Surface contamination rates at different spatial scales in the Columbus module (ISS) during the MATISS campaigns

IF 2.6 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Frontiers in Astronomy and Space Sciences Pub Date : 2023-09-21 DOI:10.3389/fspas.2023.1229022
Laurence Lemelle, Eléonore Mottin, Denis Le Tourneau, Sébastien Rouquette, Lucie Campagnolo, Cécile Thévenot, Alain Maillet, Sébastien Barde, Emmanuel Garre, Jérémie Teisseire, Caroline Fontelaye, Vincent Jousseaume, Catherine Pudda, Olivier Constantin, Pierre Marcoux, Guillaume Nonglaton, Christophe Place
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Abstract

Future long-duration human spaceflights require developments to limit biocontamination of surface habitats. The three MATISS (Microbial Aerosol Tethering on Innovative Surfaces in the International Space Station) campaigns exposed surface treatments over several months in the ISS. To this end, eight sample holders designed were mounted with lamella-bearing FDTS ((1 H , 1 H , 2 H , 2 H )-perfluorodecyltrichlorosilane), SiOCH, and parylene hydrophobic coatings, at two different locations, for several months, during three distinct periods from 2016 to 2020. Tile scanning optical microscopy (×3 and ×30 magnifications) detected several thousand particles, indicating a relatively clean environment (a few particles per mm 2 ). In previous studies, exposure rates were analyzed for all the coarse and fine particles detected on the largest total area of the integrated FDTS area exposed in the ISS (several cm 2 ). Here, the contamination rates observed for a smaller constant area unit (the 0.66-cm 2 window area of the holder) were statistically analyzed. Therefore, a statistical difference in rate distributions between RGSH (Return Grid Sensor House) and EDR (European Drawer Rack) and between FDTS and either SiOCH or parylene was shown for the coarse particles but not for the fine particles. The contamination rates were found to be low, confirming the efficiency of the long-term air purification system. The rates tend to vary with the astronaut occupancy rates. Surfaces of spacecraft for long-duration exploration left unmanned during dormancy periods can be considered safe from biocontamination.
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在MATISS活动期间,哥伦布太空舱(ISS)不同空间尺度的表面污染率
未来的长时间载人航天飞行需要发展以限制地表栖息地的生物污染。三次MATISS(国际空间站创新表面微生物气溶胶捆绑)活动在国际空间站上进行了几个月的表面处理。为此,设计了8个样品支架,在2016年至2020年的三个不同时期,在两个不同的位置安装了带有片状的FDTS ((1h, 1h, 2h, 2h)-全氟癸基三氯硅烷)、SiOCH和对二甲苯疏水涂层。瓷砖扫描光学显微镜(×3和×30放大)检测到数千个颗粒,表明环境相对清洁(每平方毫米几个颗粒)。在以前的研究中,对在国际空间站暴露的综合FDTS区域的最大总面积(几厘米2)上检测到的所有粗颗粒和细颗粒的暴露率进行了分析。在这里,对较小的恒定面积单位(0.66 cm 2的支架窗口面积)观察到的污染率进行统计分析。因此,RGSH(返回网格传感器屋)和EDR(欧洲抽屉架)之间以及FDTS与SiOCH或聚对二甲苯之间的速率分布在粗颗粒中显示出统计差异,而在细颗粒中则没有。发现污染率低,证实了长期空气净化系统的效率。费率往往随宇航员入住率而变化。长期探索的航天器表面在休眠期间保持无人状态,可以认为是安全的,不会受到生物污染。
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来源期刊
Frontiers in Astronomy and Space Sciences
Frontiers in Astronomy and Space Sciences ASTRONOMY & ASTROPHYSICS-
CiteScore
3.40
自引率
13.30%
发文量
363
审稿时长
14 weeks
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