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High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes

Publicado 4 números por año

ISSN Imprimir: 1093-3611

ISSN En Línea: 1940-4360

The Impact Factor measures the average number of citations received in a particular year by papers published in the journal during the two preceding years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) IF: 0.4 The Immediacy Index is the average number of times an article is cited in the year it is published. The journal Immediacy Index indicates how quickly articles in a journal are cited. Immediacy Index: 0.1 The Eigenfactor score, developed by Jevin West and Carl Bergstrom at the University of Washington, is a rating of the total importance of a scientific journal. Journals are rated according to the number of incoming citations, with citations from highly ranked journals weighted to make a larger contribution to the eigenfactor than those from poorly ranked journals. Eigenfactor: 0.00005 The Journal Citation Indicator (JCI) is a single measurement of the field-normalized citation impact of journals in the Web of Science Core Collection across disciplines. The key words here are that the metric is normalized and cross-disciplinary. JCI: 0.07 SJR: 0.198 SNIP: 0.48 CiteScore™:: 1.1 H-Index: 20

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TWO DIMENSIONAL HYDRODYNAMIC AND KINETIC DESCRIPTION OF A DIELECTRIC BARRIER DISCHARGE (DBD) IN NITROGEN AT ATMOSPHERIC PRESSURE

Volumen 14, Edición 1-2, 2010, pp. 129-139
DOI: 10.1615/HighTempMatProc.v14.i1-2.110
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SINOPSIS

A two dimensional, axial symmetric, computational model [1] of a filament formation in a Dielectric Barrier Discharge (DBD) for short gaps (1mm-2mm) in Nitrogen at atmospheric pressure is proposed. Special attention is drawn on the interaction of the filament with the dielectric material. It is shown that with the appropriate selection of boundary conditions and the inclusion of a suitable secondary electron emission mechanism from the dielectric it is possible to model the behavior of the discharge near the cathode. The model reproduces the radial expansion of the channel on the dielectric's surface and reveals a non uniform charging of the dielectric. Furthermore, the hydrodynamic description is coupled with a kinetic one, in order to calculate the spatiotemporal evolution of excited species produced during the micro-discharge development phase and which can intervene to surface treatment applications. Special attention is drawn on the N2(C3Πu ) and N2+(B2Πu) excited states which are responsible for the emission of the second positive and the first negative system of Nitrogen. Thus the luminous activity during the discharge phase can be modeled and compared with experimental results.

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