IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0996601
(2004-11-26)
|
등록번호 |
US-7387487
(2008-06-17)
|
우선권정보 |
DE-103 55 241(2003-11-26) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Rolls Royce Deutschland Ltd & Co KG
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
17 |
초록
▼
A turbomachine with at least one rotor (6), no or at least one stator (7), and a casing (1), with the rotor (6) comprising several rotor blades (8) attached to a rotating shaft, and with the stator (7) being provided with stationary stator blades (9). The casing (1) is passed by a fluid flowing thro
A turbomachine with at least one rotor (6), no or at least one stator (7), and a casing (1), with the rotor (6) comprising several rotor blades (8) attached to a rotating shaft, and with the stator (7) being provided with stationary stator blades (9). The casing (1) is passed by a fluid flowing through rotor (6) and stator (7), and means for the supply of fluid are provided on at least one blade (8, 9) of a blade row of the rotor (6) and/or the stator (7) on aerodynamically critical locations on trailing edge and rim-near surfaces (HRO).
대표청구항
▼
What is claimed is: 1. A turbomachine comprising: at least one rotor, with the rotor comprising several rotor blades attached to a rotating shaft, a casing which is passed by a fluid flowing through the rotor, and means for the supply of fluid for at least one blade of a blade row of the rotor on a
What is claimed is: 1. A turbomachine comprising: at least one rotor, with the rotor comprising several rotor blades attached to a rotating shaft, a casing which is passed by a fluid flowing through the rotor, and means for the supply of fluid for at least one blade of a blade row of the rotor on aerodynamically critical locations on at least one of a trailing edge and rim-near surfaces, wherein the means for the supply of fluid comprise openings in non-axially symmetrical arrangement, provided they are located outside boundaries of a bladed space, as shown in a meridional view, and that they are flush with a plain annulus wall. 2. A turbomachine in accordance with claim 1, comprising: at least one stator equipped with stationary stator blades which is passed by the fluid, wherein the means for the supply of fluid also supply fluid for the stator on aerodynamically critical locations on at least one of a trailing edge and rim-near surfaces. 3. A turbomachine in accordance with claim 2, wherein the means for the supply of fluid comprise openings in axially symmetrical arrangement, provided they are located outside boundaries of a bladed space, as shown in a meridional view, and situated on locations protruding into a flow path from a plain annulus wall. 4. A turbomachine in accordance with claim 2, wherein the trailing edge and rim-near surfaces are in the form of surfaces on at least one of a blade suction and pressure side of at least one of the rotor and the stator between 70 percent and 100 percent of a meridional blade chord length. 5. A turbomachine in accordance with claim 2, wherein the trailing edge and rim-near surfaces are in the form of surfaces on at least one of a blade suction side, a blade pressure side, a leading edge of at least one of the rotor and the stator, a trailing edge of at least one of the rotor and the stator, a hub between 0 percent and 25 percent of a local annulus width, and the casing between 75 percent and 100 percent of the local annulus width. 6. A turbomachine in accordance with claim 2, wherein the fluid is supplied via at least one slot. 7. A turbomachine in accordance with claim 2, wherein the fluid is supplied via at least one row of hole-type recesses. 8. A turbomachine in accordance with claim 2, wherein the fluid is supplied via at least one flat nozzle. 9. A turbomachine in accordance with claim 2, comprising, simultaneously with the means for fluid supply, means for fluid removal positioned at least one of before and within a bladed space of same blade areas of the rotor and the stator. 10. A turbomachine in accordance with claim 1, wherein the fluid to be supplied is routed via flow paths on a periphery of an annulus. 11. A turbomachine in accordance with claim 1, wherein the fluid to be supplied is routed within at least one of: the blades and components surrounding the blades. 12. A turbomachine in accordance with claim 11, wherein the fluid is supplied in free flow. 13. A turbomachine in accordance with claim 11, wherein the fluid is supplied to an annulus in an area of a respective blade row by means of at least one restrictor element arranged in the flow path. 14. A turbomachine in accordance with claim 13, wherein the fluid is supplied by a foreign source. 15. A turbomachine in accordance with claim 13, wherein the fluid is supplied from at least one of: locations of the turbomachine and an overall system including the turbomachine. 16. A turbomachine comprising: at least one rotor, with the rotor comprising several rotor blades attached to a rotating shaft, a casing which is passed by a fluid flowing through the rotor, and means for the supply of fluid for at least one blade of a blade row of the rotor on aerodynamically critical locations on at least one of a trailing edge and rim-near surfaces, wherein the trailing edge and rim-near surfaces are in the form of surfaces on at least one of a hub and a casing contour of an annulus, with firm connection to the blade, between a trailing edge plane and a plane which is located 25 percent of a meridional blade chord length before a leading edge. 17. A turbomachine comprising: at least one rotor, with the rotor comprising several rotor blades attached to a rotating shaft, a casing which is passed by a fluid flowing through the rotor, and means for the supply of fluid for at least one blade of a blade row of the rotor on aerodynamically critical locations on at least one of a trailing edge and rim-near surfaces, wherein the trailing edge and rim-near surfaces are in the form of surfaces on at least one of a hub and a casing contour of an annulus, in an area of free blade ends, and at least one of above shroudless rotors and below shroudless stators between a trailing edge plane and a plane which is located 35 percent of a meridional blade chord length before a leading edge. 18. A turbomachine comprising: at least one rotor, with the rotor comprising several rotor blades attached to a rotating shaft, a casing which is passed by a fluid flowing through the rotor, and means for the supply of fluid for at least one blade of a blade row of the rotor on aerodynamically critical locations on at least one of a trailing edge and rim-near surfaces, wherein the trailing edge and rim-near surfaces are in the form of surfaces on the blades at their free ends facing at least one of a hub and a casing contour of an annulus. 19. A turbomachine comprising: at least one rotor, with the rotor comprising several rotor blades attached to a rotating shaft, a casing which is passed by a fluid flowing through the rotor, and means for the supply of fluid for at least one blade of a blade row of the rotor on aerodynamically critical locations on at least one of a trailing edge and rim-near surfaces, wherein the means for fluid supply are provided on at least one blade of at least one of the rotor and the stator row which are distributed on a blade suction side over a defined area in meridional flow direction. 20. A turbomachine in accordance with claim 19, wherein the means for the supply of fluid are arranged such that their meridional extension in meridional flow line-orthogonal direction decreases towards at least one annulus wall.
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