期刊文献+
共找到10篇文章
< 1 >
每页显示 20 50 100
Thrust estimate method of an on-orbit Hall thruster using Hall drift current
1
作者 Ziying REN liqiu wei +5 位作者 Zexin LIU Yanlin HU Liang HAN Hong LI Yongjie DING Xiufeng ZHONG 《Plasma Science and Technology》 SCIE EI CAS CSCD 2024年第12期150-159,共10页
In order to realize the thrust estimation of the Hall thruster during its flight mission,this study establishes an estimation method based on measurement of the Hall drift current.In this method,the Hall drift current... In order to realize the thrust estimation of the Hall thruster during its flight mission,this study establishes an estimation method based on measurement of the Hall drift current.In this method,the Hall drift current is calculated from an inverse magnetostatic problem,which is formulated according to its induced magnetic flux density detected by sensors,and then the thrust is estimated by multiplying the Hall drift current with the characteristic magnetic flux density of the thruster itself.In addition,a three-wire torsion pendulum micro-thrust measurement system is utilized to verify the estimate values obtained from the proposed method.The errors were found to be less than 8%when the discharge voltage ranged from 250 V to 350 V and the anode flow rate ranged from 30 sccm to 50 sccm,indicating the possibility that the proposed thrust estimate method could be practically applied.Moreover,the measurement accuracy of the magnetic flux density is suggested to be lower than 0.015 mT and improvement on the inverse problem solution is required in the future. 展开更多
关键词 thrust estimation Hall effect thruster Hall drift current inverse problem Tikhonov regularization
下载PDF
Simulation study on the influence of magnetic field in the near-anode region on anode power deposition of ATON-type Hall thruster 被引量:3
2
作者 Hongbo SU Hong LI +4 位作者 Yongjie DING liqiu wei Xu ZHANG Chaoying ZHOU Daren YU 《Plasma Science and Technology》 SCIE EI CAS CSCD 2020年第9期106-113,共8页
The highest deposition of power and temperature is always near the cusp of the ATON-type Hall thruster.This shows that when there are electrons gathering at the cusp,the distribution of heat load will be uniform,which... The highest deposition of power and temperature is always near the cusp of the ATON-type Hall thruster.This shows that when there are electrons gathering at the cusp,the distribution of heat load will be uniform,which will potentially damage the reliability.Therefore,we optimize the magnetic field near the anode.We changed the magnetic field characteristics in the near-anode region with an additional magnetic screen,and performed numerical simulation with particle-incell simulation.The simulation results show that the magnetic field of the thruster with the additional magnetic screen can alleviate the over-concentration of power deposition on the anode and reduce the power deposition in the anode by 20%,while ensuring that the overall magnetic field characteristics do not change significantly. 展开更多
关键词 Hall thruster magnetic field near-anode power deposition
下载PDF
Investigation of short-channel design on performance optimization effect of Hall thruster with large height–radius ratio 被引量:1
3
作者 Haotian FAN Yongjie DING +3 位作者 Chunjin MO liqiu wei Hong LI Daren YU 《Plasma Science and Technology》 SCIE EI CAS CSCD 2022年第2期1-9,共9页
In this study,the neutral gas distribution and steady-state discharge under different discharge channel lengths were studied via numerical simulations.The results show that the channel with a length of 22 mm has the a... In this study,the neutral gas distribution and steady-state discharge under different discharge channel lengths were studied via numerical simulations.The results show that the channel with a length of 22 mm has the advantage of comprehensive discharge performance.At this time,the magnetic field intensity at the anode surface is 10%of the peak magnetic field intensity.Further analysis shows that the high-gas-density zone moves outward due to the shortening of the channel length,which optimizes the matching between the gas flow field and the magnetic field,and thus increases the ionization rate.The outward movement of the main ionization zone also reduces the ion loss on the wall surface.Thus,the propellant utilization efficiency can reach a maximum of 96.8%.Moreover,the plasma potential in the main ionization zone will decrease with the shortening of the channel.The excessively short-channel will greatly reduce the voltage utilization efficiency.The thrust is reduced to a minimum of 46.1 m N.Meanwhile,because the anode surface is excessively close to the main ionization zone,the discharge reliability is also difficult to guarantee.It was proved that the performance of Hall thrusters can be optimized by shortening the discharge channel appropriately,and the specific design scheme of short-channel of HEP-1350 PM was defined,which serves as a reference for the optimization design of Hall thruster with large height–radius ratio.The shortchannel design also helps to reduce the thruster axial dimension,further consolidating the advantages of lightweight and large thrust-to-weight ratio of the Hall thruster with large height–radius ratio. 展开更多
