参考文献
[1] GB/T 6379(所有部分) 测量方法与结果的准确度
[2] ISO/TR 13387-3:1999 Fire safety engineering——Part 3:Assessment and verification of mathematical fire models
[3] ISO 13943:2008 Fire safety—Vocabulary
[4] Schmidt,W.,"Turbulente Ausbreitung eines Stromes erhitzer Luft,"Z. Angew.Math.Mech.,Vol.21,pp.265-278,351-363.
[5] Rouse,H.,Yih,C.S.and Humphreys,H.W.,"Gravitational Convection from a Boundary Source,"Tellus,Vol.4,pp.201-210,1952.
[6] Morton,B.R.,Taylor,G.I.and Turner,J.S.,"Turbulent Graviational Convection from Maintained and Instantaneous Sources,"Proc.R.Soc.London, Vol.A234,pp.1-23,1956.
[7] Yokoi,S.,Report No.34,Building Research Institute of Japan,1960.
[8] Morton,B.R.,"Modeling of Fire Plumes,"Tenth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.973-982,1965.
[9] Heskestad,G.,"Fire Plumes,"SFPE Handbook of Fire Protection Engineering (ed.P.J.DiNenno),Society of Fire Protection Engineers,Boston,USA,pp.1-107-1-115,1988.
[10] Heskestad,G.,"Virtual Origins of Fire Plumes,"Fire Safety Jl.,Vol.5, pp.109-114,1983.
[11] Hasemi,Y.,and Tokunaga,T.,"Flame Geometry Effects on the Buoyant Plumes from Turbulent Diffusion Flames,"Fire Sci.Technol.,Vol.4,pp.15-26,1984a.
[12] Cetegen,B.M.,Zukoski,E.E.,and Kubota,T.,"Entrainment in the Near and Far Field of Fire Plumes,"Combust.Sci.Technol.,Vol.39,pp.305-331,1984.
[13] Heskestad,G.,"Luminous Heights of Turbulent Diffusion Flames,"Fire Safety Jl.VoL.5,pp.103-108,1983.
[14] Yih,C.S.,"Free Convection Due to a Point Source of Heat,"Proc.1st US National Congress of Applied Mechanics,pp.941-947,1952.
[15] Thomas,P.H.,Baldwin,R.and Heselden,A.J.M.,"Buoyant Diffusion Flames:Some Measurements of Air Entrainment,Heat Transfer and Flame Merging," Tenth Symp.(Int.) on Combusiton,The Combustion Institute,Pittsburgh,USA, pp.983-996,1965.
[16] McCaffrey,B.J.,"Purely Buoyant Diffusion Flames:Some Experimental Results,"NBSIR 79-1910,National Bureau of Standards,Washington,DC,USA,1979.
[17] Cetegen,B.M.,Zukoski,E.E.and Kubota,T.,"Entrainment and Flame Geometry of Fire Plumes,"Report G8-9014,California Institute of Technology,Daniel and Florence Guggenheim Jet Propulsion Center,Pasadena,USA,1982.
[18] Heskestad,G.,"Fire Plume Air Entrainment According to Two Competing Assumptions,"Twenty-first Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.111-120,1986.
[19] Delichatsios,M.A.,"Air Entrainment into Buoyant Jet Flames and Pool Fires,"Combustion and Flame,Vol.70,pp.33-46,1987.
[20] Zukoski,E.E.,"Mass Flux in Fire Plumes,"Fire Safety Science—Proc. Fourth Int.Symposium (ed.T.Kashiwagi),International Association for Fire Safety Science,pp.137-147,1994.
[21] Zhou,X.C.and Gore,J.P.,"Air Entrainment Flow Field Induced by a Pool Fire,"Combustion and Flame,Vol.100,pp.52-60,1995.
[22] Cox,G.and Chitty,R.,"A Study of the Deterministic Properties of Unbounded Fire Plumes,"Combustion and Flame,Vol.39,pp.191-209,1980.
