TY - JOUR
T1 - Revisiting iron oxidation chemistry in synthesis flames
T2 - Insights from a shock-tube study with intracavity laser absorption spectroscopy tracking of FeO
AU - Lalanne, Matthieu R.
AU - Mujaddadi, Sheikh Ahmed
AU - Fjodorow, Peter
AU - Cheskis, Sergey
AU - Somnitz, Holger
AU - Wlokas, Irenaeus
AU - Herzler, Jürgen
AU - Fikri, Mustapha
AU - Schulz, Christof
AU - Rahinov, Igor
N1 - Publisher Copyright:
© 2023 The Author(s)
PY - 2023/9
Y1 - 2023/9
N2 - The reaction between Fe atoms and O2 in a mixture of iron-pentacarbonyl (IPC, 2 ppm) and oxygen (100 ppm), diluted in argon, has been studied in a shock tube behind reflected shock waves over the temperature and pressure ranges of 1050–3400 K and 0.7–2.0 bar. Time-resolved measurements of Fe and FeO have been performed simultaneously using a combination of atomic resonance absorption spectroscopy (ARAS) and intracavity laser absorption spectroscopy (ICAS) with a custom-made broadband dye laser, respectively. For ICAS, absorption features in the spectral range from 16,316 to 16,353 cm−1 have been evaluated, and the oscillator strengths for all 41 assigned ro-vibronic transitions have been expressed. For most of the experimental cases, the measured Fe and FeO traces agreed well with the mechanism reported in this work. The quantitative and highly-sensitive measurements revealed the presence of FeO at temperatures below 1400 K, leading to a reconsideration of rate coefficients for different Fe oxidation channels.
AB - The reaction between Fe atoms and O2 in a mixture of iron-pentacarbonyl (IPC, 2 ppm) and oxygen (100 ppm), diluted in argon, has been studied in a shock tube behind reflected shock waves over the temperature and pressure ranges of 1050–3400 K and 0.7–2.0 bar. Time-resolved measurements of Fe and FeO have been performed simultaneously using a combination of atomic resonance absorption spectroscopy (ARAS) and intracavity laser absorption spectroscopy (ICAS) with a custom-made broadband dye laser, respectively. For ICAS, absorption features in the spectral range from 16,316 to 16,353 cm−1 have been evaluated, and the oscillator strengths for all 41 assigned ro-vibronic transitions have been expressed. For most of the experimental cases, the measured Fe and FeO traces agreed well with the mechanism reported in this work. The quantitative and highly-sensitive measurements revealed the presence of FeO at temperatures below 1400 K, leading to a reconsideration of rate coefficients for different Fe oxidation channels.
KW - Flame synthesis
KW - Intracavity absorption spectroscopy
KW - Iron oxidation
KW - Shock tube
UR - http://www.scopus.com/inward/record.url?scp=85166645059&partnerID=8YFLogxK
U2 - 10.1016/j.jaecs.2023.100184
DO - 10.1016/j.jaecs.2023.100184
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AN - SCOPUS:85166645059
SN - 2666-352X
VL - 15
JO - Applications in Energy and Combustion Science
JF - Applications in Energy and Combustion Science
M1 - 100184
ER -