A low NOx combustion method includes steps of injecting reactants into a combustion chamber. A primary reactant stream, including fuel and combustion air premix, is injected from a premix burner port into the combustion chamber. A staged fuel stream is injected into the combustion chamber from a sta
A low NOx combustion method includes steps of injecting reactants into a combustion chamber. A primary reactant stream, including fuel and combustion air premix, is injected from a premix burner port into the combustion chamber. A staged fuel stream is injected into the combustion chamber from a staged fuel injector port adjacent to the premix burner port. A stream of recirculated flue gas is injected into the combustion chamber from a flue gas injector port that is adjacent to the premix burner port and adjacent to the staged fuel injector port. In this manner, the stream of recirculated flue gas is injected into the combustion chamber unmixed with the primary reactant stream and unmixed with the staged fuel stream.
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1. A method comprising: injecting a primary reactant stream, including primary fuel gas and combustion air premix, into a combustion chamber;injecting staged reactant streams that consist of secondary fuel gas into the combustion chamber adjacent to the primary reactant stream; andinjecting streams
1. A method comprising: injecting a primary reactant stream, including primary fuel gas and combustion air premix, into a combustion chamber;injecting staged reactant streams that consist of secondary fuel gas into the combustion chamber adjacent to the primary reactant stream; andinjecting streams of recirculated flue gas into the combustion chamber adjacent to the primary reactant stream and adjacent to the staged reactant streams, whereby the streams of recirculated flue gas are injected into the combustion chamber unmixed with the primary reactant stream and unmixed with the staged reactant streams. 2. A method as defined in claim 1 wherein the streams of recirculated flue gas are injected into the combustion chamber between the primary reactant stream and the staged reactant streams, whereby the streams of recirculated flue gas shield the staged reactant streams from combustion temperatures at the primary reactant stream. 3. A method as defined in claim 1 wherein the staged reactant streams are injected into the combustion chamber with a first flow area, and the streams of recirculated flue gas are injected into the combustion chamber with a second flow area greater than the first flow area. 4. A method as defined in claim 1 wherein the staged reactant streams are injected into the combustion chamber within the streams of recirculated flue gas. 5. A method as defined in claim 1 wherein the streams of recirculated flue gas are injected into the combustion chamber in an annular configuration surrounding the staged reactant streams. 6. A method as defined in claim 1 wherein the staged reactant streams are injected into the combustion chamber at a first pressure, and the streams of recirculated flue gas are injected into the combustion chamber at a second pressure less than the first pressure. 7. A method as defined in claim 1 wherein the staged reactant streams are injected into the combustion chamber at a first velocity, and the streams of recirculated flue gas are injected into the combustion chamber at a second velocity less than the first velocity. 8. A method as defined in claim 1 wherein combustion air is injected into the combustion chamber at a total flow rate, and recirculated flue gas is injected into the combustion chamber at a total flow rate greater than the total flow rate of combustion air. 9. A method as defined in claim 1 wherein the fuel and combustion air are injected at total target rates that together provide a target fuel-to-oxidant ratio, the total target rate of fuel is provided by partial target rates in the primary reactant stream and the staged reactant streams, and the total target rate of combustion air is provided entirely in the primary reactant stream. 10. A method comprising: injecting a primary reactant stream, including primary fuel gas and combustion air premix, into a combustion chamber;injecting a staged reactant stream that consists of secondary fuel gas into the combustion chamber adjacent to the primary reactant stream at a first pressure; andinjecting a stream consisting of recirculated flue gas into the combustion chamber between the primary reactant stream and the staged reactant stream at a second pressure less than the first pressure. 11. A method as defined in claim 10 wherein the staged reactant stream is injected into the combustion chamber with a first flow area, and the stream consisting of recirculated flue gas is injected into the combustion chamber with a second flow area greater than the first flow area. 12. A method as defined in claim 10 wherein the staged reactant stream is injected into the combustion chamber within the stream consisting of recirculated flue gas. 13. A method as defined in claim 10 wherein the stream consisting of recirculated flue gas is injected into the combustion chamber in an annular configuration surrounding the staged reactant stream. 14. A method as defined in claim 10 wherein the staged reactant stream is injected into the combustion chamber at a first velocity, and the stream consisting of recirculated flue gas is injected into the combustion chamber at a second velocity less than the first velocity. 15. A method as defined in claim 10 wherein combustion air is injected into the combustion chamber at a total flow rate, and recirculated flue gas is injected into the combustion chamber at a total flow rate greater than the total flow rate of combustion air. 16. A method comprising: injecting a primary reactant stream, including primary fuel gas and combustion air premix, into a combustion chamber;injecting a staged reactant stream consisting of secondary fuel gas into the combustion chamber adjacent to the primary reactant stream at a first velocity; andinjecting a stream consisting of recirculated flue gas into the combustion chamber between the primary reactant stream and the staged reactant stream at a second velocity less than the first velocity. 