Chemiluminescent emission of CH*, C*2, OH*, and CO*2 during the ignition of ethane behind reflected shock waves


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Abstract

The chemiluminescent emission from CH*, C*2, OH*, and CO*2 during the self-ignition of various mixtures of ethane with oxygen and argon behind reflected shock waves in the 1240–1790 K temperature range at a total concentration of the mixture М5 = (1 ± 0.2) × 10−5 mol/cm3 is experimentally studied. It has been shown that the time-to-maximum in the emission intensity profiles is almost identical for all the emitters studied. How the pattern of the OH* emission profile changes with the temperature and mixture composition is examined. The CH* and C*2 emission profiles demonstrate virtually symbatic behavior in the covered ranges of temperature, pressure, and equivalence ratio. It is established that the emission signals from OH* and CO*2 appear earlier than the C*2 and CH* emission signals. The numerical simulation predictions are found to be in close agreement with the experimental results.

About the authors

P. A. Vlasov

Semenov Institute of Chemical Physics; National Research Nuclear University MEPhI

Email: atereza@bk.ru
Russian Federation, Moscow, 119991; Moscow, 115409

T. S. Demidenko

National Research Nuclear University MEPhI

Email: atereza@bk.ru
Russian Federation, Moscow, 115409

V. N. Smirnov

Semenov Institute of Chemical Physics

Email: atereza@bk.ru
Russian Federation, Moscow, 119991

A. M. Tereza

Semenov Institute of Chemical Physics

Author for correspondence.
Email: atereza@bk.ru
Russian Federation, Moscow, 119991

E. V. Atkin

National Research Nuclear University MEPhI

Email: atereza@bk.ru
Russian Federation, Moscow, 115409

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