Your search keyword '"Jiting OUYANG"' showing total 3 results

1. Experimental Investigation on Atmospheric Pressure Plasma Jet under Locally Divergent Magnet Field

Author

Bo Shi, Manyu Wang, Pengfei Li, Ruoyu Han, and Jiting Ouyang

Subjects

atmospheric pressure plasma jet, coplanar dielectric barrier discharge, low-temperature plasma, magnetic field, flow field, Technology

Abstract

Regulating the parameters of the atmospheric pressure plasma jet (APPJ) is meaningful for industrial applications. Since plasma is a typical functional fluid in the magnetic field, it is possible to control the discharge characteristics via the Lorentz force. In this study, the effects of a locally divergent magnetic field on the generation and propagation of APPJ were examined experimentally. The experiments used a coplanar dielectric barrier discharge (CDBD) device driven by a 30 kHz AC high-voltage source to generate a helium APPJ. A locally divergent magnetic field of 250 mT (maximum) was applied coupled with the electric field, and noticeable enhancement was observed. The results showed that the magnetic field changed the motion state of electrons and promoted collision ionization, leading to a 40% improvement in the APPJ length (0.6 cm) and a 23% increase in the intensity of line O (777.2 nm). In addition, the spatiotemporal evolution and flow field of APPJ were diagnosed by ICCD and schlieren technique. The combination of electric and magnetic fields may effectively optimize the APPJ in practical applications.

Published

2023

2. Pulse Current of Multi-Needle Negative Corona Discharge and Its Electromagnetic Radiation Characteristics

Author

Chuang Wang, Xi Chen, Jiting Ouyang, Tie Li, and Jialu Fu

Subjects

corona discharge, Trichel pulse, multi-needle, EM radiation, Technology

Abstract

Negative corona discharge occurs widely in high voltage transmission lines and other “high voltage„ uses, which can cause strong electromagnetic interference (EMI). In this research, the pulse current of multi-needle negative corona discharge and its electromagnetic (EM) radiation characteristics were studied and compared with that of single-needle negative corona discharge. A dipole radiation model was established to analyze the EM radiation characteristics of the negative corona discharge. The results show that the Trichel pulse discharge process of one discharge needle in multi-needle discharge structure will inhibit the discharge of the other discharge needles. It is only when the voltage reaches a certain threshold will the current and EM radiation fields of multi-needle discharge structure with a significant increasing of amolitude. The frequency of EM radiation of negative corona discharge is not affected by the number of needles, but is only related to ambient air pressure. This research provides a basis for detecting corona discharge sources in different conditions.

Published

2018

3. Pulse Current of Multi-Needle Negative Corona Discharge and Its Electromagnetic Radiation Characteristics

Author

Xi Chen, Jiting Ouyang, Chuang Wang, Jialu Fu, and Tie Li

Subjects

endocrine system, Control and Optimization, Materials science, Energy Engineering and Power Technology, Radiation, lcsh:Technology, 01 natural sciences, Electromagnetic radiation, Electromagnetic interference, 010305 fluids & plasmas, Optics, 0103 physical sciences, Electrical and Electronic Engineering, Engineering (miscellaneous), Corona discharge, 010302 applied physics, lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, corona discharge, Trichel pulse, multi-needle, EM radiation, High voltage, Current (fluid), business, Energy (miscellaneous), Ambient pressure, Voltage

Abstract

Negative corona discharge occurs widely in high voltage transmission lines and other “high voltage” uses, which can cause strong electromagnetic interference (EMI). In this research, the pulse current of multi-needle negative corona discharge and its electromagnetic (EM) radiation characteristics were studied and compared with that of single-needle negative corona discharge. A dipole radiation model was established to analyze the EM radiation characteristics of the negative corona discharge. The results show that the Trichel pulse discharge process of one discharge needle in multi-needle discharge structure will inhibit the discharge of the other discharge needles. It is only when the voltage reaches a certain threshold will the current and EM radiation fields of multi-needle discharge structure with a significant increasing of amolitude. The frequency of EM radiation of negative corona discharge is not affected by the number of needles, but is only related to ambient air pressure. This research provides a basis for detecting corona discharge sources in different conditions.

Published

2018