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Applying an Extended Flamelet Model for a Multiple Injection Operating Strategy in a Common-Rail DI Diesel Engine

Journal Article
2009-01-0720
ISSN: 1946-3936, e-ISSN: 1946-3944
DOI: https://doi.org/10.4271/2009-01-0720
Published April 20, 2009 by SAE International in United States
Applying an Extended Flamelet Model for a Multiple Injection Operating Strategy in a Common-Rail DI Diesel Engine
Sector:
Citation: Gauding, M., Felsch, C., Kerschgens, B., Vanegas, A. et al., "Applying an Extended Flamelet Model for a Multiple Injection Operating Strategy in a Common-Rail DI Diesel Engine," SAE Int. J. Engines 2(1):727-741, 2009, https://doi.org/10.4271/2009-01-0720.
Language: English

References

  1. Barths H. Hasse C. Bikas G. Peters N. Simulation of Combustion in DI Diesel Engines using an Eulerian Particle Flamelet Model Proc. Combust. Inst. 28 1161 1168 2000
  2. Barths H. Hasse C. Peters N. Computational fluid dynamics modelling of non-premixed combustion in direct injection diesel engines Journal of Engine Research 1 249 267 2000
  3. Baulch D. L. Cobos C. J. Cox R. A. Frank P. Hayman G. Just Th. Kerr J. A. Murrels T. Pilling M. J. Troe J. Walker R. W. Warnatz J. Evaluated Kinetic Data for Combustion Modeling J. Phys. Chem. Ref. Data 21 411 429 1992
  4. Benson S. W. The Kinetics of Thermochemistry of Chemical Oxidation with Application to Combustion and Flames Prog. Energy Combust. Sci. 7 125 134 1981
  5. Chevalier C. Louessard P. Müller U. C. Warnatz J. A Detailed Low-Temperature Reaction Mechanism on n-Heptane Auto-Ignition COMMODIA 90: Int. Symp. on Diagnostics and Modeling of Combustion in Internal Engines The Japan Society of Mechanical Engineers, Kyoto 1990
  6. Ewald J. Freikamp F. Paczko G. Weber J. Haworth D.C. Peters N. GMTEC: GMTEC Developer's Manual. Technical report Advanced Combustion GmbH 2003
  7. Felsch C. Gauding M. Hasse C. Vogel S. Peters N. An extended flamelet model for multiple injections in DI Diesel engines Proc. Combust. Inst. 32 2775 2783 2009
  8. Ferziger J. H. Perić M. Computational Methods for Fluid Dynamics Springer Berlin 2002
  9. Frenklach M. Warnatz J. Detailed Modeling of PAH Profiles in a Sooting Low-Pressure Acetylene Flame Combust. Sci. Technol. 51 265 283 1987
  10. Gill A. Gutheil E. Warnatz J. Numerical Investigation of the Combustion Process in a Direct-Injection Stratified Charge Engine Combust. Sci. Technol. 115 317 333 1996
  11. Girimaji S. S. Assumed β -pdf Model for Turbulent Mixing: Validation and Extension to Multiple Scalar Mixing Combust. Sci. Technol. 18 177 196 1991
  12. Girimaji S. S. On the Modelling of Scalar Diffusion in Isotropic Turbulence Physics of Fluids A 4 2529 2537 1992
  13. Hasse C. A Two-Dimensional Flamelet Model for Multiple Injections in Diesel Engines PhD thesis RWTH Aachen University Germany 2004
  14. Hasse C. Barths H. Peters N. Modeling the Effect of Split Injections in Diesel Engines Using Representative Interactive Flamelets Paper No. SAE 1999-01-3547 1999
  15. Hasse C. Bollig M. Peters N. Dwyer H. A. Quenching of Laminar Iso-Octane Flames at Cold Walls Combust. Flame 122 117 129 2000
  16. Hasse C. Peters N. A two mixture fraction flamelet model applied to split injections in a DI Diesel engine Proc. Combust. Inst. 30 2755 2762 2005
