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displaying 131 - 140 results in total 185

  • Cremers, M. F. G.; Remie, M. J.; Schreel, K. R. A. M.; deGoey, L. P. H.
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    Heat Transfer Mechanisms of Laminar Flames of Hydrogen + Oxygen.
    Eindhoven University of Technology, The Netherlands
    Combustion and Flame, Vol. 139, No. 1/2, 39-51, October 2004

  • Zhao, Z.; Kazakov, A.; Dryer, F. L.
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    Measurements of Dimethyl Ether/Air Mixture Burning Velocities by Using Particle Image Velocimetry.
    Princeton Univ., NJ
    Combustion and Flame, Vol. 139, No. 1/2, 52-60, October 2004

  • Bosschaart, K. J.; deGoey, L. P. H.
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    Extension of the Heat Flux Method to Subatmospheric Pressures.
    Eindhoven University of Technology, Eindhoven, The Netherlands; J.M. Burgers Centrum, Eindhoven, the Netherlands
    Combustion Science and Technology, Vol. 176, No. 9, 1537 - 1564, September 2004

  • Bjerketvedt, D.; Kristoffersen, K.; Vaagsaether, K.; Mjaavatten, A.; Thomas, G. O.
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    Method for Estimating the Burning Velocity in a Tube by Using Experimental Pressure Records and the One-Dimensional RCMLAB Code.
    Telemark University College, Porsgrunn, Norway; Wales Aberystwyth Univ., UK
    Combustion Science and Technology, Vol. 176, No. 11, 1725-1734, November 2004

  • Takizawa, K.; Takahashi, A.; Tokuhashi, K.; Kondo, S.; Sekiya, A.
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    Burning Velocity Measurement of Fluorinated Compounds by the Spherical-Vessel Method.
    National Institute of Advanced Industrial Science and Technology (AIST), Ibaraki 305-8565, Japan
    Combustion and Flame, Vol. 141, No. 3, 298-307, May 2005

  • Ibarreta, A. F.; Sung, C. J.; Hirasawa, T.; Wang, H.
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    Burning Velocity Measurements of Microgravity Spherical Sooting Premixed Flames Using Rainbow SCHLIEREN Deflectometry.
    Case Western Reserve University, Cleveland, OH; Chubu University, Kasugai, Aichi 487-8501, Japan; Southern California Univ., Los Angeles
    Combustion and Flame, Vol. 140, No. 1/2, 93-1025, January 2005

  • Zhao, Z.; Li, J.; Kazakov, A.; Dryer, F. L.; Zeppieri, S. P.
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    Burning Velocities and a High-Temperature Skeletal Kinetic Model for n-decane.
    Princeton Univ., NJ; United Technologies Research Center, East Hartford, CT
    Combustion Science and Technology, Vol. 177, No. 1, 89-106, January 2005

  • Filatyev, S. A.; Driscoll, J. F.; Carter, C.D.; Donbar, J. M.
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    Measured Properties of Turbulent Premixed Flames for Model Assessment, Including Burning Velocities, Stretch Rates, and Surface Densities.
    Michigan Univ., Ann Arbor; Air Force Research Laboratory AFRL/PRAS, Wright-Patterson AFB, OH
    Combustion and Flame, Vol. 141, No. 1/2, 1-21, April 2005

  • Lawn, C. J.; Evesque, S.; Polifke, W.
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    Model for the Thermoacoustic Response of a Premixed Swirl Burner. Part 1. Acoustic Aspects.
    London Univ., England; Technische Universität München, Munich, Germany
    Combustion Science and Technology, Vol. 176, No. 8, 1331-1358, August 2004

  • Lawn, C. J.; Polifke, W.
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    Model for the Thermoacoustic Response of a Premixed Swirl Burner. Part 2. The Flame Response.
    London Univ., England; Technische Universität München, Munich, Germany
    Combustion Science and Technology, Vol. 176, No. 8, 1359-1390, August 2004