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Generation of Multiple Jet Capillaries in Advanced Dielectric Barrier Discharge for Large-Scale Plasma Jets

Nguyen, D.B. and Saud, S. and Trinh, Q.T. and An, H. and Nguyen, N.-T. and Do, H.T. and Mok, Y.S. and Lee, W.G. (2023) Generation of Multiple Jet Capillaries in Advanced Dielectric Barrier Discharge for Large-Scale Plasma Jets. Plasma Chemistry and Plasma Processing. ISSN 117622

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Abstract

A multiple-capillary Ar plasma jet was successfully generated by an advanced dielectric barrier discharge reactor. The reactor consisted of four quartz capillaries arranged separately and covered by two ring-shaped electrodes, which were isolated by a liquid dielectric. The advantages of the reactor included less Ar consumption (ranging from 1 to 3 L/min to obtain a total cross-sectional area of four individual plasma flow components of 3.14 mm2 at the capillary orifices) and low gas temperatures (not exceeding 40 °C). The obtained temperature is suitable for implementing various biomedical applications such as wound healing, dental treatment, and cancer therapy. Furthermore, the plasma jet spread when it interreacted with dielectric materials or skin, resulting in an enlarged effective plasma treatment area of approximately 8 mm2. Analysis of optical emission spectra of the plasma jet indicated the existence of several reactive species, suggesting that the plasma device holds potential for biomedical applications and material surface treatments. © 2023, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.

Item Type: Article
Divisions: Faculties > Faculty of Mechanical Engineering
Identification Number: 10.1007/s11090-023-10404-0
Uncontrolled Keywords: Capillarity; Dielectric barrier discharge; Dielectric devices; Dielectric materials; Electrohydrodynamics; Emission spectroscopy; Flow control; Medical applications; Plasma applications, Ar plasma jet; Ar plasmas; Biomedical applications; Cold atmospheric plasma jet; Cold atmospheric plasmas; DBD; Dielectric barrier discharges; Large-scales; Multi-bore plasma jet; Multiple jets, Plasma jets
URI: http://eprints.lqdtu.edu.vn/id/eprint/10985

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