Browse > Article

Laminar Flame Speed Measurement using Combustion Pressure Trace in Constant Volume Spherical Chamber  

Byun, Jung Joo (삼성중공업, 조선해양연구소)
Publication Information
Journal of the Korean Society of Combustion / v.17, no.2, 2012 , pp. 1-8 More about this Journal
Abstract
Laminar flame speeds of Methane at elevated temperatures and pressures were investigated using constant volume spherical chamber. Pressure trace during combustion was measured in each test and this was used in calculating laminar flame speed of Methane. To have large amount of data, experimental apparatus was fabricated with fully automatically controlled feature. A calculating code which calculates laminar flame speeds at various temperatures and pressures with one experimental result was used to calculate laminar flame speeds. The experimental and calculating methods were verified using the calculated laminar flame speed result with PREMIX code.
Keywords
Laminar flame speed; Methane; Constant volume spherical chamber;
Citations & Related Records
연도 인용수 순위
  • Reference
1 P. A. Libby and K. N. C. Bray, "Implications of the laminar flamelet model in premixed turbulent combustion", Combustion and Flame, Vol. 39, 1980, pp.33-1.   DOI
2 C. R. Ferguson and J. C. Keck, "On laminar flame quenching and its application to spark ignition engines", Combustion and Flame, Vol. 28, 1977, pp. 197-205.   DOI
3 R. J. Kee, J. Warnatz, and J. A. Miller, Sandia report sand83-8209.
4 R. J. Kee, J. F. Grcar, M. D. Smooke, and J. A. Miller, Sandia report sand85-8240.
5 C. T. Bowman, M. Frenklach, W. R. Gardiner, and G. Smith, The GRI 3.0 Chemical Kinetics Mechanism, www.me.berkeley.edu/gri_mech/, 1999.
6 T. W. III Ryan, S. S. Letz, "The Laminar Burning Velocity of Isooctane, N-Heptane, Methanol, Methane, and Propane at Elevated Temperature and Pressure in the Presence of a Diluent", SAE Paper 800103, 1980.
7 J. Beeckmann, O. Rohl, and N. Peters, "Experimental and numerical investigation of iso-octane, methanol and ethanol regarding laminar burning velocity at elevated pressure and temperature", SAE Technical Paper 2009-01-1774, 2009.