An airflow control system for a gas turbine system according to an embodiment includes: a compressor component of a gas turbine system; a mixing area for receiving an exhaust gas stream produced by the gas turbine system; an air extraction system for extracting a supply of bypass air from an excess
An airflow control system for a gas turbine system according to an embodiment includes: a compressor component of a gas turbine system; a mixing area for receiving an exhaust gas stream produced by the gas turbine system; an air extraction system for extracting a supply of bypass air from an excess flow of air generated by the compressor component of the gas turbine system; an enclosure surrounding the gas turbine system and forming an air passage, the bypass air flowing through the air passage and around the gas turbine system into the mixing area to reduce a temperature of the exhaust gas stream; and an exhaust processing system for processing the reduced temperature exhaust gas stream.
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1. An airflow control system for a gas turbine system comprising a first compressor component, a second compressor component, a combustor component, and a turbine component, the airflow control system comprising: the first compressor component for generating an excess flow of air, wherein the excess
1. An airflow control system for a gas turbine system comprising a first compressor component, a second compressor component, a combustor component, and a turbine component, the airflow control system comprising: the first compressor component for generating an excess flow of air, wherein the excess flow of air is greater than a flow rate capacity of the combustor component;a mixing area downstream of the turbine component for receiving an exhaust gas stream produced by the gas turbine system;an air extraction system for directing a supply of bypass air, the bypass air comprising a portion of the excess flow of air generated by the first compressor component, into an annular air passage and for directing a remaining portion of the excess flow of air generated by the first compressor component into the second compressor component; wherein the air extraction system includes an air splitting system comprising: a radially outer section, with respect to a rotational axis of the gas turbine system, including at least one inlet guide vane for directing and modulating the bypass air into the annular air passage; anda radially inner section for directing the remaining portion of the excess flow of air into the second compressor component to supercharge the gas turbine system;an enclosure extending axially along the rotational axis from the second compressor component to the mixing duct and radially surrounding the second compressor component, the combustor component, and the turbine component, the enclosure forming the radially outer boundary of the annular air passage so that the bypass air flowing through the annular air passage bypasses the second compressor component, the combustor component, and the turbine component and is injected directly from the annular passage into the mixing area to mix with and reduce a temperature of the exhaust gas stream; anda selective catalytic reduction (SCR) system for processing the reduced temperature exhaust gas stream. 2. The airflow control system of claim 1, wherein the excess flow of air generated by the first compressor component of the gas turbine system is 10% to 40% greater than the flow rate capacity of the combustor component of the gas turbine system. 3. The airflow control system of claim 1, further comprising a mixing system for mixing the bypass air with the exhaust gas stream in the mixing area. 4. The airflow control system of claim 1, further comprising a flow directing system for directing the bypass air toward and into the exhaust gas stream in the mixing area. 5. The airflow control system of claim 4, wherein the flow directing system comprises an inwardly curved end portion of the enclosure and/or at least one outlet guide vane. 6. The airflow control system of claim 1, wherein the enclosure comprises a casing of the gas turbine system. 7. A turbomachine system, comprising: a gas turbine system including a compressor component, a combustor component, and a turbine component, wherein the compressor component of the gas turbine system includes at least a first compressor stage for generating an excess flow of air and a second compressor stage downstream of the first stage, wherein the excess flow of air is greater than a flow rate capacity of the combustor component of the gas turbine system;a mixing area downstream of the turbine component for receiving an exhaust gas stream produced by the gas turbine system;an air extraction system for directing a supply of bypass air, the bypass air comprising a portion of the excess flow of air generated by the first compressor stage, into an annular air passage and for directing a remaining portion of the excess flow of air generated by the first compressor stage into the second compressor stage; wherein the air extraction system includes an air splitting system comprising: a