Simulating the Combustion in a DI Diesel Engine Applying a New Model for the Conditional Scalar Dissipation Rate

Authors

• Carl Hergart - Ford Research Center Aachen
• Norbert Peters - Institut für Technische Mechanik, RWTH Aachen

Topic

• Diesel / compression ignition engines
• Combustion and combustion processes
• Turbulence
• Particulate matter (PM)
• Chemicals
• Corrosion

Citation

Also In

References

1. Peters, N. Müller, U.C. Pitsch, H. Wan, Y.P. “Modellierung der Schadstoffbildung bei der dieselmotorischen Verbrennung,” 5th Symposium: The working process of the internal combustion engine Graz, Austria September 1995 1995
2. Pitsch, H. Wan, Y.P. Peters, N. “Numerical Investigation of Soot Formation and Oxidation Under Diesel Engine Conditions,” SAE Technical Paper , 952357 1995
3. Peters, N. “Laminar Diffusion Flamelet Models in Non-Premixed Turbulent Combustion,” Prog. Energy Combust. Sci. 10 319 339 1984
4. Peters, N. Turbulent Combustion Cambridge University Press 2000
5. Pitsch, H. Peters, N. “A Consistent Formulation for Non-Premixed Combustion Considering Differential Diffusion Effects,” Combustion and Flame 114 26 40 1998
6. Pitsch, H. Modellierung der Zündung und Schadstoffbildung bei der dieselmotorischen Verbrennung mit Hilfe eines interaktiven Flamelet-Modells Institut für Technische Mechanik Feb. 1998
7. Bilger, R.W. Turbulent Reacting Flows Libby P.A. Williams F.A. Springer 1980
8. Jones, W.P. Whitelaw, J.H. “Calculation Methods for Turbulent Flows: A Review,” Combust. Flame 48 1 1982
9. Bilger, R. W. “The Structure of Turbulent Nonpremixed Flames,” Twenty-Second Symposium (International) on Combustion The Combustion Institute Pittsburgh 475 488 1988
10. Girimaji, S.S. “Assumed β -pdf Model for Turbulent Mixing: Validation and Extension to Multiple Scalar Mixing,” Combust. Sci. Techn. 78 177 1991
11. Hergart, C. Barths, H. Peters, N. “Using Representative Interactive Flamelets in Three-Dimensional Modeling of the Diesel Combustion Process Including Effects of Heat Transfer,” Proceedings of Tenth International Multidimensional Engine Modeling User's Group Meeting 2000
12. Pitsch, H. Chen, M. Peters, N. “Unsteady Flamelet Modeling of Turbulent Hydrogen/Air Diffusion Flames,” Twenty-Seventh Symposium (International) on Combustion The Combustion Institute Pittsburgh 1057 1064 1998
13. Hasse, C. Bikas, G. Peters, N. “Modeling DI-Diesel Combustion using the Eulerian Particle Flamelet Model,” SAE Technical Paper , 2000-01-2934 2000
14. Bilger, R.W. “Turbulent Diffusion Flames,” J. Fluid Mech. 21 122 123 1989
15. Janicka, J. Peters, N “Prediction of Turbulent Jet Diffusion Flame Lift-Off Using a PDF Transport Equation,” Nineteenth Symposium (International) on Combustion The Combustion Institute Pittsburgh 367 374 1982
16. Bilger, R.W. Turbulent Reacting Flows Libby P.A. Williams F.A. Springer 1980
17. Girimaji, S.S. “On the Modelling of Scalar Diffusion in Isotropic Turbulence,” Phys. Fluids 11 Nov 1992
18. Bilger, R.W. “Conditional Moment Closure For Turbulent Combustion: Status and Prospects,” Combustion Institute Athens 1997 1997
19. Barths, H. Hasse, C. Bikas, G. Peters, N. “Simulation of Combustion in DI Diesel Engines using an Eulerian Particle Flamelet Model,” submitted to the Twenty-Eighth Symposium (International) on Combustion The Combustion Institute Pittsburgh 2000
20. 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,” SAE Technical Paper , 962057 1996
21. Barths, H. Pitsch, H. Peters, N. “Comparison of the Representative Interactive Flamelet Model and the Magnussen Model for Combustion and Pollutant Formation in DI Diesel Engine to Experiments,” Proceedings the third International Conference on High Performance Computing in the Automotive Industry Ed. Sheh M. 1997
