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Resonances and patterns within the kINPen-MED atmospheric pressure plasma jet
Date Issued
2013
Date Available
2013-10-21T08:13:39Z
Abstract
The kINPen MED atmospheric pressure plasma jet is now undergoing clinical
studies that are designed to investigate its suitability as a device for use in plasma
medicine treatments. This paper describes dimensionless studies of the synchronizing
oscillatory gas flow through the nozzle followed by electro-acoustic measurements
coupled with the discharge photo emission. The plasma jet operates in the burst mode of 2.5 KHz (duty cycle = 50%), within a neutral argon Strouhal number of 0.14 to 0.09 and
Reynolds number of 3570 to 5370. In this mode the jet acts like a plasma actuator with
an anisotropic far field noise pattern that is composed of radiated noise centered at 17.5
kHz; +20 dB, and the expanding visible plasma plume and cooled gas recombine along
the jet axial flow (1-2 kHz peak that diminishes at a rate of -1.7 dB.kHz-1).
Sponsorship
Science Foundation Ireland
Other funder
Other Sponsorship
Enterprise Ireland Commercialisation Programme
Type of Material
Conference Publication
Publisher
CMSIM
Copyright (Published Version)
2013 the authors
Language
English
Status of Item
Peer reviewed
Conference Details
Chaos 2013 Chaotic Modeling and Simulation International Conference, At Istanbul Turkey, Volume: 1
This item is made available under a Creative Commons License
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Resonances and patterns within the kINPen-MED atmospheric pressure plasma jet.pdf
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