Claims
- 1. A nozzle fuel tip for converting a dual fuel nozzle to a gas only nozzle configuration comprising:
an end cap plate structure having a distal surface, a proximal surface, and a plurality of openings defined therethrough for cooling fluid flow, and a cavity defining structure disposed proximal to said proximal surface of said end cap plate for defining an air cavity proximal to and in flow communication with said openings, said cavity defining structure further including a plurality of cooling air passages extending from an outer peripheral surface thereof to said cavity for the flow of cooling air from said outer peripheral surface to said cavity and a plurality of gas fuel passages extending from a proximal end of said cavity defining structure to a distal end of said cavity defining structure so as to substantially isolate said air cavity from said fuel flow.
- 2. A nozzle fuel tip as in claim 1, further comprising a wall disposed peripherally of said cavity defining structure and spaced therefrom to define a gas plenum therebetween for receiving and distributing gas fuel flow flowing thereto through said gas fuel passages.
- 3. A nozzle fuel tip as in claim 2, further comprising a plurality of gas injection holes defined about a periphery of said end cap plate for directing gas fuel from said gas fuel plenum generally distally.
- 4. A nozzle as in claim 1, composed of a tip part and a diverter part, said tip part comprising said end cap plate and said diverter part comprising said cavity defining structure.
- 5. A nozzle as in claim 4, wherein said tip part and said diverter part are brazed so as to be fixedly secured as an integrated unit.
- 6. A nozzle as in claim 1, wherein there are four said cooling air passages.
- 7. A nozzle as in claim 6, wherein there are four said gas fuel passages, a gas fuel passage being disposed between adjacent said cooling air passages.
- 8. A nozzle as in claim 1, wherein said gas fuel passages extend in a direction generally parallel to a longitudinal axis of said nozzle.
- 9. A nozzle as in claim 1, wherein said cooling air passages are oriented in a direction generally transverse to a longitudinal axis of said nozzle so that said passages each extend generally radially with respect to said longitudinal axis.
- 10. A gas only nozzle comprising:
an outer peripheral wall; an air flow passage defined within said outer wall and extending at least part circumferentially thereof; a central gas fuel flow passage; and a nozzle tip fixed with respect to said outer peripheral wall at a distal end thereof for substantially closing said central gas flow passage, said nozzle tip including an end cap plate; said nozzle tip defining at least one cooling air passage for diverting a portion of the air flowing through said air flow passage to cool the nozzle end cap plate thereof and said nozzle tip defining at least one gas fuel passage for directing gas fuel flowing through said central gas flow passage to and through gas injection holes defined about a periphery of said nozzle end cap plate.
- 11. A gas only nozzle as in claim 10, wherein a plurality of fluid flow openings are defined through said end cap plate for flowing cooling air therethrough.
- 12. A gas only nozzle as in claim 10, wherein said nozzle tip includes a cavity defining structure disposed adjacent to a proximal surface of said nozzle end cap plate for defining an air cavity adjacent to said nozzle end cap plate, said cavity defining structure defining said at least one cooling air passage and said at least one gas fuel passage.
- 13. A gas only nozzle as in claim 10, further comprising a wall disposed peripherally of said cavity defining structure and spaced therefrom to define a gas plenum therebetween for receiving and distributing gas fuel flow flowing thereto through said at least one gas fuel passage.
- 14. A gas only nozzle as in claim 12, wherein said nozzle tip is composed of a tip part and a diverter part, said tip part comprising said end cap plate and said diverter part comprising said cavity defining structure.
- 15. A gas only nozzle as in claim 14, wherein said tip part and said diverter part are brazed so as to be fixedly secured as an integrated unit.
- 16. A gas only nozzle as in claim 10, wherein said at least one gas fuel passage extends in a direction generally parallel to a longitudinal axis of said nozzle and wherein said at least one cooling air passage is oriented in a direction generally transverse to a longitudinal axis of said nozzle so as to extend generally radially with respect to said longitudinal axis.
- 17. A method of cooling a gas only nozzle fuel tip, comprising:
providing a gas only nozzle including an outer peripheral wall; an air flow passage defined within said outer wall and extending at least part circumferentially thereof; and a central gas fuel flow passage; securing a nozzle tip to said outer peripheral wall at a distal end thereof to substantially close said central gas flow passage, said nozzle tip including an end cap plate; diverting gas fuel flowing through said central gas fuel flow passage to flow to and through gas injection holes defined about a periphery of said end cap plate; and diverting a portion of the air flowing through said air flow passage to flow to said end cap plate to cool the same.
- 18. A method as in claim 17, wherein the air flowing through the nozzle is compressor bleed air.
- 19. A method as in claim 17, wherein there are a plurality of openings defined through said end cap plate, and said step of diverting air comprises diverting air to flow to and through said openings in said end cap plate.
Government Interests
[0001] This Invention was made with Government support under Contract No. DE-FC21-95MC31176 awarded by the Department of Energy. The Government has certain rights in this invention.
Divisions (1)
|
Number |
Date |
Country |
Parent |
09652176 |
Aug 2000 |
US |
Child |
09994831 |
Nov 2001 |
US |