displaying 161 - 170 results in total 291
Oka, Y.; Sugawa, O.; Imamura, T.
view article (1.0)Flame and Temperature Properties From a Single Fire Source in Cros-Winds.Yokohama National Univ., Japan; Science University of Tokyo, JapanVolume 1Volume 1Interscience Communications Ltd.; Building Research Establishment; National Fire Protection Association; National Institute of Standards and Technology; Society of Fire Protection Engineers; and Swedish National Testing and Research Institute. Interflam 2001. (Interflam '01). International Interflam Conference, 9th Proceedings. Volume 1. September 17-19, 2001, Interscience Communications Ltd., London, England, Edinburgh, Scotland, 671-681 p., 2001Pierce, J. B. M.; Devaud, C. B.; Moss, J. B.
view article (1.0)Mass Loss Rates and Near-Field Open Pool Fire Measurements: A Comparison with Compartment Fires.Cranfield Univ., Bedford, UKVolume 2Volume 2Interscience Communications Ltd.; Building Research Establishment; National Fire Protection Association; National Institute of Standards and Technology; Society of Fire Protection Engineers; and Swedish National Testing and Research Institute. Interflam 2001. (Interflam '01). International Interflam Conference, 9th Proceedings. Volume 2. September 17-19, 2001, Interscience Communications Ltd., London, England, Edinburgh, Scotland, 1349-1354 p., 2001Sultan, M. A.; Alfawakhiri, F.; Kodur, V. K. R.
view article (1.0)Model for Predicting Thermal Response Across Steel C-Joist Floor Assemblies Exposed to Fire.National Research Council of Canada, Ottawa, OntarioNRCC-44993NRCC-44993AOSFST International Conference, 5th Proceedings. December 3-6, 2001, Newcastle, Australia, 1-3 p., 2001Becker, R.
view article (1.0)Effects of Heat Sinks on Evoluation of Longitudinal Temperature Distributions in Steel Structures.Israel Institute of Technology, Haifa, IsraelFire Safety Journal, Vol. 37, No. 1, 1-20, February 2002Nikitin, Y. V.
view article (1.0)Temperature Distribution Schedule of a Body at a Complex Thermal Effect for a Fire Hazard Analaysis.Nachimov Naval Institute, Sevastopol, UkraineInternational Journal on Engineering Performance-Based Fire Codes, Vol. 3, No. 4, 134-140, 2001Becker, R.
view article (1.0)Structural Behavior of Simple Steel Structures With Non-Uniform Longitudinal Temperature Distributions Under Fire Conditions.Israel Institute of Technology, Hifa, IsraelFire Safety Journal, Vol. 37, No. 5, 495-515, July 2002Heitsch, M.
view article (1.0)CFX Simulations for Benchmark Exercise #1. Cable Tray Fires of Redundant Safety Trains. Appendix D.GRS, GermanyNISTIR 6872NISTIR 6872
June 2002International Collaborative Project to Evaluate Fire Models for Nuclear Power Plant Applications. Evaluation of Fire Models for Nuclear Power Plant Applications: Cable Tray Fires. International Panel Report. Appendix D: Benchmark Analysis With CFX, D/1-41 p., 2002Kong, W.; Chao, C. Y. H.; Wang, J.
view article (1.0)Burning Characteristics of Non-Spread Diffusion Flames of Liquid Fuel Soaked in Porous Beds.Hong Kong University of Science and Technology, ChinaJournal of Fire Sciences, Vol. 20, No. 3, 203-225, May 2002Baek, S.W.; Kim, J. J.; Kim, H. S.; Kang, S. H.
view article (1.0)Effects of Addition of Solid Particles on Thermal Characteristics in Hydrogen-Air Flame.Korea Advanced Institute of Science and Technology, Taejon, KoreaCombustion Science and Technology, Vol. 174, No. 8, 99-116, August 2002Baek, S. W.; Kim, H. S.; Yu, M. J.; Kang, S. J.; Kim, M. Y.
view article (1.0)Application of the Extended Weighted Sum of Gray Gases Model to Light Fuel Oil Spray Combustion.Korea Advanced Institute of Science and Technology, Taejon, Korea; Chonbuk National Univ., Korea; Hyundai Motor Company and Kia Motors Corp., KoreaCombustion Science and Technology, Vol. 174, No. 7, 37-70, July 2002