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Spectroscopy Based Tool for Temperature Evaluation during the Spark Discharge

Journal Article
2019-32-0502
ISSN: 2641-9645, e-ISSN: 2641-9645
Published January 24, 2020 by Society of Automotive Engineers of Japan in Japan
Spectroscopy Based Tool for Temperature Evaluation during the Spark Discharge
Sector:
Citation: Merola, S., Irimescu, A., Vaglieco, B., Di Iorio, S. et al., "Spectroscopy Based Tool for Temperature Evaluation during the Spark Discharge," SAE Int. J. Adv. & Curr. Prac. in Mobility 2(2):966-978, 2020, https://doi.org/10.4271/2019-32-0502.
Language: English

References

  1. Shao , T. , Wang , R. , Zhang , C. , and Yan , P. Atmospheric-Pressure Pulsed Discharges and Plasmas: Mechanism, Characteristics and Applications High Voltage 3 1 14 20 2018
  2. Misra , N.N. , Schlüter , O. , and Cullen , P.J. Cold Plasma in Food and Agriculture: Fundamentals and Applications Academic Press 2016
  3. Salvi , B.L. and Subramanian , K.A. Experimental Investigation and Phenomenological Model Development of Flame Kernel Growth Rate in a Gasoline Fueled Spark Ignition Engine Applied Energy 139 93 103 2015
  4. Colin , O. and Truffin , K. A Spark Ignition Model for Large Eddy Simulation Based on an FSD Transport Equation (ISSIM-LES) Proceedings of the Combustion Institute 33 2 3097 3104 2011
  5. Sjerić , M. , Kozarac , D. , and Tatschl , R. Modelling of Early Flame Kernel Growth Towards a Better Understanding of Cyclic Combustion Variability in SI Engines Energy Conversion and Management 103 895 909 2015
  6. Colin , O. , Ritter , M. , Lacour , C. , Truffin , K. et al. DNS and LES of Spark Ignition with an Automotive Coil Proceedings of the Combustion Institute 37 4 4875 4883 2019
  7. Eisazadeh-Far , K. , Parsinejad , F. , Metghalchi , H. , and Keck , J.C. On Flame Kernel Formation and Propagation in Premixed Gases Combustion and Flame 157 12 2211 2221 2010
  8. Bane , S.P. , Ziegler , J.L. , and Shepherd , J.E. Investigation of the Effect of Electrode Geometry on Spark Ignition Combustion and Flame 162 2 462 469 2015
  9. Peng , M.W. , Shy , S.S. , Shiu , Y.W. , and Liu , C.C. High Pressure Ignition Kernel Development and Minimum Ignition Energy Measurements in Different Regimes of Premixed Turbulent Combustion Combustion and Flame 160 9 1755 1766 2013
  10. Machala , Z. , Hensel , K. , and Akishev , Y. Plasma for Bio-Decontamination, Medicine and Food Security Springer Science & Business Media 2012
  11. Devia , D.M. , Rodriguez-Restrepo , L.V. , and Restrepo-Parra , E. Methods Employed in Optical Emission Spectroscopy Analysis: A Review Ing. Y Cienc 11 239 267 2015
  12. Griem , H.R. Principles of Plasma Spectroscopy Vol. 2 Cambridge University Press 2005
  13. Fantz , U. Basics of Plasma Spectroscopy Plasma Sources Science and Technology 15 4 S137 2006
  14. Kawahara , N. , Hashimoto , S. , and Tomita , E. Spark Discharge Ignition Process in a Spark-Ignition Engine Using a Time Series of Spectra Measurements Proceedings of the Combustion Institute 36 3 3451 3458 2017
  15. Di Iorio , S. , Irimescu , A. , Merola , S.S. , Sementa , P. , and Vaglieco , B.M. Spectroscopic Investigation of Initial Combustion Stages in a SI Engine Fuelled with Ethanol and Gasoline SAE Technical Paper 2017-32-0092 2017 https://doi.org/10.4321/2017-32-0092
  16. Merola , S.S. , Di Iorio , S. , Irimescu , A. , Sementa , P. , and Vaglieco , B.M. Spectroscopic Characterization of Energy Transfer and Thermal Conditions of the Flame Kernel in a Spark Ignition Engine Fueled with Methane and Hydrogen International Journal of Hydrogen Energy 42 18 13276 13288 2017
  17. Martinez , S. , Merola , S. , and Irimescu , A. Flame Front and Burned Gas Characteristics for Different Split Injection Ratios and Phasing in an Optical GDI Engine Applied Sciences 9 3 449 2019
