Dong Dai scite author profile

Experimental observations and simulation results regarding a pure He atmospheric pressure plasma jet (APPJ) and He + N 2 APPJs interacting with a downstream dielectric substrate are presented in this paper. Experiments utilizing spatialtemporal imaging show that, in the case of the pure He APPJ, an annular plasmasubstrate interaction pattern is formed. With the introduction of N 2 , the plasma is more uniformly distributed on the substrate surface, appearing a solid interaction pattern. The experimental measurements indicate 0.5% N 2 mixture is the optimal condition to achieve the most intense discharge, while the plasma substrate contact area is slightly reduced by 6.1% in comparison to that of the pure He APPJ. A 2D selfconsistent fluid model is constructed to provide insights into the role of the addition of trace of N 2 on the discharge dynamics. The discharge morphologies predicated by the model is in principle consistent with the experimental observations. The simulation reveals that the conversion from the annular plasmasubstrate interaction pattern to the solid one is attributed to the synthetic effect of the addition of N 2 and the presentence of the substrate acting as the cathode to enhance the local electric field. In the solid interaction pattern, the Penning ionization makes a significant contribution to the surface discharge, especially in the afterglow region. The dominant positive ions (N + 2 and N + 4 ) and the reactive oxygen and nitrogen species including O and N gain remarkable increment in the flux intensity to the central surface, which merits great application potential.

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Numerical investigation on the dynamics and evolution mechanisms of multiple-current-pulse behavior in homogeneous helium dielectric-barrier discharges at atmospheric pressure

Zhang

Ning

Dai

2018

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A systematic investigation on the dynamics and evolution mechanisms of multiple-current-pulse (MCP) behavior in homogeneous dielectric barrier discharge (HDBD) is carried out via fluid modelling. Inspecting the simulation results, two typical discharge regimes, namely the MCP-Townsend regime and MCP-glow regime, are found prevailing in MCP discharges, each with distinctive electrical and dynamic properties. Moreover, the evolution of MCP behavior with external parameters altering are illustrated and explicitly discussed. It is revealed that the discharge undergoes some different stages as external parameters vary, and the discharge in each stage follows a series of distinctive pattern in morphological characteristics and evolution trends. Among those stages, the pulse number per half cycle is perceived to observe non-monotonic variations with applied voltage amplitude (Vam) and gap width (dg) increasing, and a merging effect among pulses, mainly induced by the enhanced contribution of sinusoidal component to the total current, is considered responsible for such phenomenon. The variation of incipient discharge peak phase (Φpm) is dominated by the value of Vam as well as the proportion of total applied voltage that drops across the gas gap. Moreover, an abnormal, dramatic elevation in Jpm with dg increasing is observed, which could be evinced by the strengthened glow discharge structure and therefore enhanced space charge effect.

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Influence of nitrogen impurities on the performance of multiple-current-pulse behavior in a homogeneous helium dielectric-barrier discharge at atmospheric pressure

Zhang

Ning

Dai

2018

J. Phys. D: Appl. Phys.

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Detailed corrections are given as follows.1. On page 3, the term describing the power input from the electric field in equation ( 2) should read E•Γ e instead of E•Γ ε . The corrected equation is given below:2. On page 3, the sentence 'A non-linear solver PARDISO [52,53] is employed to…' should be corrected to 'A direct solver PARDISO [52,53] is employed to…'. 3. In figure 2, the correct unit of 'Time' should be 'μs' instead of 'ms'. 4. In figures 6, 8 and 9, the correct unit of 'Average reaction rate' should be 'mol 9 should be revised to: 'figure 9. The caption of figureTemporal variations of (a), (c) and (e) space-averaged electron production rates, (b), (d) and (f) space-averaged charged particle densities over one normalized applied voltage period under three different N 2 levels. The applied voltage amplitude (V am ), driving frequency (f ) and gap width (d g ) are fixed at 1.5 kV, 10 kHz and 1 mm, respectively'.

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Fast‐scale bifurcation in power‐factor‐correction buck‐boost converters and effects of incompatible periodicities

Zou

Tse

et al. 2006

Circuit Theory & Apps

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SUMMARYIn this paper, we derive the discrete-time model for the power-factor-correction (PFC) buck-boost converter in terms of a stroboscopic switching map. Fast-scale instability is analysed through a fold diagram, which exposes the periodicity of the operation as well as the locations of the critical phase angles of the line voltage at which instability begins to occur along a half-line cycle. The asymmetrical locations of the critical phase angles along a half-line cycle is explained in terms of 'underdeveloped' bifurcation. Border collision bifurcations are observed and analysed in detail.

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Ignition properties of helium discharges in dielectric tubes with radius from 50 µm to 3 mm

Ning

Dai

2018

Plasma Processes & Polymers

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A numerical study on the ignition properties of helium discharge confined in a dielectric tube is conducted with a fluid model. As the tube radius R increasing from 50 µm to 3 mm, the ignition voltage firstly reduces, then increases after R exceeding 1 mm. An ion sheath is formed between the discharge channel and the tube wall. The width of sheath decide whether a ring‐shape or a solid‐shape discharge morphology can be formed. Moreover, the dynamic contraction of the discharge channel is observed. Under conditions of low applied voltage and low seed electron density, the cross‐section of the discharge front is adjusted to contract to enhance the self‐built electric field, and therefore to sustain the propagation.

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Dong Dai

Effects of trace of nitrogen on the helium atmospheric pressure plasma jet interacting with a dielectric substrate

Numerical investigation on the dynamics and evolution mechanisms of multiple-current-pulse behavior in homogeneous helium dielectric-barrier discharges at atmospheric pressure

Influence of nitrogen impurities on the performance of multiple-current-pulse behavior in a homogeneous helium dielectric-barrier discharge at atmospheric pressure

Fast‐scale bifurcation in power‐factor‐correction buck‐boost converters and effects of incompatible periodicities

Ignition properties of helium discharges in dielectric tubes with radius from 50 µm to 3 mm

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