Raffaello Mariani scite author profile

This paper reports on the correlation between gas flow and plasma behaviour in the outflow of a micro-atmospheric pressure plasma jet operating in helium using both 2D optical imaging and Schlieren photography. Schlieren photography shows that the helium outflow changes from laminar to turbulent conditions after distances between 20 and 50 mm from the nozzle. Above a flow rate of 1.4 slm, the length of the laminar region decreases with increasing flow rate. However, by contrast the visible plasma plume increases in length with increasing flow rate until its extension just exceeds that of the laminar region. At this point, the plasma becomes turbulent and its length decreases. Exposing polystyrene (PS) samples to the plasma jet significantly alters the water contact angle in a defined area, with the hydrophobic PS surface becoming more hydrophilic. This modification occurs both with and without direct contact of the visible glow on the surface. The radius of the treated area is much larger than the width of the visible jet but much smaller than the area of the turbulence on the surface. The treated area reduces with increasing nozzle–substrate distance.

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Schlieren Photography of the Outflow From a Plasma Jet

Bradley

Olabanji

et al. 2011

IEEE Trans. Plasma Sci.

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Hybrid Design for Aircraft Wind-Tunnel Testing Using Response Surface Methodologies

Landman

Simpson

Mariani

et al. 2007

Journal of Aircraft

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Visual hull based 3D reconstruction of shocks in under-expanded supersonic bevelled jets

Lim

New

Mariani

et al. 2018

Experimental Thermal and Fluid Science

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Mitigation of under-expanded supersonic jet noise through stepped nozzles

Wei

Mariani

Chua

et al. 2019

Journal of Sound and Vibration

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