Original title:
High resolution infrared spectroscopy as diagnostic tool for combustion and plasma chemistry
Authors:
Zelinger, Zdeněk ; Nevrlý, Václav ; Grigorová, Eva ; Bitala, P. ; Dostál, Michal ; Suchánek, Jan ; Kubát, Pavel ; Engst, Pavel ; Ferus, Martin ; Kubelík, Petr ; Civiš, Svatopluk Document type: Papers Conference/Event: General Meeting and Workshop on SECs in Industry /3./, Prague (CZ), 20171025
Year:
2017
Language:
eng Abstract:
Monitoring of transient species within combustion experiments (laminar flames, shock-tubes, flow reactors, etc.) is still relatively challenging task especially if application of non-invasive, i.e. optical detection methods is required. High resolution infrared spectroscopy is based on observation of the fine rotation structure that accompanies vibration transitions and thus provides direct information essential to characterization of both molecular structure and reaction dynamics. Thanks to its outstanding advantage enabling unambiguous assignment of specific molecular system according to its spectral feature, it can serve as a helpful tool for exploring complex reaction mechanisms as well as chemical reactivity of individual species present in laboratory flames or plasmas.\nPrevious studies gaining new insights into combustion and plasma chemistry as well as our recent advances targeted towards application of high resolution infrared spectroscopy for species concentration measurement in laminar flames are summarized here below.
Keywords:
infrared spectra; plasma chemistry; spectroscopy Project no.: LTC17071, CM1404, GA17-05167s (CEP) Funding provider: GA MŠk, European Cooperation in Science & Technology, GA ČR Host item entry: 3rd General Meeting and Workshop on SECs in Industry. Scientific Programm
Institution: J. Heyrovsky Institute of Physical Chemistry AS ČR
(web)
Document availability information: Fulltext is available in the digital repository of the Academy of Sciences. Original record: http://hdl.handle.net/11104/0280933