关键词 Hall thruster large height-radius ratio short-channel design discharge performance numerical simulation
下载PDF
Particle-in-cell simulation for effect of anode temperature on discharge characteristics of a Hall effect thruster 被引量:1
4
作者 Hong LI Xingyu LIU +4 位作者 Zhiyong GAO Yongjie DING liqiu wei Daren YU Xiaogang WANG 《Plasma Science and Technology》 SCIE EI CAS CSCD 2018年第12期96-106,共11页
Propellant gas flow has an important impact on the ionization and acceleration process of Hall effect thrusters (HETs). In this paper, a particle-in-cell numerical method is used to study the effect of the anode tem... Propellant gas flow has an important impact on the ionization and acceleration process of Hall effect thrusters (HETs). In this paper, a particle-in-cell numerical method is used to study the effect of the anode temperature, i.e., the flow speed of the propellant gas, on the discharge characteristics of a HET. The simulation results show that, no matter the magnitude of the discharge voltage, the calculated variation trends of performance parameters with the anode temperature are in good agreement with the experimental ones presented in the literature. Further mechanism analysis indicates that the magnitude of the electron temperature is responsible for the two opposing variation laws found under different discharge voltages. When the discharge voltage is low, the electron temperature is low, and so is the intensity of the propellant ionization; the variation of the thruster performance with the anode temperature is thereby determined by the variation of the neutral density that affects the propellant utilization efficiency. When the discharge voltage is high, the electron temperature is large enough to guarantee a high degree of the propellant utilization no matter the magnitude of the anode temperature. The change of the thruster performance with the anode temperature is thus dominated by the change of the electron temperature and consequently the electron-neutral collisions as well as the electron cross-field mobility that affect the current utilization efficiency. 展开更多
关键词 Hall effect thruster anode temperature neutral flow discharge characteristics particle-in-cell simulation
下载PDF
Matching characteristics of magnetic field configuration and chamfered channel wall in a magnetically shielded Hall thruster 被引量:1
5
作者 Zhaoyu Wang Hong Li +4 位作者 Chao Zhong Yanlin Hu Yongjie Ding liqiu wei Daren Yu 《Plasma Science and Technology》 SCIE EI CAS CSCD 2021年第10期72-80,共9页
To date, the selection of the magnetic field line used to match the chamfered inner and outer channel walls in a magnetically shielded Hall thruster has not been quantitatively studied. Hence, an experimental study wa... To date, the selection of the magnetic field line used to match the chamfered inner and outer channel walls in a magnetically shielded Hall thruster has not been quantitatively studied. Hence, an experimental study was conducted on a 1.35 k W magnetically shielded Hall thruster with a xenon propellant. Different magnetic field lines were chosen, and corresponding tangentially matched channel walls were manufactured and utilized. The results demonstrate that high performance and a qualified anti-sputtering effect cannot be achieved simultaneously. When the magnetic field lines that match the chamfered wall have a strength at the channel centerline of less than 12% of the maximum field strength, the channel wall can be adequately protected from ion sputtering. When the magnetic field lines have a strength ratio of 12%–20%, the thruster performance is high. These findings provide the first significant quantitative design reference for the match between the magnetic field line and chamfered channel wall in magnetically shielded Hall thrusters. 展开更多
关键词 magnetically shielded Hall thruster magnetic field line chamfered channel wall tangent matching
下载PDF
Effect of low-frequency oscillation on performance of Hall thrusters 被引量:1
6
作者 liqiu wei Wenbo LI +1 位作者 Yongjie DING Daren YU 《Plasma Science and Technology》 SCIE EI CAS CSCD 2018年第7期139-144,共6页
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 var... 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. 展开更多
关键词 Hall thruster low-frequency oscillation PERFORMANCE FILTER
下载PDF
Simulation of the effect of a magnetically insulated anode on a low-power cylindrical Hall thruster 被引量:1
