Your search keyword '"Liu, Shanhong"' showing total 3 results

1. Experimental Study on the Multichannel Discharge Characteristics of a Multi-Plasma-Jet Triggered Gas Switch.

Author

Tie, Weihao, Liu, Xuandong, Liu, Shanhong, and Zhang, Qiaogen

Subjects

PLASMA jets, JETS (Fluid dynamics), MICROPLASMAS, ENERGY transfer, ELECTRODES

Abstract

We described the fabrication and testing of a multi-plasma-jet triggered gas switch(MPJTGS). The MPTJGS consists of two high-voltage electrodes and a trigger electrode, in which a novel six-channel annular microplasma gun is embedded to generate multichannel plasma jets as seed electron sources when a nanosecond trigger pulse arrives. The multiple discharge channels were induced by the multichannel plasma jets. We investigated the multichannel discharge performance of the MPJTGS in two working modes with charging voltage of ±25 kV, trigger voltage of +40 kV (25-ns rise time), and trigger energy of 2, 32, and 240 J at different working coefficients. Results showed that the average number of discharge channels increased as the trigger energy increased, and decreased as the working coefficient decreased. The MPJTGS operated in Mode II had better multichannel discharge characteristics than in Mode I at the same condition. At trigger energy of 240 J and working coefficient of 87.1%, the average number of discharge channels could reach 7 in Mode II. [ABSTRACT FROM PUBLISHER]

Published

2015

2. Low-Jitter Discharge of a Plasma-Jet Triggered Gas Switch at Low Working Coefficients.

Author

Tie, Weihao, Liu, Xuandong, Liu, Shanhong, Zhang, Qiaogen, Pang, Lei, and Wang, Shuai

Subjects

PLASMA rockets, PLASMA devices, PLASMA jets, PLASMA accelerators, PLASMA gases

Abstract

Reducing the working coefficient of gas switch can effectively lower the prefires probability. This paper discusses in detail the discharge characteristics of a three-electrode plasma-jet triggered gas switch (PJTGS), especially at low working coefficients. The triggered discharge process of the PJTGS is analyzed. Plasma jets are observed and discussed with respect to trigger voltage, trigger energy, and gas pressure. In addition, the switch jitters at different conditions are investigated, including ground resistor, charging voltage, trigger energy, trigger voltage, and working coefficient. The results indicate that the height of the plasma jet increases with the increase of trigger voltage and energy, and decreases with the increase of gas pressure. At working coefficients higher than 75%, trigger voltage of +80 kV, and ground resistor of 100 \(\Omega \) , reliable subnanosecond jitters can be obtained with the charging voltages of ±25, ±30, ±40, and ±50 kV. When the working coefficients are between 50% and 28.1%, the switch jitters range from 1.6 to 3.5 ns. Even at the working coefficient of 28.1%, the PJTGS can still be triggered reliably with a switch jitter of 3.5 ns. [ABSTRACT FROM AUTHOR]

Published

2014

3. Multichannel Discharging Characteristics of a Plasma-Jet Triggered Gas Switch.

Author

Tie, Weihao, Liu, Xuandong, and Liu, Shanhong

Subjects

PLASMA jets, PLASMA flow, ELECTRODES, ELECTRIC discharge research, GLOW discharges

Abstract

In this paper, a novel six-channels annular plasma-jet chamber is designed and embedded in the trigger electrode of the three-electrode gas switch to generate multichannel plasma jets without air flow, which is used to trigger the gas switch to form multichannel discharge. Results of this paper show that the plasma-jet triggering can be conductive to steady formation of multichannel discharge. [ABSTRACT FROM PUBLISHER]

Published

2014