Expansion system

The invention claimed is: 1. An expansion system for a working medium that is used in particular in a circulating process of a system that utilises waste heat, in particular in a system operating in a Rankine cycle, comprising an expansion device coupled to an electricity generator, for the working medium, an inlet for supplying the pressurised working medium, and an outlet for the working medium that has been expanded by the expansion device, an aerosol generator unit that generates a lubricant aerosol is associated with the inlet, wherein the working medium guided to the expansion device flows through this aerosol generator unit, which has a flow guide for the working medium having a concentration section that concentrates lubricant entrained in the total mass flow of working medium supplied to the expansion device to give aerosol particles, and these aerosol particles leave the concentration section together with a partial mass flow of the working medium, branching off from the total mass flow of working medium, as a lubricant aerosol mass flow, and a line system that guides the lubricant aerosol mass flow to lubrication points of an expansion arrangement of the expansion device, for the purpose of aerosol lubrication. 2. An expansion system according to claim 1 , wherein the aerosol generator unit deflects the direction of flow in the concentration section of the total mass flow entering therein, for the purpose of forming a main mass flow that is supplied to the expansion arrangement, through overall at least 60°, or preferably through at least 90°, and branches off the lubricant aerosol mass flow from the total mass flow in the region of deflection of the direction of flow. 3. An expansion system according to claim 2 , wherein the aerosol generator unit deflects overall the direction of flow in the concentration section of the total mass flow entering therein, for the purpose of forming a main mass flow that is supplied to the expansion arrangement, through overall at least 140°. 4. An expansion system according to claim 1 , wherein the lubricant aerosol mass flow flows out of the concentration section of the aerosol generator unit in a direction of flow that forms an angle of at least 60°, in particular an angle of at least 90°, with the direction of flow of the main mass flow that is formed. 5. An expansion system according to claim 4 , wherein the lubricant aerosol mass flow flows out of the concentration section of the aerosol generator unit in a direction of flow that forms an overall angle of greater than 140°, preferably overall approximately 180°, with the direction of flow of the main mass flow that is formed. 6. An expansion system according to claim 1 , wherein the lubricant aerosol mass flow flows out of the concentration section of the aerosol generator unit in a direction of flow that forms an angle of less than 120°, or preferably an angle of less than 90°, with the direction of flow of the total mass flow entering the concentration section. 7. An expansion system according to claim 1 , wherein it has in the concentration section a flow cross section constriction that increases the flow rate. 8. An expansion system according to claim 1 , wherein the aerosol generator unit has, downstream of the flow cross section constriction, a flow cross section widening for the purpose of reducing the flow rate of the total mass flow. 9. An expansion system according to claim 1 , wherein the aerosol generator unit has a receiving chamber which the total mass flow enters, and wherein the total mass flow flows out of the receiving chamber and into the concentration section. 10. An expansion system according to claim 9 , wherein the flow rate is reduced in the receiving chamber, while the flow rate is increased in the concentration section. 11. An expansion system according to claim 1 , wherein the concentration section takes a form such that there are provided therein, for the purpose of forming the flow cross section constriction, one or more passage windows or a passage aperture whereof the flow cross sections are smaller than the flow cross section in the receiving chamber. 12. An expansion system according to claim 1 , wherein the aerosol generator unit has an exit chamber arranged downstream of the concentration section. 13. An expansion system according to claim 12 , wherein the flow rate is reduced in the exit chamber by comparison with the flow rate in the concentration section. 14. An expansion system according to claim 1 , wherein the aerosol generator unit has a central chamber and an annular chamber surrounding the latter, wherein the concentration section is arranged in a region of transition from the annular chamber to the central chamber, and wherein either the annular chamber or the central chamber includes the receiving chamber and either the central chamber or the annular chamber respectively includes the exit chamber. 15. An expansion system according to claim 14 , wherein the aerosol generator unit has a guide sleeve that separates the annular chamber from the central chamber, and at the end whereof there is arranged the concentration section. 16. An expansion system according to claim 14 , wherein the guide sleeve takes a form such that at the end thereof it has the flow cross section constriction in the concentration section. 17. An expansion system according to claim 14 , wherein the annular chamber includes the receiving chamber such that the total mass flow enters the annular chamber and passes from the annular chamber via the concentration section into the exit chamber, and wherein in particular a passage window is arranged in the concentration section. 18. An expansion system according to claim 1 , wherein there adjoins the concentration section an exit aperture through which the lubricant aerosol mass flow passes. 19. An expansion system according to claim 18 , wherein the exit aperture is provided in a wall delimiting the concentration section. 20. An expansion system according to claim 18 , wherein the exit aperture is arranged in the region of the flow cross section constriction. 21. An expansion system according to claim 18 , wherein the exit aperture is arranged downstream of the flow cross section constriction. 22. An expansion system according to claim 1 , wherein the expansion arrangement is a screw expansion arrangement that includes two screw rotors engaging in one another. 23. An expansion system according to claim 22 , wherein the lubricant aerosol mass flow is supplied to at least one point on the respective screw rotor bore receiving a screw rotor. 24. An expansion system according to claim 23 , wherein the lubricant aerosol mass flow of the respective screw rotor bore is supplied to a plurality of points corresponding to different expansion states. 25. An expansion system according to claim 1 , wherein the lubricant aerosol mass flow is supplied to at least one bearing unit of the expansion arrangement. 26. An expansion system according to claim 1 , wherein the lubricant aerosol mass flow is supplied at the respective point by way of a nozzle that distributes the lubricant aerosol mass flow. 27. A method for operating an expansion system for a working medium that is used in particular in a circulating process of a system that utilises waste heat, in particular in a system operating in a Rankine cycle, comprising an expansion device coupled to an elec