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Development of a Fast-Acting, Time-Resolved Gas Sampling System for Combustion and Fuels Analysis

Journal Article
2016-01-0791
ISSN: 1946-3936, e-ISSN: 1946-3944
DOI: https://doi.org/10.4271/2016-01-0791
Published April 05, 2016 by SAE International in United States
Development of a Fast-Acting, Time-Resolved Gas Sampling System for Combustion and Fuels Analysis
Sector:
Citation: Talibi, M., Hellier, P., Balachandran, R., and Ladommatos, N., "Development of a Fast-Acting, Time-Resolved Gas Sampling System for Combustion and Fuels Analysis," SAE Int. J. Engines 9(2):1102-1116, 2016, https://doi.org/10.4271/2016-01-0791.
Language: English

References

  1. Nowak L. , Guibert P. , Cavadias S. , Dupré S. , and Momique J. C. Methodology development of a time-resolved in-cylinder fuel oxidation analysis: Homogeneous charge compression ignition combustion study application Combustion and Flame 154 3 462 472 Aug. 2008
  2. Turns S. R. An introduction to combustion: concepts and applications New York McGraw-Hill 1996
  3. Ladommatos , N. and Zhao H. Engine Combustion Instrumentation and Diagnostics Warrendale Society of Automotive Engineers 2001 10.4271/R-264
  4. Roblee L. H. S. A technique for sampling reaction intermediates in a rapid compression machine Combustion and Flame 5 229 234 Mar. 1961
  5. Beeley P. , Griffiths J. F. , and Gray P. Rapid compression studies on spontaneous ignition of isopropyl nitrate Part II: Rapid sampling, intermediate stages and reaction mechanisms Combustion and Flame 39 3 269 281 Nov. 1980
  6. Shiga S. , Ozone S. , Machacon H. T. C. , Karasawa T. , Nakamura H. , Ueda T. , Jingu N. , Huang Z. , Tsue M. , and Kono M. A study of the combustion and emission characteristics of compressed-natural-gas direct-injection stratified combustion using a rapid-compression-machine Combustion and Flame 129 1 1 10 Apr. 2002
  7. Würmel J. , Silke E. J. , Curran H. J. , Ó Conaire M. S. , and Simmie J. M. The effect of diluent gases on ignition delay times in the shock tube and in the rapid compression machine Combustion and Flame 151 1 289 302 Oct. 2007
  8. Thi L. D. , Zhang Y. , and Huang Z. Shock tube study on ignition delay of multi-component syngas mixtures - Effect of equivalence ratio International Journal of Hydrogen Energy 39 11 6034 6043 Apr. 2014
  9. Gowdagiri S. , Wang W. , and Oehlschlaeger M. A. A shock tube ignition delay study of conventional diesel fuel and hydroprocessed renewable diesel fuel from algal oil Fuel 128 21 29 Jul. 2014
  10. Voiculescu , I. and Borman , G. An Experimental Study of Diesel Engine Cylinder-Averaged NOx Histories SAE Technical Paper 780228 1978 10.4271/780228
  11. Liu , X. and Kittelson , D. Total Cylinder Sampling from a Diesel Engine (Part II) SAE Technical Paper 820360 1982 10.4271/820360
  12. Kittelson , D. , Pipho , M. , Ambs , J. , and Siegla , D. Particle Concentrations in a Diesel Cylinder: Comparison of Theory and Experiment SAE Technical Paper 861569 1986 10.4271/861569
  13. Kittelson , D. , Pipho , M. , Ambs , J. , and Luo , L. In-Cylinder Measurements of Soot Production in a Direct-Injection Diesel Engine SAE Technical Paper 880344 1988 10.4271/880344
  14. Pipho , M. , Kittelson , D. , Luo , L. , and Zarling , D. Injection Timing and Bowl Configuration Effects on In-Cylinder Particle Mass SAE Technical Paper 921646 1992 10.4271/921646
  15. Lovell W. G. , Coleman J. D. , and Boyd T. A. Studies of Combustion in the Gasoline Engine 1 : II-The Burning of Hydrogen and Carbon Monoxide Industrial & Engineering Chemistry 19 3 376 378 Mar. 1927
  16. Nightingale , D. A Fundamental Investigation into the Problem of NO Formation in Diesel Engines SAE Technical Paper 750848 1975 10.4271/750848
  17. Bennethum , J. , Mattavi , J. , and Toepel , R. Diesel Combustion Chamber Sampling - Hardware, Procedures, and Data Interpretation SAE Technical Paper 750849 1975 10.4271/750849
  18. Rhee , K. , Myers , P. , and Uyehara , O. Time- and Space- Resolved Species Determination in Diesel Combustion Using Continuous Flow Gas Sampling SAE Technical Paper 780226 1978 10.4271/780226
  19. Heywood J. , Keck J. , and Rife J. Final Report on Research Program: Hydrocarbon formation and oxidation in spark-ignition engines Sloan Automotive Laboratory, Massuchusetts Institute of Technology 1980
  20. Matsui , K. , Tanaka , T. , and Ohigashi , S. Measurement of Local Mixture Strength at Spark Gap of S. I. Engines SAE Technical Paper 790483 1979 10.4271/790483
  21. Turns S. R. and Borman G. L. Internal combustion engine sampling probes: An experimental study of sample-gas origins and flow disturbances Combustion and Flame 38 313 327 Jan. 1980
  22. Fristrom R. M. , Prescott R. , and Grunfelder C. Flame zone studies III-Techniques for the determination of composition profiles of flame fronts Combustion and Flame 1 1 102 113 Mar. 1957
