首页|On the evolution and formation of discharge morphology in pulsed dielectric barrier discharge
On the evolution and formation of discharge morphology in pulsed dielectric barrier discharge
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NETL
NSTL
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The discharge morphology of pulsed dielectric barrier discharge(PDBD)plays important roles in its applications.Here,we systematically investigated the effects of the voltage amplitude,discharge gap,and O2 content on the PDBD morphology,and revealed the possible underlying mechanism of the U-shaped formation.First,the morphological evolution under different conditions was recorded.A unique U-shaped region appears in the middle edge region when the gap is larger than 2 mm,while the entire discharge region remains columnar under a 2 mm gap in He PDBD.The width of the discharge and the U-shaped region increase with the increase in voltage,and decrease with the increase of the gap and O2 content.To explain this phenomenon,a two-dimensional symmetric model was developed to simulate the spatiotemporal evolution of different species and calculate the electric thrust.The discharge morphology evolution directly corresponds to the excited-state atomic reduction process.The electric thrust on the charged particles mainly determines the reaction region and strongly influences the U-shaped formation.When the gap is less than 2 mm,the electric thrust is homogeneous throughout the entire region,resulting in a columnar shape.However,when the gap is larger than 2 mm or O2 is added,the electric thrust in the edge region becomes greater than that in the middle,leading to the U-shaped formation.Furthermore,in He PDBD,the charged particles generating electric thrust are mainly electrons and helium ions,while in He/O2 PDBD those that generate electric thrust at the outer edge of the electrode surface are mainly various oxygen-containing ions.
NETL
NSTL
万方数据
