21–40 von 82 Ergebnissen
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    Attitude Control Systems for Satellites

    D. Genthe | NTIS | 1970
    Schlagwörter: High temperature gases , Satellite attitude control , Propulsion system configurations , Reaction control

    PA Discussion Topics

    H. Dobbs | NTIS | 2011
    Schlagwörter: High temperature , Temperature control , Sil(System integration lab)

    Propulsion System Choices and Their Implications

    C. R. Joyner / D. J. H. Levack / R. E. Rhodes et al. | NTIS | 2010
    Schlagwörter: Propulsion system performance , Temperature control

    Analysis of Ag/FEP Thermal Control Blanket Performance From Multiple Satellites

    G. Pippin / E. Normand / S. Woll | NTIS | 2001
    Schlagwörter: Temperature control , Temperature measurement , Global positioning system , Space transportation system flights

    Hall Effect Thruster Interactions Data From the Russian Express-A2 and Express-A3 Satellites, Part 7, Acquire Express-A3 SPT-100 Based Propulsion Subsystem and Other Subsystem Flight Operation TM-Data, Task 32

    N. Sitnikova / D. Volkov / I. Maximov et al. | NTIS | 2003
    Schlagwörter: Propulsion system performance , Attitude control , Temperature control

    NPS Alternate Techsat Satellite, Design Project for AE-4871

    NTIS | 1993
    Schlagwörter: Propulsion system configurations , Satellite attitude control , Temperature control

    Voyager Spacecraft Phase B, Task D. Volume 3 - Spacecraft Mechanical Subsystems Definition Final Report

    NTIS | 1967
    Schlagwörter: Propulsion system configurations , Temperature control

    Preliminary Flight Evaluation of an Engine Performance Optimization Algorithm

    H. H. Lambert / G. B. Gilyard / J. D. Chisholm et al. | NTIS | 1991
    Schlagwörter: Engine control , Inlet temperature , Propulsion system performance , Optimal control , Thrust control

    Sts-3 Mission Assessment

    NTIS | 1982
    Schlagwörter: Ground operational support system , Remote manipulator system , Space transportation system 3 flight , Temperature control

    Monopropellant Hydrazine Spacecraft Propulsion Systems: 30 Years of Safe, Reliable, Flexible and Predictable Performance

    D. T. Huang / R. L. Sackheim | NTIS | 1990
    Schlagwörter: Propulsion system configurations , Propulsion system performance , Control surfaces , Temperature control

    Th Mt. Erebus Explorer Control System

    D. A. Christian | NTIS | 1993
    Schlagwörter: Computers, Control & Information Theory , Control Systems & Control Theory , Control systems , System safety , Temperature

    Materials Challenges in Space Exploration

    B. N. Bhat | NTIS | 2005
    Schlagwörter: Solar system , Temperature control , Propulsion system performance

    Hypersonic Drone Design: A Multidisciplinary Experience

    NTIS | 1988
    Schlagwörter: Propulsion system configurations , Temperature control

    Improved Arrival Temperatures of Produce in a Modified Refrigerated Trailer

    R. T. Hinsch / W. G. Kindya / R. E. Rij | NTIS | 1983
    Schlagwörter: Temperature control , Bottom air delivery system

    Evaluation of Fast-Time Wake Vortex Models using Wake Encounter Flight Test Data

    N. N. Ahmad / R. L. VanValkenburg / R. L. Bowles et al. | NTIS | 2014
    Schlagwörter: Temperature profiles , Temperature gradients , Air traffic control , National airspace system

    Combined Thermal Vacuum/Thermal Balance Test on Tethered Satellite Flight Unit

    M. Braghin / G. Falletti | NTIS | 1990
    Schlagwörter: Temperature control , Space transportation system , Temperature profiles

    LOLA: The Lunar Operations Landing Assembly

    M. Abreu / F. Argeles / C. Stewart et al. | NTIS | 1992
    Schlagwörter: Attitude control , Propulsion system configurations , Temperature control

    Project Wish: The Emerald City

    H. Oz / L. Slonksnes / J. W. Rogers et al. | NTIS | 1990
    Schlagwörter: Dynamic control , Environmental control , Propulsion system configurations , Spacecraft control , Temperature control

    Thermo-Fluid Modeling of the Pressurization and Draining of a 1000-Gallon Cryogenic Tank with GFSSP

    A. LaClair / A. Majumdar | NTIS | 2016
    Schlagwörter: Propulsion system performance , Control valves , Temperature

    On Perspectives of Employing the Mossbauer Effect for Automatic Control

    N. N. Shumilovskii / L. V. Mel'ttser / I. A. Braun | NTIS | 1965
    Schlagwörter: CONTROL SYSTEM , TEMPERATURE