  23. Yanagi T. Effects of probe sampling rates on sample composition Combustion and Flame 28 33 44 Jan. 1977
  24. Hayhurst A. N. , Kittelson D. B. , and Telford N. R. Mass spectrometric sampling of ions from atmospheric pressure flames-II: Aerodynamic disturbance of a flame by the sampling system Combustion and Flame 28 123 135 Jan. 1977
  25. Aoyagi , Y. , Kamimoto , T. , Matsui , Y. , and Matsuoka , S. A Gas Sampling Study on the Formation Processes of Soot and NO in a DI Diesel Engine SAE Technical Paper 800254 1980 10.4271/800254
  26. Fujiwara , Y. , Fukazawa , S. , Tosaka , S. , and Murayama , T. Formation of Soot Particulates in the Combustion Chamber of a Precombustion Chamber Type Diesel Engine SAE Technical Paper 840417 1984 10.4271/840417
  27. Zhao , H. , Lowry , G. , and Ladommatos , N. Time-Resolved Measurements and Analysis of In-Cylinder Gases and Particulates in Compression-Ignition Engines SAE Technical Paper 961168 1996 10.4271/961168
  28. Kato , S. , Takayama , Y. , Sato , G. , Tanabe , H. et al. Investigation of Particulate Formation of DI Diesel Engine with Direct Sampling from Combustion Chamber SAE Technical Paper 972969 1997 10.4271/972969
  29. Dumitrescu C. , Puzinauskas P. V. , Agrawal A. K. , Liu H. , and Daly D. T. A computational study of a fast sampling valve designed to sample soot precursors inside a forming diesel spray plume Applied Thermal Engineering 29 5 1253 1258 Apr. 2009
  30. Ozasa T. , Suzuki S. , Kondo H. , Kataoka M. , and Oshima Y. Effect of Combustion Chamber Shape on a Lean-Burn S.I.Engine -Measurement of In-Cylinder Mixture Strength Using a Gas Sampling Technique JSAE Review 12 4 10 1991
  31. Withrow L. , Lovell W. G. , and Boyd T. A. Following Combustion in the Gasoline Engine by Chemical Means Industrial & Engineering Chemistry 22 9 945 951 Sep. 1930
  32. Egerton A. , Smith F. , and Ubbelohde A. Estimation of the Combustion Products from the Cylinder of the Petrol Engine and Its Relation to‘ Knock,’ Philosophical Transactions of the Royal Society Of London. Series A Mathematical and Physical Sciences 234 744 433 521 1935
  33. Donahue , R. and Kent , R. A Study of Mixture Distribution SAE Technical Paper 500196 1950 10.4271/500196
  34. Taylor , C. and Rogowski , A. Scavenging the 2-Stroke Engine SAE Technical Paper 540258 1954 10.4271/540258
  35. LoRusso , J. , Lavoie , G. , and Kaiser , E. An Electrohydraulic Gas Sampling Valve with Application to Hydrocarbon Emissions Studies SAE Technical Paper 800045 1980 10.4271/800045
  36. LoRusso J. A. , Lavoie G. A. , Forgacs R. L. , Jeryan R. A. , and Errante J. Electrohydraulic gas sampling valve Review of Scientific Instruments 55 5 786 May 1984
  37. Duggal , V. , Priede , T. , and Khan , I. A Study of Pollutant Formation within the Combustion Space of a Diesel Engine SAE Technical Paper 780227 1978 10.4271/780227
  38. Zvonow V. A. Hydraulically Actuated Combustion Gas Sampling Valve Review of Scientific Instruments 39 12 1820 Dec 1968
  39. Bäcker , H. , Hild , O. , and Lepperhoff , G. Investigation on Particle Size Distribution in the Cylinder of a Passenger Car DI Diesel Engine Using a Fast Gas Sampling Valve SAE Technical Paper 970875 1997 10.4271/970875
  40. Seilly , A. Colenoid Actuators - Further Developments in Extremely Fast Acting Solenoids SAE Technical Paper 810462 1981 10.4271/810462
  41. Kajima T. and Kawamura Y. Development of a high-speed solenoid valve: investigation of solenoids IEEE Transactions on Industrial Electronics 42 1 1 8 1995
  42. Ohdachi Y. , Kawase Y. , Murakami Y. , and Inaguma Y. Optimum design of dynamic response in automotive solenoid valve IEEE Transactions on Magnetics 27 6 5226 5228 1991
  43. Yates D. A. The compact high-speed gas sampling valve for an internal combustion engine IMechE seminar “Experimental Methods in Engine Research and Development,” 1988
  44. Whitehouse , N. , Clough , E. , and Roberts , P. Investigating Diesel Engine Combustion by Means of a Timed Sampling Valve SAE Technical Paper 770409 1977 10.4271/770409
  45. Weiss , P. and Keck , J. Fast Sampling Valve Measurements of Hydrocarbons in the Cylinder of a CFR Engine SAE Technical Paper 810149 1981 10.4271/810149
  46. Heywood J. B. Internal Combustion Engine Fundamentals 1st New York McGraw-Hill 1988
  47. Talibi M. , Hellier P. , Balachandran R. , and Ladommatos N. Effect of hydrogen-diesel fuel co-combustion on exhaust emissions with verification using an in-cylinder gas sampling technique International Journal of Hydrogen Energy 39 27 15088 15102 Sep. 2014
  48. Dec , J. A Conceptual Model of DI Diesel Combustion Based on Laser-Sheet Imaging SAE Technical Paper 970873 1997 10.4271/970873

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