FireDOC Search

displaying 581 - 590 results in total 1432

• Atreya, A.; Mekki, K.
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  Heat Transfer During Wind-Aided Flame Spread on a Ceiling Mounted Sample.
  Michigan State Univ., East Lansing
  Department of Agriculture, Washington, DC; National Science Foundation, Washington, DC,
  Combustion Institute, Symposium (International) on Combustion, 24th. July 5-10, 1992, Combustion Institute, Pittsburgh, PA, Sydney, Australia, 1677-1684 p., 1992

• Markstein, G. H.; deRis, J.
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  Wall-Fire Radiant Emission. Part 2. Radiation and Heat Transfer From Porous-Metal Wall Burner Flames.
  Factory Mutual Research Corp., Norwood, MA
  Combustion Institute, Symposium (International) on Combustion, 24th. July 5-10, 1992, Combustion Institute, Pittsburgh, PA, Sydney, Australia, 1747-1752 p., 1992

• Heskestad, G.
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  Volume Expansion Pressures and Global Heat Transfer in Compartment Fires.
  Factory Mutual Research Corp., Norwood, MA
  Combustion Institute, Symposium (International) on Combustion, 24th. July 5-10, 1992, Combustion Institute, Pittsburgh, PA, Sydney, Australia, 1753-1760 p., 1992

• Zarr, R. R.; Burch, D. M.; Faison, T. K.; Arnold, C. E.
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  Thermal Resistance Measurements of Well-Insulated and Superinsulated Residential Walls Using a Calibrated Hot Box.
  National Institute of Standards and Technology, Gaithersburg, MD
  PO-86-12
  ASHRAE Transactions, Vol. 92, No. 2, 604-619, June 1986
  PO-86-12

• Burch, D. M.; Zarr, R. R.; Licitra, B. A.
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  Method for Characterizing the Dynamic Performance of Wall Specimens Using a Calibrated Hot Box.
  National Institute of Standards and Technology, Gaithersburg, MD
  No. 3119
  ASHRAE Transactions, Vol. 94, No. Part 1, 125-140, 1988
  No. 3119

• Kapoor, K.; Jaluria, Y.
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  Penetrative Convection of a Plane Turbulent Wall Jet in a Two-Layer Thermally Stable Environment: A Problem in Enclosure Fires.
  Rutgers, The State University of New Jersey, New Brunswick
  International Journal of Heat and Mass Transfer, Vol. 36, No. 1, 155-167, 1993
  National Institute of Standards and Technology, Gaithersburg, MD,

• Dale, J. D.; Crown, E. M.; Ackerman, M. Y.; Leung, E.; Rigakis, K. B.
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  Instrumented Mannequin Evaluation of Thermal Protective Clothing.
  University of Alberta, Edmonton, Canada
  ASTM STP 1133
  ASTM STP 1133
  American Society for Testing and Materials (ASTM). Performance of Protective Clothing: Challenges for Developing Protective Clothing for the 1990s. Fourth (4th) Volume. ASTM STP 1133. June 18-20, 1991, ASTM, Philadelphia, PA, Montreal, Canada, McBriarty, J. P.; Henry, N. W., Editors, 717-733 p., 1991

• White, D. A.; Beyler, C. L.; DiNenno, P. J.
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  Performanced-Based Engineering of Industrial Facilities.
  Hughes Associates, Inc., Columbia, MD
  Society of Fire Protection Engineers and Worcester Polytechnic Institute. Computer Applications in Fire Protection. Proceedings. June 28-29, 1993, Worcester, MA, 51-55 p., 1993

• Mehaffey, J. R.
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  Model for Predicting Heat Transfer Through Gypsum-Board/Wood-Stud Walls Exposed to Fire.
  Forintek Canada Corp., Ottawa, Canada
  Society of Fire Protection Engineers and Worcester Polytechnic Institute. Computer Applications in Fire Protection. Proceedings. June 28-29, 1993, Worcester, MA, 63-68 p., 1993

• Yamashita, H.; Baum, H. R.; Kushida, G.; Nakabe, K.; Kashiwagi, T.
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  Heat Transfer From Radiatively Heated Material in a Low Reynolds Number Microgravity Environment.
  Nagoya Univ., Japan; National Institute of Standards and Technology, Gaithersburg, MD; Osaka Univ., Japan
  Journal of Heat Transfer, Vol. 115, 418-425, May 1993
  National Aeronautics and Space Administration, Washington, DC,