| Feasibility of Cold Plasma Jet Arrays Generation in Micro-hollow Cathode Configuration |
| Paper ID : 1023-ISCH |
| Authors |
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mohamed yehia saad *1, mohamed nabil yasin2, hanaa soliman3, tarek yehia3 1Department of physics ,faculty of science ,Helwan university 2faculty of science ,Helwan university 3Egyptian atomic energy authority |
| Abstract |
| Jet multiplication arrays are considered one of the promising technologies intended to solve the productivity issue for a wide range of applications of cold atmospheric plasma jets, including medical therapies, water treatment, and surface modification. Basic properties and possibilities of generating these arrays in a micro-hollow cathode configured Egyptian Atomic Energy Authority – Atmospheric Non-thermal Plasma Jet device (EAEA-ANPJ) are examined in this work. When opposed to single jets, cold plasma jet arrays offer a greater treatment area and efficiency since many plasma jets are generated simultaneously. The temperature, the concentration of reactive species, and the discharge characteristics of the array are all greatly influenced by the interactions between individual jets. The fundamental concepts guiding jet-jet interactions are examined in this study, together with variables including jet-jet separations, feeding gas type, and power consumption. For particular applications, it is tested for feasibility, using the specified operating parameters, to get the appropriate plasma qualities by carefully selecting these parameters. |
| Keywords |
| non-thermal plasma; cold plasma Jet Array; micro-hollow cathode configuration |
| Status: Abstract Accepted (Poster Presentation) |