Numerical investigation of the spatiotemporal distribution of chemical species in an atmospheric surface barrier-discharge

Hasan, MI ORCID: 0000-0001-6993-933X and Walsh, JL ORCID: 0000-0002-6318-0892 (2016) Numerical investigation of the spatiotemporal distribution of chemical species in an atmospheric surface barrier-discharge. JOURNAL OF APPLIED PHYSICS, 119 (20). 203302-.

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Abstract

<jats:p>Using a one dimensional time dependent convection-reaction-diffusion model, the temporal and spatial distributions of species propagating downstream of an atmospheric pressure air surface barrier discharge was studied. It was found that the distribution of negatively charged species is more spatially spread compared to positive ions species, which is attributed to the diffusion of electrons that cool down and attach to background gas molecules, creating different negative ions downstream of the discharge region. Given the widespread use of such discharges in applications involving the remote microbial decontamination of surfaces and liquids, the transport of plasma generated reactive species away from the discharge region was studied by implementing mechanical convection through the discharge region. It was shown that increased convection causes the spatial distribution of species density to become uniform. It was also found that many species have a lower density close to the surface of the discharge as convection prevents their accumulation. While for some species, such as NO2, convection causes a general increase in the density due to a reduced residence time close to the discharge region, where it is rapidly lost through reactions with OH. The impact of the applied power was also investigated, and it was found that the densities of most species, whether charged or neutral, are directly proportional to the applied power.</jats:p>

Item Type:	Article
Depositing User:	Symplectic Admin
Date Deposited:	03 Jun 2016 08:56
Last Modified:	15 Mar 2024 03:41
DOI:	10.1063/1.4952574
Related URLs:	Author Publisher
URI:	https://livrepository.liverpool.ac.uk/id/eprint/3001500