  18. Merola , S.S. and Irimescu , A. Effect of Electrode Geometry on Flame Kernel Development in a DI SI Engine International Congress of Automotive and Transport Engineering Cham Springer 2018 481 493
  19. Irimescu , A. , Tornatore , C. , Marchitto , L. , and Merola , S.S. Compression Ratio and Blow-by Rates Estimation Based on Motored Pressure Trace Analysis for an Optical Spark Ignition Engine Applied Thermal Engineering 61 2 101 109 2013
  20. Griem , H.R. Validity of Local Thermal Equilibrium in Plasma Spectroscopy Physical Review 131 3 1170 1963
  21. Levinger , N. Electronic Spectra Contain Electronic, Vibrational, and Rotational Information 2016
  22. Laux , C.O. , Spence , T.G. , Kruger , C.H. , and Zare , R.N. Optical Diagnostics of Atmospheric Pressure Air Plasmas Plasma Sources Science and Technology 12 2 125 2003
  23. Rahman , A. , Yalin , A.P. , Surla , V. , Stan , O. et al. Absolute UV and VUV Emission in the 110-400 nm Region from 13.56 MHz Driven Hollow Slot Microplasmas Operating in Open Air Plasma Sources Science and Technology 13 3 537 2004
  24. Staack , D. , Farouk , B. , Gutsol , A.F. , and Fridman , A.A. Spectroscopic Studies and Rotational and Vibrational Temperature Measurements of Atmospheric Pressure Normal Glow Plasma Discharges in Air Plasma Sources Science and Technology 15 4 818 2006
  25. Nassar , H. , Pellerin , S. , Musiol , K. , Martinie , O. et al. N2+/N2 Ratio and Temperature Measurements Based on the First Negative N2+ and Second Positive N2 Overlapped Molecular Emission Spectra Journal of Physics D: Applied Physics 37 14 1904 2004
  26. Chen , C.J. and Li , S.Z. Spectroscopic Measurement of Plasma Gas Temperature of the Atmospheric- Pressure Microwave Induced Nitrogen Plasma Torch Plasma Sources Science and Technology 24 3 035017 2015
  27. Li , S.Z. , Chen , C.J. , Zhang , X. , Zhang , J. , and Wang , Y.X. Spectroscopic Diagnosis of an Atmospheric-Pressure Waveguide-Based Microwave N2-Ar Plasma Torch Plasma Sources Science and Technology 24 2 025003 2015
  28. Laux , C.O. Physico-Chemical Modeling of High Enthalpy and Plasma Flows. Lecture Series 2002-07 Belgium Rhode-Saint-Genese, von Karman Institute 2002
  29. Luque , J. and Crosley , D.R. 1999 www.sri.com/engage/products-solutions/lifbase
  30. NIST Atomic Spectra Database (version 5.6.1) https://physics.nist.gov/asd
  31. Griem , H. Spectral Line Broadening by Plasmas Elsevier 2012
  32. Helbig , V. , Kelleher , D.E. , and Wiese , W.L. Stark-Broadening Study of Neutral Nitrogen Lines Physical Review A 14 3 1082 1976
  33. Konjević , N. Plasma Broadening and Shifting of Non-Hydrogenic Spectral Lines: Present Status and Applications Physics Reports 316 6 339 401 1999
  34. Wiese , W.L. and Konjević , N. Regularities in Experimental Stark Shifts Journal of Quantitative Spectroscopy and Radiative Transfer 47 3 185 200 1992
  35. Irimescu , A. and Merola , S.S. Spark Discharge and Flame Inception Analysis through Spectroscopy in a DISI Engine Fueled with Gasoline and Butanol IOP Conference Series: Materials Science and Engineering 252 1 012093 2017
  36. Machala , Z. , Janda , M. , Hensel , K. , Jedlovský , I. et al. Emission Spectroscopy of Atmospheric Pressure Plasmas for Bio-Medical and Environmental Applications Journal of Molecular Spectroscopy 243 2 194 201 2007
  37. Shimizu , K. and Oda , T. Emission Spectrometry for Discharge Plasma Diagnosis Science and Technology of Advanced Materials 2 3-4 577 2001
  38. Zerrouki , A. , Motomura , H. , Ikeda , Y. , Jinno , M. , and Yousfi , M. Optical Emission Spectroscopy Characterizations of Micro-Air Plasma Used for Simulation of Cell Membrane Poration Plasma Physics and Controlled Fusion 58 7 075006 2016
  39. Cicala , G. , De Tommaso , E. , Raino , A.C. , Lebedev , Y.A. , and Shakhatov , V.A. Study of Positive Column of Glow Discharge in Nitrogen by Optical Emission Spectroscopy and Numerical Simulation Plasma Sources Science and Technology 18 2 025032 2009
