2009
DOI: 10.1088/0963-0252/18/4/045006
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Atmospheric pressure glow discharge plasma in air at frequency 50 Hz

Abstract: Homogeneous atmospheric pressure discharge using a dielectric barrier discharge in air at 50 Hz was investigated. Porous alumina ceramic sheets were used as a dielectric barrier. In this paper we compare the filamentary discharge initiated by using glass sheets as a dielectric and the glow discharge obtained by the porous alumina sheets as a dielectric.Generally, the discharge in a dielectric barrier arrangement consists of a large number of filaments. Using porous alumina sheets Al 2 O 3 , an atmospheric pres… Show more

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Cited by 50 publications
(32 citation statements)
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“…4b, which is similar to current waveform of atmospheric pressure glow discharge in open air [39]. Generally, the generation of a glow discharge in air at atmospheric pressure mainly depends on the configuration of dielectric barrier, electrode geometry and gas flow rate [39][40][41]. Garamoon and El-zeer [39] reported atmospheric pressure glow discharge in air using porous alumina as dielectric barrier, and Wang et al [40] achieved a homogeneous looking discharge in air at atmospheric pressure using mesh electrode.…”
Section: Electric Discharge Characteristicsmentioning
confidence: 52%
See 1 more Smart Citation
“…4b, which is similar to current waveform of atmospheric pressure glow discharge in open air [39]. Generally, the generation of a glow discharge in air at atmospheric pressure mainly depends on the configuration of dielectric barrier, electrode geometry and gas flow rate [39][40][41]. Garamoon and El-zeer [39] reported atmospheric pressure glow discharge in air using porous alumina as dielectric barrier, and Wang et al [40] achieved a homogeneous looking discharge in air at atmospheric pressure using mesh electrode.…”
Section: Electric Discharge Characteristicsmentioning
confidence: 52%
“…In contrast, for the humid plasma in presence of 2.77% H 2 O, the current pulse weakened greatly and a broad peak of discharge current per half voltage cycle appeared as shown in Fig. 4b, which is similar to current waveform of atmospheric pressure glow discharge in open air [39]. Generally, the generation of a glow discharge in air at atmospheric pressure mainly depends on the configuration of dielectric barrier, electrode geometry and gas flow rate [39][40][41].…”
Section: Electric Discharge Characteristicsmentioning
confidence: 63%
“…Presence of electronegative gases in air such as oxygen and water vapor efficiently quench nitrogen metastable species and makes a non-uniform microdischarge DBD in atmospheric pressure. [36][37][38] The properties of these microdischarges have been studied extensively in literature. [39][40][41] Current pulses always occur at the voltage-rising half-cycle.…”
Section: Resultsmentioning
confidence: 99%
“…Addition of hydrogen with different flow rates increases the peak current from (≈3 mA) without H 2 up to (≈13 mA) with H 2 at flow rate of 3 L/min. The enhancement of the discharge current by increasing the amount of H 2 is related to the following reasons; 1) More ionization processes are expected to take place in the present of H 2 such as the reactions in Equations (19), (22)- (25) …”
Section: Effect Of H 2 Addition On the Electricalmentioning
confidence: 99%
“…Consequently, the humidity increases the current inside the micro-holes of the porous dielectric and hence increases the seed electrons that sustain the discharge in the glow mode [19].…”
Section: Effect Of H 2 Addition On the Electricalmentioning
confidence: 99%