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Modelling and Numerical Simulation of Dual Fuel Lean Flames Using Local Burning Velocity and Critical Chemical Timescale

Journal Article
03-12-04-0025
ISSN: 1946-3936, e-ISSN: 1946-3944
Published July 02, 2019 by SAE International in United States
Modelling and Numerical Simulation of Dual Fuel Lean Flames Using Local Burning Velocity and Critical Chemical Timescale
Citation: Muppala, S., Vendra, C., and Aluri, N., "Modelling and Numerical Simulation of Dual Fuel Lean Flames Using Local Burning Velocity and Critical Chemical Timescale," SAE Int. J. Engines 12(4):373-385, 2019, https://doi.org/10.4271/03-12-04-0025.
Language: English

References

  1. Lipatnikov , A.N. and Chomiak , J. Molecular Transport Effects on Turbulent Flame Propagation and Structure Progress in Energy and Combustion Science 31 1 73 2005
  2. Blarigan , P.V. and Keller , J.O. A Hydrogen Fuelled Internal Combustion Engine Designed for Single Speed/Power Operation Int. J. Hydrogen Energy 23 7 603 609 2002
  3. Griebel , P. , Boschek , E. , and Jansohn , P. Flame Stability and NOx Emission Improvements due to H 2 Enrichment of Turbulent, Lean Premixed, High-Pressure, Methane/Air Flames The Future of Gas Turbine Technology Belgium Brussels 2006
  4. Jackson , G.S. , Sai , R. , Plaia , J.M. , Boggs , C.M. , and Kiger , K.T. Erratum to “Influence of H 2 on the Response of Lean Premixed CH 4 Flames to High Strained Flows” Combust. Flame 132(3)(2003)503-511 Combustion and Flame 135 3 363 2003
  5. Halter , F. Caractérisation des effets de l’ajout d’hydrogène et de la haute pression dans les flammes turbulentes de prémélange méthane/air Energétique - Mécanique des fluides Orleans, France l’Universite d’Orleans 2005 1 251
  6. Lafay , Y. , Renou , B. , Cabot , C. , and Boukahlfa , M. Experimental and Numerical Investigation of the Effect of H 2 Enrichment on Laminar Methane-Air Flame Thickness Combustion and Flame 153 540 561 2008
  7. Shy , S.S. , Chen , Y.C. , Yang , C.H. , Liu , C.C. , and Huang , C.M. Effects of H 2 or CO 2 Addition, Equivalence Ratio, and Turbulent Straining on Turbulent Burning Velocities for Lean Premixed Methane Combustion Combustion and Flame 153 510 524 2008
  8. Kido , H. , Nakahara , M. , Hashimoto , J. , and Barat , D. Turbulent Burning Velocities of Two-Component Fuel Mixtures of Methane, Propane and Hydrogen JSME International Journal, Series B 45 2 2002
  9. Cheng , R.K. , Littlejohn , D. , Strakey , P.A. , and Sidwell , T. Laboratory Investigations of a Low-Swirl Injector with H 2 and CH 4 at Gas Turbine Conditions Proceedings of the Combustion Institute 32 2 3001 3009 2009
  10. Schefer , R.W. Combustion of Hydrogen-Enriched Methane in a Lean Premixed Swirl Burner DOE Hydrogen Program Review 2001
  11. Halter , F. , Cohé , C. , Chauveau , C. , and Gökalp , I. Characterization of the Effects of Hydrogen Addition in Lean Premixed Methane/Air Turbulent Flames at High Pressure Proceedings of the European Combustion Meeting Orleans, France 2003
  12. Law , C.K. , Jomaas , G. , and Bechtold , J.K. Cellular Instabilities of Expanding Hydrogen/Propane Spherical Flames at Elevated Pressure: Theory and Experiment Proceeding of the Combustion Institute 30 159 167 2005
  13. Hawkes , E.R. and Chen , J.H. Direct Numerical Simulation of Hydrogen-Enriched Lean Premixed Methane-Air Flames Combustion and Flame 138 3 242 258 2004
