X Y Liu scite author profile

A numerical and experimental study of plasma jet propagation in a low-temperature, atmospheric-pressure, helium jet in ambient air is presented. A self-consistent, multi-species, two-dimensional axially symmetric plasma model with detailed finite-rate chemistry of helium-air mixture composition is used to provide insights into the propagation of the plasma jet. The obtained simulation results suggest that the sheath forms near the dielectric tube inner surface and shields the plasma channel from the tube surface. The strong electric field at the edge of the dielectric field enhances the ionization in the air mixing layer; therefore, the streamer head becomes ring-shaped when the streamer runs out of the tube. The avalanche-to-streamer transition is the main mechanism of streamer advancement. Penning ionization dominates the ionization reactions and increases the electrical conductivity of the plasma channel. The simulation results are supported by experimental observations under similar discharge conditions.

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Time domain analysis on impulsion performance of self-excited pulsed jet device

Gao¹,

Su²,

Liu³

2012

IOP Conf. Ser.: Earth Environ. Sci.

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X Y Liu

Numerical and experimental study on a pulsed-dc plasma jet

Time domain analysis on impulsion performance of self-excited pulsed jet device

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