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High Resolution Scalar Dissipation Measurements in an IC Engine

Journal Article
2009-01-0662
ISSN: 1946-3936, e-ISSN: 1946-3944
DOI: https://doi.org/10.4271/2009-01-0662
Published April 20, 2009 by SAE International in United States
High Resolution Scalar Dissipation Measurements in an IC Engine
Sector:
Citation: Petersen, B. and Ghandhi, J., "High Resolution Scalar Dissipation Measurements in an IC Engine," SAE Int. J. Engines 2(1):475-491, 2009, https://doi.org/10.4271/2009-01-0662.
Language: English

References

  1. Fraser, R. A. Bracco, F. V. Cycle-Resolved LDV integral length scale measurements investigating clearance height scaling, isotropy, and homogeneity in an IC engine SAE Paper 890615 1989
  2. Miles, P. Megerle, M. Nagel, Z. Reitz, R. D. Lai, M., D. Sick, V. An experimental assessment of turbulence production, Reynolds stress and length scale (dissipation) modeling in a swirl-supported DI diesel engine SAE Paper 2003-01-1072 2003
  3. Ghandhi, J. B. Herold, R. E. Shakal, J. S. Strand, T. E. Time resolved particle image velocimetry measurements in an internal combustion engine SAE Paper 2005-01-3868 2005
  4. Funk, C. Sick, V. Reuss, D. L. Dahm, W. J. A. Turbulence properties of high and low swirl in-cylinder flows SAE Paper 2002-01-2841 2002
  5. Khalighi, B. El-Tahry, S. Kuziak, W. Measured steady flow velocity distributions around a valve/seat annulus. SAE Paper 860462 1986
  6. Buch, K. A. Dahm, W. J. A. Experimental study of the fine-scale structure of conserved scalar mixing in turbulent shear flows, Part 1. Sc≫1 J. Fluid Mech. 317 21 71 1996
  7. Buch, K. A. Dahm, W. J. A. Experimental study of the fine-scale structure of conserved scalar mixing in turbulent shear flows, Part 2. Sc~1 J. Fluid Mech. 364 1 29 1998
  8. Rehm, J. E. Clemens, N. T. The association of scalar dissipation rate layers and OH zones with strain, vorticity, and 2-D dilatation fields in turbulent nonpremixed jets and jet flames AIAA 1999
  9. Su, L. K. Clemens, N. T. Planar measurements of the full three-dimensional scalar dissipation rate in gas-phase turbulent flows Experiments in Fluids 27 507 521 1999
  10. Su, L. K. Measurements of the three-dimensional scalar dissipation rate in gas-phase planar turbulent jets Center for Turbulence Research Annual Research Briefs 1998
  11. Su, L. K. Clemens, N. T. The structure of fine-scale scalar mixing in gas-phase planar turbulent jets J. Fluid Mech. 488 1 29 2003
  12. Kothnur, P. S. Clemens, N. T. Experimental investigation of the relationship between strain and scalar dissipation in gas-phase turbulent jets AIAA 2001
  13. Tsurikov, M. S. Clemens, N. T. The structure of dissipative scales in axisymmetric turbulent gas-phase jets AIAA 2002
  14. Pitts, W. M. Richards, C. D. Levenson, M. S. Large- and small-scale structures and their interaction in an axisymmetric jet. NIST Report NISTIR 6393 1999
  15. Wang, G. H. Clemens, N. T. Varghese, P. L. Two-point, high-repetition-rate Rayleigh thermometry in flames: techniques to correct for apparent dissipation induced noise Applied Optics. 44 No. 31 6741 6751 Nov. 2005
  16. Wang, G. H. Barlow, R..S. Clemens, N. T. Quantification of resolution and noise effects on thermal dissipation measurements in turbulent non-premixed jet flames Proc. Comb. Inst. 31 1525 1532 2007
  17. Wang, G. H. Karpetis, A. N. Barlow, R. S. Dissipation length scales in turbulent nonpremixed jet flames Comb. and Flame 148 62 75 2007
  18. Wang, G. H. Barlow, R. S. Spatial resolution effects on the measurement of scalar variance and scalar gradient in turbulent nonpremixed jet flames Exp. Fluids 2007
