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Numerical Analysis of the Impact of Water Injection on Combustion and Thermodynamics in a Gasoline Engine Using Detailed Chemistry

Journal Article
2018-01-0200
ISSN: 1946-3936, e-ISSN: 1946-3944
Published April 03, 2018 by SAE International in United States
Numerical Analysis of the Impact of Water Injection on Combustion and Thermodynamics in a Gasoline Engine Using Detailed Chemistry
Sector:
Citation: Netzer, C., Franken, T., Seidel, L., Lehtiniemi, H. et al., "Numerical Analysis of the Impact of Water Injection on Combustion and Thermodynamics in a Gasoline Engine Using Detailed Chemistry," SAE Int. J. Engines 11(6):1151-1166, 2018, https://doi.org/10.4271/2018-01-0200.
Language: English

References

  1. Durst , B. , Unterweger , G. , Rubbert , S. , Witt , A. et al. Thermodynamic Effects of Water Injection on Otto Cycle Engines with Different Water Injection Systems The Working Process of the Internal Combustion Engine Graz September 24/25, 2015
  2. Hoppe , F. , Thewes , M. , Baumgarten , H. , and Dohmen , J. Water Injection for Gasoline Engines: Potentials, Challenges, and Solutions Int J Engine Res 17 I 86 96 2016
  3. Bozza , F. , De Bellis , V. , and Teodosio , L. Potentials of Cooled EGR and Water Injection for Knock Resistance and Fuel Consumption Improvements of Gasoline Engines Appl Energ 169 112 125 2016
  4. Hopkinson , B. A New Method of Cooling Gas-Engines Proceedings of the Institution of Mechanical Engineers 1913 679 715
  5. Lestz , S.S. , Meyer , W.E. , and Colony , C.M. Emissions from a Direct-Cylinder Water-Injected Spark-Ignition Engine SAE Technical Paper 720113 1972 10.4271/720113
  6. Harrington , J.A. Water Addition to Gasoline - Effect on Combustion, Emissions, Performance, and Knock SAE Technical Paper 820314 1982 10.4271/820314
  7. Iacobacci , A. , Marchitto , L. , and Valentino , G. Water Injection to Enhance Performance and Emissions of a Turbocharged Gasoline Engine under High Load Conditions SAE Int. J. Engines 10 3 928 937 2017 10.4271/2017-01-0660
  8. Heinrich , C. , Dörksen , H. , Tölkes , E. , and Esch , A. Direkte Benzin-Wasser-Einspritzung: CO 2 -Potentiale und technische Anforderungen 10. Tagung Diesel- und Benzindirekteinspritzung 2016 Berlin 2017
  9. Rottengruber , H. , Wagner , T. , Beyrau , F. , Dragomirov , P. et al. Sprayvermessung einer Benzin-Wasser-Emulsion 10. Tagung Diesel- und Benzindirekteinspritzung 2016 Berlin 2017
  10. Böhm , M. , Mährle , W. , Bartelt , H.C. , and Rubbert , S. Funktionale Integration einer Wassereinspritzung in den Ottomotor Springer Motortechnische Zeitschrift 1 2016
  11. De Bellis , V. , Bozza , F. , Teodosio , L. , and Valentino , G. Experimental and Numerical Study of the Water Injection to Improve the Fuel Economy of a Small Size Turbocharged SI Engine SAE Int. J. Engines 10 2 550 561 2017 10.4271/2017-01-0540
  12. Berni , F. , Breda , S. , Lugli , M. , and Cantore , G. A Numerical Investigation on the Potentials of Water to Increase Knock Resistance and Reduce Fuel Consumption in Highly Downsized GDI Engines Energy Procedia 81 826 835 2015
  13. Richards , K.J. , Senecal , P.K. , and Pomraning , E. 2017
  14. Netzer , C. , Seidel , L. , Pasternak , M. , Lehtiniemi , H. et al. 3D CFD Engine Knock Prediction and Evaluation Based on Detailed Chemistry and Detonation Theory Int J Engine Res 19 1 33 44 2018
  15. Bradley , D. and Kalghatgi , G.T. Influence of Autoignition Delay Time Characteristics of Different Fuels on Pressure Waves and Knock in Reciprocating Engines Combust Flame 156 2307 2318 2009
  16. Bradley , D. , Morley , C. , Gu , X.J. , and Emerson , D.R. Amplified Pressure Waves during Autoignition: Relevance to CAI Engines SAE Technical Paper 2002-01-2868 2002 10.4271/2002-01-2868