  14. Lipatnikov , A. and Chomiak , J. A Theoretical Study of Premixed Turbulent Flame Development Proceedings of the Combustion Institute 30 843 2005
  15. Kido , H. , Nakashima , K. , Nakahara , M. , and Hashimoto , J. Experimental Study on the Configuration and Propagation Characteristics of Premixed Turbulent Flame JSME International Journal 22 131 138 2001
  16. Bechtold , J.K. and Matalon , M. The Dependence of the Markstein Length on Stoichiometry Combustion and Flame 127 1-2 1906 1913 2001
  17. Bray , K.N.C. and Peters , N. Laminar Flamelets in Turbulent Flames Libby P.A. , Williams A. Turbulent Reactive Flows London Academic Press 1994 63 113
  18. Bradley , D. , Gaskell , P.H. , Sedaghat , A. , and Gu , X.J. Generation of PDFS for Flame Curvature and for Flame Stretch Rate in Premixed Turbulent Combustion Combustion and Flame 135 4 503 523 2003
  19. Bray , K.N.C. and Cant , R.S. Some Applications of Kolmogorov's Turbulence Research in the Field of Combustion Proc R Soc Lond A434 217 240 1991
  20. Muppala , S.P.R. , Aluri , N.K. , Dinkelacker , F. , and Leipertz , A. Development of an Algebraic Reaction Rate Closure for the Numerical Calculation of Turbulent Premixed Methane, Ethylene and Propane/Air Flames for Pressures up to 1.0 MPa Combustion and Flame 140 257 266 2005
  21. Dinkelacker , F. , Manickam , B. , and Muppala , S.P.R. Modelling and Simulation of Turbulent Methane/Hydrogen/Air Flames with an Effective Lewis Number Approach Combustion and Flame 158 9 1742 1749 2011
  22. Bray , K.N.C. , Libby , P.A. , and Moss , J.B. Flamelet Crossing Frequencies and Mean Reaction Rates in Premixed Turbulent Combustion Combust. Sci. Technol. 41 143 172 1984
  23. Duclos , J.M. , Veynante , D. , and Poinsot , T. A Comparison of Flamelet Models for Premixed Turbulent Combustion Combustion and Flame 95 101 117 1993
  24. Kobayashi , H. , Kawabata , Y. , and Maruta , K. Experimental Study on General Correlation of Turbulent Burning Velocity at High Pressure Proceedings of the Combustion Institute 27 941 948 1998
  25. Muppala , S.P.R. and Dinkelacker , F. Numerical Modelling of the Pressure Dependent Reaction Source Term for Premixed Turbulent Methane/Air Flames Progress in Computational Fluid Dynamics 4 6 328 336 2004
  26. Aluri , N.K. , Muppala , S.P.R. , and Dinkelacker , F. Large-Eddy Simulation of Lean Premixed Turbulent Flames of Three Different Combustion Configurations Using a Novel Reaction Flow Turbulence and Combustion 80 2 207 224 2008
  27. Chen , Y.-C. and Bilger , R.W. Experimental Investigation of Three-Dimensional Flame-Front Structure in Premixed Turbulent Combustion: II. Lean Hydrogen/Air Bunsen Flames Combustion and Flame 138 1-2 155 174 2004
  28. Matalon , M. and Matkowsky , B.J. Flames as Gas Dynamic Discontinuities Journal Fluid Mechanics 124 239 260 1982
  29. Kolmogorov , A.N. , Petrovsky , E.G. , and Piskounov , N.S. 1937 Dynamics of Curved Fronts
  30. Zeldovich , Y.B. Flame Propagation in a Substance Reacting at Initial Temperature Combustion and Flame 39 219 224 1980
  31. Betev , A.S. , Karpov , V.P. , Lipatnikov , A. , and Vardosanidze , Z.P. Hydrogen Combustion in Engines and Preferential Diffusion Effects in Laminar and Turbulent Flames Archivum Combustionis 15 3-4 188 215 1995
  32. Lipatnikov , A.
  33. Kido , H. , Nakahara , M. , and Nakashima , K. A Study on the Local Flame Displacement Velocity of Premixed Turbulent Flames JSME International Journal Series B 48 1 164 171 2005
  34. Ansys Incorporated

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