A study on the performance of combustion in a HCCI engine using N-heptane by a multi-zone model

Proceedings of the ASME Internal Combustion Engine Division Fall Technical Conference 2009

Volumn , Issue , 2009, Pages 489-497

  Guo, Hongsheng ^a   Li, Hailin ^b   Neill, W Stuart ^a  

^a NATIONAL RESEARCH COUNCIL CANADA   (Canada)

^b WEST VIRGINIA UNIVERSITY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

COMBUSTION; COMPUTER SIMULATION; ENGINES; HEPTANE; INTERNAL COMBUSTION ENGINES;

AIR/FUEL RATIO; CHEMICAL SPECIES; CO EMISSIONS; COMPRESSION RATIOS; CYLINDER PRESSURE DATA; ENGINE SPEED; EXPERIMENTAL DATA; HCCI ENGINE; MULTI-ZONE MODELS; N-HEPTANES; NUMERICAL DATA; NUMERICAL SIMULATION; OPERATING CONDITION; OPERATION CONDITIONS; REACTION MECHANISM;

MATHEMATICAL MODELS;

EID: 84894634678     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1115/ICEF2009-14117     Document Type: Conference Paper

References (30)

1. Noguchi, M., Tanaka, Y., Tanaka, T., and Takeuchi, Y., "A study on gasoline engine Combustion by Observation of Intermediate Reactive Products during Combustion", SAE paper 79-0840, 1979.
2. Onishi, S., Jo, S.H., Shoda, K., Jo, P.D., and Kato, S., Active thermo-atmosphere combustion (ATAC) - a new combustion process for internal combustion engines", SAE paper 79-0501, 1979.
3. Najt, P.M., and Foster, D.E., "Compression ignited homogeneous charge combustion", SAE paper 83-0264, 1983.
4. Westbrook, C.K., "Chemical kinetics of hydrocarbon ignition in practical combustion systems", Proc. Comb. Inst. 28 (2000) 1563-1577.
5. Aceves, S.M., Smith, J.R., Westbrook, C.K., Pitz, W.J., "Compression Ratio effect on methane HCCI combustion", Journal of Engineering for Gas Turbines and Power 121 (1999) 569-574.
6. Fiveland, S.B., Assanis, D.N., "A four-stroke homogeneous charge comp ression ignition engine simulation for combustion and performance studies", SAE paper 2000-01-0332.
7. Li, H., Guo, H., Neill, W.S., and Taylor, J.D., "An experimental and modeling study of HCCI combustion using n-heptane", Journal of Engineering for Gas Turbines and Power (2009, in press).
8. Aceves, S.M., Flowers, D.L., Westbrook, C.K., Smith, J.R., Pitz, W., Robert Dibble, R., Christensen, M., and Johansson, B., "A Multi-Zone Model for Prediction of HCCI Combustion and Emissions", SAE paper 2000-01-0327, 2000.
9. Aceves, S.M., Martinez-Frias, J., Flowers, D.L., Smith, J.R., Dibble, R.W., Wright, J.E., Hessel, R.P., "A decoupled model of detailed fluid mechanics followed by detailed chemical kinetics for prediction of iso-octane HCCI combustion", SAE paper 2001-01-3612.
10. Mehl, M., Tardani, A., Faravelli, T., Ranzi, E., D' Errico, G., Lucchini, T., onorati, A., Miller, D., Cernansky, N., "A multizone approach to the detailed kinetic modeling of HCCI combustion", SAE paper 2007-24-0086.
11. Easley, W.L., Agarwal A., and Lavoie, G.A., "Modeling of HCCI combustion and emissions using detailed chemistry", SAE paper 2001-01-1029.
12. Fiveland, S.B., and Assanis, D.N., "Development of a two-zone HCCI combustion model accounting for boundary layer effects", SAE paper 2001-01-1028.
13. Ogink, R., and Golovitchev, V., "Gasoline HCCI modeling: an engine cycle simulation code with a multi-zone combustion model" SAE paper 2002-01-1745.
14. Komninos, N.P., Hountalas, D.T., and Kouremenos, D. A., "Development of a new multi-zone model for the description of physical processes in HCCI engines", SAE paper 2004-01-0562.
15. Komninos, N.P., Hountalas, D.T., and Kouremenos, D.A., "Description of in-cylinder combustion processes in HCCI engines using a multi-zone model". SAE paper 2005-01-0171.
16. Kongsereeparp, P., Kashani, B., and Checkel, D., "A stand-alone multi-zone model for combustion in HCCI engines", ASME Internal Combustion Engine Division 2005 Fall Technical Conference, paper number ICEF2005-1241, Ottawa, Canada, 2005.
17. Kongsereeparp, P., and Checkel, D., "Novel method of setting initial conditions for multi-zone HCCI combustion modeling", SAE paper 2007-01-0674.
18. P. N. Brown, G. D. Byrne, and A. C. Hindmarsh, "VODE: A Variable Coefficient ODE Solver", SIAM J. Sci. Stat. Comput., 10 (1989), pp. 1038-1051.
19. RJ. Kee., J.A. Miller, T.H. Jefferson, A General-Purpose, Problem-Independent, Transportable, Fortran Chemical Kinetics Code Package, Report No. SAND 80-8003, Sandia National Laboratories, 1980.
20. Woschni, G., "A universally applicable equation for the instaneous heat transfer coefficient in the internal combustion engine", SAE paper 670931, 1967.
21. Guo, H., Ju, Y., Maruta, K., Niioka, T., Liu, F., "Radiation Extinction Limit of Counterflow Premixed Fuel-Lean Methane-Air Flame", Combust. Flame 109 (1997) 639-646. (Pubitemid 27221028)
22. Tien, C. L., "Thermal radiation properties of gases", Adv. Heat Transfer 5, 253-324, 1968.
23. R.J. Kee., J. Warnatz, J.A. Miller, A Fortran Computer Code Package for the Evaluation of Gas-Phase Viscosities, Conductivities, and Diffusion Coefficients, Report No. SAND 83-8209, Sandia National Laboratories, 1983.
24. Yang, J., Martin, J.K., "Approximate solution - one- dimensional energy equation for transient, compressible, low Mach number turbulent boundary layer flows", Journal of Heat Transfer 111 (1989) 619-624.
25. Heywood, J.B., Internal Combustion Engine Fundamentals (p.226), McGraw-Hill, 1988.
26. Seiser, H., Pitsch, H., Seshadri, H., Pitz, W.J., and Curran, H.J., "Extinction and autoignition of n-heptane in counterflow configuration", Proc. Comb. Inst. 28 (2000) 2029-2037.
27. Golovichev, V., http://www.tfd.chalmers.se/~valeri/MECH.html.
28. 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., http://www.me.berkeley.edu/gri-mech/.
29. Li, H., Neill, W.S., Guo, H., Chippior, W., "The NOx and N2O emission characteristics of HCCI engine operated with n-heptane", ASME Internal Combustion Engine Division 2007 Fall Technical Conference, paper No. ICEF2007-1758, October 14-17, 2007, Charleston, SC, USA.
30. 4/Air Premixed Flames", Proc. Comb. Inst. 30 (2005) 303-311. (Pubitemid 44700797)