  17. Hasse C. Peters N. Modelling of ignition mechanisms and pollutant formation in direct-injection diesel engines with multiple injections Journal of Engine Research 6 231 246 2005
  18. Hergart C.-A. Barths H. Peters N. Modeling the Combustion in a Small-Bore Diesel Engine Using a Method Based on Representative Interactive Flamelets Paper No. SAE 1999-01-3550 1999
  19. Hewson H. C. Bollig M. Reduced Mechanisms for NO x Emissions from Hydrocarbon Diffusion Flames Proc. Combust. Inst. 26 2171 2180 1996
  20. Jones W. P. Whitelaw J. H Calculation Methods for Turbulent Reacting Flows: A Review Combust. Flame 48 1 26 1982
  21. Khalighi B. El Thary S. H. Haworth D. C. Huebler M. S. Computation and Measurement of Flow and Combustion in a Four-Valve Engine with Intake Variations Paper No. SAE 950287 1995
  22. Leipertz A. Abschluβbericht zum Groβprojekt der Bayerischen Forschungsstiftung: Potential neuar-tiger Einspritzverfahren zur Reduzierung von Ruβ und NO x bei der dieselmotorischen Verbrennung Technical report, Lehrstuhl für Technische Thermodynamik Friedrich-Alexander University Erlangen-Nuremberg Germany 2000
  23. Mack A. Weber H. J. Roth P. A Moving Grid Method Applied To One-Dimensional Non-Stationary Flame Propagation International Journal for Numerical Methods in Fluids 13 869 882 1991
  24. Mauβ F. Entwicklung eines kinetischen Modells der Ruβbildung mit schneller Polymerisation PhD thesis RWTH Aachen University Germany 1997
  25. Miller J. A. Melius C. F. Kinetic and thermodynamic issues in the formation of aromatic compounds in flames of aliphatic fuels Combust. Flame 91 21 39 1992
  26. Papoulis A. Probability, Random Variables, and Stochastic Processes McGraw-Hill New York 1991
  27. Peters N. Laminar diffusion flamelet models in non-premixed turbulent combustion Prog. Energy Combust. Sci. 10 319 339 1984
  28. Peters N. Laminar flamelet concepts in turbulent combustion Proc. Combust. Inst. 21 1231 1250 1986
  29. Peters N. Turbulent Combustion Cambridge University Press Cambridge 2000
  30. Pitsch H. Modellierung der Zündung und Schad-stoffbildung bei der dieselmotorischen Verbren-nung mit Hilfe eines interaktiven Flamelet-Modells PhD thesis RWTH Aachen University Germany 1997
  31. Pitsch H. Barths H. Peters N. Three-Dimensional Modeling of NO x and Soot Formation in DI-Diesel Engines Using Detailed Chemistry Based on the Interactive Flamelet Approach Paper No. SAE 962057 1996
  32. Pitsch H. Peters N. Detailed Kinetic Reaction Mechanism for Ignition and Oxidation of α -Methylnaphthalene Proc. Combust. Inst. 26 721 728 1996
  33. Pitsch H. Peters N. Reduced Kinetics of Multicomponent Fuels to Describe the Auto-Ignition, Flame Propagation and Post Flame Oxidation of Gasoline and Diesel Fuels Technical report, IDEA EFFECT 1996
  34. Spiekermann P. Jerzembeck S. Felsch C. Vogel S. Gauding M. Peters N. Experimental Data and Numerical Simulation of Common-Rail Ethanol Sprays at Diesel Engine-Like Conditions Atomization and Sprays 19 357 386 2009
  35. Vanegas A. Won H. Felsch C. Gauding M. Peters N. Experimental Investigation of the Effect of Multiple Injections on Pollutant Formation in a Common-Rail DI Diesel Engine Paper No. SAE 2008-01-1191 2008
  36. Weber J. Peters N. Bockhorn H. Pittermann R. Numerical Simulation of the Evolution of the Soot Particle Size Distribution in a DI Diesel Engine Using an Emulsified Fuel of Diesel-Water Paper No. SAE 2004-01-1840 2004

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