  19. Kaiser, S. A. Frank, J. H. Imaging of dissipative structures in the near field of a turbulent non-premixed jet flame Proc. Comb. Inst. 31 1515 1523 2007
  20. Probst, D. Ghandhi, J. An experimental study of spray mixing in a direct-injection engine Journal of Engine Research 4 27 45 2002
  21. Wiles, M. Probst, D. Ghandhi, J. Bulk cylinder flow field effects on mixing in DISI engines SAE Paper, 2005-01-0096 2005
  22. Batchelor, G. K. Small-scale variation of convected quantities like temperature in turbulent fluid. Part 1. General discussion and the case of small conductivity J. Fluid Mech. 5 113 133 1959
  23. Mi, J. Nathan, G. J. The influence of probe resolution on the measurement of a passive scalar and its derivatives Exp. Fluids 34 687 696 2003
  24. Wang, G. H. Clemens, N. T. Barlow, R. S. Varghese, P. L. A system model for assessing scalar dissipation measurement accuracy in turbulent flows Meas. Sci. Technol. 18 1287 1303 2007
  25. Pope, S. B. Turbulent Flows Cambridge University Press Cambridge 2000
  26. Probst D. M. Ghandhi J. B. An experimental study of spray mixing in a direct injection engine Int J Engine Res 4 27 45 2003
  27. Wiles M. A. Probst D. M. Ghandhi J. B. Bulk cylinder flow field effects on mixing in DISI engines SAE Paper 2005-01-0096 2005
  28. Mi, J. Nathan, G. J. The influence of probe resolution on the measurement of a passive scalar and its derivatives Exp. Fluids 34 687 696 2003
  29. Ghandhi, J. B. Spatial resolution and noise considerations in determining scalar dissipation rate from passive scalar image data Experiments in Fluids 40 577 588 2006
  30. Dahm, W. J. Southerland, K. B. Quantitative flow visualization via fully-resolved four- dimensional spatio-temporal imaging Smits AJ, Lim TT Flow visualization: techniques and examples Imperial College Press London 289 316
  31. Wang, G. H. Clemens, N. T. Effects of imaging system blur on measurements of flow scalars and scalar gradients Exp. in Fluids 37 194 205 2004
  32. Lele, S. K. Compact finite difference schemes with spectral-like resolution J. Comp. Phys. 103 16 42 1992
  33. Eckbreth, Laser Diagnostics for Combustion Temperature and Species. Comb. Sci. Tech. Book Series 3 Taylor and Francis 1996
  34. Herold, R. E. Ghandhi, J. B. Investigation of bulk in-cylinder stratification with split intake runners SAE 2007-01-4044 2007
  35. Stevens, R. Ma, H. Stone, C. R. Walmsly, H. L. Cracknell, R. On planar laser-induced fluorescence with multi-component fuel and tracer design for quantitative determination of fuel concentration in internal combustion engines Proceedings of the I MECH E Part D Journal of Automobile Engineering 221 No. 6 713 724 12 2007
  36. Petersen, B. R. Ghandhi, J. B. Koch, J. D. Fluorescence saturation measurements of 3-pentanone Applied Physics B, online Oct. 2008
  37. Moerner, W. E. A dozen years of single-molecule spectroscopy in Physics, Chemistry, and Biophysics J. Phys. Chem. B 106 910 927 2002
  38. Iverson, R. J. The effects of intake charge stratification on HCCI combustion MS Thesis Department of Mechanical Engineering, University of Wisconsin-Madison 2004
  39. Herold, R. E. Optical Investigations of the effects of stratification on homogeneous charge compression ignition combustion PhD Thesis Department of Mechanical Engineering, University of Wisconsin-Madison 2008
  40. Herold, R..E, Department of Mechanical Engineering, University of Wisconsin-Madison 2008
  41. Siegman, A. E. “How to (maybe) measure laser beam quality,” OSA TOPS 17 184 199 1998
  42. Bracco, F. V. Structure of flames in premixed-charge IC engines Combust. Sci. and Tech. 58 209 230 1988

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