消防安全工程 第6部分:烟气层的计算要求 GB/T31593.6-2015
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] 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.
[5] TANAKA,T.and YAMANA,T.,Smoke Control in Large Scale Spaces (Part 1/Part 2),Fire Science and Technology,5,No.1,Science University of Tokyo,1985.
[6] DELICHATSIOS,M.A.,Closed form approximate solutions for smoke filling in enclosures including the volume expansion term,Fire Safety Journal,38,pp.97-101,2003.
[7] DELICHATSIOS,M.A.,Tenability Conditions and Filling Times for Fires in Large Spaces,Fire Safety Journal,39,pp.643-662,2004.
[8] BAINES,W.D.and TURNER,J.S.,Turbulent Buoyant Convection from a Source in a Confined Region,Journal of Fluid Mechanics,37(1),pp.51-80,1969.
[9] ZUKOSKI,E.E.,Development of a Stratified Ceiling Layer in the Early Stages of a Closed room Fire,Fire and materials,2(2),pp.54-62,1978.
[10] ZUKOSKI,E.E.,Two-Layer Modeling of Smoke Movement in Building Fires,Fire and materials,4(1),pp.17-27,1980.
[11] MULHOLLAND,G.,HANDA,T.,SUGAWA,O.and YAMAMOTO,H.,Smoke Filling in an Enclosure,20th Joint ASME/AIChE National Heat Transfer Conference,81-HT-B,1981.
[12] SPRATT,D.and HESELDEN,A.J.M.,Efficient Extraction of Smoke from a Thin Layer under a Ceiling,Fire Research Note,No.1001,Building Research Establishment,1974.
[13] NII,D.,NITTA,K.,HARADA,K.and YAMAGUCHI,J.,Air Entrainment into Mechanical Smoke Vent on Ceiling,Proceedings of the 7th International Symposium on Fire Safety Science,(Worcester,June 2002),pp.729-740,2003.
[14] TEWARSON,A.,Generation of Heat and Chemical Compounds in Fires,SFPE Handbook of Fire Protection Engineering,2nd ed.,National Fire Protection Association,1995.
[15] KARLSSON,B.and QUINTIERE,J.,G.,Conservation Equations and Smoke Filling,Chapter 8 in Enclosure Fire Dynamics,CRC Press LLC,2000.
[16] HÄGGLUND B.,JANSSON R.and NIREUS K.,Smoke Filling Experiments in 6x6x6 meter Enclosure,FOA Report C20585-D6,National Defence Research Establishment,Sweden,1985.
[17] TANAKA,T.,A Model of Multiroom Fire Spread,NBSIR 83-2718,US Department of Commerce,National Bureau of Standards,1983.
[18] TANAKA,T.,A Model on Fire Spread in Small Scale Buildings,BRI Research Paper,No.79 and 84 ,Building Research Institute,1978,1980.
[19] PEACOCK,R.,JONES,W.,W.,FORNEY,G.,P.,RENEKE,P.,A.,BUKOWSKI,R.and W.,KLOTE J.,H.,An Update Guide for HAZARD I version 1.2,NISTIR 5410 ,Building and Fire Research Laboratory,National Institute of Standards and Technology,1994.
[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] 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.
[5] TANAKA,T.and YAMANA,T.,Smoke Control in Large Scale Spaces (Part 1/Part 2),Fire Science and Technology,5,No.1,Science University of Tokyo,1985.
[6] DELICHATSIOS,M.A.,Closed form approximate solutions for smoke filling in enclosures including the volume expansion term,Fire Safety Journal,38,pp.97-101,2003.
[7] DELICHATSIOS,M.A.,Tenability Conditions and Filling Times for Fires in Large Spaces,Fire Safety Journal,39,pp.643-662,2004.
[8] BAINES,W.D.and TURNER,J.S.,Turbulent Buoyant Convection from a Source in a Confined Region,Journal of Fluid Mechanics,37(1),pp.51-80,1969.
[9] ZUKOSKI,E.E.,Development of a Stratified Ceiling Layer in the Early Stages of a Closed room Fire,Fire and materials,2(2),pp.54-62,1978.
[10] ZUKOSKI,E.E.,Two-Layer Modeling of Smoke Movement in Building Fires,Fire and materials,4(1),pp.17-27,1980.
[11] MULHOLLAND,G.,HANDA,T.,SUGAWA,O.and YAMAMOTO,H.,Smoke Filling in an Enclosure,20th Joint ASME/AIChE National Heat Transfer Conference,81-HT-B,1981.
[12] SPRATT,D.and HESELDEN,A.J.M.,Efficient Extraction of Smoke from a Thin Layer under a Ceiling,Fire Research Note,No.1001,Building Research Establishment,1974.
[13] NII,D.,NITTA,K.,HARADA,K.and YAMAGUCHI,J.,Air Entrainment into Mechanical Smoke Vent on Ceiling,Proceedings of the 7th International Symposium on Fire Safety Science,(Worcester,June 2002),pp.729-740,2003.
[14] TEWARSON,A.,Generation of Heat and Chemical Compounds in Fires,SFPE Handbook of Fire Protection Engineering,2nd ed.,National Fire Protection Association,1995.
[15] KARLSSON,B.and QUINTIERE,J.,G.,Conservation Equations and Smoke Filling,Chapter 8 in Enclosure Fire Dynamics,CRC Press LLC,2000.
[16] HÄGGLUND B.,JANSSON R.and NIREUS K.,Smoke Filling Experiments in 6x6x6 meter Enclosure,FOA Report C20585-D6,National Defence Research Establishment,Sweden,1985.
[17] TANAKA,T.,A Model of Multiroom Fire Spread,NBSIR 83-2718,US Department of Commerce,National Bureau of Standards,1983.
[18] TANAKA,T.,A Model on Fire Spread in Small Scale Buildings,BRI Research Paper,No.79 and 84 ,Building Research Institute,1978,1980.
[19] PEACOCK,R.,JONES,W.,W.,FORNEY,G.,P.,RENEKE,P.,A.,BUKOWSKI,R.and W.,KLOTE J.,H.,An Update Guide for HAZARD I version 1.2,NISTIR 5410 ,Building and Fire Research Laboratory,National Institute of Standards and Technology,1994.
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