REFERENCES
- Dong, C., Zhou, Q., Zhao, Q., Zhang, Y., Xu, T., and Hui, S. 2009. Experimental study on the laminar flame speed of hydrogen/carbon monoxide/air mixtures. Fuel, 88, 1858–1863.
- Dong, Y., Vagelopoulos, C.M., Spedding, G.R., and Egolfopoulos, F.E. 2002. Measurement of laminar flame speeds through digital particle image velocimentry: Mixtures of methane and ethane with hydrogen, oxygen, nitrogen, and helium. Proc. Combust. Inst., 29, 1419–1426.
- Hirasawa, T., Sung, C.J., Joshi, A., Yang, Z., Wang, H., and Law, C.K. 2002. Determination of laminar flame speeds using digital particle image velocimetry: Binary fuel blends of ethylene, n-butane, and toluene. Proc. Combust. Inst., 29, 1427–1434.
- Ibrahim, S.S., Hargrave, G.K., and Williams, T.C. 2001. Experimental investigation of flame/solid interactions in turbulent premixed combustion. Exp. Therm. Fluid Sci., 24, 99–106.
- Joulin, G. 1986. Shapes, velocities and propagation limits of a non-adiabatic cellular flame. Combust. Sci. Technol., 47, 69–79.
- Luo, Z.M., Deng, J., and Wen, H. 2007. Experimental study on flame propagation characteristics of gas explosion in small-scale duct. China Saf. Sci. J., 17, 106–109.
- Masri, A.R., Dibble, R.W., and Barlow, R.S. 1996. The structure of turbulent nonpremixed flames revealed by Raman-Rayleigh-LIF measurements. Prog. Energy Combust., 22, 307–362.
- Park, D.J., Green, A.R., Lee, Y.S., and Chen, Y.C. 2007. Anhui University of Science and Technology. Combust. Flame, 150, 27–39.
- Patel, S., Jarvis, S., Ibrahim, S.S., and Hargrave, G.K. 2002. An experimental and numerical investigation of premixed flame deflagration in a semiconfined explosion chamber. Proc. Combust. Inst., 29, 1849–1854.
- Pearlman, H.G., and Sohrab, S.H. 1995. Flame propagation and extinction in spatially-periodic longitudinal velocity fields. Combust. Sci. Technol., 107, 155–164.
- Stella, A., Guj, G., Kompenhans, J., Raffel, M., and Ruchard, H. 2001. Application of particle image velocimetry to combusting flows: Design considerations and uncertainty assessment. Exp. Fluids, 30, 167–180.
- Takagi, M., and Korehsia, S. 2004. Handbook of Image Analysis, Science Press, Beijing, China.
- Umeda, Y., and Fujiwara, T. 1996. Ignition and flame propagation in methane-air multi-stratified vortical flow field. Combust. Sci. Technol., 115, 391–418.
- Wang, C.Y. 2001. Study on the property of high cohesive force and propagation mechanism of flame for gas explosion. China University of Mining & Technology, Xuzhou, China.
- Wang, C.Y., and He, X.Q. 2001. An experimental study of flame thickness in gas explosion. Explos. Mater., 30, 28–32.
- Wang, Q. 2006. Investigation on propagation of premixed methane-air explosion flame in tube. Anhui University of Science and Technology, Anhui, China.
- Yakhot, V. 1988. Propagation velocity of premixed turbulent flames. Combust. Sci. Technol., 60, 191–214.
- Zeldovich, A.B., Istratov, A.G., Kidin, N.I., and Librovich, B. 1980. Flame propagation in tubes: hydrodynamics and stability. Combust. Sci. Technol., 24, 1–13.
- Zhang, Y., Bray, K.N., and Rogg, B. 1996. Temporally and spatially resolved investigation of flame propagation and extinction in the vicinity of walls. Combust. Sci. Technol., 113–114, 255–271.