论有效烧蚀热对流星体与大气相互作用建模的影响

IF 1 4区 工程技术 Q4 MECHANICS
I. G. Brykina, L. A. Egorova
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引用次数: 0

摘要

研究考虑了流星体进入大气层及其与大气层相互作用的建模问题。流星体或其碎片作为单体运动时的运动、烧蚀和能量沉积是在流星物理方程框架内建模的。这些方程的主要参数是烧蚀参数,等于传热系数与有效质量损失热的比值。由于缺乏确定高流星速度下有效烧蚀热的理论和实验研究数据,文献中通常使用其恒定值。本文建议使用沿轨迹的有效烧蚀热变量,根据飞行速度在蒸发热和熔化热(或剥落热)之间插值。通过对流星物理方程进行数值求解,我们研究了设置有效烧蚀热的方式及其不确定性对模拟特征的影响:流星体速度,以及其质量和能量沉积沿轨迹和轨迹本身的变化;并评估了确定这些特征的不准确性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

On the Influence of the Effective Heat of Ablation on Modeling the Interaction of Meteoroids with the Atmosphere

On the Influence of the Effective Heat of Ablation on Modeling the Interaction of Meteoroids with the Atmosphere

The problem of modeling the entry of a meteoroid into the atmosphere and its interaction with it is considered. The motion, ablation, and energy deposition of a meteoroid or its fragments moving as a single body are modeled within the framework of meteor physics equations. The main parameter of these equations is the ablation parameter, equal to the ratio of the heat transfer coefficient to the effective heat of mass loss. Due to the lack of data from theoretical and experimental studies on the determination of the effective heat of ablation at high meteor velocities, its constant value is usually used in the literature. In this paper, it is proposed to use the effective heat of ablation variable along the trajectory, interpolating its value between the heat of evaporation and the heat of melting (or spallation), depending on the flight velocity. By numerically solving the meteor physics equations, we study the influence of the way of setting the effective heat of ablation and its uncertainty on the simulated characteristics: the meteoroid velocity, as well as the change in its mass and energy deposition along the trajectory and on the trajectory itself; and the inaccuracy in determining these characteristics is evaluated.

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来源期刊
Fluid Dynamics
Fluid Dynamics MECHANICS-PHYSICS, FLUIDS & PLASMAS
CiteScore
1.30
自引率
22.20%
发文量
61
审稿时长
6-12 weeks
期刊介绍: Fluid Dynamics is an international peer reviewed journal that publishes theoretical, computational, and experimental research on aeromechanics, hydrodynamics, plasma dynamics, underground hydrodynamics, and biomechanics of continuous media. Special attention is given to new trends developing at the leading edge of science, such as theory and application of multi-phase flows, chemically reactive flows, liquid and gas flows in electromagnetic fields, new hydrodynamical methods of increasing oil output, new approaches to the description of turbulent flows, etc.
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