[23] Dai,Z.,Tseng,L.K.and Faith,G.M.,"Structure of Round,Fully Developed,Buoyant Turbulent Plumes,"J.Heat Transfer,Vol.l16,pp.409-417,1994.
[24] Gengembre,E.,Cambray,P.,Karmed,D.and Bellet,J.C.,"Turbulent Diffusion Flames with Large Buoyancy Effects,"Combustion Sci.And Technology, Vol 41,pp.55-67,1984.
[25] George,W.K.,Alpert,R.L.and Tamanini,F.,"Turbulence Measurements in an Axisymmetric Buoyant Plume,"Int.J.Heat and Mass Transfer,Vol.20,pp.1145-1154,1977.
[26] Heskestad,G.,"Note on Maximum Rise of Fire Plumes in Temperature-Stratified Ambients,"Fire Safety Jl.,Vol.15,pp.271-276,1989.
[27] Heskestad,G.,"A Reduced-Scale Mass Fire Experiment,"Combustion and Flame,Vol.83,pp.293-301,1991.
[28] Heskestad,G.,"Fire Plume Behavior in Temperature Stratified Ambients," Combustion Sci.and Technology,Vol 106,pp.207-228,1995.
[29] Kung,H.C.and Stavrianidis,P.,"Buoyant Plumes of Large-Scale Pool Fires,"Nineteenth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.905-912,1983.
[30] Mccaffrey,B.J.,"Flame Height,"SFPE Handbook of Fire Protection Engineering,2nd editon (ed.P.J.DiNenno),Society of Fire Protection Engineers,Boston,USA,pp.1-298-1-305,1995.
[31] Orloff,L.,"Simplified Radiation Modeling of Pool Fires,"Eighteenth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.549-561,1981.
[32] Orloff,L.and de Ris,J.L.,"Froude Modeling of Pool Fires,"Nineteenth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.885-895,1982.
[33] Shabbir,A.and George,W.K.,"Experiments on a Round Turbulent Buoyant Plume,"J.Fluid Mech.,Vol.275,pp.1-32,1994.
[34] Tamanini,F.,"Direct Measurements of the Longitudinal Variation of Burning Rate and Product Yield in Turbulent Diffusion Flames,"Combustion and Flame,Vol.51,pp.231-243,1983.
[35] Thomas,P.H.,"The Size of Flames from Natural Fires,"Ninth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.844-859,1968.
[36] Thomas,P.H.,Hinkley,P.L.,Theobald,C.R.and Sims,D.L.,"Investigation into the Flow of Hot Gases in Roof Venting,"Fire Technical Paper No.7,Joint Fire Research Organisation,London,HMSO,1968.
[37] Heskestad,G.,"Fire Plumes,Flame Height and Air Entrainment,"SFPE Handbook of Fire Protection Engineering (ed.P.J.DiNenno),3rd Edition, National Fire Protection Association,Quincy 02269 USA,pp.2-1 to 2-17,2002.
[38] Tewarson,A.,"Generation of Heat and Chemical Compounds in Fires,"SFPE Handbook of Fire Protection Engineering (ed.P.J.DiNenno),3rd Edition, National Fire Protection Association,Quincy 02269 USA,pp.3-82 to 3-161,2002.
[39] Babrauskas,V.,"Heat Release Rates,"SFPE Handbook of Fire Protection Engineering (ed.P.J.DiNenno),3rd Edition,National Fire Protection Association,Quincy 02269 USA,pp.3-1 to 3-37,2002.
[40] Perry's Chemical Engineers' Handbook (ed.D.W.Green),7th Edition,McGraw-Hill,New York,USA,1997.
[41] NFPA 204,"Standard for Smoke and heat Venting,"2002 edition,National Fire Protection Association,Quincy 02269 USA,Clause 9.2.3,2002.
[42] Heskestad,G.,Fire Safety Jl,Vol.7,p.25,1984.
