Kang-Lin Liu scite author profile

Kang-Lin Liu

2Publications

8Citation Statements Received

45Citation Statements Given

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Chongqing University

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Numerical Simulation of the Characteristics of Electrons in Bar-plate DC Negative Corona Discharge Based on a Plasma Chemical Model

Liu¹,

Liao²,

Zhao³

2015

Journal of Electrical Engineering and Technology

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-In order to explore the characteristics of electrons in DC negative corona discharge, an improved plasma chemical model is presented for the simulation of bar-plate DC corona discharge in dry air. The model is based on plasma hydrodynamics and chemical models in which 12 species are considered. In addition, the photoionization and secondary electron emission effect are also incorporated within the model as well. Based on this model, electron mean energy distribution (EMED), electron density distribution (EDD), generation and dissipation rates of electron at 6 typical time points during a pulse are discussed emphatically. The obtained results show that, the maximum of electron mean energy (EME) appears in field ionization layer which moves towards the anode as time progresses, and its value decreases gradually. Within a pulse process, the electron density (ED) in cathode sheath almost keeps 0, and the maximum of ED appears in the outer layer of the cathode sheath. Among all reactions, R1 and R2 are regarded as the main process of electron proliferation, and R 22 plays a dominant role in the dissipation process of electron. The obtained results will provide valuable insights to the physical mechanism of negative corona discharge in air. Keywords: Corona discharge, Plasma chemical, Numerical simulation

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Measurement of Charge Density Distribution in Negative Corona on a Coaxial Cylinder Model Using Sound Wave

Liao

Liu

Zhao

2016

IEEE Trans. Power Delivery

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Kang-Lin Liu

Numerical Simulation of the Characteristics of Electrons in Bar-plate DC Negative Corona Discharge Based on a Plasma Chemical Model

Measurement of Charge Density Distribution in Negative Corona on a Coaxial Cylinder Model Using Sound Wave

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