FireDOC Search

displaying 31 - 40 results in total 69

  • Bill, R. G., Jr.; Kung, H. C.; Vincent, B. G.; Brown, W. R.; Hill, E. E., Jr.
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    Predicting the Suppression Capability of Quick Response Sprinklers in a Light Hazard Scenario. Part 2. Actual Delivered Density (ADD) Measurements and Full-Scale Fire Tests.
    Factory Mutual Research Corp., Norwood, MA
    Journal of Fire Protection Engineering, Vol. 3, No. 3, 95-107, July/August/September 1991
    U.S. Fire Administration, Washington, DC,

  • Bill, R. G., Jr.; Kung, H. C.; Brown, W. R.; Hill, E. E., Jr.; Spaulding, R. D.
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    Predicting the Suppression Capability of Quick Response Sprinklers in a Light Hazard Scenario. Part 1. Fire Growth and Required Delivered Density (RDD) Measurements.
    Factory Mutual Research Corp., Norwood, MA
    Journal of Fire Protection Engineering, Vol. 3, No. 3, 81-937, July/August/September 1991
    U.S. Fire Administration, Washington, DC,

  • Fleming, R. P.
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    Current Fire Sprinkler Research in the U.S. Current Research.
    Fire Technology, Vol. 28, No. 2, 174-176, May 1992

  • Ingason, H.
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    Response Characteristics of Sprinkler Heads Mounted in a Paint Box. BRANDFORSK Project 726-911.
    Swedish National Testing and Research Institute, Boras, Sweden
    SP REPORT 1992:28, 1992, 33 p.

  • Stephens, J.
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    Improving Sprinkler Fire Control With Lower Water Pressures.
    Loss Prevention Council, UK
    Fire Prevention, No. 257, 32-36, March 1993

  • Notarianni, K. A.
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    Measurement of Room Conditions and Response of Sprinklers and Smoke Detectors During a Simulated Two-Bed Hospital Patient Room Fire.
    National Institute of Standards and Technology, Gaithersburg, MD
    National Institutes of Health, Bethesda, MD, NISTIR 5240, July 1993, 138 p.

  • Quiter, J. R.
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    Concurrent Sprinkler Design Ensures Positive Results.
    Rolf Jensen and Associates, Inc., Concord, CA
    Consulting-Specifying Engineer, Vol. 14, No. 4, 18-22, Mid-September 1993

  • Lougheed, G. D.; Mawhinney, J. R.; O'Neill, J. G.
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    Full-Scale Fire Tests and the Development of Design Criteria for Sprinkler Protection of Mobile Shelving Units.
    National Research Council of Canada, Ottawa, Ontario; Gage-Babcock and Associates, Vienna, VA
    Fire Technology, Vol. 30, No. 1, 98-133, First Quarter 1994

  • Wang, M.
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    Thoretische Grundlagen der Loschwirkung und der Effizienz von Sprinklern. [Theoretical Foundation of the Extinguishment and Efficiency of Sprinklers.]
    University of Kaiserslautern, Shanghai, China
    Thesis D386, 1994, 202 p.

  • Bychowski, J. A.
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    Automatic Sprinklers: Simple, Successful Fire-Suppression Devices.
    Schirmer Engineering Corp., Deerfield, IL
    Consulting-Specifying Engineer, Vol. 16, No. 5, 71-72,74,76,78,80, November 1994