The purpose of this study is to investigate the relation between ignition systems (or energy) and flame kernel development. In this research, three different kinds of ignition systems and several different kinds of spark plug electrodes are designed and manufactured. The flame propagation velocity in a constant volume combustion chamber is measured by both a laser deflection method using an He-Ne laser and a Schlieren method using a high speed digital camera. In order to control the ignition energy, the dwell time is varied by a spark time controller.

    The results indicate that, when the ignition energy is increased by extending the dwell time, flame kernel growth accelerates. As the electrode gap width is increased, the breakdown energy is also increased, which stimulates the initial kernel development. The materials, diameter and shape of the electrode affect the discharged energy, the energy transfer efficiency and heat losses and, thus, these also affect the flame kernel development. The average difference in measurement of the flame velocity by the laser deflection method and Schlieren method is only 1.73 per cent. The laser deflection method is found to be preferable because it is more effective and employs simpler means for the analysis of flame kernel development.


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    Title :

    Analysis of flame kernel development with Schlieren and laser deflection in a constant volume combustion chamber


    Contributors:
    Song, J (author) / Sunwoo, M (author)


    Publication date :

    2002-07-01


    Size :

    10 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English







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    Arcoumanis,C. / Bae,C.S. / Imperial College of Science, Technology and Medicine,GB | Automotive engineering | 1993


    Correlation between spark ignition characteristics and flame - development in a constant-volume combustion chamber

    Arcoumanis,C. / Bae,C.S. / Imperial College,London,GB | Automotive engineering | 1992