月球表面电场除尘方法的研究进展

Q2 Mathematics

Advances in Mechanics Pub Date : 2012-11-25 DOI:10.6052/1000-0992-12-054

Sun Qixia, Yang Ningning, Cai Xiaobing, Hu Gengkai

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引用次数: 2

摘要

月球表面的粘性尘埃颗粒很容易沉积在探测设备表面，给月球表面探测带来了严重的问题。在未来的月球或火星表面任务中，电动力场除尘被认为是减少尘埃污染的有效方法。然而，由于对其除尘机理缺乏充分的认识，限制了该技术的实际应用。本文首先介绍了电幕(EC)实现电动力场，然后讨论了EC表面电场分布和作用在颗粒上的力、颗粒流动运动中的摩擦电荷分布、颗粒运动模拟方法、EC的除尘效率和能耗。对颗粒初跃过程、颗粒流中摩擦电荷的产生以及影响除尘效率的因素进行了详细的解释和分析。重点还放在静态粒子电荷对初始跃迁过程的贡献上。最后，对该技术的发展趋势进行了展望。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ADVANCE IN LUNAR SURFACE DUST REMOVAL METHOD BY ELECTRODYNAMIC FIELD

The adhesive dust particles on lunar surface can easily deposit on surfaces of detecting devices, which poses serious problems for moon surface explorations. Dust removal by electrodynamic field is recently considered as an effective method to mitigate dust pollution for future lunar or Mars surface missions. However, lack of full understanding about the mechanism of dust removal limits practical applications of this technique. In this paper, the realization of electrodynamic field by electric curtain (EC) is firstly introduced, then electric field distribution and forces acting on the particles along the EC surface, tribo-charge distribution during particle flow movement, particle movement simulation methods, dust removal efficiency and energy consumption of EC have been discussed. Particle initial leaping processes, generation of tribo-charge within particle flows and factors influencing the dust removal efficiency have been explained and analyzed in detail. The emphasis is also placed on the contribution of static particle charge to its initial leaping process. At last, the future trend of this technique has also been discussed.

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来源期刊

Advances in Mechanics Mathematics-Mathematical Physics

CiteScore

3.40

自引率

0.00%

发文量

1074

期刊介绍： "Advances in Mechanics" is a comprehensive academic journal supervised by the Chinese Academy of Sciences and jointly sponsored by the Institute of Mechanics of the Chinese Academy of Sciences and the Chinese Society of Theoretical and Applied Mechanics, focusing on publishing high-level review articles in the field of mechanics, with special attention to the bidirection drive of mechanics and applications. Welcome articles facing the major national needs, from the perspective of engineering systems, summarize and analyze the research history and current situation of common or bottleneck mechanics issues, and have a foreseeable article about the future Welcome the forefront of mechanics, exploring new directions, new fields, and enlightening articles; Welcome in-depth summary of the mechanics results or lessons with important reference and reference value, so that the latecomers can better create and invented articles on the basis of the predecessors; Encourage creative ideas and suggestions for current important academic issues related to the development of mechanics.