Mixer

What is claimed is: 1. A mixer for mixing exhaust gas flowing in an exhaust gas-carrying duct of an internal combustion engine with reactant injected into the exhaust gas-carrying duct, the mixer comprising: a mixer body comprising: a reactant-receiving duct; an exhaust gas inlet opening device with a plurality of exhaust gas inlet openings leading to the reactant-receiving duct; and at least one releasing duct leading away from the reactant-receiving duct, the at least one releasing duct having a releasing duct opening for releasing a reactant/exhaust gas mixture from the mixer body; and an electrically energizable heater provided at the mixer body, wherein the mixer body comprises: an essentially plate shaped first mixer body part having a first bulge area defining the reactant-receiving duct and, on both sides of the first bulge area, a plate area, which first mixer body part is to be arranged oriented in a upstream direction in relation to an exhaust gas flow direction, an essentially plate shaped second mixer body part having a second bulge area together with the first bulge area of the first mixer body part defining the reactant-receiving duct, a third bulge area defining the at least one releasing duct and connecting areas adjoining the second bulge area and the third bulge area, the first mixer body part being connected to the second mixer body part at the plate areas of the first mixer body part and the connecting areas of the second mixer body part, which second mixer body part is to be arranged oriented in a downstream direction in relation to the exhaust gas flow direction, wherein the heater is arranged at the second bulge area of the second mixer body part on an outer side of the second mixer body part, which outer side is to be arranged oriented in the downstream direction. 2. The mixer in accordance with claim 1 , wherein the heater is arranged on an outer side of the mixer body. 3. The mixer in accordance with claim 1 , wherein the heater comprises a layered configuration, the layered configuration comprising: a first insulating layer arranged facing the mixer body or in contact with the mixer body or both facing and in contact with the mixer body; a heating layer arranged on a side of the first insulating layer, which said side of the first insulating layer faces away from the mixer body, the heating layer heatable by electrical energization, and a second insulating layer arranged on a side of the heating layer, which said side of the heating layer faces away from the mixer body. 4. The mixer in accordance with claim 3 , wherein: a cover element fixed to the mixer body is provided on a side of the second insulating layer, which side faces away from the heating layer; and the first insulating layer, the heating layer and the second insulating layer are held between the mixer body and the cover element. 5. The mixer in accordance with claim 3 , wherein the heating layer comprises a heating conductor extending with a winding pattern. 6. The mixer in accordance with claim 3 , wherein: at least one of the first insulating layer and the second insulating layer is made of a mica material; or the cover element is made of a metallic material; or at least one of the first insulating layer and the second insulating layer is made of a mica material and the cover element is made of a metallic material. 7. The mixer in accordance with claim 6 , wherein the mixer body is made of a metallic material and that the cover element is fixed to the mixer body by connection in substance. 8. The mixer in accordance with claim 1 , wherein: the reactant-receiving duct comprises a reactant-receiving end area and a releasing end area; the at least one releasing duct leads away from the reactant-receiving duct in the releasing end area; and the heater is arranged at the mixer body at least in the area of the releasing end area of the reactant-receiving duct. 9. The mixer in accordance with claim 1 , wherein: the at least one releasing duct comprises two releasing ducts leading away from the reactant-receiving duct in essentially opposite directions; and the heater is arranged at the mixer body in an area between the two releasing ducts. 10. The mixer in accordance with claim 1 , wherein a discharge opening device is provided with a plurality of discharge openings leading out of the reactant-receiving duct or/and out of the at least one releasing duct. 11. An exhaust system for an internal combustion engine, the exhaust system comprising: an exhaust gas-carrying duct; a reactant injection device; and a mixer, the mixer comprising: a mixer body comprising a reactant-receiving duct, an exhaust gas inlet opening device with a plurality of exhaust gas inlet openings leading to the reactant-receiving duct, and at least one releasing duct leading away from the reactant-receiving duct, the at least one releasing duct having a releasing duct opening for releasing a reactant/exhaust gas mixture from the mixer body; and an electrically energizable heater provided at the mixer body, wherein the reactant injection device injects a reactant into the reactant-receiving duct of the mixer, wherein the mixer body comprises: an essentially plate shaped first mixer body part having a first bulge area defining the reactant-receiving duct and, on both sides of the first bulge area, a plate area, which first mixer body part is arranged oriented in a upstream direction in relation to an exhaust gas flow direction, an essentially plate shaped second mixer body part having a second bulge area together with the first bulge area of the first mixer body part defining the reactant-receiving duct, a third bulge area defining the at least one releasing duct and connecting areas adjoining the second bulge area and the third bulge area, the first mixer body part being connected to the second mixer body part at the plate areas of the first mixer body part and the connecting areas of the second mixer body part, which second mixer body part is arranged oriented in a downstream direction in relation to the exhaust gas flow direction, wherein the heater is arranged at the second bulge area of the second mixer body part on an outer side of the second mixer body part, which outer side is to be arranged oriented in the downstream direction. 12. The exhaust system in accordance with claim 11 , wherein: the mixer covers essentially an entire flow cross-sectional area of the exhaust gas-carrying duct in the exhaust gas-guiding duct; or the reactant-receiving duct or the at least one releasing duct extends essentially at right angles to an exhaust gas flow direction in the exhaust gas-carrying duct; or the reactant injection device injects reactant essentially at right angles to the exhaust gas flow direction in the exhaust gas-guiding duct; or a catalytic converter device for selective reduction or a particle filter device is provided downstream of the mixer; or any combination of the mixer covers essentially an entire flow cross-sectional area of the exhaust gas-carrying duct in the exhaust gas-guiding duct, and the reactant-receiving duct or the at least one releasing duct extends essentially at right angles to an exhaust gas flow direction in the exhaust gas-carrying duct, and the reactant injection device injects reactant essentially at right angles to the exhaust gas flow direction in the exhaust gas-guiding duct, and at least one of a catalytic converter device for selective reduction and a particle filter device is provided downstream of the mixer. 13. The exhaust system in accordance with claim 12 , wherein the heater comprises a layered configuration, the la