References
- Chelliah, H. K., C. K. Law, T. Ueda, M. D. Smooke, and F. A. Williams. 1991. An experimental and theoretical investigation of the dilution, pressure and flow-field effects on the extinction condition of methane-air- nitrogen diffusion flames. Symp. Int. Combust 23 (1):503–11.
- Du, J., and R. L. Axelbaum. 1996. The effects of flame structure on extinction of CH4/O2/N2 diffusion flames. Symp. Int. Combust 26 (1):1137–42.
- Grandchamp, X., Y. Fujiso, B. Wu, and A. Van Hirtum. 2012. Steady laminar axisymmetrical nozzle flow at moderate reynolds numbers: Modeling and experiment. J Fluids Eng 134 (1):1–13.
- Grisanti, M. A., R. N. Parthasarathy, and S. R. Gollahalli. 2012. Experimental investigation of flame extinction limits of propane and jet a fuel. Proc. ASME Int. Mech. Eng. Cong. Expo 6:909–24.
- Johnson, R. F., A. C. Vandine, G. L. Esposito, and H. K. Chelliah. 2015. On the axisymmetric counterflow flame simulations: Is there an optimal nozzle diameter and separation distance to apply quasi one-dimensional theory? Combust. Sci. Technol 187 (1–2):37–59.
- Lee, S., R. Padilla, D. Dunn-Rankin, T. Pham, and O. C. Kwon. 2015. Extinction limits and structure of counterflow nonpremixed H2O-laden CH4/air flames. Energy 93:442–50. doi:10.1016/j.energy.2015.09.047.
- Navaneethakrishnan, P., and K. S. Giri. 2021. 2 D axisymmetric modelling of CH4/O2/N2 counterflow diffusion flames. 13th Asia-Pacific Conf Combust M4-02.
- Park, O., and E. M. Fisher. 2016. Effect of oxycombustion diluents on the extinction of nonpremixed methane opposed-jet flames. Combust. Sci. Technol 188 (3):370–88.
- Pellett, G. L., K. M. Isaac, W. M. Humphreys, L. R. Gartrell, W. L. Roberts, C. L. Dancey, and G. B. Northam. 1998. Velocity and thermal structure, and strain-induced extinction of 14 to 100% hydrogen-air counterflow diffusion flames. Combust. Flame 112:575–92.
- Pellett, G. L., G. B. Northam, and L. G. Wilson. 1991. Counterflow diffusion flames of hydrogen, and hydrogen plus methane, ethylene, propane, and silane vs. air. 29th AIAA Aero. Sci. Meet 370.
- Puri, I. K., and K. Seshadri. 1986. Extinction of diffusion flames burning diluted methane and diluted propane in diluted air. Combust. Flame 65 (2):137–50.
- Ravikrishna, R. V., and A. B. Sahu. 2018. Advances in understanding combustion phenomena using non-premixed and partially premixed counterflow flames: A review. Int. J. Spray Combust. Dyn 10 (1):38–71.
- Richardson, E. S., and E. Mastorakos. 2007. Numerical investigation of forced ignition in laminar counterflow non-premixed methane-air flames. Combust. Sci. Technol 179 (1–2):21–37.
- Rolon, J. C., D. Veynante, J. P. Martin, and F. Durst. 1991. Counter jet stagnation flows. Exp. Fluids 11 (5):313–24.
- Sarnacki, B. G., G. Esposito, R. H. Krauss, and H. K. Chelliah. 2012. Extinction limits and associated uncertainties of nonpremixed counterflow flames of methane, ethylene, propylene and n-butane in air. Combust. Flame 159 (3):1026–43.
- Smith, G. P., D. M. Golden, M. Frenklach, N. W. Moriaty, B. Eiteneer, M. Goldenberg, Bowman CT, Hanson RK, Song S, Gardiner WC, et al. 1999. The GRI-Mech 3.0 chemical kinetic mechanism. http://combustion.berkeley.edu/gri-mech/version30/text30.html
- Wada, T., M. Mizomoto, T. Yokomori, and N. Peters. 2009. Extinction of methane/air counterflow partially premixed flames. Proc Combust Inst 32 (1):1075–82.
- Wang, W., A. E. Karataş, C. P. T. Groth, and Ö. L. Gülder. 2018a. Combined experimental and numerical study of ethanol laminar flame extinction. Combust. Sci. Technol 190 (8):1472–87.
- Wang, W., A. E. Karataş, C. P. T. Groth, and Ö. L. Gülder. 2018b. Experimental and numerical study of laminar flame extinction for syngas and syngas-methane blends. Combust. Sci. Technol 190 (8):1455–71.
- Yang, X., W. Shen, Y. Zhang, H. Zhang, J. Lyu, and J. Zhang. 2020. Improving the prediction accuracy of the extinction of stretched methanol/air premixed flames. Combust. Sci. Technol 192 (6):1088–107.