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Combustion Science and Technology Volume 182, 2010 - Issue 4-6: SIXTH MEDITERRANEAN COMBUSTION SYMPOSIUM
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Original Articles

Experimental Investigation and Numerical Simulation of the Structure of CH3CHO/O2/Ar Flames at Different Equivalence Ratios

N. Leplat Laboratoire de Physico-Chimie de la Combustion, Université catholique de Louvain, Place Louis Pasteur, Louvain-la-Neuve, BelgiumCorrespondence[email protected]
&
J. Vandooren Laboratoire de Physico-Chimie de la Combustion, Université catholique de Louvain, Place Louis Pasteur, Louvain-la-Neuve, Belgium
Pages 436-448 | Received 26 Feb 2009, Accepted 12 Oct 2009, Published online: 07 May 2010

REFERENCES

  • Beeley , P. , Griffiths , J.F. , Hunt , B.A. , and Williams , A. 1977 . The combustion of acetaldehyde behind incident shock waves . Proc. Combust. Inst. , 16 , 1013 .
  • Bentz , T. , Striebel , F. , and Olzmann , M. 2008 . Shock-tube study of the thermal decomposition of CH3CHO and CH3CHO + H reaction . J. Phys. Chem. A , 112 , 6120 .
  • Borisov , A.A. , Gol'Denberg , M. Ya. , Zamanskii , V. M. , Konnov , A. A. , and Lisyanskii , V.V. 1989a . On the rate constants of unimolecular conversions of acetaldehyde and ethylene oxide . Sov. J. Chem. Phys. , 5 ( 3 ), 540 .
  • Borisov , A. A. , Zamanskii , V. M. , Konnov , A. A. , Lisyanskii , V. V. , Rusakov , S. A. , and Skachkov , G. I. 1989b . High-temperature Ignition of mixtures of ethanol and acetaldehyde with oxygen . Sov. J. Chem. Phys. , 4 ( 11 ), 2561 .
  • Borisov , A.A. , Zamanskii , V.M. , Konnov , A.A. , Lisyanskii , V.V. , and Skachkov , G.I. 1985 . High-temperature decomposition of ethylene oxide and acetaldehyde . Sov. J. Chem. Phys. , 3 ( 4 ), 851 .
  • Borisov , A.A. , Zamanskii , V.M. , Konnov , A.A. , and Skachkov , G.I. 1990 . Mechanism of high temperature acetaldehyde oxidation . Sov. J. Chem. Phys. , 6 ( 3 ), 748 .
  • Burcat , A. 2007 . Ideal gas thermodynamic data in polynomial form for combustion and air pollution use. Available at: http://garfield.chem.elte.hu/Burcat/burcat.html (accessed February 2009).
  • Cavanagh , J. , Cox , R.A. , and Olson , G. 1990 . Computer modelling of cool flames and ignition of acetaldehyde . Combust. Flame , 82 , 15 .
  • Colket , M.B. , III , Naegeli , D.W. , and Glassman , J. 1975 . High-temperature pyrolysis of acetaldehyde . Int. J. Chem. Kinet. , 7 , 223 .
  • Colket , M.B. , III , Naegeli , D.W. , and Glassman , J. 1977. High-temperature oxidation of acetaldehyde. Proc. Combust. Inst. , 16, 1023.
  • COSILAB® . 2007 . The Combustion Simulation Laboratory, Version 2.1. Rotexo GmbH & Co. KG, Haan, Germany. Available at: www.SoftPredict.com (accessed February 2009).
  • Dagaut , P. , Reuillon , M. , Voisin , D. , Cathonnet , M. , McGuinness , M. , and Simmie , J.M. 1995 . Acetaldehyde oxidation in a JSR and ignition in shock waves: Experimental comprehensive kinetic modeling . Combust. Sci. Tech. , 107 , 301 .
  • Ernst , J. , and Spindler , K. 1975 . Untersuchungen zum thermischen Zerfall von Acetaldehyd und Aceton . Ber. Bunsenges. , 79 , 1163 .
  • Ernst , J. , Spindler , K. , and Wagner , H.Gg. 1976 . Untersuchungen zum thermischen Zerfall von Acetaldehyd und Aceton . Ber. Bunsenges. , 80 , 645 .
