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Show complexity of the system and highlights the need for a complete mapping over the entire stability range for each combination of factors. REFERENCES 1. SCAQMD, "Emissions of Oxides of Nitrogen from Industrial, Institutional, and Commercial Boilers, Steam Generators, and Process Heaters." South Coast Air Quality Management District, Rule 1146, 1988. 2. G. E. P. Box, W . G. Hunter, and J. S. Hunter, Statistics for Experimenters. An Introduction to Design, Data Analysis, and Model Building. Wiley Series in Probability and Mathematical Statistics. John Wiley and Sons, 1978. 3. M. M . Miyasato and G. S. Samuelsen, "Sensitivity of N O x Production and Combustion Efficiency to Fuel-Air Mixing in a Model Industrial, Natural Gas Fired Burner." American Flame Research Committee International Symposium, Maui, Hawaii. October 1994. 4. M. M . Miyasato and G. S. Samuelsen, "Burner Flow-field Aerodynamics in a Model Industrial, Natural Gas Fired Burner: Relationship to Performance." American Flame Research Committee International Symposium, Monterey, California. October 1995. 5. M. M . Miyasato and G. S. Samuelsen, "Modeling and Velocity Measurements at the Burner Throat: The Relationship to Performance in a Model Industrial, Natural Gas Fired Burner." American Flame Research Committee International Symposium, Baltimore, Maryland. October 1996. 6. J. R. Maughan, R. E. Warren, A. K. Tolpadi, and T. P. Roloff, "Effect of Initial Fuel Distribution and Subsequent Mixing on Emissions From lean, Premixed Flames." A S ME International Gas Turbine and Aeroengine Congress and Exposition, Cologne, Germany. 1992. 7. K. Hase and K. Ohgi, "Specifics of N O x in a Premixed Combustor: Equivalence Ratio Influence on N O x Production." Twenty-Seventh Combustion Symposium (Japan), 1989. pp. 116-118. 8. T. F. Fric, "Effects of Fuel-Air Unmixedness on N O x Emissions." AIAA/SAE/ASME/ASEE 28th Joint Propulsion Conference and Exhibit, Nashville, TN. Paper A I A A 92-3345. 1992. |