Heat exchanger system for a vehicle

The invention claimed is: 1. Heat exchanger system for a vehicle, the heat exchanger system comprising: at least one heat exchanger; a centrifugal fan assembly for improving the flow of air through the at least one heat exchanger, the fan assembly comprising a rotatably mounted impeller with a plurality of impeller blades, and a rotatable inlet shroud for guiding the air flow entering the impeller: and a stationary inlet shroud located between the at least one heat exchanger and the fan assembly and configured for directing air flow exiting the at least one heat exchanger towards the rotatable inlet shroud of the fan assembly, wherein the fan assembly further comprising a stator with a plurality of stationary stator blades located radially or semi-radially outside the impeller for conversion of fluid dynamic pressure to fluid static pressure of the air flow, wherein an elastic seal is arranged between the stationary inlet shroud and a member fastened to the stator for sealing the gap between the stationary inlet shroud and fan assembly, the elastic seal is fastened to at least one of the stationary inlet shroud or the member fastened to the stator. 2. Heat exchanger system according to claim 1 , wherein the elastic seal is fastened to at least one of the stationary inlet shroud and a member mounted to a propulsion source of the vehicle. 3. Heat exchanger system according to claim 1 , wherein the elastic seal is fastened to one of (a) the stationary inlet shroud and, (b) a support member mounted to a propulsion source rearwards of the stator, and (c) a member fastened to the support member. 4. Heat exchanger system according to claim 1 , wherein the elastic seal comprises an elastic sealing sleeve. 5. Heat exchanger system according to claim 1 , wherein a gap between the impeller blades and stator blades is sealed by at least one labyrinth-type sealing arrangement for preventing air leaking in or out of the gap. 6. Heat exchanger system according to claim 3 , wherein the at least one labyrinth-type sealing arrangement is arranged to seal a gap between the rotatable inlet shroud and a member mounted to the propulsion source and seals a structure at least partially defining a fan assembly inlet. 7. Heat exchanger system according to claim 6 , wherein the at, least one labyrinth-type sealing arrangement is arranged to seal a gap between the rotatable inlet shroud and a stator shroud that extends forwards from die stator. 8. Heat exchanger system according to claim 7 , wherein the at least one labyrinth-type sealing arrangement of the heat exchanger system is configured for enabling axial mounting and/or dismounting of the stator and impeller. 9. Heat exchanger system according to claim 1 , wherein flow straightening devices are provided for straightening any air flow leaking out from a gap between the impeller blades and stator blades and back into the inlet of the impeller. 10. Heat exchanger system according to claim 1 , wherein sliding contact members made of rubber or plastic material are provided between the impeller and the stator, or any parts that are fastened or associated with the impeller and the stator, for preventing undesired noise and vibrations during occurrences of contact with each other. 11. Heat exchanger system according to claim 1 , wherein the impeller further comprises a back plate for structurally connecting the rotatable blades with a rotatable shaft of the impeller. 12. Heat exchanger system according to claim 3 , wherein both the impeller and the stator are mounted to the propulsion source. 13. Heat exchanger system according to claim 1 , wherein the stationary inlet shroud is mounted to the at least one heat exchanger or a chassis of the vehicle. 14. Heat exchanger system according to claim 1 , wherein the at least one heat exchanger is arranged such that air flow during use of the heat exchanger system is configured to flow through the at least one heat exchanger in a direction substantially coaxial with rotational axis of the impeller. 15. Heat exchanger system according to claim 7 , wherein the stator shroud is integrally formed with stator. 16. Heat exchanger system according to claim 1 , wherein the rotatable inlet shroud is integrally formed with the impeller. 17. Heat exchanger system according to claim 1 , wherein the rotatable inlet shroud together with a side portion of the impeller comprises a U-shaped cross-section that is open towards the radial outside. 18. Vehicle comprising a heat exchanger system according to claim 1 .