The Chemistry of Gaseous Dodecane Degradation in a BaTiO sub(3) Packed-Bed Plasma Reactor

The plasma decomposition of gaseous dodecane has been investigated in a non-thermal BaTiO sub(3) packed-bed plasma reactor in the atmospheric pressure streams of N sub(2)-O sub(2) mixtures using FTIR and OES spectroscopy. Results suggest that energy transfer reactions of the electronically-excited n...

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Veröffentlicht in:	Plasma chemistry and plasma processing 2015-01, Vol.35 (1), p.159-172
Hauptverfasser:	Prantsidou, Maria, Whitehead, JChristopher
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Sprache:	eng
Schlagworte:	Barium titanates Decomposition reactions Degradation Dodecane Energy management Nitrogen dioxide Nitrous oxides Reactors
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creator	Prantsidou, Maria Whitehead, JChristopher
description	The plasma decomposition of gaseous dodecane has been investigated in a non-thermal BaTiO sub(3) packed-bed plasma reactor in the atmospheric pressure streams of N sub(2)-O sub(2) mixtures using FTIR and OES spectroscopy. Results suggest that energy transfer reactions of the electronically-excited nitrogen metastable, N sub(2)(A), with dodecane play an important role in the initiation steps that lead to the dissociation of C-H and C-C bonds at the different positions. Increasing the percentage of oxygen in the nitrogen (up to 40 %) does not increase the dodecane decomposition, as metastable nitrogen reacts with the additional oxygen to create increasing NO and NO sub(2) instead. N sub(2)O formation does not change significantly with increasing oxygen concentration but this is strongly correlated to the oxygen lattice in the BaTiO sub(3) pellets used in the reactor. The maximum degradation efficiency found was to be ~21 % with an energy efficiency of 2.63 mg kJ super(-1).
doi_str_mv	10.1007/s11090-014-9597-2
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Results suggest that energy transfer reactions of the electronically-excited nitrogen metastable, N sub(2)(A), with dodecane play an important role in the initiation steps that lead to the dissociation of C-H and C-C bonds at the different positions. Increasing the percentage of oxygen in the nitrogen (up to 40 %) does not increase the dodecane decomposition, as metastable nitrogen reacts with the additional oxygen to create increasing NO and NO sub(2) instead. N sub(2)O formation does not change significantly with increasing oxygen concentration but this is strongly correlated to the oxygen lattice in the BaTiO sub(3) pellets used in the reactor. The maximum degradation efficiency found was to be ~21 % with an energy efficiency of 2.63 mg kJ super(-1).</abstract><doi>10.1007/s11090-014-9597-2</doi></addata></record>
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subjects	Barium titanates Decomposition reactions Degradation Dodecane Energy management Nitrogen dioxide Nitrous oxides Reactors
title	The Chemistry of Gaseous Dodecane Degradation in a BaTiO sub(3) Packed-Bed Plasma Reactor
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