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displaying 51 - 60 results in total 61

  • Vasudevan, V.; Davidson, D. F.; Hanson, R. K.; Bowman, C. T.; Golden, D. M.
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    High-Temperature Measurements of the Rates of the Reactions CH2O + Ar --> Products and CH2O + O2 --> Products.
    Stanford Univ., CA
    ['Volume 31', 'Part 1']
    Volume 31; Part 1
    Combustion Institute, Symposium (International) on Combustion, 31st. Proceedings. Volume 31. Part 1. August 5-11, 2006, Combustion Institute, Pittsburgh, PA, Heidelberg, Germany, Barlow, R. S.; Sick, V.; Glarborg, P.; Yetter, R. A., Editors, 175-183 p., 2007

  • Schrewe, M. R.; Ghandhi, J. B.
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    Near-Wall Formaldehyde Planar Laser-Induced Fluorescence Measurements During HCCI Combustion.
    Wisconsin Univ., Madison
    ['Volume 31', 'Part 2']
    Volume 31; Part 2
    Combustion Institute, Symposium (International) on Combustion, 31st. Proceedings. Volume 31. Part 2. August 5-11, 2006, Combustion Institute, Pittsburgh, PA, Heidelberg, Germany, Barlow, R. S.; Sick, V.; Glarborg, P.; Yetter, R. A., Editors, 2871-2878 p., 2007

  • Medwell, P. R.; Kalt, P. A. M.; Dally, B. B.
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    Imaging of Diluted Turbulent Ethylene Flames Stabilized on a Jet in Hot Coflow (JHC) Burner.
    Adelaide Univ., South Australia 5005, Australia
    Combustion and Flame, Vol. 152, No. 1/2, 100-113, January 2008

  • Kostka, S., Jr.; Carnell, W. F., Jr.; Renfro, M. W.
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    Propagating Edge-Flame Response to Multiple Stoichiometry Gradients.
    Connecticut Univ., Storrs
    Combustion and Flame, Vol. 154, No. 1/2, 82-95, July 2008

  • Wu, K.; Wang, Z.; Hu, Y.
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    Microencapsulated Ammonium Polyphosphate With Urea-Melamine-Formaldehyde Shell: Preparation, Characterization and Its Flame Retardance in Polypropylene.
    University of Science and Technology of China, Anhui 230026, P.R. China; Tongji Univ., Shanghai 200092, P.R. China
    Polymers for Advanced Technologies, Vol. 19, No. 8, 1118-1125, August 2008

  • Machrafi, H.; Cavadias, S.; Guibert, P.
    view article (1.0)

    Experimental and Numerical Investigation on the Influence of External Gas Recirculation on the HCCI Autoignition Process in an Engine: Thermal, Diluting and Chemical Effects.
    UPMC Université Paris 06, 75005 Paris, France; UPMC Université Paris 06, 78210 St Cyr l'Ecole, France
    Combustion and Flame, Vol. 155, No. 3, 476-489, November 2008

  • Gordon, R. L.; Masri, A. R.; Mastorakos, E.
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    Heat Release Rate as Represented by [OH] x [CH2O] and Its Role in Autoignition.
    Sydney Univ., NSW 2006, Australia; Cambridge Univ., UK
    Combustion Theory and Modelling, Vol. 13, No. 4, 645-670, August 2009

  • Kuligowski, E. D.
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    Compilation of Data on the Sublethal Effects of Fire Effluent.
    National Institute of Standards and Technology, Gaithersburg, MD
    ['NIST TN 1644', 'NIST Technical Note 1644']
    NIST TN 1644; NIST Technical Note 1644
    August 2009
    46 p.

  • Janbozorgi, M.; Ugarte, S.; Metghalchi, H.; Keck, J. C.
    view article (1.0)

    Combustion Modeling of Mono-Carbon Fuels Using the Rate-Controlled Constrained-Equilibrium Method.
    Northeastern Univ., Boston, MA; Massachusetts Institute of Technology, Cambridge
    Combustion and Flame, Vol. 156, No. 10, 1871-1885, October 2009

  • Donkerbroek, A. J.; vanVliet, A. P.; Somers, L. M. T.; Frijters, P. J. M.; Klein-Douwel, R. J. H.; Dam, N. J.; Meerts, W. L.; terMeulen, J. J.
    view article (1.0)

    Time- and Space-Resolved Quantitative LIF Measurements of Formaldehyde in a Heavy-Duty Diesel Engine.
    Combustion and Flame, Vol. 157, No. 1, 155-166, January 2010