Exhaust gas system with circulation heat pipe

What is claimed is: 1. An exhaust gas system for an internal combustion engine, comprising: an evaporator comprising an exhaust gas pipe, a sleeve pipe and a capillary structure, said capillary structure formed as a porous body between the sleeve pipe and the exhaust gas pipe and comprising vapor groover provided in the capillary structure in an area of outer sheath surface of the exhaust gas pipe and fluid grooves provided in the capillary structure in an area of an inner sheath surface of the sleeve pipe; wherein an operating medium for transporting heat which was withdrawn from exhaust gas in a form of heat energy transitions from a liquid state to a gaseous state when traversing the capillary structure; and a condenser connected to the evaporator via conduits. 2. The exhaust gas system of claim 1 , wherein the exhaust gas pipe has inwardly oriented heat exchanger surfaces. 3. The exhaust gas system of claim 2 , wherein the heat exchanger surfaces extend parallel to a direction of flow. 4. The exhaust gas system of claim 3 , wherein longer ones of the heat exchanger surfaces protrude radially into a center area of the exhaust gas pipe, said longer heat exchanger surfaces alternating with shorter ones of the heat exchanger surfaces along a circumferential direction of the exhaust gas pipe. 5. The exhaust gas system of claim 1 , wherein the fluid grooves are directly connected to a fluid entry opening. 6. The exhaust gas system of claim 1 , wherein the vapor grooves are directly connected to an exit opening. 7. The exhaust gas system of claim 1 , wherein the exhaust gas pipe comprises a bypass flap. 8. The exhaust gas system of claim 1 , wherein the exhaust gas pipe comprises a first inner flow passage for directly conducting the exhaust gas and a second outer flow passage, said second flow passage being provided with heat exchanger fins. 9. The exhaust gas system of claim 7 , wherein the exhaust gas is conductible through the first and/or second flow passages via the bypass flap. 10. The exhaust gas system of claim 8 , further comprising a heat exchange chamber disposed between the first and the second flow passage said heat exchange chamber extending radially relative to a direction of flow of the exhaust gas. 11. The exhaust gas system of claim 10 , wherein the heat exchange chamber is occupied at least in part by the capillary structure. 12. The exhaust gas system of claim 10 , wherein a fluid passage is formed in the heat exchange chamber. 13. The exhaust gas system of claim 10 , wherein vapor grooves are formed in the heat exchange chamber, said vapor grooves extending parallel to the direction of flow of the exhaust gas. 14. The exhaust gas system of claim 1 , wherein a heat transport between the evaporator and the condenser is controllable by open loop and closed loop control. 15. The exhaust gas system of claim 14 , wherein the open loop and closed loop control is implemented by a valve. 16. The exhaust gas system of claim 1 , further comprising a thermo sensor arranged upstream of the evaporator. 17. The exhaust gas system of claim 1 , further comprising a reservoir arranged between the evaporator and the condenser, for temporarily storing the operating medium.