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A Study on Reduction of Heat Loss by Optimizing Combustion Chamber Shape

Journal Article
2015-01-0786
ISSN: 1946-3936, e-ISSN: 1946-3944
Published April 14, 2015 by SAE International in United States
A Study on Reduction of Heat Loss by Optimizing Combustion Chamber Shape
Sector:
Citation: Arato, K. and Takashima, T., "A Study on Reduction of Heat Loss by Optimizing Combustion Chamber Shape," SAE Int. J. Engines 8(2):596-608, 2015, https://doi.org/10.4271/2015-01-0786.
Language: English

References

  1. Minato , A. and Shimazaki , N. Development of the Total Engine Simulation System (TESS) and Its Application for System Investigation of Future Diesel Engine SAE Int. J. Engines 4 1 1708 1723 2011 10.4271/2011-01-1298
  2. Arato , K. , Minato , A. , Shimazaki , N. Comprehensive Accuracy Improvement of Zero-dimensional Diesel Combustion Model for Total Engine Simulation System Transactions of Society of Automotive Engineers of Japan 44 2 293 298 2013
  3. Arato , K. , Minato , A. , Shimazaki , N. , Takashima , T. et al. Comprehensive Accuracy Improvement of Zero-dimensional Diesel Combustion Model for Total Engine Simulation System (2nd Report) Study on Model Improvement of Spray Interaction Proceedings of Society of Automotive Engineers of Japan 115-13 1 7 2013
  4. Kosaka , H. , Wakisaka , Y. , Nomura , Y. , Hotta , Y. et al. Concept of “Temperature Swing Heat Insulation” in Combustion Chamber Walls, and Appropriate Thermo-Physical Properties for Heat Insulation Coat SAE Int. J. Engines 6 1 142 149 2013 10.4271/2013-01-0274
  5. Das , S. and Roberts , C. Factors Affecting Heat Transfer in a Diesel Engine: Low Heat Rejection Engine Revisited SAE Technical Paper 2013-01-0875 2013 10.4271/2013-01-0875
  6. Osada , H. , Uchida , N. , Shimada , K. , and Aoyagi , Y. Reexamination of Multiple Fuel Injections for Improving the Thermal Efficiency of a Heavy-Duty Diesel Engine SAE Technical Paper 2013-01-0909 2013 10.4271/2013-01-0909
  7. Kong , S. , Patel , A. , Yin , Q. , Klingbeil , A. et al. Numerical Modeling of Diesel Engine Combustion and Emissions Under HCCI-Like Conditions With High EGR Levels SAE Technical Paper 2003-01-1087 2003 10.4271/2003-01-1087
  8. Wickman , D. , Senecal , P. , and Reitz , R. Diesel Engine Combustion Chamber Geometry Optimization Using Genetic Algorithms and Multi-Dimensional Spray and Combustion Modeling SAE Technical Paper 2001-01-0547 2001 10.4271/2001-01-0547
  9. Shi , Y. and Reitz , R. Assessment of Optimization Methodologies to Study the Effects of Bowl Geometry, Spray Targeting and Swirl Ratio for a Heavy-Duty Diesel Engine Operated at High-Load SAE Int. J. Engines 1 1 537 557 2009 10.4271/2008-01-0949
  10. Shi , Y. , Ge , H. W. , Reitz , R. D. Computational Optimization of Internal Combustion Engines Springer 2011
  11. Beale , J. C. and Reitz , R. D. Modeling Spray Atomization with the Kelvin-Helmholtz/Rayleigh-Taylor hybrid model Atomization and Sprays 1999 9 623 650
  12. O'Rourke , P. and Amsden , A. A Spray/Wall Interaction Submodel for the KIVA-3 Wall Film Model SAE Technical Paper 2000-01-0271 2000 10.4271/2000-01-0271
  13. Halstead , M. , Kirsh , L. and Quinn , C. The Autoignition of Hydrocarbon Fuels at High Temperatures and Pressures - Fitting of a Mathematical Model Combust. Flame 30 45 1977
  14. Kong , S. , Han , Z. , and Reitz , R. The Development and Application of a Diesel Ignition and Combustion Model for Multidimensional Engine Simulation SAE Technical Paper 950278 1995 10.4271/950278
  15. Han , Z. and Reitz , R. D. Turbulence Modeling of Internal Combustion Engines Using RNG k-ε Models Combust. Sci. and Tech. 106 1995
  16. Amsden , A. A. KIVA-3V: A Block Structured KIVA Program for Engines with Vertical or Canted Valves Los Alamos National Laboratory Report No. LA-13313-MS 1997
  17. Heywood , J. B. Internal Combustion Engine Fundamentals McGraw Hill, Inc. 1988
  18. Hiroyasu , H. and Kadota , T. Models for Combustion and Formation of Nitric Oxide and Soot in Direct Injection Diesel Engines SAE Technical Paper 760129 1976 10.4271/760129
  19. Han , Z. and Reitz , R. D. A Temperature Wall Function Formulation for Variable Density Turbulence Flow with Application to Engine Convective Heat Transfer Modeling Int. J. Heat and Mass Transfer 40 1997
  20. Angelberger , C. , Poinsot , T. , and Delhay , B. Improving Near-Wall Combustion and Wall Heat Transfer Modeling in SI Engine Computations SAE Technical Paper 972881 1997 10.4271/972881

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