초록 ▼

A heat recovery steam generator (HRSG) is coupled to a gas turbine engine that discharges a flow of exhaust gases including oxides of nitrogen (NOx). The HRSG includes a steam-based heating element for heating the exhaust gases, and at least one NOx reduction element coupled downstream from the at l

A heat recovery steam generator (HRSG) is coupled to a gas turbine engine that discharges a flow of exhaust gases including oxides of nitrogen (NOx). The HRSG includes a steam-based heating element for heating the exhaust gases, and at least one NOx reduction element coupled downstream from the at least one steam-based heating element and configured to facilitate reducing an amount of NOx in the exhaust gases that are channeled into the at least one NOx reduction element.

대표청구항 ▼

1. A method of operating a heat recovery steam generator (HRSG) with at least one NOx reduction catalyst for use with a gas turbine engine, said method comprising: heating a fluid in at least one heat exchanger that receives a flow of exhaust gases discharged from the gas turbine engine such that th

1. A method of operating a heat recovery steam generator (HRSG) with at least one NOx reduction catalyst for use with a gas turbine engine, said method comprising: heating a fluid in at least one heat exchanger that receives a flow of exhaust gases discharged from the gas turbine engine such that the at least one heat exchanger generates steam as a result of being heated by the flow of exhaust gases;reducing a temperature of the steam by at least one steam tube downstream from the at least one heat exchanger that receives the flow of exhaust gases from the at least one heat exchanger, such that the at least one steam tube is heated via a flow of the steam discharged from the at least one heat exchanger and transfers heat from the flow of the steam into the flow of exhaust gases;heating the flow of exhaust gases by the at least one steam tube to a temperature of between about 500° F. to about 800° F.; andreducing the NOx by the at least one NOx reduction catalyst downstream from the at least one steam tube to receive the flow of exhaust gases from the at least one steam tube,wherein during operation of the HRSG the flow of exhaust gases is cooled by the at least one heat exchanger and then heated by the at least one steam tube before being NOx reduced by the at least one NOx reduction catalyst. 2. The method in accordance with claim 1, further comprising injecting a reducing agent into the flow of exhaust gases by an injection apparatus located downstream from the at least one steam tube and upstream from the at least one NOx reduction catalyst. 3. The method in accordance with claim 1, further comprising controlling the at least one steam tube by a controller, wherein the controller selectively activates the at least one steam tube in response to a temperature of the flow of exhaust gases upstream from the at least one steam tube. 4. The method in accordance with claim 3, wherein the controller selectively activates the at least one steam tube during at least one of gas turbine startup, gas turbine shut down, and gas turbine low load operation. 5. The method in accordance with claim 1, further comprising coupling the at least one steam tube to a steam turbine to receive the flow of steam across the steam turbine. 6. A heat recovery steam generator (HRSG) coupled to a gas turbine engine that discharges a flow of exhaust gases including oxides of nitrogen (NOx), said HRSG comprising: at least one heat exchanger coupled downstream from the gas turbine engine to receive the flow of exhaust gases from the gas turbine engine such that said at least one heat exchanger generates steam as a result of being heated by the flow of exhaust gases;at least one steam tube coupled downstream from said at least one heat exchanger, wherein said at least one steam tube receives the flow of exhaust gases from said at least one heat exchanger such that said at least one steam tube is heated via a flow of steam discharged from said at least one heat exchanger and transfers heat from the flow of steam into the flow of exhaust gases;the at least one steam tube facilitates heating the flow of exhaust gases to a temperature of between about 500° F. to about 800° F.; andat least one NOx reduction catalyst coupled downstream from said at least one steam tube to receive the flow of exhaust gases from said at least one steam tube and facilitate reducing an amount of NOx in the flow of exhaust gases,wherein during operation of said HRSG the flow of exhaust gases is cooled by said at least one heat exchanger, then heated by said at least one steam tube, and then NOx reduced by said at least one NOx reduction catalyst. 7. The HRSG in accordance with claim 6, wherein said at least one steam tube is selectively activated in response to a temperature of the exhaust gases upstream from said at least one steam tube. 8. The HRSG in accordance with claim 6, wherein said at least one steam tube facilitates heating the flow of exhaust gases during at least one of a startup phase, a shut down phase, and a low load operation phase. 9. The HRSG in accordance with claim 6, wherein said at least one steam tube comprises at least one superconducting heat transfer tube. 10. The HRSG in accordance with claim 6, wherein said at least one steam tube is coupleable to a steam turbine to receive the flow of steam across the steam turbine for use in heating the flow of exhaust gases. 11. The HRSG in accordance with claim 6, wherein said at least one steam tube facilitates heating the flow of exhaust gases to a temperature above a catalyst light off temperature. 12. The HRSG in accordance with claim 6, said HRSG further comprising an injection apparatus coupled downstream from said at least one steam tube and upstream from said at least one NOx reduction catalyst. 13. A combined cycle power plant comprising: a gas turbine engine that combusts a fuel in air to produce shaft power and a flow of exhaust gases including oxides of nitrogen (NOx); anda heat recovery steam generator (HRSG) coupled in flow communication with said gas turbine engine, said HRSG comprising: at least one heat exchanger coupled to said gas turbine engine to receive the flow of exhaust gases from said gas turbine engine such that said at least one heat exchanger generates steam as a result of being heated by the flow of exhaust gases;at least one steam tube coupled downstream from said at least one heat exchanger, wherein said at least one steam tube receives the flow of exhaust gases from said at least one heat exchanger such that said at least one steam tube is heated via a flow of steam discharged from said at least one heat exchanger and transfers heat from the flow of steam into the flow of exhaust gases;the at least one steam tube facilitates heating the flow of exhaust gases to a temperature of between about 500° F. to about 800° F.; andat least one NOx reduction catalyst coupled downstream from said at least one steam tube to receive the flow of exhaust gases from said at least one steam tube and facilitate reducing an amount of NOx in the flow of exhaust gases,wherein during operation of said HRSG the flow of exhaust gases is cooled by said at least one heat exchanger, then heated by said at least one steam tube, and then NOx reduced by said at least one NOx reduction catalyst. 14. The combined cycle power plant in accordance with claim 13, further comprising a controller that selectively facilitates activating said at least one steam tube in response to a temperature of the flow of exhaust gases upstream from said at least one steam tube. 15. The combined cycle power plant in accordance with claim 13, wherein said at least one steam tube facilitates heating the flow of exhaust gases to a temperature above a catalyst light off temperature. 16. The combined cycle power plant in accordance with claim 13, wherein said at least one steam tube facilitates heating the flow of exhaust gases during a transient operation phase of said combined cycle power plant. 17. The combined cycle power plant in accordance with claim 13, further comprising a steam turbine, wherein said at least one steam tube is coupled to said steam turbine to facilitate receiving the flow of steam across said steam turbine for use in heating the flow of exhaust gases. 18. The combined cycle power plant in accordance with claim 13, wherein said HRSG further comprises an injection apparatus coupled downstream from said at least one steam tube and upstream from said at least one NOx reduction catalyst, wherein said injection apparatus facilitates injecting a reducing agent into the flow of exhaust gases to facilitate NOx reduction reactions.