|
參考文獻
[1] K. Kawagoe,”Fire Behaviour in Rooms”,Building Reasearch Institute, Report No 27,Tokyo,1958
[2] P. L. Hinkly and H. G. Wraight, ”The Contribution of FLAMES under Ceiling to Fire Spread in Compartments,Part2,Combustible Ceiling Linings ”,Fire Reaearch Note No 743,1968
[3] T. E. Waterman,”Room Flashover-Criteria and Synthesis” , Fire Technology,4,pp.25-31,1968.
[4] R. Friedman,”Behaviour of Fires in Compartments,”International Symposium on Safety of Combustible Materials,pp.100-113,1975.
[5] W. W. JONES ,”A Multicompartment Model For the Spread of Fire,Smoke and Toxic Gases”, National Bureau of Standards ,Washington ,DC 20234,U.S.A.,1985
[6] D. W. William and L. Y. Cooper, “A Room Fire Program For Personal Computers” ,Nat. Bur. Stand. NBSIR 80-2172,1981
[7] H. E. Mitler, “The Harvard Fire Model”, Fire Safety journal 9,1985
[8]L. Y. Cooper, and G. P. Forney, The Consolidated Compartment Fire Model (CCFM) Computer Code Application CCFM.VENTS PART I :Physical Basis,NISTIR 4342,National Institude of Standards and Technology,Gaithersburg MD,U.S.A.,1990
[9] R. D. Peacock,G. P. Forney,P. Reneke,R. Portier and W. W. Jones,CFAST, The Consolidated Model of Fire Growth and Smoke Transport.NIST Technical Note 1299,NIST,US Dept. of Commerce,1993
[10] G. Cox, and S. Kumar,"Field Modelling of Fire in Forces Ventilated Enclosures ",Combustion Science and Technology, vol.52 , pp. 7 ,(1987)
[11] A. C. Ku, M. L. Doria and J. R. Lloyd, "Numerical Modelling of Unsteady Buoyant Flows Generated by Fire in a Corridor", 16th Symposium (International) on Combustion, Combustion Institute, Pittsburg PA., pp.1373-1384 ,(1976).
[12] K. Yang, T. Lloyd , A. Kanury and K. Satoh ,"Modeling of Turbulent Bouyant Flows in Aircraft Cabins" , Combustion Science and Technology , vol.39 ,pp.107-118,(1984).
[13] K. Satoh,"Three Dimensional Field Model Analysis of Fire-Induced
Flow in an Enclosure with a Doorway Opening Comparison with NBS Fire tests" , Technical Report, Fire Research Institute of Japan(1985)
[14] N. C. Markatos and K. A. Pericleous,,"An Investigation of 3-D Fires in Enclosures" , Fire Dynamics and Heat Transfer, HTD-vol. 25, ASME, New York, pp. 115-124,(1983).
[15] W. G. Bos, V. D. Elsen, C. J. Hoogendoorn, and F. L. Test , "Numerical Study of Stratification of a Smoke Layer in a Corridor", Combustion Science and Technology , vol.38 , pp.277-243 ,(1984).
[16] W. K. Chow. and W. M. Leung, "Solid-Wall Boundary Effect on a Building Fire Field Model" ,Combustion Science and Technology ,vol.71,pp.77-93 ,(1990).
[17] N. C. Markatos, and K. A. Pericleous,“An Invertigation of 3-D fire in Encloses”, Fire Dynamics and Heat Transfer,HTD-vol.25,ASME,New York,pp.115-124,1983
[18] G. V. Hadjisophocleous and M. Cacambouras,“Computer Modeling of compartment Fires”,J.of Fire Prot.Engr.,5(2) pp39-52,1993
[19] L. K. Mawhinney,E. R. Hoffmann and M. K. Patel, “A Comoparison of Two Fire Field Models with Experimental Room Fire Data”, Proceeding of the Fourth International Symoposium in Fire Safety Science Hemispere Publishing Corp.,New York, 1995, pp.161-172.
[20] W. K. Chow ,“Use of Zone Models on Simulating Compartmenyal Fires with Forced Ventilation”,Fire and Materials ,vol.19,101-108(1995)
[21] W. K. HO,L. C. Weng and C. H. Chen ,“Ventilation Effects on the Flow Structure in a Comopartment Cold Results “,Proceeding of 20th International Conference on Theoretical and Applied Mechanics, Teipei ,Taiwan ,1996.
[22] M. Luo,” Application of Field Model and Two-Zone Model to Flashover Fires in a Full-scale Multi-room Single Level Building” Center for Envirnmantal Saftety and Risk Engineering Victoria University of Technology P. O. Box 14428,MCMC,1997
[23] Y. He ,”Smoke Spread Experiment in a Muli-storey Building and Computer Modeling”, Center for Envirnmantal Saftety and Risk Engineering Victoria University of Technology P.O.Box 14428,MCMC,1997
[24] J. G. Qutiere ,”Fire Groth: An Overview “Deparment of Fire Protecting Engineer, University of Maryland College Park, Maryland ,1997
[25] M. Luo, ”One zone or Two Zone in the room of Fire Origin During Fire ? The Effects of the Air-Handling System”,Center for Envirnmantal Saftety and Risk Engineering Victoria University of Technology P.O.Box 14428,MCMC,1997
[26] Y. HE,”ON Experimental Data Reduction for Zone Model Validation”,Center for Envirnmantal Saftety and Risk Engineering Victoria University of Technology P. O. Box 14428,MCMC,1997
[27] L. Y. Cooper”VENTCF2:an Algorithm and Assciated FORTRAN 77 Subroutine for Calculating Flow though a Horizontal Ceiling /Floor Vent in a Zone-type Compartment Fire Model, National Institute of Standards and Technology, Gaithersburg, MD 20899,USA,1997
[28] K. L. Mawhinney,E. R. ,Hoddmann and,M. K. Patel, ”A Comparison of Two Fire Models with Experimental Room Fire Dats”, Proceedings OF the Fourth International Science. Hemisphere Publishing Corp., New York, 1995. pp161-172
[29] 0. K. Rahhonen,”CIB W14 Round Robin for Code Assessment: A Comparison of Fire Simulation Tools”,1996 FORUM meeting,Oslo,Norway.
[30] R. W. Bilger,”Computional Field Model in Fire Research and Engineering” ,Fire Safety Science-Proceedings of the Fourth International Symposium,p.95,1994
[31] R. D. Peacock,G. P. Forney,P. Reneke,R. Portier and W. W. Jones, FASTLite, Engineering Tools For Estimating Fire Growth and Smoke Transport.NIST Technical ,NIST,US Dept. of Commerce,1996
[32] F. B. Clarke ,“Physiological Effects of Smoke: Managing Escape”, ASHRAE Journal,pp.47-56,1997
[33] F. B. Clarke ,”Fire Hazard Assessment”,Fire Protection Handbook ,16th Edition ,1996
[34] 記者陳至成,”中國時報”,民國八十四年二月十四日
[35] 記者張翠芬,”中國時報”,民國八十二年一月十二日
|