Condensation particle counter with saturation unit and downstream condensation unit

The invention claimed is: 1. A condensation particle counter comprising a saturation unit and a downstream condensation unit, and through which at least one channel for an aerosol flow passes between an inlet of the saturation unit and an outlet of the condensation unit that leads to a counting unit, wherein the saturation unit and the condensation unit comprise a shell sleeve having an inner wall, wherein the shell sleeve is penetrated by a core defining an outer wall, the outer wall of the core and the inner wall of the shell sleeve delimiting an annular channel therebetween, and including a condensate trap between the saturation unit and the condensation unit. 2. The condensation particle counter according to claim 1 , wherein a cross-section of the annular channel is constant along a longitudinal direction of the channel. 3. The condensation particle counter according to claim 1 , including a base body, and wherein the saturation unit is located within the base body and the condensation unit is vertically above the saturation unit. 4. The condensation particle counter according to claim 3 , wherein at least one of an inner surface of the base body, the inner wall of the shell sleeve and the outer wall of the core is coated, in the region of a surface of contact with the respective saturation element, with a material that lowers interfacial tension between a working fluid and the surface adjoining the saturation element. 5. The condensation particle counter according to claim 1 , wherein the condensate trap comprises a filtration element. 6. The condensation particle counter according to claim 1 , wherein the annular channel extends in a straight line. 7. The condensation particle counter according to claim 1 , wherein the annular channel has a gap width in a range of about 2.3 to about 3.0 mm and a length in a range of about 62 to about 82 mm. 8. The condensation particle counter according to claim 1 , including a separation nozzle between the outlet of the condensation unit and the counting unit for the aerosol flow. 9. A condensation particle counter comprising a saturation unit and a downstream, condensation unit, and through which at least one channel for an aerosol flow masses between an inlet of the saturation unit and an outlet of the condensation unit that leads to a counting unit, wherein the saturation unit and the condensation unit comprise a shell sleeve having an inner wall that is penetrated by a core defining an outer wall, the outer wall of the core and the inner wall of the shell sleeve delimiting an annular channel therebetween, and including a saturation element impregnated with a working medium on the outer wall of the core and on the inner wall of the shell sleeve. 10. The condensation particle counter of claim 9 , wherein a cross-section of the annular channel is constant along a longitudinal direction of the channel. 11. The condensation particle counter of claim 9 , including a base body, and wherein the saturation unit is located within the base body and the condensation unit is vertically above the saturation unit. 12. The condensation particle counter of claim 11 , wherein at least one of an inner surface of the base body, the inner wall of the shell sleeve and the outer wall of the core is coated, in the region of a surface of contact with the respective saturation element, with a material that lowers interfacial tension between a working fluid and the surface adjoining the saturation element. 13. The condensation particle counter of claim 9 , including a condensate trap between the saturation unit and the condensation unit. 14. The condensation particle counter of claim 9 , wherein the annular channel extends in a straight line. 15. The condensation particle counter of claim 9 , wherein the annular channel has a gap width in a range of about 2.3 to about 3.0 mm and a length in a range of about 62 to about 82 mm. 16. The condensation particle counter of claim 9 , including a separation nozzle between the outlet of the condensation unit and the counting unit for the aerosol flow. 17. A condensation particle counter comprising a saturation unit and a downstream condensation unit, and through which at least one channel for an aerosol flow passes between an inlet of the saturation unit and an outlet of the condensation unit that leads to a counting unit, wherein the saturation unit and the condensation unit comprise a shell sleeve having an inner wall that is penetrated by a core defining an outer wall, the outer wall of the core and the inner wall of the shell sleeve delimiting an annular channel therebetween, and wherein the core comprises cooling channels. 18. A condensation particle counter comprising a saturation unit and a tion unit and the condensation unit comprise a shell sleeve having an inner wall that is penetrated by a core defining an outer wall, the outer wall of the core and the inner wall of the shell sleeve delimiting an annular channel therebetween, and including a conditioning unit for the aerosol flow between the outlet of the condensation unit and the counting unit. 19. A condensation particle counter comprising a saturation unit and a downstream condensation unit, and through which at least one channel for an aerosol flow passes between an inlet of the saturation unit and an outlet of the condensation unit that leads to a counting unit, wherein the saturation unit and the condensation unit comprise a shell sleeve having an inner wall that is penetrated by a core defining an outer wall, the outer wall of the core and the inner wall of the shell sleeve delimiting an annular channel therebetween, and including a helical supply line upstream of the inlet of the saturation unit. 20. The condensation particle counter according to claim 19 , wherein the core is surrounded at least partially by the helical supply line. 21. A condensation particle counter which comprises: a shell sleeve and a core which extends within the shell sleeve to define an annular channel between the shell sleeve and the core, a portion of one end of the shell sleeve with core therein defining a saturation unit and a portion of an opposite end of the shell sleeve with core therein defining a condensation unit, and a saturation element impregnated with a working medium on an outer wall of the core and on an inner wall of the shell sleeve, and a counting unit, wherein aerosol entering the annular channel at an inlet of said saturation unit flows through the annular channel and exits at an outlet of the condensation unit and flows to the counting unit.