Power plants – Combustion products used as motive fluid – Process
Reexamination Certificate
2001-04-27
2003-04-15
Kim, Ted (Department: 3746)
Power plants
Combustion products used as motive fluid
Process
C060S740000, C060S748000
Reexamination Certificate
active
06546732
ABSTRACT:
BACKGROUND OF THE INVENTION
This application relates generally to gas turbine engines and, more particularly, to combustors for gas turbine engine.
Combustors are used to ignite fuel and air mixtures in gas turbine engines. Known combustors include at least one dome attached to a combustor liner that defines a combustion zone. Fuel injectors are attached to the combustor in flow communication with the dome and supply fuel to the combustion zone. Fuel enters the combustor through a dome assembly attached to a spectacle or dome plate.
The dome assembly includes an air swirler secured to the dome plate, and radially inward from a flare cone. The flare cone is divergent and extends radially outward from the air swirler to facilitate mixing the air and fuel, and spreading the mixture radially outwardly into the combustion zone. A divergent deflector extends circumferentially around the flare cone and radially outward from the flare cone. The deflector prevents hot combustion gases produced within the combustion zone from impinging upon the dome plate.
During operation, fuel discharging to the combustion zone combines with air through the air swirler and may form a film along the flare cone and the deflector. This fuel mixture may combust resulting in high gas temperatures. Prolonged exposure to the increased temperatures increases a rate of oxidation formation on the flare cone, and may result in melting or failure of the flare cone.
To facilitate reducing operating temperatures of the flare cone, at least some known combustor dome assemblies supply cooling air for convection cooling of the dome assembly through a gap extending partially circumferentially between the flare cone and the deflector. Such dome assemblies are complex, multi-piece assemblies that require multiple brazing operations to fabricate and assemble. In addition, during use the cooling air may mix with the combustion gases and adversely effect combustor emissions.
Because the multi-piece combustor dome assemblies are also complex to disassemble for maintenance purposes, at least some other known combustor dome assemblies include one-piece assemblies. Although these dome assemblies facilitate reducing combustor emissions, such assemblies do not supply cooling air to the dome assemblies, and as such, may adversely impact deflector and flare cone durability.
BRIEF SUMMARY OF THE INVENTION
In an exemplary embodiment, a one-piece deflector-flare cone assembly for a gas turbine engine combustor facilitates extending a useful life of the combustor in a cost-effective and reliable manner without sacrificing combustor performance. The cone assembly includes an integral deflector portion and a flare cone portion. The deflector portion includes an integral opening that extends circumferentially through the deflector portion for receiving cooling fluid therein. The deflector opening is also circumferentially in flow communication with the flare cone portion.
During operation, cooling fluid supplied through the deflector opening is used for film cooling a portion of the deflector. The film cooling facilitates reducing an operating temperature of the deflector, and thus facilitates extending a useful life of the deflector. Furthermore, because the operating temperature of the deflector is reduced, a rate of oxidation formation on the deflector is also reduced. Additionally, cooling fluid discharged through the opening is also used for impingement cooling the flare cone portion. The deflector facilitates reducing mixing between the cooling fluid and the combustion gases. As a result, the deflector opening facilitates reducing combustor operating temperatures to improve combustor performance and extend a useful life of the combustor, without sacrificing combustor performance.
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Sabla Paul Edward
Vise Steven Clayton
Young Craig Douglas
Armstrong Teasdale LLP
General Electric Company
Kim Ted
Young Rodney M.
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