharges into a dehydration device and, optionally, into a condensation device. 11. The installation according to claim 1 , wherein said distillation device comprises a distillation column or a distillation tower. 12. The installation according to claim 1 , said installation being configured such that the higher pressure in the evaporation device exceeds a lower pressure in the distillation device by at least 0.005 MPa. 13. The installation according to claim 1 , wherein the at least one removal line at said lower portion of said distillation device for removing an extraction-agent-containing solution from said lower portion of said distillation device comprises a pump to transfer fluid. 14. A method of concentrating an aqueous hydrogen halide starting solution in an installation according to claim 1 , the method comprising the steps of: extractive distillation of the aqueous hydrogen halide starting solution in the presence of an extraction agent in the distillation device; removing one or both of a hydrogen halide vapor and hydrogen halide gas from the upper portion of the distillation device; removing an extraction-agent-containing solution from the lower portion of the distillation device; concentrating the extraction-agent-containing solution removed from the lower portion of the distillation device in the evaporation device at an evaporation pressure that is greater than an atmospheric pressure to form a concentrated extraction-agent-containing solution; and returning the concentrated extraction-agent-containing solution from the evaporation device to the distillation device. 15. The method according to claim 14 , which comprises carrying out the concentration of the extraction-agent-containing solution in the evaporation device at a higher pressure than the extractive distillation in the distillation device. 16. The method according to claim 14 , which comprises carrying out the concentration of the extraction-agent-containing solution in the evaporation device at an absolute pressure of 0.15 MPa to 1 MPa. 17. The method according to claim 14 , wherein the concentration of the extraction-agent-containing solution in the evaporation device is carried out at a temperature of between 80 and 300° C. 18. The method according to claim 14 , which comprises carrying out the concentration of the extraction-agent-containing solution in an evaporation device which comprises at least one evaporator selected from the group consisting of natural circulation evaporators, forced circulation evaporators, kettle evaporators, falling film evaporators and any combination thereof. 19. The method according to claim 14 , which comprises carrying out the concentration of the extraction-agent-containing solution in a evaporation device having an inner surface that consists of, or is cladded with, at least in portions, a material selected from the group consisting of graphite, silicon carbide, carbon-fiber-containing composite materials, fluorinated polymers, enamels, glass, rubberized steels