IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0252714
(2005-10-19)
|
등록번호 |
US-7458766
(2008-12-02)
|
우선권정보 |
GB-0424979.3(2004-11-12) |
발명자
/ 주소 |
- Dailey,Geoffrey M
- Snowsill,Guy D
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
11 인용 특허 :
10 |
초록
▼
Efficient cooling of a stage of gas turbine engine turbine blades (36) is achieved by first reducing the pressure of the cooling air after it has been bled from the annulus of the compressor (12) by passing it through a diffuser (30), to a pressure magnitude lower than is required at entry to the tu
Efficient cooling of a stage of gas turbine engine turbine blades (36) is achieved by first reducing the pressure of the cooling air after it has been bled from the annulus of the compressor (12) by passing it through a diffuser (30), to a pressure magnitude lower than is required at entry to the turbine blades, then re-pressurizing the bled air up to the required entry pressure, by passing it through a radial compressor defined by a cowl (44) positioned in close spaced, co-rotational relationship with the downstream face of the associated turbine disk (34).
대표청구항
▼
We claim: 1. In a gas turbine engine, a turbine blade cooling system comprises a compressor having a stage of compressor blades and compressed air bleed means, a stage of turbine blades downstream of said compressor, a disk, said stage of turbine blades being supported on said disk, a cowl covering
We claim: 1. In a gas turbine engine, a turbine blade cooling system comprises a compressor having a stage of compressor blades and compressed air bleed means, a stage of turbine blades downstream of said compressor, a disk, said stage of turbine blades being supported on said disk, a cowl covering the downstream face of said disk in spaced, co-axial relationship therewith, bled compressor air diffusion means connected in flow series with said space, holes in the rim of said disk, which holes connect said space with the roots of said turbine blades, and wherein the inner surface of said cowl is formed so as to pressurize said diffused air to a magnitude appropriate to the cooling flow requirements of said turbine blades wherein the cowl is vaned to define a radial compressor. 2. The turbine blade cooling system as claimed in claim 1 wherein said compressed air bleed means connects the compressor annulus in flow series with the space between said turbine disk and said cowl. 3. The turbine blade cooling system as claimed in claim 2 wherein said compressor air bleed means comprises holes through the inner wall of the compressor annulus. 4. The turbine blade cooling system as claimed in claim 1 wherein said bled compressor air diffusion means comprises a conical member. 5. The turbine blade cooling air system as claimed in claim 4 wherein said conical member is mounted for co-rotation on the disk of the stage of compressor blades immediately upstream of said compressor air bleed means. 6. In a gas turbine engine, a turbine blade cooling system comprises a compressor having a stage of compressor blades and compressed air bleed means, a stage of turbine blades downstream of said compressor, a disk, said stage of turbine blades being supported on said disk, a cowl covering the downstream face of said disk in spaced, co-axial relationship therewith, bled compressor air diffusion means connected in flow series with said space, holes in the rim of said disk, which holes connect said space with the roots of said turbine blades, and wherein the inner surface of said cowl is formed so as to pressurize said diffused air to a magnitude appropriate to the cooling flow requirements of said turbine blades wherein said bled compressor air diffusion means comprises a radial turbine. 7. The turbine blade cooling system as claimed in claim 6 wherein said radial turbine is co-rotatably mounted on the disk of the compressor stage immediately upstream of said compressor air bleed means. 8. In a gas turbine engine, a turbine blade cooling system comprises a compressor having a stage of compressor blades and compressed air bleed means, a stage of turbine blades downstream of said compressor, a disk, said stage of turbine blades being supported on said disk, a cowl covering the downstream face of said disk in spaced, co-axial relationship therewith, bled compressor air diffusion means connected in flow series with said space, holes in the rim of said disk, which holes connect said space with the roots of said turbine blades, and wherein the inner surface of said cowl is formed so as to pressurize said diffused air to a magnitude appropriate to the cooling flow requirements of said turbine blades wherein said compressor air bleed means comprises holes in the outer wall of the compressor annulus. 9. The turbine blade cooling system as claimed in claim 8 wherein said bled compressor air diffuser comprises external diffuser pipes connecting said bled compressor air, via the interiors of a corresponding number of hollow turbine guide vanes, to said space between said turbine disk and associated cowl. 10. A method of cooling a stage of gas turbine engine turbine blades comprising the steps of first reducing the pressure of cooling air bled from an associated compressor by passing it through a diffuser so as to achieve a pressure lower than is required at entry to the turbine blades, then re-pressurizing said bled air up to the required entry pressure by passing it through a radial compressor defined by a vaned cowl positioned in close spaced, co-rotational rotational relationship with the downstream face of the associated turbine disk.
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