Experimental and kinetic modeling investigation on premixed tetralin flames

Yuyang Li*, Wenhao Yuan, Chuangchuang Cao, Yan Zhang, Jiabiao Zou, Yizun Wang

*Corresponding author for this work

    Research output: Contribution to conferencePaperpeer-review

    Abstract

    This work reports the investigation on premixed flames of tetralin at 30 Torr and equivalence ratios of 0.7 and 1.7. Measurements of the flame chemical structure, i.e. identification and mole fraction measurements of radicals, isomers and polycyclic aromatic hydrocarbons (PAHs), were performed using synchrotron vacuum ultraviolet photoionization mass spectrometry (SVUV-PIMS). A kinetic model with 296 species and 1571 reactions was developed and validated by the flame chemical structure data in this work. Modeling analysis demonstrates the key reaction pathways in tetralin decomposition and aromatics growth. It is concluded that H-atom abstraction reactions dominate the consumption of tetralin under premixed flame conditions, while oxidation reactions play more important roles in the lean flame. Indene and naphthalene are abundantly produced in the tetralin flames since they are key decomposition products of tetralin. Consequently their radicals play important roles in the aromatics growth process and stimulate the production of many typical large PAHs.

    Original languageEnglish (US)
    StatePublished - 2017
    Event11th Asia-Pacific Conference on Combustion, ASPACC 2017 - Sydney, Australia
    Duration: Dec 10 2017Dec 14 2017

    Conference

    Conference11th Asia-Pacific Conference on Combustion, ASPACC 2017
    Country/TerritoryAustralia
    CitySydney
    Period12/10/1712/14/17

    Bibliographical note

    Funding Information:
    This work was supported by National Natural Science Foundation of China (91541201, 51622605, 51476155), National Postdoctoral Program for Innovative Talents (BX201600100) and China Postdoctoral Science Foundation (2016M600312). The authors are also grateful to Dr. Jiuzhong Yang and Dr. Zhanjun Cheng for technical assistance.

    Publisher Copyright:
    © 2018 Combustion Institute. All Rights Reserved.

    ASJC Scopus subject areas

    • Condensed Matter Physics
    • Energy Engineering and Power Technology
    • Fuel Technology
    • General Chemical Engineering

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