In one embodiment, a system includes a turbine combustor of a turbine system with the turbine combustor at least partially enclosed within a compressor discharge casing. The turbine system also includes an exhaust gas recovery system that includes an exhaust gas recirculation duct. The exhaust gas r
In one embodiment, a system includes a turbine combustor of a turbine system with the turbine combustor at least partially enclosed within a compressor discharge casing. The turbine system also includes an exhaust gas recovery system that includes an exhaust gas recirculation duct. The exhaust gas recirculation duct is configured to recirculate exhaust gas from a downstream end of the turbine combustor to an upstream end of the turbine combustor. This exhaust gas recirculation duct is entirely enclosed within the compressor discharge casing.
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1. A system, comprising: a turbine combustor of a turbine system, wherein the turbine combustor is at least partially enclosed within a compressor discharge casing of the turbine system, the turbine combustor generating an exhaust gas;an exhaust gas recovery system, comprising an exhaust gas recircu
1. A system, comprising: a turbine combustor of a turbine system, wherein the turbine combustor is at least partially enclosed within a compressor discharge casing of the turbine system, the turbine combustor generating an exhaust gas;an exhaust gas recovery system, comprising an exhaust gas recirculation duct configured to recirculate a mixture of the exhaust gas and dilution air from a compressor, the mixture recirculated from a downstream end of the turbine combustor to an upstream end of the turbine combustor via an annulus between a liner and a flow sleeve, wherein the exhaust gas recirculation duct is entirely enclosed within the compressor discharge casing; anda turbomachinery stage comprising a rotating stage and a stationary stage, both of which are at least partially disposed within the exhaust gas recirculation duct, wherein the rotating stage is coupled to a rotating shaft of the turbine system such that rotation of the rotating shaft causes the rotating stage to rotate with respect to the stationary stage to cause the mixture of the exhaust gas and the dilution air to be recirculated through the exhaust gas recirculation duct. 2. The system of claim 1, wherein the exhaust gas recirculation duct delivers the mixture of the exhaust gas and the dilution air into a head end of the turbine combustor. 3. The system of claim 2, wherein the exhaust gas recirculation duct delivers the mixture of the exhaust gas and the dilution air into a fuel stream upstream of a fuel nozzle disposed in the head end of the turbine combustor, wherein the fuel stream is mixed with an air stream in the fuel nozzle. 4. The system of claim 2, wherein the exhaust gas recirculation duct delivers the mixture of the exhaust gas and the dilution air into an air stream upstream of a fuel nozzle disposed in the head end of the turbine combustor, wherein the air stream is mixed with a fuel stream in the fuel nozzle. 5. The system of claim 2, wherein the exhaust gas recirculation duct delivers the mixture of the exhaust gas and the dilution air into an air/fuel mixture downstream of a fuel nozzle disposed in the head end of the turbine combustor. 6. The system of claim 1, wherein the exhaust gas recirculation duct delivers the mixture of the exhaust gas and the dilution air into a combustion chamber of the turbine combustor. 7. The system of claim 1, wherein the liner and the flow sleeve are disposed about a combustion chamber of the turbine combustor. 8. The system of claim 1, comprising a plurality of dilution air holes in the exhaust gas recirculation duct, wherein rotation of the rotating stage with respect to the stationary stage causes air within the compressor discharge casing to pass through the plurality of dilution holes as the dilution air to be recirculated through the exhaust gas recirculation duct with the exhaust gas. 9. A system, comprising: a turbine combustor of a turbine system, wherein the turbine combustor is at least partially enclosed within a compressor discharge casing of the turbine system, the turbine combustor generating an exhaust gas; andan exhaust gas recovery system, comprising: an exhaust gas recirculation duct configured to recirculate the exhaust gas from a downstream end of the turbine combustor to an upstream end of the turbine combustor;a cooling stage decreasing a temperature of the exhaust gas recirculated through the exhaust gas recirculation duct; anda pressure increasing device actively imparting energy to the exhaust gas to increase a pressure of the exhaust gas recirculated through the exhaust gas recirculation duct, the pressure increasing device comprising a rotating stage and a stationary stage, both of which are at least partially disposed within the exhaust gas recirculation duct, wherein the rotating stage is coupled to a rotating shaft of the turbine system such that rotation of the rotating shaft causes the rotating stage to rotate with respect to the stationary stage to cause the exhaust gas to be recirculated through the exhaust gas recirculation duct;wherein the exhaust gas recirculation duct, the cooling stage, and the pressure increasing device are all entirely enclosed within the compressor discharge casing. 10. The system of claim 9, wherein the exhaust gas recirculation duct delivers the exhaust gas into a head end of the turbine combustor. 11. The system of claim 10, wherein the exhaust gas recirculation duct delivers the exhaust gas into a fuel stream upstream of a fuel nozzle disposed in the head end of the turbine combustor, wherein the fuel stream is mixed with an air stream in the fuel nozzle. 12. The system of claim 10, wherein the exhaust gas recirculation duct delivers the exhaust gas into an air stream upstream of a fuel nozzle disposed in the head end of the turbine combustor, wherein the air stream is mixed with a fuel stream in the fuel nozzle. 13. The system of claim 10, wherein the exhaust gas recirculation duct delivers the exhaust gas into an air/fuel mixture downstream of a fuel nozzle disposed in the head end of the turbine combustor. 14. The system of claim 9, wherein the exhaust gas recirculation duct delivers the exhaust gas into a combustion chamber of the turbine combustor. 15. The system of claim 9, wherein the exhaust gas recirculation duct delivers the exhaust gas into an annulus between a liner and a flow sleeve, wherein the liner and the flow sleeve are disposed about a combustion chamber of the turbine combustor, and wherein the annulus delivers compressed air from a compressor and the exhaust gas to a head end of the turbine combustor. 16. A system, comprising: a turbine combustor of a turbine system, wherein the turbine combustor is at least partially enclosed within a compressor discharge casing of the turbine system;an exhaust gas recovery system comprising an exhaust gas recirculation duct configured to recirculate exhaust gas from a downstream end of the turbine combustor to an upstream end of the turbine combustor, wherein the exhaust gas recirculation duct is entirely enclosed within the compressor discharge casing;a compressor of the turbine system, wherein the compressor is coupled to a rotating shaft of the turbine system such that rotation of the rotating shaft causes blades of the compressor to rotate to deliver compressed air from the compressor to a head end of the turbine combustor; anda turbomachinery stage comprising a rotating stage and a stationary stage, both of which are at least partially disposed within the exhaust gas recirculation duct, wherein the rotating stage is coupled to the rotating shaft of the turbine system such that rotation of the rotating shaft causes the rotating stage to rotate with respect to the stationary stage to cause the exhaust gas to be recirculated through the exhaust gas recirculation duct. 17. The system of claim 16, comprising a plurality of dilution air holes in the exhaust gas recirculation duct, wherein rotation of the rotating stage causes air from the compressor or compressor discharge casing to pass through the plurality of dilution holes to be circulated through the exhaust gas recirculation duct with the exhaust gas.
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이 특허에 인용된 특허 (12)
Tsirulnikov, Lev; Gamburg, Michael; Brecker, Michael; Altpfart, Glen; Guarco, John; Waibel, Richard, Burner assembly with swirler formed from concentric components.
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