IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0418613
(2006-05-05)
|
등록번호 |
US-8596071
(2013-12-03)
|
발명자
/ 주소 |
- Mueller, Mark Anthony
- Dai, Zhongtao
- Vermeersch, Michael Louis
- Ananthakrishnanlyer, Venkatraman
- Held, Timothy James
- Xu, Jun
- McManus, Keith Robert
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
21 |
초록
▼
A method for assembling a gas turbine engine combustor is provided. The method includes providing a heat shield defined by a perimeter. The perimeter includes a radially inner edge, a radially outer edge, an axially inner edge, an axially outer edge, and an opening that extends from an upstream side
A method for assembling a gas turbine engine combustor is provided. The method includes providing a heat shield defined by a perimeter. The perimeter includes a radially inner edge, a radially outer edge, an axially inner edge, an axially outer edge, and an opening that extends from an upstream side of the heat shield to a downstream side of the heat shield. The method further includes coupling the heat shield to a domeplate such that the perimeter of the heat shield is positioned a distance downstream from an edge of the heat shield defining the opening. The method additionally includes coupling at least one fuel injector to the domeplate such that a portion of the fuel injector extends through the heat shield opening.
대표청구항
▼
1. A method for assembling a gas turbine engine combustor, said method comprising: providing a heat shield defined by a perimeter, the perimeter including a radially inner edge, an opposing radially outer edge, a first axial edge, an opposing second axial edge, and an opening that extends from an up
1. A method for assembling a gas turbine engine combustor, said method comprising: providing a heat shield defined by a perimeter, the perimeter including a radially inner edge, an opposing radially outer edge, a first axial edge, an opposing second axial edge, and an opening that extends from an upstream surface of the heat shield to a downstream surface of the heat shield, wherein said downstream surface extends arcuately and convexly from said opening to said perimeter and said perimeter is downstream of the opening;coupling an outer edge of the opening of the heat shield to a domeplate such that the perimeter of the heat shield is positioned a distance downstream from the outer edge of the opening, wherein the heat shield is sealingly coupled to the domeplate along at least one of the radially inner and radially outer edges of the perimeter; andcoupling at least one mixer assembly to the domeplate such that a portion of the mixer assembly extends through the opening. 2. A method in accordance with claim 1 wherein the downstream surface of the heat shield is non-planar. 3. A method in accordance with claim 1 wherein the heat shield is formed arcuately with a substantially semi-spherical shape. 4. A method in accordance with claim 1 wherein the heat shield is formed arcuately with a substantially semi-elliptical shape. 5. A method in accordance with claim 1 further comprising coupling the heat shield circumferentially around at least one premixer assembly that includes at least one arcuately formed surface. 6. A method in accordance with claim 5 further comprising positioning the heat shield relative to the premixer assembly to facilitate reducing the formation of vortices downstream from the premixer assembly. 7. A heat shield for a gas turbine engine combustor, said heat shield configured to couple against a domeplate, said heat shield comprising: a perimeter including a radially inner edge, an opposing radially outer edge, a first axial edge, and an opposing second axial edge; andan opening extending from an upstream surface of the heat shield to a downstream surface of the heat shield, wherein said downstream surface is non-planar and extends arcuately and convexly from said opening to said perimeter, said perimeter being downstream from said opening when said heat shield is coupled to the domeplate, and said perimeter being configured to be sealingly coupled to said domeplate along at least one of said radially inner and radially outer edges of the perimeter when the heat shield is installed in the gas turbine engine. 8. A heat shield in accordance with claim 7 wherein said heat shield opening is sized to receive a portion of at least one mixer assembly therethrough. 9. A heat shield in accordance with claim 7 wherein each of said upstream surface and said downstream surface extend between said radially inner and outer edges and said first and second axial edges. 10. A heat shield in accordance with claim 9 wherein said downstream surface is formed arcuately with a substantially semi-spherical shape based on a conical surface of revolution. 11. A heat shield in accordance with claim 7 wherein said downstream surface is formed arcuately with a substantially semi-elliptical shape. 12. A heat shield in accordance with claim 7 wherein said heat shield is configured to extend into a combustion chamber when coupled to the domeplate. 13. A gas turbine engine combustor comprising: a pilot mixer;a main mixer extending circumferentially around said pilot mixer;an annular centerbody extending between said pilot mixer and said main mixer, wherein said annular centerbody comprises a radially inner surface and a radially outer surface, each of said radially inner and radially outer surfaces extend arcuately from a leading edge downstream to a trailing edge to facilitate reducing vortex formation downstream from said centerbody; anda heat shield, said heat shield configured to couple against a domeplate, said heat shield comprising: a perimeter including a radially inner edge, an opposing radially outer edge, a first axial edge, and an opposing second axial edge; andan opening extending from an upstream surface of the heat shield to a downstream surface of the heat shield, wherein said downstream surface is non-planar and extends arcuately and convexly from said opening to said perimeter, said perimeter being downstream from said opening when said heat shield is coupled to the domeplate, and said perimeter being configured to be sealingly coupled to said domeplate along at least one of said radially inner and radially outer edges of the perimeter when the heat shield is installed in the gas turbine engine. 14. A gas turbine engine combustor in accordance with claim 13 wherein said radially outer surface defines an outer flow path of said main mixer. 15. A gas turbine engine combustor in accordance with claim 13 wherein said radially inner surface defines an inner flow path of said main mixer. 16. A gas turbine engine combustor in accordance with claim 13 wherein each of said upstream surface and said downstream surface extends between said radially inner and outer edges and said first and second axial edges. 17. A gas turbine engine combustor in accordance with claim 16 wherein said downstream surface is formed arcuately with a substantially semi-spherical shape based on a conical surface of revolution. 18. A gas turbine engine combustor in accordance with claim 13 wherein said heat shield is configured to cooperate with said radially inner and radially outer surfaces to facilitate reducing a heat flux to said heat shield. 19. A gas turbine engine combustor in accordance with claim 13 wherein said radially outer and radially inner surfaces are configured to cooperate with said heat shield to facilitate preventing flow separation.
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