We consider accretion onto a Kiselev black hole. We obtain the fundamental equations for accretion without the back-reaction. We determine the general analytic expressions for the critical points and the mass accretion rate and find the physical conditions the critical points should fulfill. The case of a polytropic gas are discussed in detail. It turns out that the quintessence parameter plays an important role in the accretion process.
The chemical products of air plasma generated by dielectric barrier discharge were investigated in this paper, which played a key role in its applications. The results showed that the high applied voltage and low flow rate contributed a transition from ozone to nitric oxide mode. In order to investigate the relationship between the physical characteristic and a chemical product, the real energy density based on the ICCD image and Lissajous figure, a plausible parameter, was proposed. It was found that when the energy density increased beyond a critical value (∼10 mJ·cm−2), the mode transition occurred, which illustrated that the high value of energy density was favorable for the generation of nitrogen oxides but not for the ozone generation. The N2O density increased and the O3 density decreased at the flow rate of 480 L/h with the increase in energy density. When the flow rate was fixed at 60 L/h, the NO density increased with the increase in energy density while other parameters changed slightly and irregularly. The time required for the development of products in a closed cavity was also studied. It showed that the NO gradually disappeared and O3 slightly decreased as the time goes on. In this paper, it was proved that the real energy density, correlating the physical and chemical characteristics, was an effective parameter to distinguish the mode transition of the chemical products.
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