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Measurement and Characterization of Flow Resistance of Critical and Near Critical Pulsating Flow through an Orifice Located in the Exhaust Stream of a Diesel Engine

Journal Article
2019-01-1176
ISSN: 2641-9645, e-ISSN: 2641-9645
DOI: https://doi.org/10.4271/2019-01-1176
Published April 02, 2019 by SAE International in United States
Measurement and Characterization of Flow Resistance of Critical and Near Critical Pulsating Flow through an Orifice Located in the Exhaust Stream of a Diesel Engine
Sector:
Citation: Brahma, I., "Measurement and Characterization of Flow Resistance of Critical and Near Critical Pulsating Flow through an Orifice Located in the Exhaust Stream of a Diesel Engine," SAE Int. J. Adv. & Curr. Prac. in Mobility 1(4):1604-1612, 2019, https://doi.org/10.4271/2019-01-1176.
Language: English

References

  1. Lichtarowicz , A. , Duggins , R.K. , and Markland , E. Discharge Coefficients for Incompressible Non-Cavitating Flow through Long Orifices Journal of Mechanical Engineering Science 7 2 210 219 1965
  2. Bean , H.S. , Buckingham , E. , and Murphy , P.S. Discharge Coefficients of Square-Edged Orifices for Measuring the Flow of Air Journal of Research of the National Bureau of Standards 2 4 561 1929
  3. Tuve , G.L. and Sprenkle , R.E. Orifice Discharge Coefficients for Viscous Liquids Instruments 1933
  4. Meters , F. American Society of Mechanical Engineers 6th 1971 9780791806432
  5. Doblhoff-Dier , K. , Kudlaty , K. , Wiesinger , M. , and Gröschl , M. Time Resolved Measurement of Pulsating Flow Using Orifices Flow Measurement and Instrumentation 22 2 97 103 2011
  6. Gajan , P. , Mottram , R.C. , Hebrard , P. , Andriamihafy , H. , and Platet , B. The Influence of Pulsating Flows on Orifice Plate Flowmeters Flow Measurement and Instrumentation 3 3 118 129 1992
  7. Mottram , R.C. An Overview of Pulsating Flow Measurement Flow Meas. Inst. 3 114 117 1992
  8. He , S. and Jackson , J.D. An Experimental Study of Pulsating Turbulent Flow in a Pipe European Journal of Mechanics-B/Fluids 28 2 309 320 2009
  9. Gundogdu , M.Y. and Carpinlioglu , M.O. Present State of Art on Pulsatile Flow Theory: Part 1: Laminar and Transitional Flow Regimes JSME International Journal Series B Fluids and Thermal Engineering 42 3 384 397 1999
  10. Gundogdu , M.Y. and Carpinlioglu , M.O. Present State of Art on Pulsatile Flow Theory: Part 2: Turbulent Flow Regime JSME International Journal Series B Fluids and Thermal Engineering 42 3 398 410 1999
  11. Çarpinliogˇlu , M.Ö. and Gündogˇdu , M.Y. A Critical Review on Pulsatile Pipe Flow Studies Directing towards Future Research Topics Flow Measurement and Instrumentation 12 3 163 174 2001
  12. Ohmi , M. , Iguchi , M. , and Urahata , I. Transition to Turbulence in a Pulsatile Pipe Flow Part 1, Wave Forms and Distribution of Pulsatile Velocities Near Transition Region Bulletin of JSME 25 200 182 189 1982
  13. Iguchi , M. and Ohmi , M. Transition to Turbulence in a Pulsatile Pipe Flow: Part 2, Characteristics of Reversing Flow Accompanied by Relaminarization Bulletin of JSME 25 208 1529 1536 1982
  14. Ahn , K.H. and Ibrahim , M.B. Laminar/Turbulent Oscillating Flow in Circular Pipes International Journal of Heat and Fluid Flow 13 4 340 1992
  15. Ward-Smith , A.J. Critical Flowmetering: The Characteristics of Cylindrical Nozzles with Sharp Upstream Edges International Journal of Heat and Fluid Flow 1 3 123 132 1979
  16. Brain , T.J.S. and Reid , J. Performance of Small Diameter Cylindrical Critical Flow Nozzles National Engineering Laboratory Report 546 1975
  17. Deckker , B.E.L. and Chang , Y.F. Paper 7: An Investigation of Steady Compressible Flow through Thick Orifices Proceedings of the Institution of Mechanical Engineers, Conference Proceedings 180 10 312 323 1965 June
  18. Jackson , R.A. The Compressible Discharge of Air through Small Thick Plate Orifices Appl. Scient. Res., Section A 13 241 248 1963
  19. Kastner , L.J. , Williams , T.J. , and Sowden , R.A. Critical-Flow Nozzle Meter and Its Application to the Measurement of Mass Flow Rate in Steady and Pulsating Streams of Gas Journal of Mechanical Engineering Science 6 1 88 98 1964
  20. Rohde , J.E. , Richards , H.T. , and Metger , G.W. 1969
  21. Grace , H. and Lapple , C.E. Discharge Coefficients of Small-Diameter Orifices and Flow Nozzles Trans. Asme 73 5 639 6Vf 1951
  22. Brahma , I. Analysis and Prediction of Transient Opacity Spikes Using Dimensional Modeling International Journal of Engine Research 15 3 263 281 2014
  23. Brahma , I. An Investigation into the Causes of Transient Particulate Matter Spikes in Production Diesel Engines ASME 2011 Internal Combustion Engine Division Fall Technical Conference American Society of Mechanical Engineers 2011 January 765 783
  24. Brahma , I. A Decision-Tree-Based Approach to Smoke Spike Detection in a Heavy-Duty Diesel Engine Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 227 8 1112 1129 2013
  25. Brahma , I. , Schmidt , J. , Confair , R. , Kurtz , J. et al. An Investigation into the Accuracy of Orifice Based Flow Estimates for Pulsating Compressible Flows SAE Int. J. Engines 7 1 313 322 2014 10.4271/2014-01-1154
  26. Brahma , I.
  27. Weiss , S.M. and Kulikowski , C.A. Computer Systems that Learn: Classification and Prediction Methods from Statistics, Neural Nets, Machine Learning, and Expert Systems Morgan Kaufmann Publishers Inc 1991

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