IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0217505
(2005-09-01)
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등록번호 |
US-7536862
(2009-07-01)
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발명자
/ 주소 |
- Held, Timothy James
- Cooper, James Neil
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출원인 / 주소 |
|
대리인 / 주소 |
Andes, Esq., William Scott
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인용정보 |
피인용 횟수 :
10 인용 특허 :
4 |
초록
▼
A gas turbine engine fuel nozzle includes an axis of symmetry extending therethrough, the nozzle body including a first passage extending coaxially therethrough, a second passage, and a third passage, the second passage circumscribing the first passage, the third passage formed radially outward of t
A gas turbine engine fuel nozzle includes an axis of symmetry extending therethrough, the nozzle body including a first passage extending coaxially therethrough, a second passage, and a third passage, the second passage circumscribing the first passage, the third passage formed radially outward of the second passage, and a nozzle tip coupled to the nozzle body, the nozzle tip including at least one primary discharge opening in flow communication with the first passage, at least one secondary discharge opening in flow communication with the second passage, and at least one tertiary discharge opening in flow communication with the third passage.
대표청구항
▼
What is claimed is: 1. A method for delivering fuel in a gas turbine engine including at least one fuel nozzle including a nozzle body having an axis of symmetry extending therethrough, the nozzle body comprising a first passage extending coaxially therethrough, a second passage, and a third passag
What is claimed is: 1. A method for delivering fuel in a gas turbine engine including at least one fuel nozzle including a nozzle body having an axis of symmetry extending therethrough, the nozzle body comprising a first passage extending coaxially therethrough, a second passage, and a third passage, the second passage circumscribing the first passage, the third passage formed radially outward of the second passage, the third passage substantially circumscribing the second passage, and a nozzle tip coupled to the nozzle body, the nozzle tip comprising at least one primary discharge opening in flow communication with the first passage, at least one secondary discharge opening in flow communication with the second passage, and at least one tertiary discharge opening in flow communication with the third passage, said method comprising: channeling fuel through the first passage such that fuel is discharged through the nozzle tip at least one primary discharge opening; channeling fuel through the second passage such that fuel is discharged through the nozzle tip at least one secondary discharge opening; channeling steam through the third passage such that steam is discharged through the nozzle tip at least one tertiary discharge opening in a first operational mode; and channeling cooling air through a plurality of fourth discharge openings and into the third passage such that the cooling air is discharged through the at least one tertiary discharge opening during a second operational mode wherein the plurality of fourth discharge openings is in flow communication with the third passage, the plurality of fourth discharge openings formed upstream from the at least one tertiary discharge opening. 2. A method in accordance with claim 1 wherein the nozzle tip further includes a plurality of fourth discharge openings in flow communication with the third passage, the plurality of fourth discharge openings formed upstream from the at least one tertiary discharge opening, said method further comprising channeling steam through the third passage such that steam is discharged through the nozzle tip plurality of fourth discharge openings in the first operational mode. 3. A method in accordance with claim 2 further comprising: channeling a first volume of steam through the at least one tertiary discharge opening; and channeling a second volume of steam through the plurality of fourth discharge openings in the first operational mode. 4. A method in accordance with claim 2 further comprising: channeling a first volume of steam through the at least one tertiary discharge opening; and channeling a second volume of steam through the plurality of fourth discharge openings in the first operational mode, wherein the first volume of steam is larger than the second volume of steam. 5. A method in accordance with claim 1 wherein the gas turbine engine further includes at least a first manifold and a second manifold, said method further comprising: channeling steam through the first manifold to the fuel nozzle third passage; and channeling fuel through the second manifold to the first and second passages. 6. A fuel nozzle for a gas turbine engine, said fuel nozzle comprising: a nozzle body having an axis of symmetry extending therethrough, said nozzle body comprising a first passage extending coaxially therethrough, a second passage, and a third passage, said second passage circumscribing said first passage, said third passage formed radially outward of said second passage, said third passage substantially circumscribing said second passage; and a nozzle tip coupled to said nozzle body, said nozzle tip comprising at least one primary discharge opening in flow communication with said first passage, at least one secondary discharge opening in flow communication with said second passage, at least one tertiary discharge opening in flow communication with said third passage, and a plurality of fourth discharge openings in flow communication with said third passage, said plurality of fourth discharge openings formed upstream from said at least one tertiary discharge opening wherein said third passage is configured to channel steam downstream through said nozzle tip tertiary discharge opening and said nozzle tip plurality of fourth discharge openings. 7. A fuel nozzle in accordance with claim 6 wherein said plurality of fourth discharge openings are configured to channel cooling air into said nozzle tip for purging said fuel nozzle through said at least one tertiary discharge opening. 8. A fuel nozzle in accordance with claim 6 wherein said first and second passages are configured to discharge fuel downstream through said nozzle tip at least one primary and secondary discharge openings. 9. A fuel nozzle in accordance with claim 6 wherein said third passage is configured to channel a first volume of steam through said at least one tertiary discharge opening and a second volume of steam through said plurality of fourth discharge openings. 10. A fuel nozzle in accordance with claim 6 wherein said third passage is configured to channel a first volume of steam through said at least one tertiary discharge opening, and a second volume of steam though said plurality of fourth discharge openings, said first volume of steam larger than said second volume of steam. 11. A gas turbine engine assembly comprising: a gas turbine engine; at least two manifolds coupled to said gas turbine engine, said at least two manifolds comprising a first manifold and a second manifold, said first manifold configured to deliver to the gas turbine engine a first gas, said second manifold configured to deliver to the gas turbine engine a first fuel; and a fuel nozzle coupled to said manifolds, said fuel nozzle comprising: a nozzle body having an axis of symmetry extending therethrough, said nozzle body comprising a first passage extending coaxially therethrough, a second passage, and a third passage, said second passage circumscribing said first passage, said third passage formed radially outward of said second passage, said third passage substantially circumscribing said second passage; and a nozzle tip coupled to said nozzle body, said nozzle tip comprising at least one primary discharge opening in flow communication with said first passage, at least one secondary discharge opening in flow communication with said second passage, at least one tertiary discharge opening in flow communication with said third passage, and a plurality of fourth discharge openings in flow communication with said third passage, said plurality of fourth discharge openings formed upstream from said at least one tertiary discharge openings said first manifold channels steam through said third passage downstream through said nozzle tip at least one tertiary discharge opening and said nozzle tip plurality of fourth discharge openings. 12. A gas turbine engine assembly in accordance with claim 11 wherein said plurality of fourth discharge openings are configured to channel cooling air into said nozzle tip for purging said fuel nozzle through said at least one tertiary discharge opening. 13. A gas turbine engine assembly in accordance with claim 11 wherein said second manifold channels fuel through said first and second passages downstream through said nozzle tip primary and secondary discharge openings. 14. A gas turbine engine assembly in accordance with claim 11 wherein said third passage channels a first volume of steam downstream through said nozzle tip at least one tertiary opening and a second volume of steam through said nozzle tip plurality of fourth discharge openings. 15. A gas turbine engine assembly in accordance with claim 11 wherein said third passage channels a first volume of steam downstream through said nozzle tip at least one tertiary discharge opening and a second volume of steam through said nozzle tip plurality of fourth discharge openings, wherein said first volume of steam is larger than said second volume of steam.
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