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Show on Combustion, The Combustion Institute. Peters, A.A.F., Weber, R. (1995) "Modelling of Swirling Natural Gas and Pulverized Coal Flames with Emphasis on Nitrogen Oxides (MMF6 Investigation)," International Flame Research Foundation. IFRF Doc. No. F 36/y/21. Peters, N. (1984) Prog. Energy Combust. Sci.. Vol. 10, p. 319. Peters, N. (1986)" Laminar Flamelet Concepts in Turbulent Combustion," Twenty-First Symp. (Int.) on Combustion, The Combustion Institute, p. 1231-1250. Pope, S.B. (1985) "PDF Methods for Turbulent Reactive Flows." Prog. Energy Combust. Sci.. Vol. 15, p. 287-338. Zeldovich, Ya.B., Sadovnikov, P.Ya., Frank-Kamenetskii, D.A. (1947) Oxidation of Nitrogen in Combustion (transl. by M . Shelef). Academy of Sciences USSR, Institute of Chemical Physics, Moscow-Leningrad. Table 1 Reaction Rl: 0 + N2~NO + N R2: N+ 02~NO + O R3: N+ OH ~NO + H R4 R5 R6 R7 R8 R9 CH + N2^ HCN + N HCN + 0 -> NCO + H NCO + H-+NH+ CO NH + H-+N+ H2 CH + NO-* HCN + O CH2 + NO-> HCN + OH RIO: CH3+N-+HCN+2H Rate Constant [m3/kgmole/s] kf= 1.8x10" exp(-38370/T) kt, = 3.27xl09 T03 kf=6.4xl06Texp(-3164/T) kb= 1.5xl06Texp(-19500/T) kf=3.8xl010 kb = 2.0xlOn exp(-23650/T) kf - 4.365xl09 exp(-11079/T) kf= 13.8T264exp(-2506/T) kf=5.0xl010 kf = l.OxlO11 kf= l.lxlO11 kf= l.OxlO11 kf=7.079xl0,° Reference Hanson & Salimian '84 Miller & Bowman '89 Miller & Bowman '89 Bowman '75 Miller & Bowman '89 Bowman '75 Glarborg et. al. '92 Miller & Bowman '89 Miller & Bowman '89 Miller & Bowman '89 Miller & Bowman '89 Glarborg et. al. '92 Glarborg et. al. '92 11 |