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Show ACKNOWLEDGEMENTS This work was supported by the following member companies of Gas Technology Canada (GTC): Centra/Union, Consumers, Sask Energy and Canadian Western Natural Gas as well as by the Panel of Energy Research and Development of the Canadian Government. The helpful guidance provided by scientific monitor, Mr. N. Macfadyen of Centra/Union Gas and the administrative assistance by Mr. E. Gasior of G T C are gratefully appreciated. REFERENCES Bowman, C.T. (1975) "Kinetics of Pollutant Formation and Destruction in Combustion," Prog. Energy Combust. Sci., Vol. 1, p. 33-45. Bowman, C.T. (1992) "Control of Combustion-Generated Nitrogen Oxide Emissions: Technology Driven by Regulation," Twenty-Fourth Symp. (Int.) on Combustion, The Combustion Institute, p. 859-878. Bray, K.N.C. (1996) "The Challenge of Turbulent Combustion." Hottel Plenary Lecture, Twenty- Sixth Symp. (Int.) on Combustion, The Combustion Institute. Bray, K.N.C. and Peters, N. (1994) "Laminar Flamelets in Turbulent Flames." Turbulent Reacting Flows, eds. P.A. Libby and F.A. Williams, Academic Press, Chapter 2, pp. 63-113. Carvalho, M.G., Semiao, V., Lockwood, F.C, Papadopoulos, C. (1990) " Predictions of Nitric Oxide Emissions from an Industrial Glass-Melting Furnace," J. Instit. Energy, Vol. LXIII, No. 454, p. 39-47. Dearden, L.M., Massingham, J.D., Pourkashanian, M., Wild, P.N., Williams, A., Yap, L.T. (1996) "Controlling N O x Emissions from High-Temperature Air-Preheat Burners with Air- Staging," J. Instit. Energy. 69, p. 23-30. Dopazo, C. (1994) "Recent Developments in P D F Methods." Turbulent Reacting Flows, eds. P.A. Libby and F.A. Williams, Academic Press, Chapter 7, pp. 375-474. Drake, M.C., Blint, R.J. (1991) "Relative Importance of Nitric Oxide Formation Mechanisms in Laminar Opposed-flow Diffusion Flames," Combustion and Flame, Vol. 83, p. 185-203. Fenimore, C.P. (1971) "Formation of Nitric Oxide in Premixed Hydrocarbon Flames," Thirteenth Symp. (Int.) on Combustion, The Combustion Institute, p. 373-380. Glarborg, P., Lilleheie, N.I., Byggstoyl, S., Magnussen, B., Kilpinen, P., Hupa, M . (1992) " A Reduced Mechanism for Nitrogen Chemistry in Methane Combustion," Twenty-Fourth Symp. (Int.) on Combustion, The Combustion Institute, p. 889-898. Hanson, R.K., Salimian, S. (1984) "Survey of Rate Constants in H/N/O Systems," in Gardiner, W.C. (Ed.), Combustion Chemistry, Springer-Verlag, p. 361-421. Hughes, P.M.J., Lacelle, R.J., and Parameswaran, T. (1995) "A Comparison of Suction Pyrometer and C A R S Derive Temperatures in an Industrial Scale Flame." Combust. Sci. and Tech.. Vol. 105, pp. 131-145. Launder, B.E. (1989) Int. J. Heat and Fluid Flow. 10, pp.282-299. Malte, P.C, and Pratt, D.T. (1974) Combust. Sci. and Tech.. Vol. 9, p. 221. Miller, J.A., Bowman, C.T. (1989) "Mechanism and Modelling of Nitrogen Chemistry in Combustion," Prog. Energy Combust. Sci., Vol. 15, p. 287-338. Miller, J. (1996) "Theory and Modelling in Combustion Chemistry," Twenty-Sixth Symp. (Int.) 10 |