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Combustion Theory and Modelling Volume 16, 2012 - Issue 1
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Original Articles

Tabulated chemistry approaches for laminar flames: Evaluation of flame-prolongation of ILDM and flamelet methods

Pradeep K. Jha University of Toronto Institute for Aerospace Studies, 4925 Dufferin Street, Toronto, Ontario, Canada, M3H 5T6
&
Clinton P.T. Groth University of Toronto Institute for Aerospace Studies, 4925 Dufferin Street, Toronto, Ontario, Canada, M3H 5T6
Pages 31-57 | Received 25 Nov 2010, Accepted 06 Jul 2011, Published online: 05 Oct 2011

References

  • Delhaye , S. , Somers , L. M.T. , van Oijen , J. A. and de Goey , L. P.H. 2008 . Incorporating unsteady flow-effects in flamelet-generated manifolds . Combust. Flame , 155 : 133 – 144 .
  • Pope , S. B. 1997 . Computationally efficient implementation of combustion chemistry using in situ adaptive tabulation . Combust. Theory Model. , 1 : 41 – 63 .
  • Peters , N. 1991 . Reducing mechanisms
  • van Oijen , J. A. and de Goey , L. P.H. 2000 . Modeling of premixed laminar flames using flamelet-generated manifolds . Combust. Sci. Technol. , 161 : 113 – 137 .
  • Lam , S. H. and Goussis , D. A. 1991 . Conventional asymptotics and computational singular perturbation for simplified kinetics modeling . Lecture Notes in Physics , 384 : 227 – 242 .
  • Maas , U. and Pope , S. B. 1992 . Simplifying chemical kinetics: Intrinsic low-dimensional manifolds in composition space . Combust. Flame , 88 : 239 – 264 .
  • Pope , S. B. and Maas , U. 1993 . Simplifying chemical kinetics: Trajectory generated low-dimensional manifolds , Mechanical and Aerospace Engineering Report: FDA 93–11 .
  • Wang , M. , Huang , J. , Frisque , A. and Bushe , W. K. 2008 . Generating trajectories for low-dimensional manifolds using the stochastic particle model . Combust. Theory Model. , 12 : 249 – 267 .
  • Bilger , R. W. 1980 . Turbulent flows with nonpremixed reactants . Turbulent Reacting Flows , 44 : 65 – 113 .
  • Libby , P. A. and Williams , F. A. 1976 . Turbulent flows involving chemical reactions . Ann. Rev. Fluid Mech. , 8 : 351 – 376 .
  • Peters , N. 1984 . Laminar diffusion flamelet models in non-premixed turbulent combustion . Prog. Energy Combust. Sci. , 10 : 319 – 339 .
  • Chen , M. , Herrmann , M. and Peters , N. 2000 . Flamelet modeling of lifted turbulent methane/air and propane/air jet diffusion flames . Proc. Combust. Inst. , 28 : 167 – 174 .
  • Wen , Z. , Yun , S. , Thomson , M. J. and Lightstone , M. F. 2003 . Modeling soot formation in turbulent kerosene/air jet diffusion flames . Combust. Flame , 135 : 323 – 340 .
  • Liu , F. , Guo , H. and Smallwood , G. J. 2006 . Evaluation of the laminar diffusion flamelet model in the calculation of an axisymmetric coflow laminar ethylene-air diffusion flame . Combust. Flame , 144 : 605 – 618 .
  • Smooke , M. D. , Xu , Y. , Zurn , R. M. , Lin , P. , Frank , J. H. and Long , M. B. 1992 . Computational and experimental study of OH and CH radicals in axisymmetric laminar diffusion flames . Proc. Combust. Inst. , 24 : 813 – 821 .
  • Nishioka , M. , Takemoto , Y. , Yamashita , H. and Takeno , T. 1996 . Effects of multi-dimensionality on a diffusion flame . Proc. Combust. Inst. , 26 : 1071 – 1077 .
