Quantifying methane vibrational and rotational temperature with Raman scattering

TitleQuantifying methane vibrational and rotational temperature with Raman scattering
Publication TypeJournal Article
Year of Publication2019
AuthorsT.D Butterworth, B. Amyay, D. van den Bekerom, A.W van de Steeg, T. Minea, N. Gatti, Q. Ong, C. Richard, C. van Kruijsdijk, J.T Smits, A.P van Bavel, V. Boudon, G.J van Rooij
JournalJournal of Quantitative Spectroscopy and Radiative Transfer
Volume236
Pagination106562
Date Published10/2019
Abstract

This work describes the theoretical basis and implementation of the measurement of vibrational (T vib) and rotational (T rot) temperatures in CH4 by fitting spontaneous Raman scattering spectra in the Pentad region. This method could be applied for thermal equilibrium temperature measurements applications, e.g. in combustion, or vibrational-rotational non-equilibrium applications, such as in plasma chemistry. The method of calculating these temperatures is validated against known temperature thermal equilibrium spectra up to 860 K from published data, giving an estimated relative error of 10%. This demonstrates that both the calculated stick spectrum and the algorithm to determine T vib and T rot for CH4 is robust to 860 K, but we expect it is valid to 1500 K. Additionally, a number of non-equilibrium spectra generated with a pulsed microwave plasma are fitted to find T vib and T rot, further demonstrating the applicability of this method in fitting non-equilibrium spectra.

DOI10.1016/j.jqsrt.2019.07.005
Division

MaSF

Department

NFC

PID819f63a1fed50e90b0d92e9c7654f87e
Alternate TitleJ. Quant. Spectrosc. Radiat. Transf.

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