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Impact of Spark Plasma Length on Flame Kernel Development under Flow Condition

Journal Article
2020-01-1114
ISSN: 2641-9637, e-ISSN: 2641-9645
Published April 14, 2020 by SAE International in United States
Impact of Spark Plasma Length on Flame Kernel Development under Flow Condition
Sector:
Citation: Zhu, H., Tan, Q., Yu, X., Yang, Z. et al., "Impact of Spark Plasma Length on Flame Kernel Development under Flow Condition," SAE Int. J. Adv. & Curr. Prac. in Mobility 2(4):2172-2182, 2020, https://doi.org/10.4271/2020-01-1114.
Language: English

References

  1. Schenk , M. , Schauer , F. , Sauer , C. , Weber , G. , et al. Challenges to the Ignition System of Future Gasoline Engines-An Application Oriented Systems Comparison 3rd International Conference Ignition systems for Gasoline Engines Berlin, Germany
  2. Karl , G. , Otto , F. , Herweg , R. , Freisinger , N. , et al. Future Potential of Gasoline Engines 2nd International Conference Ignition systems for Gasoline Engines 2014 Berlin, Germany
  3. Wei , H. , Zhu , T. , Shu , G. , Tan , L. et al. Gasoline Engine Exhaust Gas Recirculation - A Review Applied Energy 99 534 544 2012 10.1016/j.apenergy.2012.05.011
  4. Brandt , M. , Hettinger , A. , Schneider , A. , Senftleben , H. , et al. Extension of Operating Window for Modern Combustion Systems by High Performance Ignition 3rd International Conference Ignition systems for Gasoline Engines November 3-4, 2016 Berlin, Germany
  5. Nishiyama , A. , Le , M.K. , Furui , T. , and Ikeda , Y. The Relationship between In-Cylinder Flow-Field near Spark Plug Areas, the Spark Behavior, and the Combustion Performance inside an Optical S.I. Engine Appl. Sci. 9 1545 2019 10.3390/app9081545
  6. Yu , X. , Yang , Z. , Yu , S. , Ives , M. , and Zheng , M. Discharge Characteristics of Current Boosted Spark Events under Flow Conditions ASME 2017 Internal Combustion Engine Division Fall Technical Conference American Society of Mechanical Engineers 2017
  7. Suzuki , K. , Uehara , K. , Murase , E. , and Nogawa , S. Study of Ignitability in Strong Flow Field 3rd International Conference Ignition Systems for Gasoline Engines November 3-4, 2016 Berlin, Germany
  8. Sackmann , M. , Adolf , M. , and Becker , M. High Energy Dual Coil Ignition System for Gasoline Engines with EGR or Lean Combustion SIA International Conference and Exhibition: The Spark Ignition Engine of the Future Strasbourg 2013
  9. Alger , T. , Gingrich , J. , Mangold , B. et al. A Continuous Discharge Ignition System for EGR Limit Extension in SI Engines SAE Int J Engines 4 1 677 692 2011 10.4271/2011-01-0661
  10. Weyand , P. , Lorenz , F. , and Schilling , S. Adaptive Continuous Spark Ignition as Enabler for High Dilution EGR Operation Ignition Systems for Gasoline Engines, 2rd International Conference 2014 Berlin, Germany
  11. Martin , B. , Alexander , H. , Andreas , S. et al. Extension of Operating Window for Modern Combustion Systems by High Performance Ignition Ignition Systems for Gasoline Engines, 3rd International Conference 2016 Berlin, Germany
  12. Yu , X. , Yang , Z. , Yu , S. , Huo , X. et al. Boosted Current Spark Strategy for Lean Burn Spark Ignition Engines SAE Technical Paper 2018-01-1133 2018 https://doi.org/10.4271/2018-01-1133
  13. Yu , S. and Zheng , M. Advanced Ignition System for Future Clean Combustion Engines: Review J Automotive Safety and Energy 6 4 2015
  14. Zheng , M. , Yu , S. , and Tjong , J. High Energy Multipole Distribution Spark Ignition System 3rd International Conference Ignition Systems for Gasoline Engines Berlin, Germany
  15. Yu , X. , Zhu , H. , Zheng , M. , and Li , L. Electrical Waveform Measurement of Spark Energy and its Effect on Lean Burn SI Engine Combustion SAE Int. J. Adv. & Curr. Prac. in Mobility 2 1 292 300 2020

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