• Title/Summary/Keyword: Photo-Physical Effect on Thermodynamic Condition

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Quantitative Vapor Phase Exciplex Fluorescence Measurements at High Ambient Temperature and Pressure

  • Kim, Tongwoo;Jaal B. Ghandhi
    • Journal of Mechanical Science and Technology
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    • v.17 no.1
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    • pp.157-167
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    • 2003
  • The exciplex fluorescence technique with the TMPD (tetamethyl-Ρ-phenylene-diamine) / naphthalene dopant system was applied in a combustion-type constant-volume spray chamber. A detailed set of calibration experiments has been performed in order to quantify the TMPD fluorescence signal. It has been demonstrated that the TMPD fluorescence intensity was directly proportional to concentration, was independent of the chamber pressure, and was not sensitive to quenching by either water vapor or carbon dioxide. Using a dual heated-jet experiment, the temperature dependence of TMPD fluorescence up to 1000 K was measured. The temperature field in the spray images was determined using a simple mixing model, and an iterative solution method was used to determine the concentration and temperature field including the additional effects of the laser sheet extinction. The integrated fuel vapor concentration compared favorably with the measured amount of injected fuel when all of the liquid fuel had evaporated.