  • Friedrichs , G. , Davidson , D.F. , and Hanson , R.K. 2002 . Direct measurements of the reaction H + CH2O → H2 + HCO behind shock waves means of Vis-UV detection of formaldehyde . Int. J. Chem. Kinet. , 34 ( 6 ), 375 .
  • Friedrichs , G. , Davidson , D.F. , and Hanson , R.K. 2004 . Validation of a thermal decomposition mechanism of formaldehyde by detection of CH2O and HCO behind shock waves . Int. J. Chem. Kinet. , 36 ( 3 ), 157 .
  • Gupte , K.S. , Kiefer , J.H. , Tranter , R.S. , Klippenstein , S.J. , and Harding , L.B. 2007 . Decomposition of acetaldehyde: Experiment and detailed theory . Proc. Combust. Instit. , 31 , 167 .
  • Kaiser , E.W. , Westbrook , C.K. , and Pitz , W.J. 1986 . Acetaldehyde oxidation in the negative temperature coefficient regime: Experimental and modeling results . Int. J. Chem. Kinet. , 18 , 655 .
  • Kent , J.H. 1970 . A noncatalytic coating for platinum-rhodium thermocouples . Combust. Flame , 14 , 279 .
  • Leplat , N. , Seydi , A. , and Vandooren , J. 2008 . An experimental study of the structure of a stoichiometric ethanol/oxygen/argon flame . Combust. Sci. Tech. , 180 ( 3 ), 519 .
  • Mahmud , K. , Marshall , P. , and Fontijn , A.A. 1987 . High-temperature photochemistry kinetics study of the reaction of O(3P) atoms with ethylene from 290 to 1510 K . J. Phys. Chem. , 91 ( 6 ), 1568 .
  • Marinov , N. M. 1999 . A detailed chemical kinetic model for high temperature ethanol oxidation . Int. J. Chem. Kinet. , 31 , 183 .
  • Michael , J.V. , and Wagner , A.F. 1990 . Rate constants for the reactions O + C2H2 and O + C2D2 → products, over the temperature range ∼850–1950 K, by the flash photolysis-shock tube technique. Determination of the branching ratio and a further theoretical analysis . J. Phys. Chem. , 94 ( 6 ), 2453 .
  • Smith , G.P. , Golden , D.M. , Frenklach , M. , Moriarty , N.W. , Eiteneer , B. , Goldenberg , M. , Bowman , C.T. , Hanson , R.K. , Song , S. , Gardiner , W.C. , Jr. , Lissianski , V.V. , and Qin , Z. Gri-Mech . Available at: http://www.me.berkeley.edu/gri_mech/
  • Vandooren , J. , Branch , M.C. , and Van Tiggelen , P.J. 1992 . Comparisons of the structure of stoichiometric CH4-N2O-Ar and CH4-O2-Ar flames by molecular beam sampling and mass spectrometric analysis . Combust. Flame , 90 , 247 .
  • Vasudevan , V. , Davidson , D.F. , and Hanson , R.K. 2004 . Direct measurements of the reaction OH + CH2O → HCO + H2O at high temperatures . Int. J. Chem. Kinet. , 37 ( 2 ), 98 .
  • Vasudevan , V. , Davidson , D.F. , Hanson , R.K. , Bowman , C.T. , and Golden , D.M. 2007 . High-temperature measurements of the rates of the reaction CH2O + Ar → products and CH2O + O2 → products . Proc. Combust. Inst. , 31 , 175 .
  • Won , S.-J. , Ryu , J.-C. , Bae , J.-H. , Kim , Y.-D. , and Kang , J.-G. 2000 . Shock-tube study of the oxidation of acetaldehyde at high temperature . Bull. Korean Chem. Soc. , 21 ( 5 ), 487 .
  • Yasunaga , K. , Kubo , S. , Hoshikawa , H. , Kamesawa , T. , and Hidaka , Y. 2007 . Shock-tube and modeling study of acetaldehyde pyrolysis and oxidation . Int. J. Chem. Kinet. , 40 , 73 .
  • Zamanskii , V.M. , Konnov , A.A. , Lisyanskii , V.V. , and Rusakov , S.A. 1986 . On the mechanism of high-temperature decomposition of acetaldehyde . Sov. J. Chem. Phys. , 4 ( 2 ), 376 .

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