[2] ISO/TR 13387-3:1999 Fire safety engineering——Part 3:Assessment and verification of mathematical fire models
[3] ISO 13943:2008 Fire safety—Vocabulary
[4] Schmidt,W.,"Turbulente Ausbreitung eines Stromes erhitzer Luft,"Z. Angew.Math.Mech.,Vol.21,pp.265-278,351-363.
[5] Rouse,H.,Yih,C.S.and Humphreys,H.W.,"Gravitational Convection from a Boundary Source,"Tellus,Vol.4,pp.201-210,1952.
[6] Morton,B.R.,Taylor,G.I.and Turner,J.S.,"Turbulent Graviational Convection from Maintained and Instantaneous Sources,"Proc.R.Soc.London, Vol.A234,pp.1-23,1956.
[7] Yokoi,S.,Report No.34,Building Research Institute of Japan,1960.
[8] Morton,B.R.,"Modeling of Fire Plumes,"Tenth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.973-982,1965.
[9] Heskestad,G.,"Fire Plumes,"SFPE Handbook of Fire Protection Engineering (ed.P.J.DiNenno),Society of Fire Protection Engineers,Boston,USA,pp.1-107-1-115,1988.
[10] Heskestad,G.,"Virtual Origins of Fire Plumes,"Fire Safety Jl.,Vol.5, pp.109-114,1983.
[11] Hasemi,Y.,and Tokunaga,T.,"Flame Geometry Effects on the Buoyant Plumes from Turbulent Diffusion Flames,"Fire Sci.Technol.,Vol.4,pp.15-26,1984a.
[12] Cetegen,B.M.,Zukoski,E.E.,and Kubota,T.,"Entrainment in the Near and Far Field of Fire Plumes,"Combust.Sci.Technol.,Vol.39,pp.305-331,1984.
[13] Heskestad,G.,"Luminous Heights of Turbulent Diffusion Flames,"Fire Safety Jl.VoL.5,pp.103-108,1983.
[14] Yih,C.S.,"Free Convection Due to a Point Source of Heat,"Proc.1st US National Congress of Applied Mechanics,pp.941-947,1952.
[15] Thomas,P.H.,Baldwin,R.and Heselden,A.J.M.,"Buoyant Diffusion Flames:Some Measurements of Air Entrainment,Heat Transfer and Flame Merging," Tenth Symp.(Int.) on Combusiton,The Combustion Institute,Pittsburgh,USA, pp.983-996,1965.
[16] McCaffrey,B.J.,"Purely Buoyant Diffusion Flames:Some Experimental Results,"NBSIR 79-1910,National Bureau of Standards,Washington,DC,USA,1979.
[17] Cetegen,B.M.,Zukoski,E.E.and Kubota,T.,"Entrainment and Flame Geometry of Fire Plumes,"Report G8-9014,California Institute of Technology,Daniel and Florence Guggenheim Jet Propulsion Center,Pasadena,USA,1982.
[18] Heskestad,G.,"Fire Plume Air Entrainment According to Two Competing Assumptions,"Twenty-first Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.111-120,1986.
[19] Delichatsios,M.A.,"Air Entrainment into Buoyant Jet Flames and Pool Fires,"Combustion and Flame,Vol.70,pp.33-46,1987.
[20] Zukoski,E.E.,"Mass Flux in Fire Plumes,"Fire Safety Science—Proc. Fourth Int.Symposium (ed.T.Kashiwagi),International Association for Fire Safety Science,pp.137-147,1994.
[21] Zhou,X.C.and Gore,J.P.,"Air Entrainment Flow Field Induced by a Pool Fire,"Combustion and Flame,Vol.100,pp.52-60,1995.
[22] Cox,G.and Chitty,R.,"A Study of the Deterministic Properties of Unbounded Fire Plumes,"Combustion and Flame,Vol.39,pp.191-209,1980.
