Estimation of electron density and temperature in an argon rotating gliding arc using optical and electrical measurements

Abstract: This work reports average electron temperature (Te) and electron density (ne) of an atmospheric argon rotating gliding arc (RGA), operated in glow-type mode, under transitional and turbulent flows. Both Te and ne were calculated near the shortest (δ) and longest (Δ) gap between the electrodes, by two different methods using two separate measurements: (1) optical emission spectroscopy (OES) and (2) physical–electrical. Te calculated from (a) collisional radiative model (CRM) (OES) and (b) BOLSIG+ [physical–elec… Show more

“…Rotating gliding arc discharges have been extensively studied for its chemical applications [1,2]. The working principle of RGAs is similar to that of conventional gliding arc discharges (GAD) made of planar diverging electrodes i.e., an arc strikes at the shortest gap between the electrodes when sufficient electric field is given to create breakdown; after initial breakdown, the arc is pushed by the gas downstream thereby elongating the arc [3].…”

“…As mentioned earlier, once the arc is initiated due to breakdown, it is rotated by the gas vortex and elongated by the geometrical orientation of the electrodes during its rotation (see 3D view in figure 1). Further details on reactor and working of electrode configuration can be seen in earlier work of authors [1,4,5]. The discussion in this work is limited to the breakdown voltage without discussing the rotation of the arc in this RGA.…”

Effect of gas flow rate on breakdown voltage in a rotating gliding arc reactor

“…Rotating gliding arc discharges have been extensively studied for its chemical applications [1,2]. The working principle of RGAs is similar to that of conventional gliding arc discharges (GAD) made of planar diverging electrodes i.e., an arc strikes at the shortest gap between the electrodes when sufficient electric field is given to create breakdown; after initial breakdown, the arc is pushed by the gas downstream thereby elongating the arc [3].…”

“…As mentioned earlier, once the arc is initiated due to breakdown, it is rotated by the gas vortex and elongated by the geometrical orientation of the electrodes during its rotation (see 3D view in figure 1). Further details on reactor and working of electrode configuration can be seen in earlier work of authors [1,4,5]. The discussion in this work is limited to the breakdown voltage without discussing the rotation of the arc in this RGA.…”

Effect of gas flow rate on breakdown voltage in a rotating gliding arc reactor

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