Centrifugal compressor impeller cooling

The invention claimed is: 1. A centrifugal compressor comprising: a casing; at least one impeller supported for rotation in the casing, the at least one impeller comprising a hub, a shroud, and an impeller eye comprising an inner surface, an outer surface, external annular teeth formed on a portion of the outer surface, and at least one hole extending from the portion of the outer surface on which the external annular teeth have formed to the inner surface; an impeller-eye sealing arrangement disposed over the external annular teeth for sealing the at least one impeller in a region of the impeller eye; at least one cooling medium port located at the impeller-eye sealing arrangement, configured to deliver a cooling medium around the impeller eye. 2. The centrifugal compressor according to claim 1 , further comprising at least one hole for each one of a plurality of blades provided between the hub and the shroud. 3. The centrifugal compressor according to claim 1 , wherein the at least one cooling medium port is in fluid communication with a delivery duct of the compressor, through which a main stream of a working medium is caused to flow, a portion of the working medium being extracted from the main stream in the delivery duct and diverted towards the at least one cooling-medium port. 4. The centrifugal compressor according to claim 3 , further comprising a heat exchanger, through which the portion of the working medium is cooled before being delivered to the cooling-medium port. 5. The centrifugal compressor according to claim 3 , further comprising a pressure reducing arrangement, for reducing a pressure of the portion of the working medium, before being delivered to the cooling medium port. 6. The centrifugal compressor according to claim 1 , further comprising a plurality of sequentially arranged compressor stages, each compressor stage comprising a respective impeller, at least one of the impellers being combined with the impeller-eye sealing arrangement and with the at least one cooling medium port. 7. The centrifugal compressor according to claim 1 , further comprising at least one auxiliary cooling medium port configured to deliver an auxiliary cooling medium flow behind the hub of the at least one impeller. 8. The centrifugal compressor according to claim 7 , further comprising a rotating shaft supporting the at least one impeller and a balance drum, the balance drum co-acting with a balance-drum sealing arrangement, and wherein the at least one auxiliary cooling medium port is configured to deliver the auxiliary cooling medium flow between the balance drum and the balance-drum sealing arrangement. 9. The centrifugal compressor according to claim 7 , wherein the at least one auxiliary cooling medium port is in fluid communication with a delivery duct of the compressor, through which a main stream of a working medium is caused to flow, a portion of the working medium being extracted from the main stream in the delivery duct and diverted towards the at least one auxiliary cooling medium port. 10. A method of operating a centrifugal compressor comprising a casing and at least one impeller rotatingly arranged in the casing, the at least one impeller comprising an impeller hub, an impeller shroud, and an impeller eye comprising an inner surface, an outer surface, external annular teeth formed on a portion of the outer surface, and at least one hole extending from the portion of the outer surface on which the external annular teeth are formed to the inner surface; the method comprising: processing a working medium through the impeller; injecting a cooling medium into a gap around the impeller eye and circulating the cooling medium in the gap, for removing heat from the impeller eye; and delivering at least part of the cooling medium through the at least one hole towards the inner surface. 11. The method according to claim 10 , wherein the gap is formed between the impeller eye and an impeller-eye sealing arrangement. 12. The method according to claim 10 , wherein the cooling medium is a portion of the working medium. 13. The method according to claim 10 , further comprising extracting a portion of the working medium as cooling medium. 14. The method according to claim 13 , wherein a percentage from 0.5 to about 4% in volume of the working medium is extracted to cool the impeller eye. 15. The method according to claim 10 , further comprising removing heat from the portion of the working medium before injecting into the gap. 16. The method according to claim 10 , further comprising reducing the pressure of the portion of the working medium before injecting into the gap. 17. The method according to claim 10 , further comprising delivering the cooling medium at least partly between the impeller shroud and the impeller hub. 18. The method according to claim 10 , further comprising cooling the impeller hub by delivering a portion of the cooling medium behind the impeller hub. 19. The method according to claim 10 , comprising: extracting a portion of the working medium as the cooling medium; injecting a first fraction of the portion of working medium in the gap around the impeller eye for cooling the impeller shroud; injecting a second fraction of the portion of working medium behind the impeller hub for cooling the impeller hub. 20. The method according to claim 10 , wherein a percentage from 0.5 and 4% in volume of the working medium is extracted to cool the hub. 21. An impeller for a centrifugal compressor, the impeller comprising; an impeller hub and an impeller shroud forming an impeller eye, the impeller eye comprising a radially outer surface, a radially inner surface, external annular teeth formed on a portion of the radially outer surface, and at least one hole provided, extending from the portion of the radially outer surface on which the external annular teeth are formed to the radially inner surface, the at least one hole being arranged for conveying a cooling medium flow through the impeller eye. 22. The impeller according to claim 21 , wherein the impeller eye comprises a plurality of the at least one hole. 23. The impeller according to claim 21 , wherein the impeller eye further comprises at least one hole for each one of a plurality of blades arranged between the impeller shroud and the impeller hub. 24. The impeller according to claim 21 , wherein each hole of the at least one hole has a hole outlet on the inner surface arranged substantially in front of a leading edge of the respective blade. 25. A centrifugal compressor comprising: a compressor casing; at least one impeller supported for rotation in the casing, the impeller comprising a hub with a front wall provided with a plurality of impeller blades, and a rear wall extending mainly radially, a shroud, and an impeller eye comprising an inner surface, an outer surface, external annular teeth formed on a portion of the outer surface, and at least one hole extending from the portion of the outer surface on which the external annular teeth are formed to the inner surface, wherein the at least one hole is configured to deliver a cooling medium to the inner surface: a space between the rear wall of the impeller and the compressor casing; and at least one cooling medium port, configured and arranged for delivering the cooling medium in the space, wherein the space is in fluid communication with a compressor diffuser at the outlet of the compressor i