7
作者 Yongjie DING Hong LI +7 位作者 Boyang JIA Peng LI liqiu wei Yu XU Wuji PENG Hezhi SUN Yong CAO Daren YU 《Plasma Science and Technology》 SCIE EI CAS CSCD 2018年第3期156-162,共7页
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 bombardin... 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. 展开更多
关键词 magnetically insulated anode cylindrical Hall thruster PERFORMANCE
下载PDF
Study on the influence of the discharge voltage on the ignition process of Hall thrusters
8
作者 Wenbo LI liqiu wei +6 位作者 Hong LI Yongjie DING Jianning SUN Haikuo CAI Daren YU Shangmin WANG Ning GUO 《Plasma Science and Technology》 SCIE EI CAS CSCD 2020年第9期25-37,共13页
A high-speed charge-coupled device camera was used to capture images of the plume and acceleration channel of a Hall effect thruster during ignition at different discharge voltages.To better understand the influence o... A high-speed charge-coupled device camera was used to capture images of the plume and acceleration channel of a Hall effect thruster during ignition at different discharge voltages.To better understand the influence of changes in the discharge voltage on the plasma parameters during thruster ignition,a particle-in-cell numerical model was used to calculate the distribution characteristics of the ion density and electric potential at different ignition moments under different discharge voltages.The results show that when the discharge voltage is high,the ion densities in the plume and acceleration channel are significantly higher at the initial phase of thruster ignition;with the gradual strengthening of the ignition process,the propellant avalanche ionization during thruster ignition occurs earlier and the pulse current peak increases.The main reason for these phenomena is that the change in the discharge voltage results in different energy acquisitions of the emitted electrons entering the thruster channel. 展开更多
关键词 Hall effect thruster ignition process discharge voltage PIC simulation CCD image
下载PDF
Numerical study of the effect of aft-loaded magnetic field on multiple ionizations in Hall thruster
9
作者 Demai ZENG Hong LI +4 位作者 Jinwen LIU Yongjie DING liqiu wei Daren YU wei MAO 《Plasma Science and Technology》 SCIE EI CAS CSCD 2022年第7期45-52,共8页
It is assumed that the shift of a strong magnetic field region with a positive gradient from exit plane to outside, namely the transit from a normal loaded magnetic field to an aft-loaded one, enhances the multiple io... It is assumed that the shift of a strong magnetic field region with a positive gradient from exit plane to outside, namely the transit from a normal loaded magnetic field to an aft-loaded one, enhances the multiple ionization process in the magnetically shielded Hall thruster. To confirm this conjecture, a comparative study is carried out numerically with a particle-in-cell method. The simulation results prove that compared with the normal loaded magnetic field, the application of aft-loaded magnetic field enhances the multiple ionization process. This study further analyzes the ionization characteristics of the transition from low-charged ions to high-charged ions under two magnetic field conditions and the influence of the magnetic strength of aft-loaded magnetic field on the multiple ionization characteristics. The study described herein is useful for understanding the discharge characteristics of Hall thruster with an aft-loaded magnetic field. 展开更多
关键词 Hall thruster aft-loaded magnetic field multiple ionization electron temperature
下载PDF
Numerical simulation of the start-up process of a miniature ion thruster
10
作者 Xinyong YANG liqiu wei +7 位作者 Wenjia JIANG Tianyuan JI Liwei ZHOU Hong LI Yongjie DING Jingfeng TANG Ning GUO Daren YU 《Plasma Science and Technology》 SCIE EI CAS CSCD 2022年第7期63-73,共11页
A particle-in-cell Monte Carlo collision model of a discharge chamber is established to investigate the start-up process of a miniature ion thruster.We present the discharge characteristics at different stages(the ini... A particle-in-cell Monte Carlo collision model of a discharge chamber is established to investigate the start-up process of a miniature ion thruster.We present the discharge characteristics at different stages(the initial stage,development stage,and stable stage)according to the trend of the discharge current with time.The discharge current is the sum of the sidewall current and the backplate current.During the start-up process,the sidewall current lags behind the backplate current.The variation and distribution characteristics of the discharge current over time are determined by the electron density distribution and electric potential distribution. 展开更多
关键词 miniature ion thruster discharge chamber start-up process Monte Carlo collision
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部