An airflow control system for a gas turbine system according to an embodiment includes: an airflow generation system for attachment to a rotatable expander shaft of a gas turbine system, downstream of the gas turbine system, for drawing in a flow of ambient air through an air intake section into a m
An airflow control system for a gas turbine system according to an embodiment includes: an airflow generation system for attachment to a rotatable expander shaft of a gas turbine system, downstream of the gas turbine system, for drawing in a flow of ambient air through an air intake section into a mixing area; and an eductor nozzle for attachment to a downstream end of the turbine component for receiving an exhaust gas stream produced by the gas turbine system and for drawing in a flow of ambient air through the air intake section into the mixing area, the exhaust gas stream passing through the eductor nozzle into the mixing area; wherein, in the mixing area, the exhaust gas stream mixes with the flow of ambient air drawn in by the airflow generation system and the flow of ambient air drawn in by the eductor nozzle to reduce a temperature of the exhaust gas stream.
대표청구항▼
1. An airflow control system for a gas turbine system, comprising: an airflow generation system coupled to a rotatable expander shaft of a gas turbine system, downstream of the gas turbine system, for drawing in a flow of ambient air through an air intake section into a mixing area, wherein the rota
1. An airflow control system for a gas turbine system, comprising: an airflow generation system coupled to a rotatable expander shaft of a gas turbine system, downstream of the gas turbine system, for drawing in a flow of ambient air through an air intake section into a mixing area, wherein the rotatable expander shaft is coupled to, and directly driven by, a shaft of the gas turbine system;an eductor nozzle coupled to a downstream end of a turbine component of the gas turbine system for receiving an exhaust gas stream produced by the gas turbine system and for drawing in a flow of ambient air through the air intake section into the mixing area, the exhaust gas stream passing through the eductor nozzle into the mixing area; anda flow regulation system coupled to the downstream end of the turbine component of the gas turbine system and upstream from the eductor for actively controlling the flow of ambient air drawn in through the air intake section by the airflow generation system and the eductor nozzle;wherein, in the mixing area, the exhaust gas stream mixes with the flow of ambient air drawn in by the airflow generation system and the flow of ambient air drawn in by the eductor nozzle to reduce a temperature of the exhaust gas stream. 2. The airflow control system of claim 1, wherein the airflow generation system comprises a fan. 3. The airflow control system of claim 1, wherein the flow regulation system comprises a plurality of guide vanes. 4. The airflow control system of claim 1, wherein the air intake section is coupled to an air intake section of the gas turbine system. 5. The airflow control system of claim 1, further comprising a selective catalytic reduction (SCR) system for receiving the reduced temperature exhaust gas stream. 6. The airflow control system of claim 5, wherein the reduced temperature exhaust gas stream has a temperature of less than 900° F. 7. A turbomachine system, comprising: a gas turbine system including a compressor component, a combustor component, and a turbine component;an airflow generation system coupled to a rotatable expander shaft of the gas turbine system, downstream of the gas turbine system, for drawing in a flow of ambient air through an air intake section into a mixing area, wherein the rotatable expander shaft is coupled to, and directly driven by, a shaft of the gas turbine system;an eductor nozzle coupled to a downstream end of the turbine component of the gas turbine system for receiving an exhaust gas stream produced by the gas turbine system and for drawing in a flow of ambient air through the air intake section into the mixing area, the exhaust gas stream passing through the eductor nozzle into the mixing area, wherein, in the mixing area, the exhaust gas stream mixes with the flow of ambient air drawn in by the airflow generation system and the flow of ambient air drawn in by the eductor nozzle to reduce a temperature of the exhaust gas stream;a flow regulation system coupled to the downstream end of the turbine component of the gas turbine system and upstream from the eductor for actively controlling the flow of ambient air drawn in through the air intake section by the airflow generation system and the eductor nozzle; anda processing system for receiving the reduced temperature exhaust gas stream. 8. The turbomachine system of claim 7, wherein the airflow generation system comprises a fan. 9. The turbomachine system of claim 7, wherein the flow regulation system comprises a plurality of guide vanes. 10. The turbomachine system of claim 7, wherein the air intake section is coupled to an air intake section of the gas turbine system. 11. The turbomachine system of claim 7, further comprising a selective catalytic reduction (SCR) system for receiving the reduced temperature exhaust gas stream. 12. The turbomachine system of claim 7, wherein the reduced temperature exhaust gas stream has a temperature of less than 900° F. 13. A gas turbine power generation system, comprising: a gas turbine system including a compressor component, a combustor component, a turbine component, and a shaft driven by the turbine component;an electrical generator attached to the rotatable shaft for generating electricity;a fan coupled to a rotatable expander shaft of the gas turbine system, downstream of the gas turbine system, for drawing in a flow of ambient air through an air intake section into a mixing area, wherein the rotatable expander shaft is coupled to, and directly driven by, the shaft of the gas turbine system;an eductor nozzle coupled to a downstream end of the turbine component of the gas turbine system for receiving an exhaust gas stream produced by the gas turbine system and for drawing in a flow of ambient air through the air intake section into the mixing area, the exhaust gas stream passing through the eductor nozzle into the mixing area, wherein, in the mixing area, the exhaust gas stream mixes with the flow of ambient air drawn in by the fan and the flow of ambient air drawn in by the eductor nozzle to reduce a temperature of the exhaust gas stream;a flow regulation system coupled to the downstream end of the turbine component of the gas turbine system and upstream from the eductor for actively controlling the flow of ambient air drawn in through the air intake section by the airflow generation system and the eductor nozzle; anda processing system for receiving the reduced temperature exhaust gas stream. 14. The gas turbine power generation system of claim 13, wherein the flow regulation system comprises a plurality of guide vanes. 15. The gas turbine power generation system of claim 13, wherein the air intake section is coupled to an air intake section of the gas turbine system. 16. The gas turbine power generation system of claim 13, further comprising a selective catalytic reduction (SCR) system for receiving the reduced temperature exhaust gas stream. 17. The gas turbine power generation system of claim 16, wherein the reduced temperature exhaust gas stream has a temperature of less than 900° F.
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