Belobrajdic Blaze, Melone Kate, Diaz-Artiles Ana
Department of Aerospace Engineering, Texas A&M University, College Station, TX, United States.
NPJ Microgravity. 2021 May 12;7(1):16. doi: 10.1038/s41526-021-00144-w.
Extravehicular activity (EVA) is one of the most dangerous activities of human space exploration. To ensure astronaut safety and mission success, it is imperative to identify and mitigate the inherent risks and challenges associated with EVAs. As we continue to explore beyond low earth orbit and embark on missions back to the Moon and onward to Mars, it becomes critical to reassess EVA risks in the context of a planetary surface, rather than in microgravity. This review addresses the primary risks associated with EVAs and identifies strategies that could be implemented to mitigate those risks during planetary surface exploration. Recent findings within the context of spacesuit design, Concept of Operations (CONOPS), and lessons learned from analog research sites are summarized, and how their application could pave the way for future long-duration space missions is discussed. In this context, we divided EVA risk mitigation strategies into two main categories: (1) spacesuit design and (2) CONOPS. Spacesuit design considerations include hypercapnia prevention, thermal regulation and humidity control, nutrition, hydration, waste management, health and fitness, decompression sickness, radiation shielding, and dust mitigation. Operational strategies discussed include astronaut fatigue and psychological stressors, communication delays, and the use of augmented reality/virtual reality technologies. Although there have been significant advances in EVA performance, further research and development are still warranted to enable safer and more efficient surface exploration activities in the upcoming future.
舱外活动(EVA)是人类太空探索中最危险的活动之一。为确保宇航员安全和任务成功,识别并减轻与舱外活动相关的固有风险和挑战至关重要。随着我们继续探索近地轨道以外的区域,并着手开展重返月球及前往火星的任务,在行星表面而非微重力环境下重新评估舱外活动风险变得至关重要。本综述阐述了与舱外活动相关的主要风险,并确定了在行星表面探索期间可实施的减轻这些风险的策略。总结了在航天服设计、操作概念(CONOPS)以及从模拟研究站点吸取的经验教训方面的最新发现,并讨论了它们的应用如何为未来的长期太空任务铺平道路。在此背景下,我们将舱外活动风险减轻策略分为两大类:(1)航天服设计和(2)操作概念。航天服设计考虑因素包括预防高碳酸血症、热调节和湿度控制、营养、水合作用、废物管理、健康与体能、减压病、辐射防护和减轻尘埃。讨论的操作策略包括宇航员疲劳和心理压力源、通信延迟以及增强现实/虚拟现实技术的使用。尽管舱外活动性能已取得重大进展,但仍有必要进行进一步的研究与开发,以便在未来实现更安全、更高效的表面探索活动。