Heat exchanger for an internal combustion engine

What is claimed is: 1 . A heat exchanger for an internal combustion engine for transfer of heat between at least two fluids, comprising: at least one housing which has at least one housing wall and a housing interior space which is delimited at least in regions by the housing wall and has a fluid inlet region for introducing a first fluid of the at least two fluids into the housing interior space and a fluid outlet region for discharging the first fluid from the housing interior space; at least one fluid duct apparatus which is arranged in an interior space part region of the housing interior space and has a fluid duct apparatus wall which is configured to separate the first fluid from a second fluid and, at least in regions, delimits a plurality of fluid ducts of the fluid duct apparatus for conducting the first fluid between the fluid inlet region and the fluid outlet region, at least one of the fluid ducts having an undulating course at least in regions in a longitudinal extent direction of the fluid duct apparatus, wherein the fluid duct apparatus comprises at least one supporting element which is arranged between a first fluid duct wall, which has the undulating course at least in regions and delimits a first outer fluid duct of the plurality of fluid ducts at least in regions, and the fluid duct apparatus wall, the at least one supporting element comprising a first supporting element region which is supported against the first fluid duct wall and is of complementary shape at least in regions with respect to the undulating course, and the at least one supporting element sealing the first outer fluid duct with respect to a passage of the first fluid, wherein the at least one supporting element comprises at least one second supporting element region which is connected to the first supporting element region and is at least substantially in contact with the fluid duct apparatus wall in a manner which seals the first outer fluid duct with respect to a passage of the first fluid through the first outer fluid duct. 2 . The heat exchanger according to claim 1 , wherein the at least one second supporting element region has a tab-shaped configuration. 3 . The heat exchanger according to claim 1 , wherein the at least one first supporting element region and the at least one second supporting element region enclose a non-right angle with one another, as measured from a connecting region between the at least one first supporting element region and the at least one second supporting element region. 4 . The heat exchanger according to claim 1 , wherein the at least one supporting element comprises an additional supporting element region which is connected to the first supporting element region, the additional supporting element region and the second supporting element region are of substantially uniform configuration. 5 . The heat exchanger according to claim 1 , wherein the at least one first supporting element region has a bulge which is oriented in the direction of the at least one second supporting element region. 6 . The heat exchanger according to claim 1 , wherein the first supporting element region bears at least in regions against the first fluid duct wall in a positively locking manner and, as a consequence of bracing of the supporting element between the fluid duct apparatus wall and the first fluid duct wall, is pressed onto the first fluid duct wall. 7 . The heat exchanger according to claim 1 , wherein the fluid duct apparatus further comprises: at least one additional supporting element which is arranged so as to lie opposite the at least one supporting element in a vertical extent direction of the fluid duct apparatus, is arranged between a second fluid duct wall of a second outer fluid duct, lying opposite the first outer fluid duct in the vertical extent direction, of the plurality of fluid ducts and the fluid duct apparatus wall, and is of complementary shape at least in regions with respect to the undulating course. 8 . The heat exchanger according to claim 7 , wherein the supporting element and the additional supporting element are connected to one another by a connecting element which extends in the vertical extent direction. 9 . A fluid duct apparatus for a heat exchanger having a housing with a housing wall and a housing interior space delimited at least in regions by the housing wall and having a fluid inlet region for introducing a first fluid into the housing interior space and a fluid outlet region for discharging the first fluid from the housing interior space, the fluid duct apparatus comprising: a fluid duct apparatus wall which is configured to separate the first fluid from a second fluid and, at least in regions, delimits a plurality of fluid ducts of the fluid duct apparatus for conducting the first fluid between the fluid inlet region of the heat exchanger and the fluid outlet region of the heat exchanger, at least one of the fluid ducts having an undulating course at least in regions in the longitudinal extent direction of the fluid duct apparatus; at least one supporting element which is arranged between a first fluid duct wall, which has the undulating course at least in regions and delimits, at least in regions, a first outer fluid duct of the plurality of fluid ducts, and the fluid duct apparatus wall, and has a first supporting element region which is supported against the first fluid duct wall and is of complementary shape at least in regions with respect to the undulating course, the at least one supporting element being provided to seal the first outer fluid duct with respect to a passage of the first fluid, and a second supporting element region which is connected to the first supporting element region and is at least substantially in contact with the fluid duct apparatus wall in a manner which seals the first outer fluid duct with respect to a passage of the first fluid through the first outer fluid duct. 10 . A method for producing a fluid duct apparatus, the method comprising the steps of: providing a fluid duct apparatus wall which surrounds an interior space of the fluid duct apparatus, the fluid duct apparatus wall being configured to separate a first fluid from a second fluid and, at least in regions, delimiting a plurality of fluid ducts of the fluid duct apparatus for conducting the first fluid between a fluid inlet region of a heat exchanger and a fluid outlet region of the heat exchanger, at least one of the fluid ducts having an undulating course at least in regions in the longitudinal extent direction of the fluid duct apparatus, wherein at least one supporting element which is arranged between a first fluid duct wall, which has the undulating course at least in regions and delimits, at least in regions, a first outer fluid duct of the plurality of fluid ducts, and the fluid duct apparatus wall, and has a first supporting element region which is supported against the first fluid duct wall and is of complementary shape at least in regions with respect to the undulating course, the at least one supporting element being provided to seal the first outer fluid duct with respect to a passage of the first fluid, and a second supporting element region which is connected to the first supporting element region and is at least substantially in contact with the fluid duct apparatus wall in a manner which seals the first outer fluid duct with respect to a passage of the first fluid through the first outer fluid duct; collectively introducing the plurality of fluid ducts, which are connected to one another, and the at least one supporting element, as a result of which the at least one supporting element is arranged and braced between the first fluid duc