22. Hasse, C. Barths, H. Peters, N. “Modeling the Effect of Split Injection in Diesel Engines Using Representative Interactive Flamelets,” SAE Technical Paper , 1999-01-3547 1999
23. Hergart, C. Barths, H. Peters, N. “Modeling the Combustion Process in a Small-Bore Diesel Engine Using a Model Based on Representative Interactive Flamelets,” SAE Technical Paper , 1999-01-3550 1999
24. Barths, H. Peters, N. Brehm, N. Mack, A. Pfitzner, M. Smiljanovski, V. “Simulation of Pollutant Formation in a Gas-Turbine Combustor Using Unsteady Flamelets,” Twenty-Seventh Symposium (International) on Combustion The Combustion Institute Pittsburgh 1841 1847 1998
25. Press, W.H. Teukolsky, S.A. Vetterling, W.T. Flannery, B.P. Numerical Recipes in Fortran 77 Cambridge University Press 2 1992
26. Pitsch, H. Steiner, H. “Scalar Mixing and Dissipation Rate in Large-Eddy Simulations of Non-Premixed Turbulent Combustion,” 17th International Colloquium on the Dynamics of Explosions and Reactive Systems 1999
27. Bilger, R.W. Klimenko, A.Y. “Conditional moment closure for turbulent combustion,” Prog. Energy Combust. Sci. 25 595 687 1999
28. Mauß, F. Entwicklung eines kinetischen Modells der Ruβbildung mit schneller Polymerisation Rheinisch-Westfälische Technische Hochschule Institut für Technische Mechanik Feb. 1998
29. Gomes. E. Ecker, H-J. Schellhase, T. “Design and Develpoment of the Ford DIATA Engine,” Proceedings of 7. Aachen Colloquium 5-6 October 813 847 1998
30. Belaire, R. Boggs, D. Foulkes, D. Bartunek, B. Dürnholz, M. Strobel, M. Ecker, H-J. “The Development of Small Direct-Injection Diesel Engines for Europe and the US,” Proceedings of AVL-conference “Engine and Environment” 4-5 September 813 847 1997
31. National Research Council “Review of the Research Program of the PNGV,” National Academic Press Washington 1996
32. Barths, H. Pitsch, H. Peters, N. “Three-Dimensional Simulation of DI Diesel Combustion and Pollutant Formation Using a Two-Component Reference Fuel,” Oil and Gas Science and Technology 2 54 1999
33. Amsden, A.A. O'Rourke, P.J. Butler, T.D. KIVA-II: A Computer Program for Chemically Reactive Flows with Sprays Los Alamos National Labs. U.S.A.
34. Amsden, A.A. A Block-Structured KIVA Program for Engines with Vertical or Canted Valves Los Alamos National Labs. U.S.A.
35. Howard, J.B. “Invited Topical Review, Fullerenes Formation in Flames,” Twenty-Fourth Symposium (International) on Combustion The Combustion Institute Pittsburgh 933 946 1992
36. Müller, U.C. “Der Einflußvon Strahlungsverlusten auf die thermische NO-Bildung in laminaren CO - H 2 -Diffusionsflammen,” Diploma thesis RWTH Aachen 1989
37. O'Rourke, P.J. Amsden, A.A. “The TAB Method for Numerical Calculation of Spray Droplet Breakup,” SAE Technical Paper , 872089 1987
38. Reitz, R.D. Diwakar, R. “Effect of Drop Breakup on Fuel Sprays,” SAE Technical Paper , 860469 1986
39. Reitz, R.D. Diwakar, R. “Structure of High-Pressure Fuel Sprays,” SAE Technical Paper , 870598 1987
40. Reitz, R.D. “Modeling Atomization Processes in High-Pressure Vaporizing Sprays,” Atomization and Spray Technology 3 309 337 1987
41. Reitz, R.D. “Assessment of Heat Transfer Models for Premixed-Charge Engine Combustion Computations,” SAE Technical Paper , 910267 1991
42. Han, Z. Reitz, R.D. “A temperature wall function formulation for variable-density turbulent flows with application to engine convective heat transfer modeling,” Int. J. Heat Mass Transfer 40 3 613 625 1997
43. Bosch, W. “Der Einspritzgesetz-Indikator, ein neues Messgerät zur direkten Bestimmung des Einspritzgesetzes von Einzeleinspritzungen,” MTZ Technical Paper 25 7 1964
44. Schwarz, V. König, G. Dittrich, P. Binder, K. “Analysis of Mixture Formation, Combustion and Pollutant Formation in HD Diesel Engines using Modern Optical Diagnostics and Numerical Simulation,” SAE Technical Paper , 1999-01-3647 1999

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