When the first human visitors on Mars prepare to return to Earth, they will have to comply with stringent planetary protection requirements. Apollo Program experience warns that opening an EVA hatch directly to the surface will bring dust into the ascent vehicle. To prevent inadvertent return of potential Martian contaminants to Earth, careful consideration must be given to the way in which crew ingress their Mars Ascent Vehicle (MAV). For architectures involving more than one surface element-such as an ascent vehicle and a pressurized rover or surface habitat-a retractable tunnel that eliminates extravehicular activity (EVA) ingress is an attractive solution. Beyond addressing the immediate MAV access issue, a reusable tunnel may be useful for other surface applications, such as rover to habitat transfer, once its primary mission is complete. A National Aeronautics and Space Administration (NASA) team is studying the optimal balance between surface tunnel functionality, mass, and stowed volume as part of the Evolvable Mars Campaign (EMC). The study team began by identifying the minimum set of functional requirements needed for the tunnel to perform its primary mission, as this would presumably be the simplest design, with the lowest mass and volume. This Minimum Functional Tunnel then becomes a baseline against which various tunnel design concepts and potential alternatives can be traded, and aids in assessing the mass penalty of increased functionality. Preliminary analysis indicates that the mass of a single-mission tunnel is about 237 kg, not including mass growth allowance.


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    Titel :

    Mars Surface Tunnel Element Concept


    Beteiligte:
    Rucker M. A. (Autor:in) / Jefferies S. (Autor:in) / Howe A. S. (Autor:in) / Howard R. (Autor:in) / Mary N. (Autor:in) / Watson J. (Autor:in) / Lewis R. (Autor:in)

    Erscheinungsdatum :

    2016


    Format / Umfang :

    13 pages


    Medientyp :

    Report


    Format :

    Keine Angabe


    Sprache :

    Englisch




    Mars surface tunnel element concept

    Rucker, Michelle A. / Jefferies, Sharon / Mary, Natalie et al. | IEEE | 2016


    Mars Surface Tunnel Element Concept

    Rucker, Michelle A. / Mary, Natalie / Howe, A. Scott et al. | NTRS | 2016


    Mars Surface Tunnel Element Concept

    Rucker M. A. / Mary N. / Howe A. S. et al. | NTIS | 2016


    Mars Surface Tunnel Element Concept

    Rucker, Michelle A. | NTRS | 2016


    Mars Surface Tunnel Element Concept

    Rucker, Michelle A. / Jefferies, Sharon / Howe, A. Scott et al. | NTRS | 2016