Exhaust system for an internal combustion engine and process for manufacturing an exhaust system

What is claimed is: 1. An exhaust system for an internal combustion engine, the exhaust system comprising: an exhaust gas-carrying component with an outer wall; a heat conductor element comprising a jacket and a heat conductor device enclosed by the jacket; and a pass-through device for a gastight passing of the heat conductor element through the outer wall of the exhaust gas-carrying component, wherein the pass-through device comprises a pass-through opening in the outer wall traversed by the heat conductor element and the pass-through device further comprises a connection element gastightly connected to the heat conductor element and also gastightly connected to the outer wall in substance, the pass-through device further comprising a thickened area of the jacket in a longitudinal section of the heat conductor element, which longitudinal section traverses the pass-through opening, the thickened area of the jacket of the heat conductor element being connected in substance to the connection element, wherein the connection element comprises: a heat conductor element connection area providing a heat conductor element receiving opening and meshing with the pass-through opening in the outer wall; and an outer wall connection area protruding outwards from the heat conductor element connection area and extending over an edge area of the outer wall, which edge area encloses the pass-through opening in the outer wall, wherein: the heat conductor element connection area is connected in substance to the heat conductor element; and the outer wall connection area is connected in substance to the outer wall. 2. The exhaust system in accordance with claim 1 , wherein the thickened area is provided by a sleeve gastightly enclosing the jacket. 3. The exhaust system in accordance with claim 2 , wherein: the sleeve is gastightly connected to the jacket by compressing; or the sleeve is made of metallic material; or the sleeve is gastightly connected to the jacket by compressing and the sleeve is made of metallic material. 4. The exhaust system in accordance with claim 1 , wherein an internal cross-sectional dimension of the pass-through opening is at least 1.5 times an external cross-sectional dimension of the heat conductor element in the longitudinal section traversing the pass-through opening. 5. The exhaust system in accordance with claim 1 , wherein: the jacket is made of metallic material; or the heat conductor device comprises an electrical connecting conductor in a longitudinal section of the heat conductor element traversing the pass-through opening and a heat conductor which adjoins the connecting conductor in the interior of the exhaust gas-carrying component; or the jacket is made of metallic material and the heat conductor device comprises an electrical connecting conductor in a longitudinal section of the heat conductor element traversing the pass-through opening and a heat conductor which adjoins the connecting conductor in the interior of the exhaust gas-carrying component. 6. The exhaust system in accordance with claim 5 , wherein: the pass-through device further comprises a thickened area of the jacket in a longitudinal section of the heat conductor element, which longitudinal section traverses the pass-through opening; and a transition from the connecting conductor to the heat conductor is located in the area of an end of the thickened area, which end is arranged in the interior of the exhaust gas-carrying component such that the transition is not enclosed by the thickened area. 7. The exhaust system in accordance with claim 1 , wherein the connection element is connected to the outer wall by welding. 8. The exhaust system in accordance with claim 1 , wherein the heat conductor element is configured to generate heat when an electric voltage is applied to the heat conductor element. 9. A process for the assembly of an exhaust system comprising an exhaust gas-carrying component with an outer wall, a heat conductor element comprising a jacket and a heat conductor device enclosed by the jacket, and a pass-through device for a gastight passing of the heat conductor element through the outer wall of the exhaust gas-carrying component, wherein the pass-through device comprises a pass-through opening in the outer wall traversed by the heat conductor element and the pass-through device further comprises a connection element gastightly connected to the heat conductor element and also gastightly connected to the outer wall, the process comprising the steps of: providing the exhaust gas-carrying element with the pass-through opening in the outer wall of the exhaust gas-carrying element; passing the heat conductor element through the pass-through opening in the outer wall; after carrying out the step of passing, arranging the connection element at the heat conductor element such that the connection element is positioned in an area of the pass-through opening at the outer wall; and after carrying out step of arranging, gastightly connecting the connection element to the outer wall and to the heat conductor element, wherein the connection element is gastightly connected to the outer wall in substance, the pass-through device comprising a thickened area of the jacket in a longitudinal section of the heat conductor element, which longitudinal section traverses the pass-through opening, the thickened area of the jacket of the heat conductor element being connected to the connection element by welding. 10. The process in accordance with claim 9 , wherein: the step of providing the exhaust gas-carrying element with the pass-through opening in the outer wall of the exhaust gas-carrying element comprises providing the heat conductor element with the thickened area. 11. The process in accordance with claim 9 , wherein: the connection element comprises a heat conductor element connection area providing a heat conductor element receiving opening and meshing with the pass-through opening in the outer wall and an outer wall connection area protruding outwards from the heat conductor element connection area and extending over an edge area of the outer wall, which edge area encloses the pass-through opening in the outer wall, wherein the heat conductor element connection area is connected in substance to the heat conductor element and the outer wall connection area is connected in substance to the outer wall; and the step of arranging a connection element at the heat conductor element such that the connection element is positioned in an area of the pass-through opening at the outer wall includes arranging the connection element at the heat conductor element such that the heat conductor element connection area is positioned such that the heat conductor element connection area receives the heat conductor element in the heat conductor element receiving opening and such that the heat conductor element connection area meshes with the pass-through opening, and such that the outer wall connection area is positioned in contact with the outer wall and extends over an edge area of the outer wall. 12. A process in accordance with claim 9 , wherein the step of arranging the connection element at the heat conductor element such that the connection element is positioned in an area of the pass-through opening at the outer wall comprises gastightly connecting the connection element to the outer wall and subsequent thereto gastightly connecting the connection element to the heat conductor element. 13. A process in accordance with claim 9 , wherein: during the step of arranging the connection element at the heat conductor element such that the connection element is positioned in an