Estimation of the Rejection Boundaries of the Spacecraft Schematic Layout by Thermal and Erosive Effects Level of the Electric Rocket Engines Plasma Jets

Q3 Mathematics

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Pub Date : 2023-03-01 DOI:10.18698/0236-3941-2023-1-38-51

А.B. Nadiradze, А.А. Dudunov

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Abstract

The paper proposes an engineering method to account for thermal and erosive effects of the electric rocket engine plasma jet on the spacecraft structural elements with the electric rocket engines installed on a spacecraft. The method is based on introducing the rejection boundaries that define the region of space, where installation of the spacecraft structural elements is unacceptable from the point of view of certain impact type. The rejection boundary is a surface, where the impact indicators are equal to the allowable value, inside the boundaries they exceed the allowable values (critical impact area), and outside the boundaries they stay below the allowable values (admissible impact area). If the spacecraft elements appear in the critical impact area, position of the electric rocket engines on the spacecraft should be corrected. Equilibrium surface temperature is the thermal effect indicator, which should not exceed the given allowable value; an erosion depth is the erosive effect indicator. Allowable level of erosive action depends on material and characteristics of the sprayed structural element. The considered indicators were determined by the ion current density at the given point in space for the worst case without accounting for the jet ions angle of incidence on the surface. Rejection boundaries were found for the plasma jet thermal and erosive effects of the SPT-100 stationary engine on various materials. It is shown that, incontrast to the traditionally used limitation on the jet divergence angle, the rejection boundary method makes it possible to significantly improve the accuracy of estimates and reduce the probability of errors in the layout of a modern spacecraft

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利用电火箭发动机等离子体射流热和侵蚀效应水平估算航天器原理图布局的排斥边界

本文提出了一种考虑电火箭发动机等离子体射流对航天器结构部件热效应和侵蚀效应的工程方法。该方法基于引入拒绝边界，该边界定义了空间区域，从某种冲击类型的角度来看，在该区域安装航天器结构元件是不可接受的。拒绝边界是一个面，其冲击指标等于允许值，在边界内超过允许值(临界冲击区)，在边界外低于允许值(可接受冲击区)。如果航天器元件出现在临界冲击区域，则应纠正航天器上的电动火箭发动机位置。平衡表面温度是热效应指标，不应超过给定的允许值;侵蚀深度是侵蚀效果的指标。腐蚀作用的允许水平取决于喷淋结构元件的材料和特性。考虑的指标是由空间中给定点的最坏情况下的离子电流密度决定的，而不考虑射流离子在表面上的入射角。研究了SPT-100固定式发动机在不同材料上的等离子射流热效应和侵蚀效应。结果表明，与传统的射流发散角限制方法不同，该方法可以显著提高估计精度，降低现代航天器布局误差的概率

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来源期刊

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Mathematics-Mathematics (all)

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： The journal is aimed at publishing most significant results of fundamental and applied studies and developments performed at research and industrial institutions in the following trends (ASJC code): 2600 Mathematics 2200 Engineering 3100 Physics and Astronomy 1600 Chemistry 1700 Computer Science.