Method for heating the engine oil of an internal combustion engine and internal combustion engine for performing such a method

The invention claimed is: 1. A method for operating a lubrication circuit, comprising: during a first operating condition, operating a hydrodynamic retarder including two rotationally symmetrical and opposing vane wheels to mechanically increase a turbulence of oil in the lubrication circuit, the hydrodynamic retarder positioned upstream of cylinder block lubricant-receiving components and downstream of an oil pump in a supply line, the circuit, including the pump, hydrodynamic retarder, and components positioned in an internal combustion engine. 2. The method of claim 1 , where the first operating condition is when the oil is below a predefined threshold temperature, where the hydrodynamic retarder is controlled electrically, hydraulically, pneumatically, or magnetically. 3. The method of claim 1 , where the first operating condition is subsequent to start-up operation in the engine when the engine is below a predetermined threshold temperature, wherein the internal combustion engine includes a cylinder head and a cylinder block, and wherein the pump and hydrodynamic retarder are positioned in a cylinder-block circuit. 4. The method of claim 1 , where the first operating condition is an overrun condition in which there is no power demand on the internal combustion engine requested by a driver. 5. The method of claim 3 , further comprising during a second operating condition, discontinuing operation of the hydrodynamic retarder. 6. The method of claim 5 , where the second operating condition is when an oil temperature exceeds a predefined temperature. 7. The method of claim 5 , where the second operating condition is when an oil temperature exceeds a predefined temperature for a predetermined length of time. 8. The method of claim 1 , further comprising during the first operating condition inhibiting operation of an oil cooler positioned upstream of the hydrodynamic retarder and downstream of the oil pump. 9. A lubrication circuit for an internal combustion engine comprising: an oil pump including a suction line positioned in an oil sump; and a hydrodynamic retarder including two rotationally symmetrical and opposing vane wheels positioned in a supply line in fluidic communication with the oil pump positioned upstream of the hydrodynamic retarder and a lubricant receiving component positioned downstream of the hydrodynamic retarder, the hydrodynamic retarder configured to mechanically increase a turbulence of oil in the supply line, the oil pump, hydrodynamic retarder, and lubricant receiving component positioned in the engine. 10. The lubrication circuit of claim 9 , where the hydrodynamic retarder is electrically driven, and wherein the internal combustion engine includes a cylinder head and a cylinder block, and wherein the pump and hydrodynamic retarder are positioned in a cylinder-block circuit. 11. The lubrication circuit of claim 9 , where the hydrodynamic retarder is mechanically driven. 12. The lubrication circuit of claim 11 , where the hydrodynamic retarder is mechanically driven by a flexible drive. 13. The lubrication circuit of claim 11 , where the hydrodynamic retarder is mechanically driven by a gear mechanism. 14. The lubrication circuit of claim 9 , further comprising a cylinder head coupled to a cylinder block and forming an upper portion of a crankcase, the cylinder block coupled to the oil sump forming a lower portion of the crankcase and housing oil. 15. The lubrication circuit of claim 9 , further comprising a moving component in fluidic communication with an outlet of the hydrodynamic retarder. 16. The lubrication circuit of claim 9 , where the supply line traverses a cylinder block and subsequently a cylinder head. 17. The lubrication circuit of claim 9 , where the supply line traverses a cylinder head and subsequently a cylinder block. 18. The lubrication circuit of claim 9 , where the hydrodynamic retarder includes a stator and a rotor. 19. A lubrication circuit for an internal combustion engine comprising: an oil pump including a suction line positioned in an oil sump, the oil sump positioned in the engine; and a hydrodynamic retarder including two rotationally symmetrical and opposing vane wheels positioned in a supply line in fluidic communication with the oil pump positioned upstream of the hydrodynamic retarder and a moving component positioned downstream of the hydrodynamic retarder, the hydrodynamic retarder including a stator and a rotor configured to mechanically increase a turbulence of the oil in the supply line, the engine including an exhaust integrated within a cylinder head, the oil pump hydrodynamic retarder, and moving component positioned in the engine, the hydrodynamic retarder mechanically driven by the engine; and an oil cooler positioned in the supply line between the hydrodynamic retarder and the pump, and further positioned in the engine and upstream of an oil sump in the engine, the pump drawing oil from the sump, the oil in the engine from the pump, to the cooler, to the hydrodynamic retarder, to the moving component, to the sump, and back to the pump. 20. The method of claim 1 , where the hydrodynamic retarder is mechanically driven by the internal combustion engine.