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Show California that was tested at sub-9 (corrected to 3 percent 02) using excess air. These sites were between 20 MMBTU/hr (5.8 MWth) and 180 MMBTU/hr (53 M W * ) . As a result of the test and modeling results presented in this paper, Alzeta is pursuing a sub- 9 ppm NOx field demonstration of this technology using F G R and excess air to achieve an operating point around 3 percent 02. ACKNOWLEDGMENTS This work was sponsored in part by the US Department of Energy, Office of Industrial Technologies under the direction of Gideon Varga. The field demonstration steamer was provided by Chevron USA, and their cooperation was appreciated. References 1. Sullivan, J.D., and Webb, A.W., "Development and Demonstration of the Radiation Stabilized Burner for Boilers and Process Heaters," A F RC International Symposium, Baltimore Maryland, 1996. 2. Webb, A. W., and Sullivan, J.D. "Development of the Radiation Stabilized Distributed Flux Burner," Phase II Final Report for U S DOE, 1997. 3. Kendall, R.M. and Sullivan, J.D., "Selective and Enhanced Radiation form Porous Matrix Burners." Gas Research Institute Final Report GRI-93/0160, April 1993. 9 |