2009
DOI: 10.1007/s11090-009-9189-8
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The Effect of Temperature on the Plasma-Catalytic Destruction of Propane and Propene: A Comparison with Thermal Catalysis

Abstract: A comparison has been made of plasma-catalysis with thermal-catalysis and plasma alone for the removal of low concentrations of propane and propene from synthetic air using a one-stage, catalyst-in discharge configuration. In all cases, plasma-catalysis produces better hydrocarbon destructions (*40%) than thermal catalysis at low temperatures. At higher temperatures, little difference is observed between plasma-catalytic and thermal-catalytic operation. Plasma operation by itself had a similar effectiveness to… Show more

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Cited by 26 publications
(23 citation statements)
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“…There is no detailed information available so far about the mechanisms inducing the shift in the catalytic onset temperature, but it was stated that plasma-catalytic systems for both IPC and PPC configurations are always found and reported to be more efficient than thermal catalysis [92]. Similar results were reported by Blackbeard et al [11] for the plasma-catalytic oxidation of propane and propene over supported MnO 2 and Pt catalysts. By using a heatable packed-bed reactor in an IPC configuration, up to 40 % higher degrees of conversion were obtained at lower temperatures than in thermal catalysis.…”
Section: Plasma-assisted Oxidation Of Volatile Organic Compoundssupporting
confidence: 61%
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“…There is no detailed information available so far about the mechanisms inducing the shift in the catalytic onset temperature, but it was stated that plasma-catalytic systems for both IPC and PPC configurations are always found and reported to be more efficient than thermal catalysis [92]. Similar results were reported by Blackbeard et al [11] for the plasma-catalytic oxidation of propane and propene over supported MnO 2 and Pt catalysts. By using a heatable packed-bed reactor in an IPC configuration, up to 40 % higher degrees of conversion were obtained at lower temperatures than in thermal catalysis.…”
Section: Plasma-assisted Oxidation Of Volatile Organic Compoundssupporting
confidence: 61%
“…One of the most promising approaches to overcome these drawbacks is the combination of the nonthermal plasma discharge with a heterogeneous catalyst, which is called plasma catalysis, plasma-assisted catalysis or plasma-enhanced catalysis. It can lead to synergistic effects and conversion efficiencies and yields superior to the theoretical sum of plasma and catalysis applied separately [11,12,22]. In general, two concepts for plasma-assisted catalysis can be distinguished depending on the position of the catalyst relative to the plasma.…”
Section: Plasma-assisted Catalysis: Principles and Interactionsmentioning
confidence: 99%
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“…This could either be by electrons or photons created directly by the discharge (electron-induced processes and production of electrons have only a slight temperature dependence [15]) or by the production of active species such as atomic oxygen or ozone which can then adsorb onto the catalyst surface. For the strongly temperature-dependent curve, thermal activation of the catalyst becomes more important, overtaking the contribution of the plasma-activated processes [16].…”
Section: Toluenementioning
confidence: 99%