[23] Dai,Z.,Tseng,L.K.and Faith,G.M.,"Structure of Round,Fully Developed,Buoyant Turbulent Plumes,"J.Heat Transfer,Vol.l16,pp.409-417,1994.
[24] Gengembre,E.,Cambray,P.,Karmed,D.and Bellet,J.C.,"Turbulent Diffusion Flames with Large Buoyancy Effects,"Combustion Sci.And Technology, Vol 41,pp.55-67,1984.
[25] George,W.K.,Alpert,R.L.and Tamanini,F.,"Turbulence Measurements in an Axisymmetric Buoyant Plume,"Int.J.Heat and Mass Transfer,Vol.20,pp.1145-1154,1977.
[26] Heskestad,G.,"Note on Maximum Rise of Fire Plumes in Temperature-Stratified Ambients,"Fire Safety Jl.,Vol.15,pp.271-276,1989.
[27] Heskestad,G.,"A Reduced-Scale Mass Fire Experiment,"Combustion and Flame,Vol.83,pp.293-301,1991.
[28] Heskestad,G.,"Fire Plume Behavior in Temperature Stratified Ambients," Combustion Sci.and Technology,Vol 106,pp.207-228,1995.
[29] Kung,H.C.and Stavrianidis,P.,"Buoyant Plumes of Large-Scale Pool Fires,"Nineteenth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.905-912,1983.
[30] Mccaffrey,B.J.,"Flame Height,"SFPE Handbook of Fire Protection Engineering,2nd editon (ed.P.J.DiNenno),Society of Fire Protection Engineers,Boston,USA,pp.1-298-1-305,1995.
[31] Orloff,L.,"Simplified Radiation Modeling of Pool Fires,"Eighteenth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.549-561,1981.
[32] Orloff,L.and de Ris,J.L.,"Froude Modeling of Pool Fires,"Nineteenth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.885-895,1982.
[33] Shabbir,A.and George,W.K.,"Experiments on a Round Turbulent Buoyant Plume,"J.Fluid Mech.,Vol.275,pp.1-32,1994.
[34] Tamanini,F.,"Direct Measurements of the Longitudinal Variation of Burning Rate and Product Yield in Turbulent Diffusion Flames,"Combustion and Flame,Vol.51,pp.231-243,1983.
[35] Thomas,P.H.,"The Size of Flames from Natural Fires,"Ninth Symp.(Int.) on Combustion,The Combustion Institute,Pittsburgh,USA,pp.844-859,1968.
[36] Thomas,P.H.,Hinkley,P.L.,Theobald,C.R.and Sims,D.L.,"Investigation into the Flow of Hot Gases in Roof Venting,"Fire Technical Paper No.7,Joint Fire Research Organisation,London,HMSO,1968.
[37] Heskestad,G.,"Fire Plumes,Flame Height and Air Entrainment,"SFPE Handbook of Fire Protection Engineering (ed.P.J.DiNenno),3rd Edition, National Fire Protection Association,Quincy 02269 USA,pp.2-1 to 2-17,2002.
[38] Tewarson,A.,"Generation of Heat and Chemical Compounds in Fires,"SFPE Handbook of Fire Protection Engineering (ed.P.J.DiNenno),3rd Edition, National Fire Protection Association,Quincy 02269 USA,pp.3-82 to 3-161,2002.
[39] Babrauskas,V.,"Heat Release Rates,"SFPE Handbook of Fire Protection Engineering (ed.P.J.DiNenno),3rd Edition,National Fire Protection Association,Quincy 02269 USA,pp.3-1 to 3-37,2002.
[40] Perry's Chemical Engineers' Handbook (ed.D.W.Green),7th Edition,McGraw-Hill,New York,USA,1997.
[41] NFPA 204,"Standard for Smoke and heat Venting,"2002 edition,National Fire Protection Association,Quincy 02269 USA,Clause 9.2.3,2002.
[42] Heskestad,G.,Fire Safety Jl,Vol.7,p.25,1984.
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