參考文獻 |
[1] Lewis, B. and von Elbe, G. “Combustion, Flame and Explosions of Gases”, 3rd Ed., Academic Press, London (1987).
[2] Shy, S.S., Liu, C.C. and Shih, W.T. “Ignition Transition in Turbulent Premixed Combustion”, Combust. Flame 157, 341?350, 2010.
[3] Jomaas, G., Law, C.K. and Bechtold, J.K. “On Transition to Cellularity in Expanding Spherical Flames”, J. Fluid Mech. 583, 1?26, 2007.
[4] Shy, S.S., Yang, S.I., Lin, W.J. and Su, R.C. “Turbulent Burning Velocities of Premixed CH4/Diluent/Air Flames in Intense Isotropic Turbulence with Consideration of Radiation Losses”, Combust. Flame 143, 106?118, 2005.
[5] Ko, Y., Anderson, R.W. and Arpaci, V.S. “Spark Ignition of Propane?Air Mixtures Near the Minimum Ignition Energy: Part I. An Experimental Study”, Combust. Flame 83, 75?87, 1991.
[6] Huang, C.C., Shy, S.S., Liu, C.C. and Yan, Y.Y. “A Transition on Minimum Ignition Energy for Lean Turbulent Methane Combustion in Flamelet and Distributed Regimes”, Proc. Combust. Inst. 31, 1401?1409, 2007.
[7] Shy, S.S., Shih, W.T. and Liu, C.C. “More on Minimum Ignition Energy Transition for Lean Premixed Turbulent Methane Combustion in Flamelet and Distributed Regimes”, Combust. Sci. Technol. 180, 1735?1747, 2008.
[8] Borghi, R. “On the Structure and Morphology of Turbulent Premixed Flames”, Recent Advances in the Aerospace Sciences, Ed. C. Casci, 117?138, New York, Plenum (1985).
[9] Bray, K. N. C. “Turbulent Flows with Premixed Reactants”, Turbulent Reacting Flows, Eds. Libby, P. A. & Williams, F. A., 115?183, New York, Springer?Verlag (1980).
[10] Peters, N. “Laminar Flamelet Concepts in Turbulent Combustion”, Proc. Combust. Inst. 21, 1231?1250, 1986.
[11] Williams, F. A., Combustion Theory, 2nd Ed., Addison?Wesley, Redwood City (1985).
[12] Blanc, M.V., Guest, P.G., Elbe, G.V. and Lewis, B. “Ignition of Explosive Gas Mixtures by Electric Sparks. III. Minimum Ignition Energies and Quenching Distances of Mixtures of Hydrocarbons and Ether with Oxygen and Inert Gases”, Symposium (International) on Combustion 3, 363?367, 1949.
[13] Moorhouse, J., Williams, A. and Maddison, T.E. “An Investigation of the minimum Ignition Energies of Some C1 to C7 Hydrocarbons”, Combust. Flame 23, 203?213, 1974.
[14] Ziegler, G.F.W., Wagner, E.P. and Maly, R.R. “Ignition of Lean Methane?Air Mixtures by High Pressure Glow and Arc Discharges”, Proc. Combust. Inst. 20, 1817?1824, 1984.
[15] Scull, W. E. “Relation Between Inflammables and Ignition Sources in Aircraft Environments”, NACA TN-2227 (1951).
[16] Kono, M., Hatori, K. and Iinuma, K. “Investigation on Ignition Ability of Composite Sparks in Flowing Mixtures”, Proc. Combust. Inst. 20, 133?140, 1984.
[17] Blanc, M.V., Guest, P.G., Elbe, G.V. and Lewis, B. “Ignition of Explosive Gas Mixtures by Electric Spark. I. Minimum Ignition Energies and Quenching Distances of Mixtures of Methane, Oxygen, and Inert Gases”, J. Chem. Phys. 15, 798?802, 1947.
[18] Ono, R., Nifuku, M., Fujiwara, S., Horiguchi, S. and Oda, T. “Minimum Ignition Energy of Hydrogen?Air Mixture: Effects of Humidity and Spark Duration”, J. Electrost. 65, 87?93, 2007.
[19] Yuasa, T., Kadota, S., Tsue, M., Kono, M., Nomura, H. and Ujiie, Y. “Effects of Energy Deposition Schedule on Minimum Ignition Energy in Spark Ignition of Methane/Air Mixtures”, Proc. Combust. Inst. 29, 743?750, 2002.
[20] 石偉達,“預混紊流燃燒:火花引燃機制與加氫效應之定量量測”,國立中央大學能源工程研究所,碩士論文,2007年。
[21] 李尚軍,“火花引燃機制與散佈狀燃燒型態之實驗研究”,國立中央大學機械工程研究所,碩士論文,2008年。
[22] Yang, S.I. and Shy, S.S. “Global Quenching of Premixed CH4/Air Flames: Effects of Turbulent Straining, Equivalence Ratio, and Radiative Heat Loss”, Proc. Combust. Inst. 29, 1841?1847, 2002.
[23] Shy, S.S., I, W.K. and Lin, M.L. “A New Cruciform Burner and its Turbulence Measurements for Premixed Turbulent Combustion Study”, Exp. Therm. Fluid Sci. 20, 105?114, 2000.
[24] Egolfopoulos, F.N., Zhu, D.L. and Law, C.K. “Experimental and Numerical Determination of Laminar Flame Speeds: Mixtures of C2-Hydrocarbons with Oxygen and Nitrogen”, Symposium (International) on Combustion 23, 471?478, 1991.
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