Transactions of the Korean Society of Automotive Engineers (한국자동차공학회논문집)

The Korean Society of Automotive Engineers (한국자동차공학회)
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Combustion Enhancemen of Premixed Mixtures Using Laser-Induced Cavity Ignition

레이저 유도 공동 점화방식을 이용한 예혼합기 연소 특성 향상

  • Published : 1999.08.01
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Abstract

In this study, a new type of laser-induced ignition using a conical cavity has been developed to utilize all the available incident laser energy. In the method, it is possibile to ignite combustible methane/air mixtures by directing a laser beam of a constant small diameter into a small conical cavity, without focusing the laser beam. Shadow graphs for the early stage of combustion process show that a hot gas jet is ejected from the cavity, especially with lean mixture. After a very show time, the hot gas jet finishes issuing and the flame behavior is quite similar to flame propagation initiated by a conventional spark ignition. The combustion process using the new method exhibits more rapid pressure increase and a higher maximum pressure rise than that of the center ignition using laser-induced spark, with significant decrease in the combustion time. Also, the new ignition method is numerically modeled to simulate the flame kernel development and subsequent combustion process using the KIVA-IIcode. The calculated results show satisfactory agreement with experimental results.

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References

  1. SAE paper 810146 Enhanced Ignition for I. C. Engines with Premixed Gases J. D. Dale;A. K. Oppenheim
  2. KSME International Journal v.13 no.1 An Experiment on the Combustion Characteristics with Laser-Induced Spark Ignition H. Mohamed;Y. S. Ko;K.J. Yoon;S. H. Chung
  3. J. Appl. Phys v.64 Dynamics of Flame Propagation Using Laser-Induced Spark Initiation: Ignition Energy Measurements J. A. Syage;E. W. Fournier;R. Rianda;R. B. Cohen
  4. Optical Engineering v.33 Laser versus Conventional Ignition of Flames P. D. Ronney
  5. Los Alamos National Laboratory report, LA-11560-MS KIVA-II: A Computer Program for Chemically Reactive Flows with Sprays A. A. Amsden;P. J. ORourke;T. D. Butler
  6. AIAA J. Propulsion v.3 Numerical Study of Laser-Sustained Hydrogen Plasmas in a Forced Convective Flow S. M. Jeng;D. R. Keefer
  7. Effects of High-Power Laser Radiation J. F. Ready
  8. Laser-Induced Plasmas and Applications L. J. Radziemski;D. A. Cremers
  9. AIAA Journal v.19 no.4 Laser Ignition of Plasma off Aluminum Surfaces G. Weyl;A. Pirri;R. Root
  10. Sixteen Symposium (International) on Combustion Aerodynamic and Flame Structure Within a Jet-Stirred Reactor D. Bradely;S. B. Chin;M. S. Draper;G. Hankinson
  11. Internal Combustion Engine Fundamentals J.B. Heywood