ESTIMATION OF THE POSSIBILITY OF USING ELECTRIC PROPULSION SYSTEMS FOR LARGE-SIZED ORBITAL DEBRIS POST-MISSION DISPOSAL

Pub Date : 2023-06-09 DOI:10.15407/knit2023.03.034
A. Golubek, M. Dron’, O. M. Petrenko
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Abstract

The steady increase in the amount of large-sized orbital debris represents a substantial threat to satellite missions. Currently, many methods of cleaning near-Earth space with the use of various means based on various physical principles are considered. Out of them all, the active method using a rocket propulsion system is the most commonly implemented. Considering the high specific impulse, small size, and mass of electric propulsion systems, they are a particularly attractive choice as means of post-mission disposal. Despite their advantages, such systems have certain peculiarities that need to be considered in the process of designing and implementing modern post-mission disposal means. These peculiarities include the maximum time of a single firing of the electric propulsion system, the maximum time of the battery charging, and the time of operation of the control system. The purpose of this work is the determination the capabilities of the modern Hall thrusters ST-25 and ST-40 developed by Space Electric Thruster Systems in solving the problem of post-mission disposal of large-sized orbital debris from low-Earth orbits taking into account the limitations on the power supply system. To achieve this goal, methods of analysis, synthesis, comparison, and computer simulation were used. In the course of the carried-out research, the following problems were solved. A scheme for post-mission disposal of large-sized orbital debris from low-Earth orbit was developed with consideration of the use of an electric propulsion system. The dependence was determined of the minimum delta-v increment required for post-mission disposal of an object within 25 years on the initial altitude of the orbit and the ballistic coefficient of the orbital debris. The upper boundary of the combinations of masses of orbital debris, the altitude of the initial orbit, and the ballistic coefficient were determined, for which post-mission disposal from near-Earth orbits is possible with the use of electric propulsion systems. The obtained results can be used in solving problems of the development of modern means of active post-mission disposal of orbital debris with the use of Hall thrusters developed by Space Electric Thruster Systems
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利用电力推进系统进行大型轨道碎片任务后处理的可能性估计
大型轨道碎片数量的稳步增加对卫星任务构成了重大威胁。目前,人们正在考虑使用基于各种物理原理的各种手段来清洁近地空间的许多方法。其中,使用火箭推进系统的主动方法是最常用的。考虑到电力推进系统的高比冲、小尺寸和质量,它们是一个特别有吸引力的选择,作为任务后处理的手段。尽管这些系统有其优点,但在设计和执行现代任务后处置手段的过程中需要考虑到这些系统的某些特点。这些特性包括电力推进系统单次点火的最大时间、电池充电的最大时间和控制系统的操作时间。这项工作的目的是在考虑到供电系统的限制的情况下,确定空间电力推进器系统研制的现代霍尔推进器ST-25和ST-40在解决低地球轨道大尺寸轨道碎片任务后处理问题方面的能力。为了实现这一目标,采用了分析、综合、比较和计算机模拟等方法。在开展研究的过程中,主要解决了以下几个问题:考虑到使用电力推进系统,拟定了一项低地球轨道大尺寸轨道碎片的任务后处置方案。确定了25年内任务后处置物体所需的最小δ -v增量与轨道初始高度和轨道碎片的弹道系数的依赖关系。确定了轨道碎片质量、初始轨道高度和弹道系数组合的上边界,利用电力推进系统可以在近地轨道上进行任务后处置。所得结果可用于解决利用空间电推进器系统开发的霍尔推进器开发现代任务后主动轨道碎片处置手段的问题
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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