Methods and apparatus for washing gas turbine engine combustors
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B08B-009/00
B08B-003/02
출원번호
US-0372889
(2003-02-24)
발명자
/ 주소
Ogden, Paul James
Young, Craig Douglas
Vise, Steven Clayton
출원인 / 주소
General Electric Company
대리인 / 주소
Armstrong Teasdale LLP
인용정보
피인용 횟수 :
26인용 특허 :
21
초록▼
A method facilitates washing a gas turbine engine combustor. The method comprises coupling a nozzle assembly against the combustor, wherein the nozzle assembly includes an inlet end, a discharge end, a hollow nozzle body extending therebetween, and a centerbody positioned within the nozzle body, cou
A method facilitates washing a gas turbine engine combustor. The method comprises coupling a nozzle assembly against the combustor, wherein the nozzle assembly includes an inlet end, a discharge end, a hollow nozzle body extending therebetween, and a centerbody positioned within the nozzle body, coupling the nozzle assembly to a fluid source, and discharging an annulus of fluid from the nozzle assembly into the combustor to facilitate removing particulate matter from the combustor.
대표청구항▼
1. A method for washing a gas turbine engine combustor, said method comprising:coupling a nozzle assembly against the combustor, wherein the nozzle assembly includes an inlet end, a discharge end, a hollow nozzle body extending therebetween, and a centerbody positioned within the nozzle body; coupli
1. A method for washing a gas turbine engine combustor, said method comprising:coupling a nozzle assembly against the combustor, wherein the nozzle assembly includes an inlet end, a discharge end, a hollow nozzle body extending therebetween, and a centerbody positioned within the nozzle body; coupling the nozzle assembly to a fluid source; and discharging an annulus of fluid from the nozzle assembly into the combustor to facilitate removing particulate matter from the combustor. 2. A method in accordance with claim 1 wherein discharging an annulus of fluid from the nozzle assembly further comprises discharging fluid from a downstream side of the combustor in an upstream direction from the nozzle assembly into the combustor.3. A method in accordance with claim 1 wherein coupling a nozzle assembly to the combustor further comprises coupling the nozzle assembly to a downstream side of the combustor.4. A method in accordance with claim 1 wherein coupling a nozzle assembly to the combustor further comprises coupling the nozzle assembly to the combustor using a threaded fastener extending radially outwardly and concentrically from the nozzle body.5. A method in accordance with claim 4 wherein coupling a nozzle assembly to the combustor further comprisescoupling an annular flange to the threaded fastener; and coupling the nozzle assembly to the combustor such that the annular flange is secured against an upstream side of the combustor while the nozzle body is secured against a downstream side of the combustor. 6. A method in accordance with claim 1 wherein coupling a nozzle assembly to the combustor further comprises threadingly coupling the nozzle assembly inlet end in flow communication to a pressurized fluid source.7. A nozzle assembly for directing fluid into a gas turbine engine combustor for removing particulate matter from the combustor, said nozzle assembly comprising:a nozzle body extending between an inlet end and a discharge end, said body defining a cavity therein; and a centerbody positioned within said body such that an annular gap is defined between said centerbody and said nozzle body, said gap is segmented, said centerbody configured to couple said nozzle assembly to the combustor, said nozzle assembly for discharging an annulus of fluid through said gap into the combustor. 8. A nozzle assembly in accordance with claim 7 wherein said centerbody comprises a fastener extending radially outwardly therefrom, said fastener for coupling said nozzle assembly to the combustor such that said nozzle body secured against said combustor.9. A nozzle assembly in accordance with claim 8 wherein said fastener for coupling said nozzle assembly to a downstream side of the combustor such that fluid is discharged in an upstream direction from said nozzle body through said combustor.10. A nozzle assembly in accordance with claim 7 wherein said centerbody comprises a threaded rod extending radially outwardly therefrom, said rod aligned substantially concentrically with said nozzle body.11. A nozzle assembly in accordance with claim 10 further comprising an annular flange coupled to said threaded rod, said annular flange secured against an upstream side of the combustor when said nozzle assembly is secured to a downstream side of the combustor.12. A nozzle assembly in accordance with claim 7 further comprising a first seal member positioned radially outwardly from said gap, and a second seal member positioned radially inwardly from said gap, said first and second seal members configured to sealingly couple said nozzle assembly to the combustor.13. A nozzle assembly in accordance with claim 7 wherein said nozzle body inlet end configured to couple in flow communication to a fluid source.14. A method for washing a gas turbine engine combustor including an air swirler, and a deflector-flare cone assembly that extends circumferentially around the swirler, said method comprising:coupling a nozzle assembly to the deflector-flare cone assembly, wherein the nozzle assembly includes an inlet end, a discharge end, a hollow nozzle body extending therebetween, and a centerbody positioned within the nozzle body; coupling the nozzle assembly inlet end to a fluid source; and discharging fluid in an upstream direction from the nozzle assembly into the combustor to facilitate removing particulate matter from the combustor. 15. A method in accordance with claim 14 wherein the combustor deflector-flare cone assembly includes a deflector portion and a flare cone portion, said discharging fluid in an upstream direction from the nozzle assembly further comprises discharging an annulus of fluid between the deflector portion and the flare cone portion such that the fluid is forcibly channeled through an impingement cooling slot formed in the deflector portion.16. A method in accordance with claim 14 wherein the combustor includes a ferrule that is upstream from the deflector wherein coupling a nozzle assembly to the deflector-flare cone assembly further comprises coupling the nozzle assembly to the ferrule such that the nozzle assembly discharge end is secured against the combustor deflector-flare cone assembly.17. A method in accordance with claim 16 wherein coupling the nozzle assembly to the ferrule further comprises coupling the nozzle assembly to the ferrule using a fastener extending radially outwardly from the nozzle assembly centerbody.18. A method in accordance with claim 16 wherein coupling the nozzle assembly to the ferrule further comprisespositioning the nozzle assembly against a downstream side of the combustor; coupling an annular flange to a fastener rod extending from the centerbody of the nozzle assembly; and coupling a fastener to the rod such that the annular flange is secured against an upstream side of the combustor and between the combustor and the fastener. 19. A method in accordance with claim 14 wherein the combustor deflector-flare cone assembly includes a deflector portion and a flare cone portion, said coupling a nozzle assembly to the deflector-flare cone assembly further comprises:positioning a first seal member between the deflector portion and the nozzle assembly; and positioning a second seal member between the flare cone portion and the nozzle assembly. 20. A method in accordance with claim 14 wherein coupling a nozzle assembly to the deflector-flare cone assembly further comprises coupling the nozzle assembly to the deflector-flare cone assembly such that a seal is formed between the nozzle assembly and the deflector-flare cone assembly.
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