The Effects of the Diurnal Atmospheric Variability on Entry, Descent and Landing on Mars

IF 0.8 4区 物理与天体物理 Q4 ASTRONOMY & ASTROPHYSICS Serbian Astronomical Journal Pub Date : 2014-12-01 DOI:10.2298/SAJ1489069M
D. Marčeta
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引用次数: 1

Abstract

Landing on Mars is extremely challenging task due to the fact that the Martian atmosphere is the most hostile environment in the Solar system to perform the entry, descent and landing (EDL) process, because it is thick enough to create substantial heating of the entry vehicle but not thick enough to reduce its velocity to the one necessary for safe landing. Beside this, the atmosphere is very dynamic mainly due to high eccentricity of the Martian orbit, obliquity of the orbital to the equatorial plane and close alignment of the winter solstice and the orbital perihelion. Although seasonal variations of atmospheric parameters are significantly larger than the diurnal, it is very important to analyze diurnal cycles as they can significantly change vertical and horizontal atmospheric profiles in very short time intervals. This can present a serious threat to missions which have very precise timings and specific requirements such as the requirement for the daytime landing to enable ground images acquisition during the descent and landing phase. A 3-degrees-of-freedom trajectory integration routine was combined with the Mars Global Reference Atmospheric Model (Mars-GRAM) to identify the dependence of the EDL profiles on the diurnal cycles of atmospheric parameters throughout the Martian year. The obtained results show that the influence of the diurnal cycles is the largest at the equator and decreases relatively symmetrically towards the poles with a slightly stronger influence in the northern hemisphere. Also, there is a significant influence of the orbital position of Mars on the effect of diurnal atmospheric variations which causes that, around the orbital perihelion and winter solstice, there is some kind of inversion of the dependance of optimal entry timing on latitude of the landing site comparing to the rest of the Martian year. [Projekat Ministarstva nauke Republike Srbije, br. 176002]
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大气日变率对进入、下降和登陆火星的影响
登陆火星是一项极具挑战性的任务,因为火星大气层是太阳系中执行进入、下降和着陆(EDL)过程最不利的环境,因为它的厚度足以为进入飞行器创造大量的加热,但不足以将其速度降低到安全着陆所需的速度。除此之外,由于火星轨道的高离心率,轨道与赤道平面的倾角以及冬至和轨道近日点的密切对齐,大气非常动态。虽然大气参数的季节变化明显大于日变化,但日循环可以在很短的时间间隔内显著改变大气垂直和水平剖面,因此分析日循环非常重要。这可能对具有非常精确的时间和特定要求的任务构成严重威胁,例如要求在白天着陆,以便在下降和着陆阶段获取地面图像。结合火星全球参考大气模型(Mars- gram)的3自由度轨迹积分程序,确定了EDL廓线对整个火星年大气参数日周期的依赖性。结果表明,日循环对赤道的影响最大,对两极的影响相对对称地减小,对北半球的影响略强。此外,火星轨道位置对日大气变化的影响也有重要影响,这导致在轨道近日点和冬至附近,与火星年的其他时间相比,最佳进入时间对着陆点纬度的依赖存在某种反转。[南斯拉夫]塞族共和国部长项目;176002]
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来源期刊
Serbian Astronomical Journal
Serbian Astronomical Journal ASTRONOMY & ASTROPHYSICS-
CiteScore
1.00
自引率
0.00%
发文量
6
审稿时长
12 weeks
期刊介绍: Serbian Astronomical Journal publishes original observations and researches in all branches of astronomy. The journal publishes: Invited Reviews - review article on some up-to-date topic in astronomy, astrophysics and related fields (written upon invitation only), Original Scientific Papers - article in which are presented previously unpublished author''s own scientific results, Preliminary Reports - original scientific paper, but shorter in length and of preliminary nature, Professional Papers - articles offering experience useful for the improvement of professional practice i.e. article describing methods and techniques, software, presenting observational data, etc. In some cases the journal may publish other contributions, such as In Memoriam notes, Obituaries, Book Reviews, as well as Editorials, Addenda, Errata, Corrigenda, Retraction notes, etc.
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