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Development of a 3D-Computational Fluid Dynamics Model for a Full Optical High-Pressure Dual-Fuel Engine

Journal Article
03-13-02-0017
ISSN: 1946-3936, e-ISSN: 1946-3944
DOI: https://doi.org/10.4271/03-13-02-0017
Published January 27, 2020 by SAE International in United States
Development of a 3D-Computational Fluid Dynamics Model for a Full Optical High-Pressure Dual-Fuel Engine
Sector:
Citation: Frankl, S. and Gleis, S., "Development of a 3D-Computational Fluid Dynamics Model for a Full Optical High-Pressure Dual-Fuel Engine," SAE Int. J. Engines 13(2):241-252, 2020, https://doi.org/10.4271/03-13-02-0017.
Language: English

References

  1. International Maritime Organization 2011
  2. Parliament Office Official Journal of the European Union 2016 53 117
  3. Oullette , P. 1996
  4. Hill , P.G. and Ouellette , P. Transient Turbulent Gaseous Fuel Jets for Diesel Engines J. Fluids Eng. 121 1 93 1999
  5. Westport http://www.westport.com/is/core-technologies/hpdi-2#what-is-hpdi-2.0 2017
  6. McTaggart-Cowan , G.P. et al. The Effects of High-Pressure Injection on a Compression-Ignition, Direct Injection of Natural Gas Engine J. Eng. Gas Turbines Power 129 2 579 2007
  7. McTaggart-Cowan G.P. , Mann K. , Huang J. , Wu N. et al. Particulate Matter Reduction from a Pilot-Ignited, Direct Injection of Natural Gas Engine Proceedings of the ASME 2012 Internal Combustion Engine Division Fall Technical Conference Vancouver 2012 427
  8. Munshi S.R. , McTaggart-Cowan G.P. , Huang J. , and Hill P.G. Development of a Partially-Premixed Combustion Strategy for a Low-Emission, Direct Injection High Efficiency Natural Gas Engine Proceedings of the ASME 2011 Internal Combustion Engine Division Fall Technical Conference Detroit 2011 515 528
  9. Faghani , E. , Kheirkhah , P. , Mabson , C. , McTaggart-Cowan , G. et al. Effect of Injection Strategies on Emissions from a Pilot-Ignited Direct-Injection Natural-Gas Engine - Part I: Late Post Injection SAE Technical Paper 2017-01-0774 2017 https://doi.org/10.4271/2017-01-0774
  10. Faghani , E. , Kheirkhah , P. , Mabson , C. , McTaggart-Cowan , G. et al. Effect of Injection Strategies on Emissions from a Pilot-Ignited Direct-Injection Natural-Gas Engine - Part II: Slightly Premixed Combustion SAE Technical Paper 2017-01-0763 2017 https://doi.org/10.4271/2017-01-0763
  11. Barba , C. , Dyckmans , J. , Förster , J. , and Schnekenburger , T. Natural Gas-Diesel Dual Fuel for Commercial Vehicle Engines Internationaler Motorenkongress 2017 Baden-Baden, Germany 2017 391 407
  12. Imhof , D. 2013
  13. Imhof , D. , Tsuru , D. , Tajima , H. , and Takasaki , K. High-Pressure Natural Gas Injection (GI) Marine Engine Research with a Rapid Compression Expansion Machine 13. CIMAC Shanghai 2013
  14. Takasaki , K. , Tsuru , D. , Ueno , R. , Asano , S. et al. Visual Study on GI (Gas High-Pressure Injection) Combustion for Highly Efficient Gas Engine 15th Conference “The Working Process of the Internal Combustion Engine” Graz 2015 403 415
  15. Fink , G. , Jud , M. , and Sattelmayer , T. Influence of the Spatial and Temporal Interaction Between Diesel Pilot and Directly Injected Natural Gas Jet on Ignition and Combustion Characteristics J. Eng. Gas Turbines Power 140 10 102811 2018
  16. Senghaas , C. , Willmann , M. , and Berger , I. New Injector Family for High Pressure Gas and Low Caloric Liquid Fuels 29th CIMAC Congress Vancouver 2019
  17. Keskinen , K. 2018
  18. Choi , M. , Lee , S. , and Park , S. Numerical and Experimental Study of Gaseous Fuel Injection for CNG Direct Injection Fuel 140 693 700 2015
  19. Hamzehloo , A. and Aleiferis , P.G. Numerical Modelling of Transient Under-Expanded Jets under Different Ambient Thermodynamic Conditions with Adaptive Mesh Refinement International Journal of Heat and Fluid Flow 61 711 729 2016
  20. Li , M. , Zhang , Q. , Li , G. , and Li , P. Effects of Hydrogen Addition on the Performance of a Pilot-Ignition Direct-Injection Natural Gas Engine: A Numerical Study Energy Fuels 31 4 4407 4423 2017
  21. Huang J. , McTaggart-Cowan G. , and Munshi S. Large-Eddy Simulation of Direct Injection Natural Gas Combustion in a Heavy-Duty Truck Engine Using Modified Conditional Moment Closure Model with Low-Dimensional Manifold Method International Journal of Engine Research 1 14 2018
