Spectral diagnosis of atmospheric pressure AC argon plasma jet at constant power

Abstract: In the application of atmospheric pressure plasma jet, due to the limitations of AC power supply with the frequency in the ranging of kHz, the study of the influence of power supply electrical parameters on the discharge basically only explore the change rules of plasma jet characteristics varying with a single driving electrical parameter (for example, voltage and frequency) changes. However, the discharge power usually changes in the process of a single electrical parameter change, which undoubtedly also aff… Show more

“…At the same time, the raised ε could be transferred to ambient particles through frequent collisions, resulting in a higher T g . 55 With increasing frequency, it improved the number of discharge per unit time as well as the particles collision frequency. Thus, the cumulative thermal effect and positive feedback effect of thermal instability led to the rise in T g and ε .…”

“…With increasing voltage, it enhanced the electric field strength, 53 and so did the energy obtained by electrons from the electric field, 54 which meant a higher e. At the same time, the raised e could be transferred to ambient particles through frequent collisions, resulting in a higher T g . 55 With increasing frequency, it improved the number of discharge per unit time as well as the particles collision frequency. Thus, the cumulative thermal effect and positive feedback effect of thermal instability led to the rise in T g and e. 56,57 Additionally, Guo et al reported that the memory effect of the residual charge in the discharge space would be enhanced with increasing frequency.…”

Magnetic field improves ozone production in an atmospheric pressure surface dielectric barrier discharge: understanding the physico-chemical mechanism behind low energy consumption

“…At the same time, the raised ε could be transferred to ambient particles through frequent collisions, resulting in a higher T g . 55 With increasing frequency, it improved the number of discharge per unit time as well as the particles collision frequency. Thus, the cumulative thermal effect and positive feedback effect of thermal instability led to the rise in T g and ε .…”

“…With increasing voltage, it enhanced the electric field strength, 53 and so did the energy obtained by electrons from the electric field, 54 which meant a higher e. At the same time, the raised e could be transferred to ambient particles through frequent collisions, resulting in a higher T g . 55 With increasing frequency, it improved the number of discharge per unit time as well as the particles collision frequency. Thus, the cumulative thermal effect and positive feedback effect of thermal instability led to the rise in T g and e. 56,57 Additionally, Guo et al reported that the memory effect of the residual charge in the discharge space would be enhanced with increasing frequency.…”

Magnetic field improves ozone production in an atmospheric pressure surface dielectric barrier discharge: understanding the physico-chemical mechanism behind low energy consumption

Experimental study on the influence of gas flow rate on the plasma plume of N-APPJ