Yongjie Ding scite author profile

In this paper, a direct connection between the discharge current amplitude and the thruster performance is established by varying solely the capacitance of the filter unit of the Hall thrusters. To be precise, the variation characteristics of ion current, propellant utilization efficiency, and divergence angle of plume at different low-frequency oscillation amplitudes are measured. The findings demonstrate that in the case of the propellant in the discharge channel just meets or falls below the full ionization condition, the increase of low-frequency oscillation amplitude can significantly enhance the ionization degree of the neutral gas in the channel and increase the thrust and anode efficiency of thruster. On the contrary, the increase in the amplitude of low-frequency oscillation will lead to increase the loss of plume divergence, therefore the thrust and anode efficiency of thruster decrease.

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Experimental and numerical investigation of a Hall thruster with a chamfered channel wall

Xia

Mao³

et al. 2018

Chinese Phys. B

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A discharge channel with a chamfered wall not only has application in the design of modern Hall thrusters, but also exists where the channel wall is eroded, and so is a common status for these units. In this paper, the laws and mechanisms that govern the effect of the chamfered wall on the performance of a Hall thruster are investigated. By applying both experimental measurement and particle-in-cell simulation, it is determined that there is a moderate chamfer angle that can further improve the optimal performance obtained with a straight channel. This is because the chamfering of the wall near the channel exit can enhance ion acceleration and effectively reduce ion recombination on the wall, which is favorable to the promotion of the thrust and efficiency. However, the chamfer angle should not be too large; otherwise, both the density of the propellant gas and the distribution of the plasma potential in the channel are influenced, which is undesirable for efficient propellant utilization and beam concentration. Therefore, it is suggested that the chamfer shape of the channel wall is an important factor that must be carefully considered in the design of Hall thrusters.

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Study of the catastrophic discharge phenomenon in a Hall thruster

Ding

et al. 2017

Physics Letters A

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High-Speed Camera Imaging of the Ignition Process in a Heaterless Hollow Cathode

Zhang

Ning

Ding

et al. 2019

IEEE Trans. Plasma Sci.

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Stabilizing low-frequency oscillation with two-stage filter in Hall thrusters

Wei

Han

Ding

et al. 2017

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The use of a filter is the most common method to suppress low-frequency discharge current oscillation in Hall thrusters. The only form of filter in actual use involves RLC networks, which serve the purpose of reducing the level of conducted electromagnetic interference returning to the power processing unit, which is the function of a filter. Recently, the role of the filter in the oscillation control was introduced. It has been noted that the filter regulates the voltage across itself according to the variation of discharge current so as to decrease its fluctuation in the discharge circuit, which is the function of a controller. Therefore, a kind of two-stage filter is proposed to fulfill these two purposes, filtering and controlling, and the detailed design methods are discussed and verified. A current oscillation attenuation ratio of 10 was achieved by different capacitance and inductance combinations of the filter stage, and the standard deviation of low-frequency oscillations decreased from 3 A-1 A by the control stage in our experiment.

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Simulation of the effect of a magnetically insulated anode on a low-power cylindrical Hall thruster

Ding¹,

Li²,

Jia³

2018

Plasma Sci. Technol.

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The intersection point of the characteristic magnetic field line (CMFL) crossing the anode boundary with the discharge channel wall, and its influence on thruster performance and the energy and flux of ions bombarding the channel wall, have been studied numerically. The simulation results demonstrate that with the increase in distance from the crossover point of the CMFL with the channel wall to the bottom of the thruster channel, the ionization rate in the discharge channel gradually increases; meanwhile, the ion energy and ion current density bombarding the channel wall decreases. When the point of the CMFL with the channel wall is at the channel outlet, the thrust, specific impulse, and efficiency are at a maximum, while the ion energy and ion current density bombarding the channel wall are at a minimum. Therefore, to improve the performance and lifetime of the thruster, it is important to control the point of intersection of the CMFL with the channel wall.

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Yongjie Ding

Application of hollow anodes in a Hall thruster with double-peak magnetic fields

Influence of hollow anode position on the performance of a hall-effect thruster with double-peak magnetic field

Effect of low-frequency oscillation on performance of Hall thrusters

Experimental and numerical investigation of a Hall thruster with a chamfered channel wall

Study of the catastrophic discharge phenomenon in a Hall thruster

High-Speed Camera Imaging of the Ignition Process in a Heaterless Hollow Cathode

Stabilizing low-frequency oscillation with two-stage filter in Hall thrusters

Simulation of the effect of a magnetically insulated anode on a low-power cylindrical Hall thruster

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