Reduce fuel costs and NOx emissions by controlling excess oxygen in the radiant heat zone
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Artikelnummer
00541_2009_03_08
The real time, in-situ measurement of excess oxygen and temperature in the radiant heat zone of a boiler or furnace provides a window for viewing combustion conditions closest to the source. Excess oxygen and temperature measurements, taken at strategic sample points around the firebox, provide timely information for optimal trim control of the combustion process. With fuel costs skyrocketing and a focus on reducing NOx emissions, it is essential that the excess oxygen measurement be fast and accurate. Commercially available in-situ, high temperature oxygen sensors have the potential to solve combustion control and burner management problems with short payback and high annual ROI in power, petrochemical, refining and glass applications.
Autoren | Eric S. Boltz/Jens Baumann |
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Erscheinungsdatum | 01.03.2009 |
Format | |
Zeitschrift | heat processing - Issue 03 2009 |
Verlag | Vulkan-Verlag GmbH |
Sprache | English |
Seitenzahl | 4 |
Titel | Reduce fuel costs and NOx emissions by controlling excess oxygen in the radiant heat zone |
Beschreibung | The real time, in-situ measurement of excess oxygen and temperature in the radiant heat zone of a boiler or furnace provides a window for viewing combustion conditions closest to the source. Excess oxygen and temperature measurements, taken at strategic sample points around the firebox, provide timely information for optimal trim control of the combustion process. With fuel costs skyrocketing and a focus on reducing NOx emissions, it is essential that the excess oxygen measurement be fast and accurate. Commercially available in-situ, high temperature oxygen sensors have the potential to solve combustion control and burner management problems with short payback and high annual ROI in power, petrochemical, refining and glass applications. |
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