1–20 von 39 Ergebnissen
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    Energy Storage for Lunar Surface Exploration

    M. C. Guzik / R. P. Gilligan / P. J. Smith et al. | NTIS | 2018
    This paper presents the updated results of a previous NASA study funded under the Advanced Exploration Systems (AES) Modular Power Systems ...
    Schlagwörter: Extraterrestrial Exploration , Lunar exploration

    Energy Goals and Challenges for Future Space Exploration

    J. Jeevarajan | NTIS | 2014
    Schlagwörter: Space exploration

      Energy Goals and Challenges for Future Space Exploration

      J. Jeevarajan | NTIS | 2012
      Schlagwörter: Extraterrestrial Exploration , Space exploration

    Exploration Perspective of Beamed Energy Propulsion

    J. W. Cole | NTIS | 2007
    The Vision for Exploration is currently focused on flying the Space Shuttle safely to complete our Space Station obligations, retiring the ...
    Schlagwörter: Space exploration

    Energy Goals and Safety Challenges for Future Space Exploration

    J. Jeevarajan | NTIS | 2014
    Schlagwörter: Space exploration

    NASA's Exploration Technology Development Program Energy Storage Project Battery Technology Development

    C. M. Reid / T. B. Miller / C. R. Mercer et al. | NTIS | 2010
    Exploration Technology Development Program Energy Storage Project to the Enabling Technology Development and Demonstration High Efficiency Space Power ...

    Development, Integration and Utilization of Surface Nuclear Energy Sources for Exploration Missions

    M. G. Houts / G. R. Schmidt / S. Bragg-Sitton et al. | NTIS | 2005
    exploration missions. Nuclear energy sources were used to provide electricity on Apollo missions 12, 14, 15, 16, and 17, and on the Mars Viking ...
    Schlagwörter: Extraterrestrial Exploration , Space exploration

    Integrated energy approach to providing power and propulsion for the Space Exploration Initiative

    E. P. Coomes / J. E. Dagle / J. A. Bamberger et al. | NTIS | 1991
    A fully integrated energy-based approach to mission planning is needed if the Space Exploration Initiative (SEI) is to succeed. Such an ...
    Schlagwörter: Exploration , Space Exploration Initiative

    Overview of Intelligent Power Controller Development for Human Deep Space Exploration

    Soeder, James F. / Dever, Timothy P. / McNelis, Anne M. et al. | NTRS | 2014
    exploration goals. NASA's current long term human space platform, the International Space Station, is in low Earth orbit with almost continuous ...

    Energy Storage for NASA Missions

    V. F. Lvovich | NTIS | 2020
    Schlagwörter: Lunar exploration

    Electric Propulsion Concepts Enabled by High Power Systems for Space Exploration

    Gilland, James / Fiehler, Douglas / Lyons, Valerie | NTRS | 2005
    This paper describes the latest development in electric propulsion systems being planned for the new Space Exploration initiative. Missions ...

    In-Situ Resource Utilization for Space Exploration: Resource Processing, Mission-Enabling Technologies, and Lessons for Sustainability on Earth and Beyond

    Hepp, A. F. / Palaszewski, B. A. / Landis, G. A. et al. | NTRS | 2015
    a significant source of potential failure modes. Over the past twenty-five years, beginning with the Space Exploration Initiative ...

    Energy Efficient Storage and Transfer of Cryogens

    J. E. Fesmire | NTIS | 2013
    part of NASA's technology goals for Space Launch and Exploration. New thermal testing methodologies and materials are being transferred to ...

    Robust Exploration and Commercial Missions to the Moon Using Nuclear Thermal Rocket Propulsion and Lunar Liquid Oxygen Derived from FeO-Rich Pyroclasitc Deposits

    Borowski, Stanley K. / Ryan, Stephen W. / Burke, Laura M. et al. | NTRS | 2018
    The nuclear thermal rocket (NTR) has frequently been identified as a key space asset required for the human exploration of Mars. This ...
    Schlagwörter: Lunar And Planetary Science And Exploration

    Modular, Reconfigurable, High-Energy Technology Development

    C. Carrington / J. Howell | NTIS | 2006
    development of future modular solar-powered exploration cargo-transport vehicles and infrastructure. MRHE was a project in the High Energy Space ...

    NASA Johnson Space Center's Energy and Sustainability Efforts

    M. K. Ewert | NTIS | 2008
    generations to meet their own needs. The new technologies that are required for sustainable closed loop life support for space exploration have uses ...
    Schlagwörter: Space exploration

    High-Energy Technology Demonstration Platfom: The First Step in a Stepping Stones Approach to Energy-Rich Space Infrastructures

    C. Carrington / G. Day | NTIS | 2004
    The sun provides an abundant source of energy in space, which can be used to power exploration vehicles and infrastructures that support ...

    Direct Energy Conversion for Low Specific Mass In-Space Power and Propulsion

    J. H. Scott / J. A. George / A. G. Tarditi | NTIS | 2013
    Changing the game in space exploration involves changing the paradigm for the human exploration of the Solar System, e.g, changing the ...
    Schlagwörter: Space exploration

    Low Mass Printable Devices for Energy Capture, Storage, and Use

    D. O. Frazier / C. E. Singer / J. R. Rogers et al. | NTIS | 2010
    semiconductor and printing technologies to advance lightweight electronic and photonic devices having excellent potential for commercial and exploration ...