Lewis B,von Elbe G.Stability and structure of burner flames [J].Journal of Chemical Physics,1943,11(2):75-97
[2]
Lewis B,von Elbe G.Stability and structure of burner flames [J].Journal of Chemical Physics,1943,11(2):75-97
[3]
von Elbe G,Mentser M.Further studies of the structure and stability of burner flames [J].Journal of Chemical Physics,1945,13(2):89-100
[4]
von Elbe G,Mentser M.Further studies of the structure and stability of burner flames [J].Journal of Chemical Physics,1945,13(2):89-100
[5]
Garside J E,Forsythe J S,Townend D T A.The stability of burner flames [J].Journal of the Institute of Fuel,1945,18:175-186
[6]
Garside J E,Forsythe J S,Townend D T A.The stability of burner flames [J].Journal of the Institute of Fuel,1945,18:175-186
[7]
Bollinger L M,Williams D T.Experiments on stability of Bunsen-burner flames for turbulent flow [R].NACA-TN-1234,1947
[8]
Bollinger L M,Williams D T.Experiments on stability of Bunsen-burner flames for turbulent flow [R].NACA-TN-1234,1947
[9]
Whol K,Kapp N M,Gazley C.The stability of open flames [J].Symposium on Combustion Flame and Explosion Phenomena,1949,3:3-21
[10]
Whol K,Kapp N M,Gazley C.The stability of open flames [J].Symposium on Combustion Flame and Explosion Phenomena,1949,3:3-21
[11]
von Elbe G,Lewis B.Theory of ignition,quenching and stabilization of flames of nonturbulent gas mixtures [J].Symposium on Combustion Flame and Explosion Phenomena,1949,3:68-79
[12]
Wohl K.Quenching,flash-Back,blow-off:theory and experiment [J].Symposium on Combustion Flame and Explosion Phenomena,1953,4:68-89
[13]
von Elbe G,Lewis B.Theory of ignition,quenching and stabilization of flames of nonturbulent gas mixtures [J].Symposium on Combustion Flame and Explosion Phenomena,1949,3:68-79
[14]
Altay H M,Kedia K S,Speth R L,et al.Two-dimensional simulations of steady perforated-plate stabilized premixed flames [J].Combustion Theory and Modeling,2010,14(1):125-154
[15]
Wohl K.Quenching,flash-Back,blow-off:theory and experiment [J].Symposium on Combustion Flame and Explosion Phenomena,1953,4:68-89
[16]
Kedia K S,Ghoniem A F.Mechanisms of stabilization and blowoff of a premixed flame downstream of a heat-conducting perforated plate [J].Combustion and Flame,2010,159:1055-1069
[17]
Altay H M,Kedia K S,Speth R L,et al.Two-dimensional simulations of steady perforated-plate stabilized premixed flames [J].Combustion Theory and Modeling,2010,14(1):125-154
[18]
Kedia K S,Ghoniem A F.Mechanisms of stabilization and blowoff of a premixed flame downstream of a heat-conducting perforated plate [J].Combustion and Flame,2010,159:1055-1069
[19]
Stohr M,Boxx I,Carter C,et al.Dynamics of lean blowout of a swirl-stabilized flame in a gas turbine model combustor [J].Proceedings of the Combustion Institute,2011,33:2953-2960
[20]
黄夏,黄勇,王方,等.采用速度匹配法研究本生灯火焰的稳定点位置[J].燃烧科学与技术,2011,17(1):72-77 Huang Xia,Huang Yong,Wang Fang,et al.Anchoring point of a Bunsen flame by velocity-matching method [J].Journal of Combustion Science and Technology,2011,17(1):72-77(in Chinese)
[21]
Stohr M,Boxx I,Carter C,et al.Dynamics of lean blowout of a swirl-stabilized flame in a gas turbine model combustor [J].Proceedings of the Combustion Institute,2011,33:2953-2960
[22]
黄夏,黄勇,王方,等.采用速度匹配法研究本生灯火焰的稳定点位置[J].燃烧科学与技术,2011,17(1):72-77 Huang Xia,Huang Yong,Wang Fang,et al.Anchoring point of a Bunsen flame by velocity-matching method [J].Journal of Combustion Science and Technology,2011,17(1):72-77(in Chinese)
[23]
Ju Hyeong Cho,Lieuwen T.Laminar premixed flame response to equivalence ratio oscillations [J].Combustion and Flame,2005,140:116-129
[24]
Andrae J,Bjornbom P.Numerical studies of wall effects with laminar methane flames [J].Combustion and Flame,2002,128:165-180
[25]
Ju Hyeong Cho,Lieuwen T.Laminar premixed flame response to equivalence ratio oscillations [J].Combustion and Flame,2005,140:116-129
[26]
Bellenoue M,Kageyama T,Labuda S A,et al.Direct measurement of laminar flame quenching distance in a closed vessel [J].Experimental Thermal and Fluid Science,2003,27:323-331
[27]
Andrae J,Bjornbom P.Numerical studies of wall effects with laminar methane flames [J].Combustion and Flame,2002,128:165-180
[28]
Aggarwal S K.Extinction of laminar partially premixed flames [J].Progress in Energy and Combustion Science,2009,35: 528- 570
[29]
Bellenoue M,Kageyama T,Labuda S A,et al.Direct measurement of laminar flame quenching distance in a closed vessel [J].Experimental Thermal and Fluid Science,2003,27:323-331
[30]
Aggarwal S K.Extinction of laminar partially premixed flames [J].Progress in Energy and Combustion Science,2009,35: 528- 570
[31]
黄勇,林宇震,樊未军,等.燃烧与燃烧室[M].北京:北京航空航天大学出版社,2009:103 Huang Yong,Lin Yuzhen,Fan Weijun,et al.Combustion and combustor[M].Beijing:Beijing University of Aeronautics and Astronautics Press,2009:103(in Chinese)
[32]
黄勇,林宇震,樊未军,等.燃烧与燃烧室[M].北京:北京航空航天大学出版社,2009:103 Huang Yong,Lin Yuzhen,Fan Weijun,et al.Combustion and combustor[M].Beijing:Beijing University of Aeronautics and Astronautics Press,2009:103(in Chinese)
[33]
肖柏荣.速度匹配法研究火焰稳定机理[D].北京:北京航空航天大学能源与动力工程学院,2012 Xiao Bairong.Flame holding mechanism:velocity-matching method[D].Beijing:School of Energy and Power Engineering,Beijing University of Aeronautics and Astronautics,2012 (in Chinese)
[34]
肖柏荣.速度匹配法研究火焰稳定机理[D].北京:北京航空航天大学能源与动力工程学院,2012 Xiao Bairong.Flame holding mechanism:velocity-matching method[D].Beijing:School of Energy and Power Engineering,Beijing University of Aeronautics and Astronautics,2012 (in Chinese)