  40. Zhao , T.L. , Xu , Y. , Song , Y.H. , Li , X.S. et al. Determination of Vibrational and Rotational Temperatures in a Gliding Arc Discharge by Using Overlapped Molecular Emission Spectra Journal of Physics D: Applied Physics 46 34 345201 2013
  41. Pearse , R.W.B. and Gaydon , A.G. Identification of Molecular Spectra Chapman and Hall 1976
  42. Gaydon , A. The Spectroscopy of Flames Springer Science & Business Media 2012
  43. Abdelli-Messaci , S. , Kerdja , T. , Bendib , A. , and Malek , S. CN Emission Spectroscopy Study of Carbon Plasma in Nitrogen Environment Spectrochimica Acta Part B: Atomic Spectroscopy 60 7-8 955 959 2005
  44. Crosley , D.R. and Lengel , R.K. Relative Transition Probabilities and the Electronic Transition Moment in the AX System of OH Journal of Quantitative Spectroscopy and Radiative Transfer 15 7-8 579 591 1975
  45. Little , C.E. and Browne , P.G. Origin of the High-Pressure Bands of C2 Chemical Physics Letters 134 6 560 564 1987
  46. Sardeshmukh , S. , Bedard , M. , and Anderson , W. The Use of OH* and CH* as Heat Release Markers in Combustion Dynamics International Journal of Spray and Combustion Dynamics 9 4 409 423 2017
  47. Catapano , F. , Sementa , P. , and Vaglieco , B.M. Air-Fuel Mixing and Combustion Behavior of Gasoline-Ethanol Blends in a GDI Wall-Guided Turbocharged Multi-Cylinder Optical Engine Renewable Energy 96 319 332 2016
  48. Orain , M. and Hardalupas , Y. Effect of Fuel Type on Equivalence Ratio Measurements Using Chemiluminescence in Premixed Flames Comptes Rendus Mecanique 338 5 241 254 2010
  49. Martinez , S. , Irimescu , A. , Merola , S. , Lacava , P. , and Curto-Risso , P. Flame Front Propagation in an Optical GDI Engine under Stoichiometric and Lean Burn Conditions Energies 10 9 1337 2017
  50. Gaydon , A.G. and Wolfhard , H.G. Mechanism of Formation of CH, C2, OH and HCO Radicals in Flames Symposium (International) on Combustion 4 1 211 218 1953
  51. Sheinson , R.S. and Williams , F.W. Chemiluminescence Spectra from Cool and Blue Flames: Electronically Excited Formaldehyde Combustion and Flame 21 2 221 230 1973
  52. Gupta , S.B. , Bihari , B.P. , Biruduganti , M.S. , Sekar , R.R. , and Zigan , J. On Use of CO2 Chemiluminescence for Combustion Metrics in Natural Gas Fired Reciprocating Engines Proceedings of the Combustion Institute 33 2 3131 3139 2011
  53. Pellerin , S. , Cormier , J.-M. , Richard , F. , Musiol , K. , and Chapelle , J. Spectroscopic Diagnostic Method Using the OH Band Spectrum J. Phys. D: Appl. Phys. 29 726 739 1996
  54. Pancheshnyi , S.V. , Starikovskaia , S.M. , and Starikovskii , A.Y. Collisional Deactivation of N2 (C 3 Π u, v = 0, 1, 2, 3) States by N2, O2, H2 and H2O Molecules Chemical Physics 262 2-3 349 357 2000
  55. Marinelli , W.J. , Kessler , W.J. , Green , B.D. , and Blumberg , W.A. Quenching of N2 (a 1Π g, v‘= 0) by N2, O2, CO, CO2, CH4, H2, and Ar The Journal of Chemical Physics 90 4 2167 2173 1989
  56. Setser , D.W. and Thrush , B.A. Kinetics of Reactions Involving CN Emission. I. General Features of Reactions with Active Nitrogen and Atomic Oxygen Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences 288 1413 256 274 1965
  57. Shen , H. , Hinze , P. , and Heywood , J. A Model for Flame Initiation and Early Development in SI Engine and its Application to Cycle-to-Cycle Variations SAE Technical Paper 942049 1994 https://doi.org/10.4271/942049
  58. Willems , H. and Sierens , R. Modeling the Initial Growth of the Plasma and Flame Kernel in SI Engines ASME J Eng Gas Turbines Power 125 2 479 484 2003
  59. Sforza , L. , Lucchini , T. , Onorati , A. , Zhu , X. et al. Modeling Ignition and Premixed Combustion Including Flame Stretch Effects SAE Technical Paper 2017-01-0553 2017 https://doi.org/2017-01-0553

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