BFRL Publications - oxygen

oxygen

• Evaluation of the Ability of Fire Dynamic Simulator to Simulate Positive Pressure Ventilation in the Laboratory and Practical Scenarios.
  NISTIR 7315; 149 p. April 2006.
  Kerber, S.
• Experiments and Modeling of Multiple Workstations Burning in a Compartment. Federal Building and Fire Safety Investigation of the World Trade Center Disaster.
  NIST NCSTAR 1-5B; 352 p. September 2005.
  Hamins, A.; Maranghides, A.; McGrattan, K. B.; Johnsson, E. L.; Ohlemiller, T. J.; Donnelly, M. K.; Yang, J. C.; Mulholland, G. W.; Prasad, K. R.; Kukuck, S. R.; Anleitner, R. L.; McAllister, T. P.
• Experiments and Modeling of Multiple Workstations Burning in a Compartment. Federal Building and Fire Safety Investigation of the World Trade Center Disaster.
  NIST NCSTAR 1-5E; 158 p. September 2005.
  Hamins, A.; Maranghides, A.; McGrattan, K. B.; Ohlemiller, T. J.; Anleitner, R. L.
• Feasibility Evaluation Study of Very Fine Water Mist as a Total Flooding Fire Suppression Agent for Flammable Liquid Fires.
  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, 1-10 pp, 2004.
  Sheinson, R. S.; Williams, F. W.; Ayers, S.; Adiga, K. C.; Hatcher, R. F., Jr.
• Further Development of the N-Gas Mathematical Model: An Approach for Predicting the Toxic Potency of Complex Combustion Mixtures.
  American Chemical Society. Fire and Polymers II: Materials and Tests for Hazard Prevention. National Meeting, 208th. Chapter 20. ACS Symposium Series No. 599. August 21-26, 1994, Washington, DC, American Chemical Society, Washington, DC, Nelson, G. L., Editor(s), 293-311 pp, 1995.
  Levin, B. C.; Braun, E.; Navarro, M.; Paabo, M.
• Ignition and Transition to Flame Spread Over a Thermally Thin Cellulosic Sheet in a Microgravity Environment.
  Combustion and Flame, Vol. 93, No. 4, 361-374, 1994.
  Nakabe, K.; McGrattan, K. B.; Kashiwagi, T.; Baum, H. R.; Yamashita, H.; Kushida, G.