radially outer section, with respect to a rotational axis of the gas turbine system, including at least one inlet guide vane for directing and modulating the bypass air into the annular air passage; anda radially inner section for directing the remaining portion of the excess flow of air into the second compressor stage to supercharge the gas turbine system;an enclosure extending axially along the rotational axis from the second compressor stage to the mixing duct and radially surrounding the second compressor stage, the combustor component, and the turbine component, the enclosure forming the radially outer boundary of the annular air passage so that the bypass air flowing through the annular air passage bypasses the second compressor stage, the combustor component, and the turbine component and is injected directly from the annular passage into the mixing area to mix with and reduce a temperature of the exhaust gas stream; andan exhaust processing system for processing the reduced temperature exhaust gas stream, wherein the exhaust processing system comprises a selective catalytic reduction (SCR) system. 8. The turbomachine system of claim 7, wherein the excess flow of air generated by the first compressor stage of the gas turbine system is 10% to 40% greater than the flow rate capacity of the combustor component of the gas turbine system. 9. The turbomachine system of claim 7, further comprising a mixing system for mixing the bypass air with the exhaust gas stream in the mixing area. 10. The turbomachine system of claim 7, further comprising a flow directing system for directing the bypass air toward and into the exhaust gas stream in the mixing area. 11. The turbomachine system of claim 10, wherein the flow directing system comprises an inwardly curved end portion of the enclosure and/or at least one outlet guide vane. 12. The turbomachine system of claim 7, wherein the enclosure comprises a casing of the gas turbine system. 13. A power generation system, comprising: a gas turbine system including a compressor component, a combustor component, and a turbine component, wherein the compressor component of the gas turbine system includes at least a first compressor stage for generating an excess flow of air and a second compressor stage downstream of the first stage, wherein the excess flow of air is greater than a flow rate capacity of the combustor component of the gas turbine system;a shaft driven by the turbine component;an electrical generator coupled to the shaft for generating electricity;a mixing area downstream of the turbine component for receiving an exhaust gas stream produced by the gas turbine system;an air extraction system for directing a supply of bypass air, the bypass air comprising a portion of the excess flow of air generated by the first compressor stage, into an annular air passage and for directing a remaining portion of the excess flow of air generated by the first compressor stage into the second compressor stage; wherein the air extraction system includes an air splitting system comprising: a radially outer section, with respect to a rotational axis of the gas turbine system, including at least one inlet guide vane for directing and modulating the bypass air into the annular air passage; anda radially inner section for directing the remaining portion of the excess flow of air into the second compressor stage to supercharge the gas turbine system;an enclosure extending axially along the rotational axis from the second compressor stage to the mixing duct and radially surrounding the second compressor stage, the combustor component, and the turbine component, the enclosure forming the radially outer boundary of the annular air passage so that the bypass air flowing through the annular air passage bypasses the second compressor stage, the combustor component, and the turbine component and is injected directly from the annular passage into the mixing area to mix with and reduce a temperature of the exhaust gas stream; andan exhaust processing system for processing the reduced temperature exhaust gas stream, wherein the exhaust processing system comprises a selective catalytic reduction (SCR) system. 14. The power generation system of claim 13, wherein the excess flow of air generated by the first compressor stage of the gas turbine system is 10% to 40% greater than the flow rate capacity of the combustor component of the gas turbine system.
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이 특허에 인용된 특허 (27)
Zhang, Hua; Ball, Jr., David Wesley; Taylor, Thomas Francis, Apparatus and method for cooling turbomachine exhaust gas.
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Hyde, Roderick A.; Ishikawa, Muriel Y.; Jung, Edward K. Y.; Kare, Jordin T.; Myhrvold, Nathan P.; Tegreene, Clarence T.; Weaver, Thomas A.; Wood, Jr., Lowell L.; Wood, Victoria Y. H., Hybrid propulsive engine including at least one independently rotatable compressor stator.
Cloyd Scott T. (Lake Mary FL) Hindle Robert A. (Cocoa Beach FL) Brown Stephen W. (Oviedo FL), System for capturing heat transferred from compressed cooling air in a gas turbine.
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