OH and O radicals production in atmospheric pressure air/Ar/H2O gliding arc discharge plasma jet

Atmospheric pressure air/Ar/H2O gliding arc discharge plasma is produced by a pulsed dc power supply. An optical emission spectroscopic（OES） diagnostic technique is used for the characterization of plasmas and for identifications of OH and O radicals along with other species in the plasmas. The OES...

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Published in	Plasma science & technology Vol. 19; no. 12; pp. 75 - 84
Main Authors	ROY, N C, TALUKDER, M R, CHOWDHURY, A N
Format	Journal Article
Language	English
Published	IOP Publishing 01.12.2017
Subjects	broadening mechanism gliding arc discharge optical emission spectroscopy (OES) plasma kinetics reactive oxygen species (ROS)
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Abstract	Atmospheric pressure air/Ar/H2O gliding arc discharge plasma is produced by a pulsed dc power supply. An optical emission spectroscopic（OES） diagnostic technique is used for the characterization of plasmas and for identifications of OH and O radicals along with other species in the plasmas. The OES diagnostic technique reveals the excitation Tx?≈?5550–9000 K, rotational Tr?≈?1350–2700 K and gas Tg?≈?850–1600 K temperatures, and electron density n?（1.1-1.9） ′101 4 cm-3 e under different experimental conditions. The production and destruction of OH and O radicals are investigated as functions of applied voltage and air flow rate. Relative intensities of OH and O radicals indicate that their production rates are increased with increasing Ar content in the gas mixture and applied voltage. nereveals that the higher densities of OH and O radicals are produced in the discharge due to more effective electron impact dissociation of H2O and O2 molecules caused by higher kinetic energies as gained by electrons from the enhanced electric field as well as by enhanced n e.The productions of OH and O are decreasing with increasing air flow rate due to removal of Joule heat from the discharge region but enhanced air flow rate significantly modifies discharge maintenance properties. Besides, Tgsignificantly reduces with the enhanced air flow rate. This investigation reveals that Ar plays a significant role in the production of OH and O radicals.
AbstractList	Atmospheric pressure air/Ar/H2O gliding arc discharge plasma is produced by a pulsed dc power supply. An optical emission spectroscopic (OES) diagnostic technique is used for the characterization of plasmas and for identifications of OH and O radicals along with other species in the plasmas. The OES diagnostic technique reveals the excitation Tx 5550-9000 K, rotational Tr 1350-2700 K and gas Tg 850-1600 K temperatures, and electron density n e ( 1.1−1.9 ) × 10 14 cm − 3 under different experimental conditions. The production and destruction of OH and O radicals are investigated as functions of applied voltage and air flow rate. Relative intensities of OH and O radicals indicate that their production rates are increased with increasing Ar content in the gas mixture and applied voltage. n e reveals that the higher densities of OH and O radicals are produced in the discharge due to more effective electron impact dissociation of H 2 O and O 2 molecules caused by higher kinetic energies as gained by electrons from the enhanced electric field as well as by enhanced n e . The productions of OH and O are decreasing with increasing air flow rate due to removal of Joule heat from the discharge region but enhanced air flow rate significantly modifies discharge maintenance properties. Besides, T g significantly reduces with the enhanced air flow rate. This investigation reveals that Ar plays a significant role in the production of OH and O radicals. Atmospheric pressure air/Ar/H2O gliding arc discharge plasma is produced by a pulsed dc power supply. An optical emission spectroscopic（OES） diagnostic technique is used for the characterization of plasmas and for identifications of OH and O radicals along with other species in the plasmas. The OES diagnostic technique reveals the excitation Tx?≈?5550–9000 K, rotational Tr?≈?1350–2700 K and gas Tg?≈?850–1600 K temperatures, and electron density n?（1.1-1.9） ′101 4 cm-3 e under different experimental conditions. The production and destruction of OH and O radicals are investigated as functions of applied voltage and air flow rate. Relative intensities of OH and O radicals indicate that their production rates are increased with increasing Ar content in the gas mixture and applied voltage. nereveals that the higher densities of OH and O radicals are produced in the discharge due to more effective electron impact dissociation of H2O and O2 molecules caused by higher kinetic energies as gained by electrons from the enhanced electric field as well as by enhanced n e.The productions of OH and O are decreasing with increasing air flow rate due to removal of Joule heat from the discharge region but enhanced air flow rate significantly modifies discharge maintenance properties. Besides, Tgsignificantly reduces with the enhanced air flow rate. This investigation reveals that Ar plays a significant role in the production of OH and O radicals.
Author	N C ROY M R TALUKDER A N CHOWDHURY
AuthorAffiliation	Plasma Science and Technology Laboratory, Department of Applied Physics and Electronic Engineering,University of Rajshahi;Bangladesh Council of Scientific and Industrial Research Laboratory Rajshahi
Author_xml	– sequence: 1 givenname: N C surname: ROY fullname: ROY, N C organization: University of Rajshahi Plasma Science and Technology Laboratory, Department of Applied Physics and Electronic Engineering, Rajshahi 6205, Bangladesh – sequence: 2 givenname: M R surname: TALUKDER fullname: TALUKDER, M R email: mrtalukder@ru.ac.bd organization: University of Rajshahi Plasma Science and Technology Laboratory, Department of Applied Physics and Electronic Engineering, Rajshahi 6205, Bangladesh – sequence: 3 givenname: A N surname: CHOWDHURY fullname: CHOWDHURY, A N organization: Bangladesh Council of Scientific and Industrial Research Laboratory Rajshahi, Rajshahi 6206, Bangladesh
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Notes	N C ROY;M R TALUKDER;A N CHOWDHURY;Plasma Science and Technology Laboratory, Department of Applied Physics and Electronic Engineering,University of Rajshahi;Bangladesh Council of Scientific and Industrial Research Laboratory Rajshahi 34-1187/TL PST-2017-0238.R2 Institute of Plasma Physics
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Title	OH and O radicals production in atmospheric pressure air/Ar/H2O gliding arc discharge plasma jet
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