Featured Application Review presents power supply systems of non-thermal plasma
reactors for industrial applications with examples where they have already been applied as …

The use of fossil fuels has caused an ongoing increase in greenhouse gases (GHGs), which
have a negative impact on both the environment and human health. The world requires an …

Nonthermal plasma-assisted methane pyrolysis has emerged as a promising approach for
hydrogen production under mild conditions while simultaneously yielding valuable carbon …

The mechanism of stabilizing a turbulent premixed methane-air flame using warm
filamentary plasma is investigated by using laser diagnostics. First, stabilization of a …

This work reports average electron temperature (⁠ T e⁠) and electron density (⁠ ne⁠) of an
atmospheric argon rotating gliding arc (⁠ RGA⁠), operated in glow-type mode, under …

Plasma‐induced methane pyrolysis is a promising hydrogen production method. However,
few studies have focused the decomposition of pure methane as a discharge gas. Herein, a …

Gliding arc plasmas, a versatile form of non-thermal plasma discharges, hold great promise
for sustainable chemical conversion in electrified industrial applications. Their relatively high …

Herein, CO2 conversion is conducted in a newly developed swirl flow–induced rotating glow
discharge reactor. The swirl injector is designed to produce forward vortex by eight inclined …

A gliding arc discharge (GAD) plasma is generated inside a vacuum chamber with Ar, O 2⁠,
and air at pressure 100–600 Torr driven by a 1 kHz, 3–6 kV power supply. The properties of …

Influence of transitional and turbulent flow on electrical, optical, morphological and chemical
characteristics of a nitrogen rotating gliding arc - IOPscience Skip to content IOP Science home …