Device for controlling the charge of an aerosol post-discharge

The invention claimed is: 1. A device for controlling the charge of an aerosol comprising: an aerosol inlet area; a discharge area having dielectric barriers and at least two electrodes connected to a voltage supply operating at a frequency of at least 30 kHz and separated from the aerosol by the dielectric barriers, wherein the at least two electrodes generate positive and negative charged species in the discharge area, the discharge area and the aerosol inlet area being arranged relative to one another in such a way that the aerosol introduced in this way does not flow via the discharge area; a mixing area for mixing the aerosol with a portion of the charged species from the discharge area; and a post-discharge area linked to the discharge area, the aerosol inlet area and the mixing area being arranged in such a way that at least a portion of a stream flowing in the post-discharge area drives at least a portion of the charged species formed in the discharge area and expelled from the discharge area by electrostatic repulsion in the direction of said mixing area. 2. The device for controlling the charge of an aerosol according to claim 1 , wherein the stream flowing in the post-discharge area is the aerosol. 3. The device for controlling the charge of an aerosol according to claim 1 , comprising a dry air inlet area linked to the discharge area in such a way that said dry air flows in the discharge area. 4. The device for controlling the charge of an aerosol according to claim 1 , comprising a dry air inlet area linked to the post-discharge area in such a way as to drive the charged species from the discharge area toward the post-discharge area. 5. The device for controlling the charge of an aerosol according to claim 4 , wherein the dielectric barriers comprising two plates of dielectric material arranged one facing the other and forming a duct, the at least two electrodes include two main electrodes each connected to a respective one of the dielectric plates. 6. The device for controlling the charge of an aerosol according to claim 5 , wherein the duct has a constriction, the main metal electrodes being positioned at said constriction in order that the resultant of the electrostatic repulsion forces that are exerted between the charged species formed in the discharge area is directed toward the post-discharge area. 7. The device for controlling the charge of an aerosol according to claim 5 , wherein the duct has a constriction, the at least two electrodes further comprising two secondary metal electrodes forming with the main metal electrodes a discharge area having a secondary dielectric barrier on the surface of the duct. 8. The device for controlling the charge of an aerosol according to claim 5 , comprising a generator of a high alternating voltage connected to the main electrodes in such a way as to cause the formation of positive and negative charged species in the discharge area. 9. The device for controlling the charge of an aerosol according to claim 5 , wherein the contacts between the main metal electrodes and the dielectric plates are coated with an insulating material. 10. The device for controlling the charge of an aerosol according to claim 5 , wherein the mixing area is defined by a duct, said duct being composed of two semicylindrical electrodes, powered by an alternating current generator, in such a way as to form an oscillating field in the mixing area. 11. The device for controlling the charge of an aerosol according to claim 5 , wherein the mixing area is defined by a duct, said duct being composed of three electrodes powered by a three-phase current generator, in such a way as to form a rotating field in the mixing area. 12. The device for controlling the charge of an aerosol according to claim 4 , wherein the post-discharge area further comprises a post-discharge electrode adapted for controlling the charge. 13. The device for controlling the charge of an aerosol according to claim 1 , wherein the dielectric barriers comprising two plates of dielectric material arranged one facing the other and forming a duct, the at least two electrodes include two main electrodes that are each connected to a respective one of the dielectric plates. 14. The device for controlling the charge of an aerosol according to claim 1 , wherein the post-discharge area further comprises a post-discharge electrode adapted for controlling the charge. 15. A device for controlling the charge of an aerosol comprising: an aerosol inlet area; a discharge area having dielectric barriers, wherein charged species are generated, the discharge area and the aerosol inlet area being arranged relative to one another in such a way that the aerosol introduced in this way does not flow via the discharge area; a mixing area for mixing the aerosol with a portion of the charged species from the discharge area; and a post-discharge area linked to the discharge area, the aerosol inlet area and the mixing area being arranged in such a way that at least a portion of a stream flowing in the post-discharge area drives at least a portion of the charged species formed in the discharge area and expelled from the discharge area by electrostatic repulsion in the direction of said mixing area, wherein the dielectric barriers comprising two cylinders of dielectric material defining between them a duct, and the discharge area further comprises two concentric annular main electrodes including an outer electrode that is in contact with an outer wall of an outer one of the two cylinders of dielectric material and an inner electrode that is in contact with an inner wall of an inner one of the two cylinders of dielectric material, the main electrodes being adapted for generating the charged species in said discharge area. 16. The device for controlling the charge of an aerosol according to claim 15 , wherein the main metal electrodes have a shape such that they are narrower on a side opposite the post-discharge area than on a side of the post-discharge area, in such a way that the resultant of the electrostatic repulsion forces exerted between the charged species formed in the discharge area is directed toward the post-discharge area. 17. The device for controlling the charge of an aerosol according to claim 15 , wherein the duct has a constriction, the discharge area further comprising two secondary metal electrodes forming with the main metal electrodes a discharge area having a secondary dielectric barrier on the surface of the duct. 18. A device for controlling the charge of aerosol comprising: an aerosol inlet area; a discharge area having dielectric barriers, wherein charged species are generated, the discharge area and the aerosol inlet area being arranged relative to one another in such a way that the aerosol introduced in this way does not flow via the discharge area; a mixing area for mixing the aerosol with a portion of the charged species from the discharge area; and a post-discharge area linked to the discharge area, the aerosol inlet area and the mixing area being arranged in such a way that at least a portion of a stream flowing in the post-discharge area drives at least a portion of the charged species formed in the discharge area and expelled from the discharge area by electrostatic repulsion in the direction of said mixing area, wherein the dielectric barriers comprising a tube of dielectric material equipped with a flared mouth and a plate of dielectric material positioned facing the mouth of the dielectric tube, the tube of dielectric material and the plate of dielectric mater