Variable area fan nozzle with acoustic system for a gas turbine engine
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/045
F02K-001/34
출원번호
US-0804666
(2010-07-27)
등록번호
US-8820088
(2014-09-02)
발명자
/ 주소
Gilson, Jonathan
Hall, Andre M.
Atassi, Oliver V.
Reba, Ramons A.
출원인 / 주소
United Technologies Corporation
대리인 / 주소
Carlson, Gaskey & Olds, P.C.
인용정보
피인용 횟수 :
2인용 특허 :
6
초록
A high-bypass gas turbine engine includes a variable area fan nozzle with an acoustic system having an acoustic impedance.
대표청구항▼
1. A nacelle assembly for a gas turbine engine comprising: a core nacelle defined about an engine centerline axis;a fan nacelle mounted at least partially around said core nacelle, the core nacelle and fan nacelle defining a fan bypass flow path; anda variable area fan nozzle in communication with s
1. A nacelle assembly for a gas turbine engine comprising: a core nacelle defined about an engine centerline axis;a fan nacelle mounted at least partially around said core nacelle, the core nacelle and fan nacelle defining a fan bypass flow path; anda variable area fan nozzle in communication with said fan bypass flow path, said variable area fan nozzle having a first fan nacelle section and a second fan nacelle section downstream of said first fan nacelle section, said first fan nacelle section and said second fan nacelle section axially movable relative to one another to define an auxiliary port to vary a fan nozzle exit area and adjust fan bypass airflow, said auxiliary port defined between said first fan nacelle section and said second fan nacelle section, said first fan nacelle section comprises a first acoustic system comprising a first acoustic absorbing-material having a first acoustic impedance configured to attenuate a noise characterized by a leading edge of said second fan nacelle section, said first acoustic system disposed at a trailing edge of said first fan nacelle section, said second fan nacelle section comprises a second acoustic system comprising a second absorbing-material having a second acoustic impedance, said first acoustic system extends axially a first length along said first fan nacelle section and said second acoustic system extends axially a second length along said second fan nacelle section, said first length and said second length being substantially equal to each other. 2. The assembly as recited in claim 1, wherein said first acoustic system comprises a perforated sheet. 3. The assembly as recited in claim 2, wherein said perforated sheet further comprises a deformable material. 4. The assembly as recited in claim 1, wherein said first acoustic system comprises a perforated sheet, a backing plate and internal partitions. 5. The assembly as recited in claim 1, wherein said first acoustic system comprises a bulk acoustic absorbing material. 6. The assembly as recited in claim 1, wherein said first acoustic system comprises a bulk cartridge. 7. The assembly as recited in claim 6, wherein said bulk cartridge comprises a bulk acoustic absorbing material. 8. The assembly as recited in claim 5 or 7, wherein said bulk absorbing material is selected from a group consisting of sintered metal, ceramic foam, aramid fiber, carbide material and composite. 9. The assembly as recited in claim 5 or 7, wherein said bulk absorbing material comprises a deformable material. 10. The assembly as recited in claim 1, wherein said second acoustic system is defined at least in part within a leading edge region of said second fan nacelle section. 11. The assembly as recited in claim 1, wherein said first acoustic system and the said second acoustic system are placed in close proximity to form a region of opposed acoustic treatment along said auxiliary port. 12. The assembly as recited in claim 1, wherein said second fan nacelle section is subdivided into a multiple of independently operable sectors, each of said multiple of independently operable sectors axially movable relative said the first fan nacelle section to define an asymmetric fan nozzle exit area. 13. The assembly as recited in claim 1, wherein said first acoustic system is configured to extend between said trailing edge and a point defined on said first fan nacelle section at which a leading edge of said second fan nacelle section engages said first fan nacelle section when said variable area fan nozzle is located in a closed position. 14. The assembly as recited in claim 1, wherein said second acoustic system is spaced a distance from a leading edge of said second fan nacelle section. 15. The assembly as recited in claim 1, wherein said second fan nacelle section defines a third length between a leading edge and a trailing edge of said second fan nacelle section, said second length being a ratio of between 1:4 and 1:3 of said third length. 16. A bypass gas turbine engine comprising: a core engine defined about an axis;a core nacelle defined at least partially about said core engine;a fan nacelle mounted at least partially around said core nacelle to define a fan bypass flow path; anda variable area fan nozzle in communication with said fan bypass flow path, said variable area fan nozzle having a first fan nacelle section and a second fan nacelle section downstream of said first fan nacelle section, said first fan nacelle section and said second fan nacelle section axially movable relative to one another to define an auxiliary port to vary a fan nozzle exit area and adjust fan bypass airflow, said auxiliary port defined between said first fan nacelle section and said second fan nacelle section, said first fan nacelle section comprises a first acoustic system comprising a first absorbing-material which provides a first acoustic impedance configured to attenuate a noise characterized by a leading edge of said second fan nacelle section, said first acoustic system disposed at a trailing edge of said first fan nacelle section, said second fan nacelle section comprises a second acoustic system comprising a second absorbing-material which provides a second acoustic impedance, said first acoustic system extends axially a first length along said first fan nacelle section and said second acoustic system extends axially a second length along said second fan nacelle section, said first length and said second length being substantially equal to each other. 17. The engine as recited in claim 16, wherein said first acoustic system and the said second acoustic system are placed in close proximity to form a region of opposed acoustic treatment along said auxiliary port. 18. The engine as recited in claim 16, further comprising: a gear train driven by said core engine;a turbofan driven by said gear train about said axis. 19. A method of reducing a total effective perceived noise level of a gas turbine engine with a variable area fan nozzle comprising: axially moving a second fan nacelle section between a closed position in which the second fan nacelle section is in sequential alignment with a first fan nacelle section in response to a cruise flight condition and an open positioning in which the second fan nacelle section is aftward of the first fan nacelle section to define an auxiliary port in response to a non-cruise flight condition, said auxiliary port defined between said first fan nacelle section and said second fan nacelle section, the first fan nacelle section having a trailing edge region with a first acoustic system comprising a first absorbing-material which provides an acoustic impedance configured to attenuate a noise characterized by a leading edge of said second fan nacelle section when the second fan nacelle section is positioned at a non-closed position, said second fan nacelle section having a second acoustic system comprising a second absorbing-material which provides a second acoustic impedance, said first acoustic system extends axially a first length along said first fan nacelle section and said second acoustic system extends axially a second length along said second fan nacelle section, said first length and said second length being substantially equal to each other. 20. A method as recited in claim 19, further comprising: placing said first acoustic system and the said second acoustic system in close proximity to form a region of opposed acoustic treatment along said auxiliary port.
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