Drake, E. M.; Harris, S. H.; Reid, R. C.
view article (8.293388)
Analysis of Vapor Dispersion Experiments.
Little, (Arthur D.) Inc., Cambridge, MA; Massacuhesttes Institute of Technology, Cambridge
American Gas Association and Battelle Columbus Laboratories. LNG Safety Program. Interim Report on Phase 2 Work. Project IS-3-1. July 1, 1974,
D/1-161 p.,
1974
Ghoniem, A. F.; Zhang, X.; Knio, O.; Baum, H. R.; Rehm, R. G.
view article (8.293388)
Dispersion and Deposition of Smoke Plumes Generated in Massive Fires.
Massachusetts Institute of Technology, Cambridge; National Institute of Standards and Technology, Gaithersburg, MD
Journal of Hazardous Materials,
Vol. 33,
275-293,
1993
Nikmo, J.; Tuovinen, J. P.; Kukkonen, J.; Valkama, I.; Rantakrans, E.
view article (8.293388)
Modelling Local Scale Plume Dispersion From Industrial Fires.
Finnish Meteorological Institute, Helsinki, Finland
Industrial Fires III Workshop Proceedings. Major Industrial Hazards. EUR 17477 EN. European Commission. September 17-18, 1996,
Riso, Denmark,
321-332 p.,
1996
Porter, S. R.; Hall, D. J.; Carruthers, D. J.
view article (8.293388)
Physical and Computer Modelling of Dispersion of Toxic Smoke From Warehouse Fires.
Health and Safety Executive, UK; Building Research Establishment, Garston, England; Cambridge Environmental Research Consultants, Cambridge, UK
Industrial Fires III Workshop Proceedings. Major Industrial Hazards. EUR 17477 EN. European Commission. September 17-18, 1996,
Riso, Denmark,
357-381 p.,
1996
Malet, J. C.
view article (8.293388)
Main Results of the MISTRAL Programme. Application to Real Accident Cases and R and D Needs for the safety of Industrial Facilities.
Institut de Protection et de Surete Nucleaire, Cedex, France
Industrial Fires III Workshop Proceedings. Major Industrial Hazards. EUR 17477 EN. European Commission. September 17-18, 1996,
Riso, Denmark,
111-129 p.,
1996
Colver, G. M.; Goroshin, S.; Lee, J. H. S.
view article (8.293388)
Quenching of Particle-Gas Combustible Mixtures Using Electric Particulate Suspension (EPS) and Dispersion Methods.
Iowa State Univ., Ames; Mcgill Univ., Montreal, Canada
Physical and Chemical Aspects of Fire Suppression in Extraterrestrial Environments,
No. NASA/CO-2001-210826,
397-400,
2001
Shebeko, Y. N.; Bolodian, I. A.; Marlin, V. L.; Gordienko, D. M.; Mindlin, A. M.
view article (8.293388)
Experimental Investigation of Heavy Gas Dispersion From the Safety Relief Tube Near the Ground.
All Russian Scientific Research Institute for Fire Protection, Moscow Region
Volume 1,
Interflam 2004. (Interflam '04). International Interflam Conference, 10th Proceedings. Volume 1. Posters: Risks. July 5-7, 2004. Organised by Interscience Communications Ltd. in association with National Institute of Standards and Technology, Building Research Establishment; National Fire Protection Association; Society of Fire Protection Engineers; and Swedish National Testing and Research Institute,
Interscience Communications Ltd., London, England,
Edinburgh, Scotland,
577-582 p.,
2004
Adiga, K. C.; Williams, F. W.
view article (8.293388)
Ultra-Fine Water Mist as a Total Flooding Agent: A Feasibility Study.
NanoMist Systems LLC, Warner Robins, GA; Naval Research Laboratory, Washington, DC
NIST SP 984-2; NIST Special Publication 984-2,
Halon Options Technical Working Conference, 14th. Proceedings. HOTWC 2004. Sponsored by: 3M Specialty Materials, Boeing, Chemical Development Studies, Inc., DuPont Fire Extinguishants, Halon Alternative Research Corp., Hughes Associates, Inc., Kidde-Fenwal, Inc., Sandia National Laboratories, SEVO Systems, Next Generation Fire Suppression Technology Program. May 4-6, 2004,
Albuquerque, NM,
1-12 p.,
2004
Wu, D.; Guillemin, D.; Marshall, A. W.
view article (8.293388)
Modeling Basis for Predicting the Initial Sprinkler Spray.
Maryland Univ., College Park; Ecole Nationale Supérieure de Mécanique et d' Aerotéchnique (ENSMA), 86960 Futuroscope Chasseneuil Cedex, France
Fire Safety Journal,
Vol. 42,
No. 4,
283-294,
June 2007
Levitas, V. I.
view article (8.293388)
Burn Time of Aluminum Nanoparticles: Strong Effect of the Heating Rate and Melt-Dispersion Mechanism. Brief Communication.
Iowa State Univ., Ames, IA
Combustion and Flame,
Vol. 156,
No. 2,
543-546,
February 2009