Exhaust-gas aftertreatment device for an internal combustion engine, and method for heating an exhaust-gas aftertreatment device

The invention claimed is: 1. An exhaust-gas aftertreatment device for an internal combustion engine including an exhaust tract, wherein the exhaust tract comprises: an exhaust pipe having an internal wall; at least one exhaust-gas aftertreatment element; an exhaust-tract-side sorption element including a vapour-sorbing material disposed on at least one of the internal wall of the exhaust pipe and the at least one exhaust-gas aftertreatment element; and a blocking device including a downstream blocking element that blocks a supply of vapour from ambient air to a sorption region that accommodates or forms the at least one sorption element as a function of internal combustion engine operating conditions, the downstream blocking device arranged downstream of the sorption region. 2. The exhaust-gas aftertreatment device according to claim 1 , wherein the at least one exhaust-tract-side sorption element comprises at least one of: a coating of the vapour-sorbing material on the at least one of the internal wall of the exhaust pipe and the at least one exhaust-gas aftertreatment element; and portions of the at least one exhaust-gas aftertreatment element produced at least in regions from the vapour-sorbing material. 3. The exhaust-gas aftertreatment device according to claim 1 , wherein the at least one exhaust-gas aftertreatment element is at least one of a catalytic converter and a particle filter. 4. The exhaust-gas aftertreatment device according to claim 1 , wherein a mass content of the vapour-sorbing material of the at least one sorption element decreases in an exhaust-gas flow direction. 5. The exhaust-gas aftertreatment device according to claim 1 , wherein a mass content of the vapour-sorbing material of the at least one sorption element arranged in an outlet region of the exhaust tract increases in an exhaust-gas flow direction. 6. The exhaust-gas aftertreatment device according to claim 1 , wherein the at least one sorption element includes a first sorption element arranged in an inlet region of the exhaust tract and a second sorption element arranged in an outlet region of the exhaust tract, a mass content of the vapour-sorbing material of the first sorption element decreases in an exhaust-gas flow direction; and the mass content of the vapour-sorbing material of the second sorption element increases in the exhaust-gas flow direction. 7. The exhaust-gas aftertreatment device according to claim 1 , wherein the at least one sorption element includes a plurality of sorption elements, and at least one of: a mass content of the vapour-sorbing material in the exhaust tract considered across the plurality of sorption elements positioned in series in the flow direction in an inlet region of the exhaust tract decreases in the exhaust-gas flow direction; and the mass content of the vapour-sorbing material in an outlet region of the exhaust tract increases in the exhaust-gas flow direction. 8. The exhaust-gas aftertreatment device according to claim 1 , wherein a mass content of the vapour-sorbing material is greater in an intermediate region of the exhaust tract arranged between an inlet and an outlet region of the exhaust tract than in an exhaust tract region situated upstream and/or downstream thereof. 9. The exhaust-gas aftertreatment device according to claim 1 , wherein the at least one sorption element is disposed in a main line of the exhaust tract, through which a main exhaust-gas stream passes. 10. The exhaust-gas aftertreatment device according to claim 1 , wherein the vapour-sorbing material is at least one of a zeolite, a silica gel, an aluminophosphate, a silicoaluminophosphate, and a metal hydride. 11. The exhaust-gas aftertreatment device according to claim 1 , wherein the blocking device further comprises an upstream blocking element arranged upstream of the sorption region for the purpose of blocking or enabling the supply of exhaust gas. 12. The exhaust-gas aftertreatment device according to claim 11 , wherein the upstream blocking element is a shut-off valve that blocks or enables an exhaust-gas stream through an inlet pipe that forms an inlet of the exhaust tract. 13. The exhaust-gas aftertreatment device according to claim 1 , wherein the downstream blocking element is a shut-off valve that blocks or enables an air stream through an outlet pipe that forms an outlet of the exhaust tract. 14. The exhaust-gas aftertreatment device according to claim 13 , wherein the shut-off valve is an exhaust-gas recirculation flap or an engine braking flap. 15. The exhaust-gas aftertreatment device according to claim 1 , wherein the downstream blocking element is a sorption brick disposed in the exhaust tract. 16. A method for heating an exhaust-gas aftertreatment device for an internal combustion engine having an exhaust tract, wherein the exhaust tract comprises an exhaust pipe having an internal wall, at least one exhaust-gas aftertreatment element, and an exhaust-tract-side sorption element including a vapour-sorbing material disposed on at least one of the internal wall of the exhaust pipe and the at least one exhaust-gas aftertreatment element, the method comprising: heating the exhaust-gas aftertreatment device by enabling a supply of vapour to the at least one sorption element upon a start of the internal combustion engine by a supply of exhaust gas or air; and blocking, upon a deactivation of the internal combustion engine, the supply of vapour to the at least one sorption element by a blocking device. 17. The method according to claim 16 , further comprising expelling the vapour that is sorbed by the at least one sorption element from the sorption element above a defined sorption element temperature. 18. An exhaust-gas aftertreatment device for an internal combustion engine including an exhaust tract, wherein the exhaust tract comprises: an exhaust pipe having an internal wall; at least one exhaust-gas aftertreatment element; and an exhaust-tract-side sorption element including a vapour-sorbing material disposed on at least one of the internal wall of the exhaust pipe and the at least one exhaust-gas aftertreatment element, wherein a mass content of the vapour-sorbing material of the at least one sorption element decreases in an exhaust-gas flow direction. 19. An exhaust-gas aftertreatment device for an internal combustion engine including an exhaust tract, wherein the exhaust tract comprises: an exhaust pipe having an internal wall; at least one exhaust-gas aftertreatment element; and an exhaust-tract-side sorption element including a vapour-sorbing material disposed on at least one of the internal wall of the exhaust pipe and the at least one exhaust-gas aftertreatment element, wherein a mass content of the vapour-sorbing material of the at least one sorption element arranged in an outlet region of the exhaust tract increases in an exhaust-gas flow direction. 20. An exhaust-gas aftertreatment device for an internal combustion engine including an exhaust tract, wherein the exhaust tract comprises: an exhaust pipe having an internal wall; at least one exhaust-gas aftertreatment element; and an exhaust-tract-side sorption element including a vapour-sorbing material disposed on at least one of the internal wall of the exhaust pipe and the at least one exhaust-gas aftertreatment element, wherein the at least one sorption element includes a first sorption element arranged in an inlet region of the exhaust tract and a second sorption element arranged in an outlet region of the exhaust tract, a