2007
DOI: 10.1088/0022-3727/40/10/015
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Production and reactivity of the hydroxyl radical in homogeneous high pressure plasmas of atmospheric gases containing traces of light olefins

Abstract: A photo-triggered discharge has been used to study the production kinetic mechanisms and the reactivity of the hydroxyl radical in a N2/O2 mixture (5% oxygen) containing ethane or ethene for hydrocarbon concentration values in the range 1000–5000 ppm, at 460 mbar total pressure. The discharge (current pulse duration of 60 ns) has allowed the generation of a transient homogeneous non-equilibrium plasma, and the time evolution of the OH density has been measured (relative value) in the afterglow (up to 200 µs) b… Show more

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Cited by 52 publications
(86 citation statements)
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“…The photo-triggered reactor used in the present study, called "UV510", has been described in previous publications [21][22][23][24]. It allows to create an homogeneous plasma volume, V D , of 50 cm 3 , with a discharge current pulse of 60 ns for duration.…”
Section: Experimental Set-upmentioning
confidence: 99%
“…The photo-triggered reactor used in the present study, called "UV510", has been described in previous publications [21][22][23][24]. It allows to create an homogeneous plasma volume, V D , of 50 cm 3 , with a discharge current pulse of 60 ns for duration.…”
Section: Experimental Set-upmentioning
confidence: 99%
“…The photo-triggered discharge reactor used for this work was described previously [5]. Two electrodes, 50 cm long with a spacing d=1 cm and a flat profile over 1 cm width, are directly connected to an energy storage unit of capacitance C=17.44 nF charged up to a voltage V 0 in a few hundred nanoseconds.…”
Section: Experimental Set-upmentioning
confidence: 99%
“…A 0D model has been previously developed [5][6][7][8]26], which couples : i) the solution of the Boltzmann equation for the electrons, ii) the kinetic equations describing the temporal evolution of the various species (molecular excited states, ions, atoms, radicals, molecules) produced during the discharge or during the afterglow, iii) the electric circuit equations given by the Kirchoff laws. Many reaction rates are sensitive functions of the gas temperature so that temperature time evolution is taken into account through the resolution of the energy conservation equation.…”
Section: Self-consistent Modellingmentioning
confidence: 99%
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