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Carbon Monoxide Emissions Model for Data Analytics in Internal Combustion Engine Applications Derived from Post-Flame Chemical Kinetics

Journal Article
2018-01-1153
ISSN: 1946-3936, e-ISSN: 1946-3944
DOI: https://doi.org/10.4271/2018-01-1153
Published April 03, 2018 by SAE International in United States
Carbon Monoxide Emissions Model for Data Analytics in Internal Combustion Engine Applications Derived from Post-Flame Chemical Kinetics
Sector:
Citation: Bikas, G. and Michos, K., "Carbon Monoxide Emissions Model for Data Analytics in Internal Combustion Engine Applications Derived from Post-Flame Chemical Kinetics," SAE Int. J. Engines 11(6):947-964, 2018, https://doi.org/10.4271/2018-01-1153.
Language: English

References

  1. Heywood , J.B. Internal Combustion Engine Fundamentals New York McGraw-Hill 1988
  2. Peters , N. Turbulent Combustion Cambridge Cambridge University Press 2000
  3. Law , C.K. Combustion Physics Cambridge Cambridge University Press 2006
  4. Ramos , J.I. Internal Combustion Engine Modeling, Hemisphere New York 1989
  5. Arsie , I. , Pianese , C. , and Rizzo , G. Models for the Prediction of Performance and Emissions in a Spark Ignition Engine - A Sequentially Structured Approach SAE Technical Paper 980779 1998 10.4271/980779
  6. Mansouri , S.H. and Bakhshan , Y. Studies of NOx, CO, Soot Formation and Oxidation from a Direct Injection Stratified-Charge Engine Using the K-ε Turbulence Model. Proceedings of the Institution of Mechanical Engineers Journal of Automobile Engineering 215 95 104 2001
  7. D'Errico , G. , Ferrari , G. , Onorati , A. , and Cerri , T. Modeling the Pollutant Emissions from a S.I. Engine SAE Technical Paper 2002-01-0006 2002 10.4271/2002-01-0006
  8. D'Errico , G. and Lucchini , T. A Combustion Model with Reduced Kinetic Schemes for S.I. Engines Fuelled with Compressed Natural Gas SAE Technical Paper 2005-01-1123 2005 10.4271/2005-01-1123
  9. D'Errico , G. , Cerri , T. , and Lucchini , T. Development and Application of S.I. Combustion Models for Emissions Prediction SAE Technical Paper 2006-01-1108 2006 10.4271/2006-01-1108
  10. Baratta , M. , Catania , A.E. , Spessa , E. , and Vassallo , A. Development and Assessment of a Multizone Combustion Simulation Code for SI Engines Based on a Novel Fractal Model SAE Technical Paper 2006-01-0048 2006 10.4271/2006-01-0048
  11. Catania , A. , Finesso , R. , and Spessa , E. Diagnostics of Mixing Process Dynamics, Combustion and Emissions in a Euro V Diesel Engine SAE Technical Paper 2011-24-0018 2011 10.4271/2011-24-0018
  12. Smith , G.P. , Golden , D.M. , Frenklach , M. , Moriarty , N.W. , et al. http:/www.me.berkeley.edu/gri_mech
  13. Daneshyar , H. and Watfa , M. Predicting Nitric Oxide and Carbon Monoxide Concentrations in Spark-Ignition Engines Proceedings of the Institution of Mechanical Engineers 188 437 445 1974
  14. Bowman , C.T. Kinetics of Pollutant Formation and Destruction in Combustion Progress in Energy and Combustion Science 1 33 45 1975
  15. Benson , R.S. The Thermodynamics and Gas Dynamics of Internal Combustion Engines II Oxford Clarendon Press 1986
  16. Ferguson , C.R. Internal Combustion Engines New York Wiley 1986
  17. Erickson , W.D. and Prabhu , R.K. Rapid Computation of Chemical Equilibrium Composition: An Application to Hydrocarbon Combustion American Institute of Chemical Engineers Journal 32 1079 1087 1986
  18. Gordon , S. and McBride , B.J. 1994
  19. Rakopoulos , C.D. , Hountalas , D.T. , Tzanos , E.I. , and Taklis , G.N. A Fast Algorithm for Calculating the Composition of Diesel Combustion Products Using 11 Species Chemical Equilibrium Scheme Advances in Engineering Software 19 109 119 1994
  20. Miller , R. , Davis , G. , Lavoie , G. , Newman , C. et al. A Super-Extended Zeldovich Mechanism for NOx Modeling and Engine Calibration SAE Technical Paper 980781 1998 10.4271/980781
  21. Bougrine , S. , Richard , S. , Michel , J.-B. , and Veynante , D. Simulation of CO and NO Emissions in a SI Engine Using a 0D Coherent Flame Model Coupled with a Tabulated Chemistry Approach Applied Energy 113 1199 1215 2014
  22. Karvountzis-Kontakiotis , A. and Ntziachristos , L. Improvement of NO and CO Predictions for a Homogeneous Combustion SI Engine Using a Novel Emissions Model Applied Energy 162 172 182 2016
  23. Mittal , G. , Sung , C.-J. , and Yetter , R.A. Autoignition of H 2 /CO at Elevated Pressures in a Rapid Compression Machine International Journal of Chemical Kinetics 38 516 529 2006
  24. Keck , J.C. Rate-Controlled Constrained-Equilibrium Theory of Chemical Reactions in Complex Systems Progress in Energy and Combustion Science 16 125 154 1990
  25. Keck , J.C. and Gillespie , D. Rate-Controlled Partial-Equilibrium Method for Treating Reacting Gas Mixtures Combustion and Flame 17 237 241 1971
  26. Morr , A.R. and Heywood , J.B. Partial Equilibrium Model for Predicting Concentration of CO in Combustion Acta Astronautica 1 949 966 1974
  27. Fenimore , C.P. and Moore , J. Quenched Carbon Monoxide in Fuel-Lean Flame Gas Combustion and Flame 22 343 351 1974
  28. Warnatz , J. , Maas , U. , and Dibble , R.W. Combustion Berlin Springer 2006
  29. Rakopoulos , C.D. , Michos , C.N. , and Giakoumis , E.G. Thermodynamic Analysis of SI Engine Operation on Variable Composition Biogas-Hydrogen Blends Using a Quasi-Dimensional, Multi-Zone Combustion Model SAE Int. J. Engines 2 1 880 910 2009 10.4271/2009-01-0931
  30. Bikas , G. , Michos , K. , and Vlaskos , I. Ein Neues Globales Algebraisches Modell der NOx-Bildung für Erdgasmotoren MTZ 12 64 69 2015
  31. Michos , K. , Bikas , G. , and Vlaskos , I. A New Global Algebraic Model for NOx Emissions Formation in Post-Flame Gases - Application to Lean Premixed Combustion Systems SAE Technical Paper 2016-01-0803 2016 10.4271/2016-01-0803
  32. Halstead , M.P. and Quinn , C.P. Inhibition of Autoignition at High Pressure Combustion and Flame 20 223 230 1973
  33. Bikas , G. 2002
  34. Wooldridge , M.S. , Hanson , R.K. , and Bowman , C.T. A Shock Tube Study of the CO + OH → CO2 + H Reaction Symposium (International) on Combustion 25 1 741 748 1994

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