  • Gicquel , O. , Darabiha , N. and Thévenin , D. 2000 . Laminar premixed hyrogen/air counterflow flame simulations using flame prolongation of ILDM with differential diffusion . Proc. Combust. Inst. , 28 : 1901 – 1908 .
  • Vervisch , L. , Hauguel , R. , Domingo , P. and Rullaud , M. 2004 . Three facets of turbulent combustion modelling: DNS of premixed V-flame, LES of lifted nonpremixed flame and RANS of jet-flame . J. Turbulence , 4 : 1 – 36 .
  • Fiorina , B. , Baron , R. , Gicquel , O. , Vervisch , L. , Carpentier , S. and Darabiha , N. 2003 . Modelling non-adiabatic partially premixed flames using flame-prolongation of ILDM . Combust. Theory Model. , 7 : 449 – 470 .
  • Fiorina , B. , Gicquel , O. , Vervisch , L. , Carpentier , S. and Darabiha , N. 2005 . Premixed turbulent combustion modeling using tabulated detailed chemistry and PDF . Proc. Combust. Inst. , 30 : 867 – 874 .
  • Galpin , J. , Naudin , A. , Vervich , L. , Angelberger , C. , Colin , O. and Domingo , P. 2008 . Large-eddy simulation of a fuel-lean premixed turbulent swirl-burner . Combust. Flame , 155 : 247 – 266 .
  • van Oijen , J. A. , Lammers , F. A. and de Goey , L. P.H. 2001 . Modeling of complex premixed burner systems by using flame-generated manifold . Proc. Combust. Inst. , 127 : 2124 – 2134 .
  • Domingo , P. , Vervisch , L. and Veynante , D. 2008 . Large-eddy simulation of a lifted methane jet flame in a vitiated coflow . Combust. Flame , 152 : 415 – 432 .
  • Michel , J. B. , Colin , O. and Veynante , D. 2009 . Comparison of differing formulations of the PCM model by their application to the simulation of an auto-igniting H2/air jet . Flow Turbulence Combust. , 83 : 33 – 60 .
  • Michel , J. B. , Colin , O. , Angelberger , C. and Veynante , D. 2009 . Using the tabulated diffusion flamelet model ADF-PCM to simulate a lifted methane-air jet flame . Combust. Flame , 156 : 1318 – 1331 .
  • Peters , N. 2000 . Turbulent Combustion , Cambridge : Cambridge University Press .
  • Goodwin , D. and Moffat , H. K. Cantera http://code.google.com/p/cantera/.
  • Pitsch , H. and Peters , N. 1998 . A consistent flamelet formulation for non-premixed combustion considering differential diffusion effects . Combust. Flame , 114 : 26 – 40 .
  • Liew , S. K. , Bray , K. N.C. and Moss , J. B. 1984 . A stretched laminar flamelet model of turbulent nonpremixed combustion . Combust. Flame , 56 : 199
  • Domingo , P. , Vervisch , L. and Sandra Payet , R. H. 2005 . DNS of a premixed turbulent V flame and LES of a ducted flame using a FSD-PDF subgrid scale closure with FPI-tabulated chemistry . Combust. Flame , : 566 – 586 .
  • Fiorina , B. , Gicquel , O. , Vervisch , L. , Carpentier , S. and Darabiha , N. 2005 . Approximating the chemical structure of partially premixed and diffusion counterflow flames using FPI flamelet tabulation . Combust. Flame , 140 : 147 – 160 .
  • Galpin , J. September 2007 . Modélisation LES de la combustion avec une prise en compte des effets de cinétique détaillée et en perspective d’application moteur , PhD thesis, IFP, Division Techniques d’Applications Énergétiques .
  • Vicquelin , R. , Fiorina , B. , Payet , S. , Darabiha , N. and Gicquel , O. 2011 . Coupling tabulated chemistry with compressible CFD solvers . Proc. Combust. Inst. , 33 : 1481 – 1488 .