  22. Hatzipanagiotou A. et al. Numerische und optische Analyse der Gas-Diffusionsverbrennung mit Diesel-Pilotzündung in NFZ-Motoren International Journal of Engine Research 109 119 2017
  23. Rochussen , J. , McTaggart-Cowan , G. , and Kirchen , P. Parametric Study of Pilot-Ignited Direct-Injection Natural Gas Combustion in an Optically Accessible Heavy-Duty Engine International Journal of Engine Research 121 1 17 2019
  24. Bowditch , F.W. A New Tool for Combustion Research A Quartz Piston Engine SAE Technical Paper 610002 1961 https://doi.org/10.4271/610002
  25. Korb B. , Prager M. , and Wachtmeister G. Jan. 2016
  26. Frankl S. , Gleis S. , and Wachtmeister G. Interpretation of Ignition and Combustion in a Full-Optical High-Pressure-Dual-Fuel (HPDF) Engine Using 3D-CFD Methods 29th CIMAC Congress Vancouver 2019
  27. Gleis , S. , Frankl , S. , Waligorski , D. , Prager , M. et al. Investigation of the High-Pressure-Dual-Fuel (HPDF) Combustion Process of Natural Gas on a Fully Optically Accessible Research Engine SAE Technical Paper 2019-01-2172 2019 https://doi.org/10.4271/2019-01-2172
  28. Karmann , S.B. , Prager , M. , and Wachtmeister , G. Conceptual Investigations on Full Optical Accessibility to Large-Bore Medium-Speed Engines SAE Int. J. Engines 12 3 291 308 2019 https://doi.org/10.4271/03-12-03-0020
  29. Miller , R. 1954
  30. Han , Z. and Reitz , R.D. Turbulence Modeling of Internal Combustion Engines Using RNG k -ε Models Combustion Science and Technology 106 4-6 267 295 1995
  31. Issa , R.I. Solution of the Implicitly Discretised Fluid Flow Equations by Operator-Splitting Journal of Computational Physics 62 1 40 65 1986
  32. Peng , D.-Y. and Robinson , D.B. A New Two-Constant Equation of State Ind. Eng. Chem. Fund. 15 1 59 64 1976
  33. Senecal , P. , Pomraning , E. , Richards , K. , Briggs , T. et al. Multi-Dimensional Modeling of Direct-Injection Diesel Spray Liquid Length and Flame Lift-Off Length Using CFD and Parallel Detailed Chemistry SAE Technical Paper 2003-01-1043 2003 https://doi.org/10.4271/2003-01-1043
  34. Tao , F. , Reitz , R.D. , and Foster , D.E. Revisit of Diesel Reference Fuel ( n -Heptane) Mechanism Applied to Multi-Dimensional Engine Simulation Seventeenth International Multidimensional Engine Modeling User’s Group Meeting at the SAE Congress Detroit, MI April 15 2007
  35. Curran , H.J. , Gaffuri , P. , Pitz , W.J. , and Westbrook , C.K. A Comprehensive Modeling Study of n -Heptane Oxidation Combustion and Flame 114 1-2 149 177 1998
  36. Jud , M. , Fink , G. , and Sattelmayer , T. Predicting Ignition and Combustion of a Pilot Ignited Natural Gas Jet Using Numerical Simulation Based on Detailed Chemistry Proceedings of the ASME 2017 Internal Combustion Engine Division Fall Technical Conference Seattle 2017
  37. Jud , M. , Wieland , C. , Fink , G. , and Sattelmayer , T. Numerical Analysis of the Combustion Process in Dual-Fuel Engines with Direct Injection of Natural Gas Proceedings of the ASME 2018 Internal Combustion Fall Technical Conference San Diego 2018
  38. Stocchi , I. , Liu , J. , Dumitrescu , C.E. , Battistoni , M. et al. Effect of Piston Crevices on the Numerical Simulation of a Heavy-Duty Diesel Engine Retrofitted to Natural-Gas Spark-Ignition Operation Journal of Energy Resources Technology 141 11 2159 2019
  39. Ambrogi , L. , Liu , J. , Battistoni , M. , Dumitrescu , C. et al. CFD Investigation of the Effects of Gas’ Methane Number on the Performance of a Heavy-Duty Natural-Gas Spark-Ignition Engine SAE Technical Paper 2019-24-0008 2019 https://doi.org/10.4271/2019-24-0008
  40. 2018
  41. Som , S. and Aggarwal , S.K. Effects of Primary Breakup Modeling on Spray and Combustion Characteristics of Compression Ignition Engines Combustion and Flame 157 6 1179 1193 2010
  42. Schmidt , D.P. and Rutland , C.J. A New Droplet Collision Algorithm Journal of Computational Physics 164 1 62 80 2000
  43. Senecal , P.K. , Pomraning , E. , Richards , K.J. , and Som , S. Grid-Convergent Spray Models for Internal Combustion Engine CFD Simulations ASME 2012 Internal Combustion Engine Division Fall Technical Conference Vancouver 2012 2012 697
  44. Lauer , M.R.W. 2011 2011

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