IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0008890
(2011-01-18)
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등록번호 |
US-8322143
(2012-12-04)
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발명자
/ 주소 |
- Uhm, Jong Ho
- Johnson, Thomas Edward
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출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
19 인용 특허 :
4 |
초록
▼
According to various embodiments, a system includes a staggered multi-nozzle assembly. The staggered multi-nozzle assembly includes a first fuel nozzle having a first axis and a first flow path extending to a first downstream end portion, wherein the first fuel nozzle has a first non-circular perime
According to various embodiments, a system includes a staggered multi-nozzle assembly. The staggered multi-nozzle assembly includes a first fuel nozzle having a first axis and a first flow path extending to a first downstream end portion, wherein the first fuel nozzle has a first non-circular perimeter at the first downstream end portion. The staggered multi-nozzle assembly also includes a second fuel nozzle having a second axis and a second flow path extending to a second downstream end portion, wherein the first and second downstream end portions are axially offset from one another relative to the first and second axes. The staggered multi-nozzle assembly further includes a cap member disposed circumferentially about at least the first and second fuel nozzles to assemble the staggered multi-nozzle assembly.
대표청구항
▼
1. A system, comprising: a staggered multi-nozzle assembly, comprising: a first fuel nozzle having a first axis and a first flow path extending to a first downstream end portion, wherein the first fuel nozzle has a first non-circular perimeter at the first downstream end portion, wherein the first f
1. A system, comprising: a staggered multi-nozzle assembly, comprising: a first fuel nozzle having a first axis and a first flow path extending to a first downstream end portion, wherein the first fuel nozzle has a first non-circular perimeter at the first downstream end portion, wherein the first fuel nozzle comprises a first fuel conduit, a first fuel chamber coupled to the first fuel conduit, a first plurality of premixing tubes extending through the first fuel chamber, and each of the first plurality of premixing tubes includes a first air inlet, a first fuel inlet, and a first fuel-air outlet at the first downstream end portion;a second fuel nozzle having a second axis and a second flow path extending to a second downstream end portion, wherein the first and second downstream end portions are staggered from one another relative to the first and second axes in an axial direction; anda cap member disposed circumferentially about at least the first and second fuel nozzles to assemble the staggered multi-nozzle assembly. 2. The system of claim 1, wherein the first non-circular perimeter comprises a first region of a circular nozzle area defined by a perimeter of the cap member. 3. The system of claim 2, wherein the second fuel nozzle comprises a second non-circular perimeter, and the second non-circular perimeter comprises a second region of the circular nozzle area. 4. The system of claim 3, comprising a third fuel nozzle having a third axis and a third flow path extending to a third downstream end portion, wherein the first and third downstream end portions are staggered from one another relative to the first and third axes in the axial direction, and the third fuel nozzle comprises a circular perimeter at a central portion within the circular nozzle area. 5. The system of claim 4, wherein the first, second, and third downstream end portions are staggered from one another relative to the first, second, and third axes in the axial direction. 6. The system of claim 1, wherein the second fuel nozzle comprises a circular perimeter. 7. The system of claim 1, wherein the second fuel nozzle comprises a second fuel conduit, a second fuel chamber coupled to the second fuel conduit, a second plurality of premixing tubes extending through the second fuel chamber, and each of the second plurality of premixing tubes includes a second air inlet, a second fuel inlet, and a second fuel-air outlet at the second downstream end portion. 8. The system of claim 1, comprising a turbine combustor having the staggered multi-nozzle assembly. 9. The system of claim 8, comprising a gas turbine engine having the turbine combustor with the staggered multi-nozzle assembly. 10. The system of claim 1, wherein the first and second downstream end portions are separate from each other. 11. The system of claim 1, wherein the first and second downstream end portions each include a constant cross-sectional area in the axial direction. 12. A system, comprising: a turbine nozzle assembly, comprising: a first fuel nozzle having a first axis and a first plurality of premixing tubes extending to a first downstream end portion, wherein the first fuel nozzle has a first truncated pie-shaped perimeter at the first downstream end portion, wherein the first truncated pie-shaped perimeter is defined by a first side and a second side that are parallel with each other, and a first linear side and a second linear side that diverge with respect to each other in a radial direction; anda second fuel nozzle having a second axis and a second plurality of premixing tubes extending to a second downstream end portion, wherein the first and second downstream end portions are staggered from one another relative to the first and second axes in an axial direction, and the first and second downstream end portions are separate from each other. 13. The system of claim 12, wherein the second fuel nozzle comprises a circular perimeter. 14. The system of claim 13, wherein the first downstream end portion is staggered downstream from the second downstream end portion in the axial direction. 15. The system of claim 13, wherein the second downstream end portion is staggered downstream from the first downstream end portion in the axial direction. 16. The system of claim 12, wherein the second fuel nozzle comprises a second truncated pie-shaped perimeter defined by a third side and a fourth side that are parallel with each other, and a third linear side and a fourth linear side that diverge with respect to each other in the radial direction. 17. The system of claim 12, comprising a third fuel nozzle having a third axis and a third plurality of premixing tubes extending to a third downstream end portion, wherein the first and third downstream end portions are staggered from one another relative to the first and third axes in the axial direction. 18. The system of claim 17, wherein the first, second, and third downstream end portions are staggered from one another relative to the first, second, and third axes in the axial direction. 19. The system of claim 12, wherein the first and second downstream end portions each include a constant cross-sectional area in the axial direction. 20. The system of claim 12, wherein the first side comprises a first arcuate shaped side and the second side comprises a second arcuate shaped side. 21. A method, comprising: routing fuel and air through a first fuel nozzle of a turbine nozzle assembly to a first downstream end portion, wherein the first fuel nozzle has a first non-circular perimeter at the first downstream end portion, wherein the first fuel nozzle comprises a first fuel conduit, a first fuel chamber coupled to the first fuel conduit, a first plurality of premixing tubes extending through the first fuel chamber, and each of the first plurality of premixing tubes includes a first air inlet, a first fuel inlet, and a first fuel-air outlet at the first downstream end portion; androuting fuel and air through a second fuel nozzle of the turbine nozzle assembly to a second downstream end portion, wherein the first and second downstream end portions are staggered in an axial direction to reduce amplitude of combustion dynamics, and a cap member disposed circumferentially about at least the first and second fuel nozzles to assemble the turbine nozzle assembly. 22. The method of claim 21, wherein routing fuel and air through the first fuel nozzle comprises outputting a first fuel-air mixture from the first downstream end portion at an upstream position relative to the second downstream end portion, wherein the first non-circular perimeter comprises a first truncated pie-shaped perimeter defined by a first side and a second side that are parallel with each other, and a first linear side and a second linear side that diverge with respect to each other in a radial direction. 23. The method of claim 21, wherein routing fuel and air through the first fuel nozzle comprises outputting a first fuel-air mixture from the first downstream end portion at a downstream position relative to the second downstream end portion, wherein the first non-circular perimeter comprises a first truncated pie-shaped perimeter defined by a first side and a second side that are parallel with each other, and a first linear side and a second linear side that diverge with respect to each other in a radial direction.
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