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Show Abstract Development and Demonstration of the Low-NOx StAR Burner for High Temperature Industrial Furnaces Charles Benson, Johannes Thijssen, and Peter Loftus Arthur D. Little, Inc. Don Moreland, Ed Moore, and Bruce Irwin Hauck Manufacturing Company Robert Gemmer and Anil Lingras Gas Research Institute Harry Swistock Schlosser Forge 1994 AFRC/JFRC Symposium High temperature furnaces in the metals industry present a significant challenge for effectively controlling NOx emissions, especially when combustion air is preheated for increased thermal efficiency. Such facilities are now being affected by environmental regulations that require reductions in NOx emissions. Thus, it is becoming increasingly important to cost-effectively control NOx emissions from these facilities. For these reasons, a team consisting of Arthur D. Little, Hauck, and MIT with support from the Gas Research Institute has undertaken the development and demonstration of an innovative, 10w-NOx' natural-gas-fired burner for high temperature industrial furnaces. This work has produced a burner that utilizes both staged air supply and flue gas recirculation to effectively suppress NOx fonnation. The burner is able to attain NOx emissions of 25 - 50 ppm 1 and CO emissions below 50 ppm when operating with 700 K (800°F) combustion air in a furnace having an operating temperature of 1280 - 1560 K (1850 - 2350°F). Furthermore, temperature uniformity measurements in a forge furnace demonstrated heat transfer perfonnance superior to that of conventional burners used in this industry. A new line of burners based on this technology, spanning a firing rate range of 0.3 - 6 MW (1 - 20 ?vflvIBtuJhr) will be introduced by Hauck during 1995. This paper describes the demonstration of two 0.6 MW (2.0 ?vflvIBtuJhr) burners in a forge furnace owned and operated by Schlosser Forge in Cucamonga CA. Key lConcentrations are on a dry basis and corrected to 3% oxygen. |