17. A method as defined in claim 16 wherein the staged reactant stream is injected into the combustion chamber with a first flow area, and the stream consisting of recirculated flue gas is injected into the combustion chamber with a second flow area greater than the first flow area. 18. A method as defined in claim 16 wherein the staged reactant stream is injected into the combustion chamber within the stream consisting of recirculated flue gas. 19. A method as defined in claim 16 wherein the stream consisting of recirculated flue gas is injected into the combustion chamber in an annular configuration surrounding the staged reactant stream. 20. A method as defined in claim 16 wherein combustion air is injected into the combustion chamber at a total flow rate, and recirculated flue gas is injected into the combustion chamber at a total flow rate greater than the total flow rate of combustion air. 21. A method comprising: injecting primary fuel, staged fuel, and combustion air into a combustion chamber in streams comprising a primary reactant stream containing primary fuel gas and combustion air premix, and staged reactant streams consisting of secondary fuel gas, with combustion air being injected into the combustion chamber at a total flow rate provided entirely in the primary reactant stream; andinjecting recirculated flue gas into the combustion chamber separately from the primary and staged reactant streams and at a total flow rate greater than the total flow rate of combustion air. 22. An apparatus comprising: a structure defining a combustion chamber having an end wall;a premix burner having a port facing into the combustion chamber;staged fuel injector ports located at the end wall and facing into the combustion chamber adjacent to the premix burner port;flue gas injector ports facing into the combustion chamber adjacent to the premix burner port and adjacent to the staged fuel injector ports;means for providing the premix burner port with reactants including combustion air and primary fuel gas;means for providing the staged fuel injector ports with reactants consisting of secondary fuel gas; andmeans for providing the flue gas injector ports with reactants consisting of recirculated flue gas. 23. An apparatus as defined in claim 22 wherein the flue gas injector ports are located between the premix burner port and the staged fuel injector ports. 24. An apparatus as defined in claim 22 wherein the staged fuel injector ports have first flow areas, and the flue gas injector ports have second flow areas greater than the first flow areas. 25. An apparatus as defined in claim 22 wherein the staged fuel injector ports are located within the flue gas injector ports. 26. An apparatus as defined in claim 22 wherein the flue gas injector ports have annular configurations surrounding the staged fuel injector ports. 27. An apparatus as defined in claim 22 further comprising means for injecting fuel and combustion air at total target rates that together provide a target fuel-to-oxidant ratio, with the total target rate of fuel provided by partial target rates in the primary reactant stream and the staged fuel streams, and with the total target rate of combustion air provided entirely in the primary reactant stream. 28. An apparatus comprising: a structure defining a combustion chamber having an end wall;means for injecting a primary reactant stream, including fuel and combustion air premix, into the combustion chamber;means for injecting a staged reactant stream consisting of secondary fuel gas from the end wall into the combustion chamber adjacent to the primary reactant stream at a first pressure; andmeans for injecting a stream consisting of recirculated flue gas into the combustion chamber between the primary reactant stream and the staged reactant stream at a second pressure less than the first pressure. 29. An apparatus comprising: a structure defining a combustion chamber having an end wall;means for injecting a primary reactant stream, including fuel and combustion air premix, into the combustion chamber;means for injecting a staged reactant stream consisting of secondary fuel gas from the end wall into the combustion chamber adjacent to the primary reactant stream at a first velocity; andmeans for injecting a stream consisting of recirculated flue gas into the combustion chamber between the primary reactant stream and the staged reactant stream at a second velocity less than the first velocity. 30. An apparatus comprising: a structure defining a combustion chamber having an end wall;means for injecting primary fuel, staged fuel, and combustion air into the combustion chamber in streams comprising a primary reactant stream containing primary fuel and combustion air premix, and staged reactant streams consisting of secondary fuel gas injected from the end wall into the combustion chamber, with combustion air being injected into the combustion chamber in a total amount and at a total flow rate provided entirely in the primary reactant stream; andmeans for injecting recirculated flue gas into the combustion chamber in a total amount, with the total amount of recirculated flue gas being injected separately from the primary and staged reactant streams and at a total flow rate greater than the total flow rate of combustion air.
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이 특허에 인용된 특허 (50)
Conti Anthony V. ; Facchiano Anthony ; Giovanni Dan V. ; Lucente James ; McElroy Michael W., Apparatus and method for low-NOx gas combustion.
Benson Charles E. (Windham NH) Loftus Peter J. (Somerville MA) Cole Robert (Parsons KS) Wiener William A. (Parsons KS), Burner apparatus for reducing nitrogen oxides.
Surbey David J. (Tulsa OK) Smith James L. (Tulsa OK) Allen Richard C. (Catoosa OK) Witwer Alan D. (Tulsa OK), Burner for combusting gas with low NOx production.
Rabovitser, Iosif K.; Knight, Richard A.; Cygan, David F., Method and apparatus for transversely staged combustion utilizing forced internal recirculation.
Benson Charles E. (Windham NH) Loftus Peter J. (Somerville MA) Cole Robert (Parsons KS) Wiener William A. (Parsons KS), Method for reducing nitrogen oxides.
Leikert Klaus (Gummersbach DEX) Rennert Klaus-Dieter (Gummersbach DEX) Bttner Gerhard (Gummersbach DEX), Method of reducing the nox-emissions during combustion of nitrogen-containing fuels.
Leparoux, Julien Marc Matthieu; Burguburu, Joseph Jean Marie, Combustion chamber comprising additional injection devices opening up directly into corner recirculation zones, turbomachine comprising such a chamber and fuel supply method for such a chamber.
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