IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0470893
(2009-05-22)
|
등록번호 |
US-8104260
(2012-01-31)
|
발명자
/ 주소 |
- Girgis, Sami
- Glasspoole, David F.
|
출원인 / 주소 |
- Pratt & Whitney Canada Corp.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
7 |
초록
▼
An exhaust mixer for a gas turbine engine including a plurality of circumferentially distributed alternating inner and outer lobes, where each of the inner lobes is configured with a circumferential offset between the base and the tip thereof, and a direction of the circumferential offset defined fr
An exhaust mixer for a gas turbine engine including a plurality of circumferentially distributed alternating inner and outer lobes, where each of the inner lobes is configured with a circumferential offset between the base and the tip thereof, and a direction of the circumferential offset defined from the base to the tip of each of the inner lobes is the same for all of the inner lobes and opposite to that of a swirl component of a main gas path flow entering the exhaust mixer.
대표청구항
▼
1. An exhaust mixer for a gas turbine engine of the type having an annular bypass passage for channelling air from a fan flow and a main gas path passage, the exhaust mixer being adapted to receive a flow from the main gas path passage having a swirl component in a given direction, the exhaust mixer
1. An exhaust mixer for a gas turbine engine of the type having an annular bypass passage for channelling air from a fan flow and a main gas path passage, the exhaust mixer being adapted to receive a flow from the main gas path passage having a swirl component in a given direction, the exhaust mixer comprising an upstream end, a downstream end, and an annular wall extending therebetween and defining a plurality of circumferentially distributed alternating inner and outer lobes, the outer lobes protruding into the annular bypass passage and the inner lobes protruding into the main gas path passage, each of the inner lobes having a base defined in alignment with the upstream end of the mixer and a tip, each of the inner lobes being configured with a circumferential offset between sections of the base and tip thereof located at a same distance from the upstream end of the mixer, the circumferential offset progressively increasing as the distance from the upstream end of the mixer increases, a direction of the circumferential offset defined from the base to the tip of each of the inner lobes being the same for all of the inner lobes and opposite to that of the swirl component. 2. The exhaust mixer as defined in claim 1, wherein the circumferential offset increases from a value of 0 in a position adjacent the upstream end of the mixer. 3. The exhaust mixer as defined in claim 1, wherein the circumferential offset is at most 10 degrees. 4. The exhaust mixer as defined in claim 1, wherein the base of each of the inner lobes remains at a same angular position throughout a length of the mixer. 5. The exhaust mixer as defined in claim 1, wherein each of the outer lobes has a base defined in alignment with the upstream end of the mixer and a tip, each of the outer lobes being configured without a circumferential offset between the base and the tip thereof. 6. The exhaust mixer as defined in claim 1, wherein at any location along the length of the mixer, the circumferential offset between the base and the tip of every one of the inner lobes is the same. 7. The exhaust mixer as defined in claim 1, wherein all of the inner lobes are identical to one another. 8. The exhaust mixer as defined in claim 1, wherein each of the inner lobes extends in a curved configuration with respect to a respective radial direction of the main gas path. 9. The exhaust mixer as defined in claim 8, wherein each of the inner lobes curves progressively more away from the respective radial direction of the main gas path as a distance from the upstream end of the mixer increases. 10. An exhaust mixer for a gas turbine engine of the type having an annular bypass passage for channelling air from a fan flow and a main gas path passage, the exhaust mixer comprising an upstream end, a downstream end, and an annular wall extending therebetween and defining a plurality of circumferentially distributed alternating inner and outer lobes, the outer lobes protruding into the annular bypass passage and the inner lobes protruding into the main gas path passage, each of the inner lobes having a base defined in alignment with the upstream end of the mixer and a respective radial direction extending between a center of the base thereof and a longitudinal axis of the mixer, and each of the inner lobes having a curved central line extending from the center of the base thereof to a center of a tip thereof and curving away from a same side of the respective radial direction with the curved central line and radial direction being defined at a same distance from the upstream end of the mixer, each of the inner lobes curving progressively more away from the respective radial direction as the distance from the upstream end of the mixer increases. 11. The exhaust mixer as defined in claim 10, wherein for each of the inner lobes, a circumferential offset between sections of the base and of a tip thereof located at a same distance from the upstream end of the mixer increases in a progressive manner as the distance from the upstream end of the mixer increases. 12. The exhaust mixer as defined in claim 10, wherein the base of each of the inner lobes remains at a same angular position throughout a length of the mixer. 13. The exhaust mixer as defined in claim 10, wherein each of the outer lobes has a base defined in alignment with the upstream end of the mixer and a respective outer lobe radial direction extending between a center of the base thereof and a longitudinal axis of the mixer, and each of the outer lobes having a central line extending from the center of the base thereof to a center of the tip thereof in alignment with the respective outer lobe radial direction. 14. The exhaust mixer as defined in claim 10, wherein all of the inner lobes are identical to one another. 15. A method of removing at least part of a swirl component of a main gas path flow of a gas turbine engine, the method comprising receiving the main gas path flow with the swirl component at a discharge end of the gas turbine engine within an annular passage having an outer wall defined by a mixer, and directing each of a plurality of circumferential portions of the main gas path flow from an upstream end of the mixer to a downstream end of the mixer along the outer wall within a path defined at a constant angular position while forcing each of the plurality of circumferential portions of the flow along a flow direction curved with respect to a respective radial direction of the main gas path and oriented opposite to the swirl component with the flow direction and respective radial direction being defined at a same distance from the upstream end of the mixer, the flow direction curving progressively more away from the respective radial direction as the distance from the upstream end of the mixer increases. 16. The method as defined in claim 15, wherein forcing each of the plurality of circumferential portions of the flow is done such that the flow direction curves progressively more away from the respective radial direction as a distance from a longitudinal axis of the mixer decreases.
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