  • Kuo , K. 1986 . Principles of Combustion , New York : John Wiley .
  • Aris , R. 1989 . Vectors, Tensors and the Basic Equations of Fluid Mechanics , New Jersey : Dover Publications .
  • Northrup , S. A. and Groth , C. P.T. January 2005 . Solution of laminar diffusion flames using a parallel adaptive mesh refinement algorithm , Paper 2005–0547, AIAA .
  • Gao , X. and Groth , C. P.T. 2006 . A parallel adaptive mesh refinement algorithm for predicting turbulent non-premixed combusting flows . Int. J. Comput. Fluid Dyn. , 20 : 349 – 357 .
  • Charest , M. R.J. , Groth , C. P.T. and Gülder , O. L. 2010 . A computational framework for solving laminar reacting flows with soot formation . Combust. Theory Model. , 14 : 793 – 825 .
  • Gao , X. , Northrup , S. A. and Groth , C. P.T. 2010 . Parallel solution-adaptive method for two-dimensional non-premixed combusting flows . Prog. Comput. Fluid Dyn. , 11 : 76 – 95 .
  • Hirschfelder , J. O. , Curtiss , C. F. and Byrd , R. B. 1969 . Molecular Theory of Gases and Liquids , New York : John Wiley .
  • Wilke , C. R. 1950 . A viscosity equation for gas mixtures . J. Chem. Phys. , 18 : 517 – 519 .
  • Mathur , C. R. , Tondon , P. K. and Saxena , S. C. 1967 . Thermal conductivity of binary, ternary and quaternary mixtures of rare gases . Mol. Phys. , 12 : 569 – 579 .
  • Westbrook , C. K. and Dryer , F. L. 1981 . Simplified reaction mechanisms for the oxidation of hydrocarbon fuels in flames . Combust. Sci. Technol. , 27 : 31 – 43 .
  • 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. , Lissianski , V. V. and Qin , Z. GRI-Mech 3.0 http://www.me.berkeley.edu/gri_mech/.
  • Puri , I. K. , Seshadri , K. , Smooke , M. D. and Keyes , D. E. 1987 . A comparison between numerical calculations and experimental measurements of the structure of a counterflow methane-air diffusion flame . Combust. Sci. Technol. , 56 : 1 – 22 .
  • Biagioli , F. and Güthe , F. 2007 . Effect of pressure and fuel-air unmixedness on NO x emissions from industrial gas turbine burners . Combust. Flame , 151 : 274 – 288 .
  • Wang , M. , Huang , J. and Bushe , W. K. 2007 . Simulation of a turbulent non-premixed flame using conditional source-term estimation with trajectory generated low-dimensional manifold . Proc. Combust. Inst. , 31 : 1701 – 1709 .
  • Godel , G. , Domingo , P. and Vervisch , L. 2009 . Tabulation of NOx chemistry in large-eddy simulation of non-premixed turbulent flames . Proc. Combust. Inst. , 32 : 1555 – 1561 .
  • Mohammed , R. K. , Tanoff , M. A. , Smooke , M. D. , Schaffer , A. M. and Long , M. B. 1998 . “ Computational and experimental study of a forced, time-varying, axisymmetric, laminar diffusion flame ” . In Twenty-Seventh Symposium (International) on Combustion , 693 – 702 . Pittsburgh : The Combustion Institute .
  • Bell , J. , Day , M. , Almgren , A. , Lijewski , M. J. and Rendleman , C. A. June 2001 . “ Adaptive numerical simulation of turbulent premixed combustion ” . In Proceedings of the First MIT Conference on Computational Fluid and Solid Mechanics 1
  • Hernàndez-Pérez , F. E. , Yuen , F. T.C. , Groth , C. P.T. and Gulder , O. L. 2011 . LES of a laboratory-scale turbulent premixed bunsen flame using FSD, PCM-FPI and thickened flame models . Proc. Combust. Inst. , 33 : 1365 – 1371 .

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