  17. Richards , K.J. , Senecal , P.K. , and Pomraning , E. CONVERGE v2.4 Manual Madison, WI Convergent Science, Inc 2017
  18. Peters , N. Turbulent Combustion Cambridge University Press 2000
  19. Liang , L. , Stevens , J.G. , and Farrell , J.T. A Dynamic Multi-Zone Partitioning Scheme for Solving Detailed Chemical Kinetics in Reactive Flow Computations Combust Sci Technol 181 11 1345 1371 2009
  20. Perini , F. , Ra , Y. , Hiraoka , K. , Nomura , K. et al. An Efficient Level-Set Flame Propagation Model for Hybrid Unstructured Grids Using the G-Equation SAE Int. J. Engines 9 3 1409 1424 2016 10.4271/2016-01-0582
  21. Shao , J. and Rutland , C. Modeling Investigation of Auto-Ignition and Engine Knock by HO2 SAE Technical Paper 2014-01-1221 2014 10.4271/2014-01-1221
  22. Liang , L. and Reitz , R. Spark Ignition Engine Combustion Modeling Using a Level Set Method with Detailed Chemistry SAE Technical Paper 2006-01-0243 2006 10.4271/2006-01-0243
  23. Seidel , L. 2017
  24. Seidel , L. , Moshammer , K. , Wang , X. , Zeuch , T. et al. Comprehensive Kinetic Modeling and Experimental Study of a Fuel-Rich, Premixed N-Heptane Flame Combust Flame 162 5 2045 2058 2015
  25. Seidel , L. , Netzer , C. , Hilbig , M. , Mauss , F. et al. Systematic Reduction of Detailed Chemical Reaction Mechanisms for Engine Applications J Eng Gas Turb Power 139 091701-1 2017
  26. Netzer , C. , Seidel , L. , Pasternak , M. , Klauer , C. et al. Engine Knock Prediction and Evaluation Based on Detonation Theory Using a Quasi-Dimensional Stochastic Reactor Model SAE Technical Paper 2017-01-0538 2017 10.4271/2017-01-0538
  27. Mazas , A.N. , Fiorina , B. , Lacoste , D.A. , and Schuller , T. Effects of Water Vapor Addition on the Laminar Burning Velocity of Oxygen-Enriched Methane Flames Combust Flame 158 12 2428 2440 2011
  28. Hoyermann , K. , Mauss , F. , and Zeuch , T. A Detailed Chemical Reaction Mechanism for the Oxidation of Hydrocarbons and its Application to the Analysis of Benzene Formation in Fuel-Rich Premixed Laminar Acetylene and Propene Flames Phys Chem Chem Phys 6 14 3824 3835 2014
  29. Moshammer , K. , Seidel , L. , Wang , Y. , Selim , H. et al. Aromatic Ring Formation in Opposed-Flow Diffusive 1,3-Butadiene Flames Proc Combust Inst 36 1 947 955 2017
  30. Schenk , M. , Leon , L. , Moshammer , K. , Oßwald , P. et al. Kohse-Höinghaus, K. Detailed Mass Spectrometric and Modeling Study of Isomeric Butene Flames Combust Flame 160 3 487 503 2013
  31. www.logesoft.com 2016
  32. Heywood , J.B. Internal Combustion Engine Fundamentals New York McGraw Hill 1988
  33. Zeldovich , Y. Regime Classification of an Exothermic Reaction with Nonuniform Initial Conditions Combust Flame 39 211 214 1980
  34. Kalghatgi , G.T. and Bradley , D. Pre-Ignition and ‘Super-Knock’ in Turbocharged Spark-Ignition Engines SAE Int J Engines 13 4 399 414 2015
  35. Gu , X.J. , Emerson , D.R. , and Bradley , D. Modes of Reaction Front Propagation from Hot Spots Combust Flame 133 63 74 2003
  36. Peters , N. , Kerschgens , B. , and Paczko , G. Super-Knock Prediction Using a Refined Theory of Turbulence SAE Int J Engines 6 2 953 967 2013
  37. Peters , N. , Kerschgens , B. , Jochim , B. , and Paczko , G. Mega Knock in Super-Charged Gasoline Engines Interpreted as a Localized Developing Detonation 4th International Conference on Knocking in Gasoline Engines Berlin 2013
  38. Bates , L. , Bradley , D. , Paczko , G. , and Peters , N. Engine Hotpots: Modes of Auto-Ignition and Reaction Propagation Combust Flame 166 80 85 2016
  39. Worm , J. , Naber , J. , Duncan , J. , Barros , S. et al. Water Injection as an Enabler for Increased Efficiency at High-Load in a Direct Injected, Boosted, SI Engine SAE Int J Engines 10 3 951 958 2017 10.4271/2017-01-0663

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