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  • 1
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    NASA Flexible Screen Propellant Management Device (PMD) Demonstration With Cryogenic Liquid (2012)
    In:  CASI
    Details
    Publication Date: 2019-07-12
    Description: While evaluating various options for liquid methane and liquid oxygen propellant management for lunar missions, Innovative Engineering Solutions (IES) conceived the flexible screen device as a potential simple alternative to conventional propellant management devices (PMD). An apparatus was designed and fabricated to test flexible screen devices in liquid nitrogen. After resolution of a number of issues (discussed in detail in the paper), a fine mesh screen (325 by 2300 wires per inch) spring return assembly was successfully tested. No significant degradation in the screen bubble point was observed either due to the screen stretching process or due to cyclic fatigue during testing. An estimated 30 to 50 deflection cycles, and approximately 3 to 5 thermal cycles, were performed on the final screen specimen, prior to and between formally recorded testing. These cycles included some "abusive" pressure cycling, where gas or liquid was driven through the screen at rates that produced differential pressures across the screen of several times the bubble point pressure. No obvious performance degradation or other changes were observed over the duration of testing. In summary, it is felt by the author that these simple tests validated the feasibility of the flexible screen PMD concept for use with cryogenic propellants.
    Keywords: Spacecraft Propulsion and Power
    Type: NASA/CR-2012-217406 , E-18053 , 10-RPT-1002-ENG
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 2
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    Additive Manufacturing Design Considerations for Liquid Engine Components (2014)
    In:  CASI
    Details
    Publication Date: 2019-08-13
    Description: The Marshall Space Flight Center's Propulsion Systems Department has gained significant experience in the last year designing, building, and testing liquid engine components using additive manufacturing. The department has developed valve, duct, turbo-machinery, and combustion device components using this technology. Many valuable lessons were learned during this process. These lessons will be the focus of this presentation. We will present criteria for selecting part candidates for additive manufacturing. Some part characteristics are 'tailor made' for this process. Selecting the right parts for the process is the first step to maximizing productivity gains. We will also present specific lessons we learned about feature geometry that can and cannot be produced using additive manufacturing machines. Most liquid engine components were made using a two-step process. The base part was made using additive manufacturing and then traditional machining processes were used to produce the final part. The presentation will describe design accommodations needed to make the base part and lessons we learned about which features could be built directly and which require the final machine process. Tolerance capabilities, surface finish, and material thickness allowances will also be covered. Additive Manufacturing can produce internal passages that cannot be made using traditional approaches. It can also eliminate a significant amount of manpower by reducing part count and leveraging model-based design and analysis techniques. Information will be shared about performance enhancements and design efficiencies we experienced for certain categories of engine parts.
    Keywords: Spacecraft Propulsion and Power
    Type: M14-3851 , Joint Army NASA Navy Air Force (JANNAF) Liquid Propulsion Subcommittee and Advanced Materials Panel Additive Manufacturing for Propulsion Applications Technical Interchange Meeting; Sep 03, 2014 - Sep 05, 2014; Huntsville, AL; United States
    Format: application/pdf
    Location Call Number Expected Availability
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    NASA TECHNICAL REPORTS
  • 3
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    Small Solar Electric Propulsion Spacecraft Concept for Near Earth Object and Inner Solar System Missions (2011)
    In:  Other Sources
    Details
    Publication Date: 2019-07-13
    Description: Near Earth Objects (NEOs) and other primitive bodies are exciting targets for exploration. Not only do they provide clues to the early formation of the universe, but they also are potential resources for manned exploration as well as provide information about potential Earth hazards. As a step toward exploration outside Earth's sphere of influence, NASA is considering manned exploration to Near Earth Asteroids (NEAs), however hazard characterization of a target is important before embarking on such an undertaking. A small Solar Electric Propulsion (SEP) spacecraft would be ideally suited for this type of mission due to the high delta-V requirements, variety of potential targets and locations, and the solar energy available in the inner solar system.Spacecraft and mission trades have been performed to develop a robust spacecraft design that utilizes low cost, off-the-shelf components that could accommodate a suite of different scientific payloads for NEO characterization. Mission concepts such as multiple spacecraft each rendezvousing with different NEOs, single spacecraft rendezvousing with separate NEOs, NEO landers, as well as other inner solar system applications (Mars telecom orbiter) have been evaluated. Secondary launch opportunities using the Expendable Secondary Payload Adapter (ESPA) Grande launch adapter with unconstrained launch dates have also been examined.
    Keywords: Spacecraft Propulsion and Power
    Type: IAA Low-Cost Planetary Missions Conference; Jun 21, 2011; Laurel, MD; United States
    Format: text
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    NASA TECHNICAL REPORTS
  • 4
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    High Specific-Impulse Electrospray Explorer for Deep-Space (HiSPEED): Stage-Based Electrospray Propulsion System for CubeSats (2018)
    In:  CASI
    Details
    Publication Date: 2019-08-14
    Description: The objective of the High Specific-impulse Electrospray Explorer for Deep-space (HiSPEED) project is to develop an efficient propulsion system to enable deep-space exploration with small satellites. The ion electrospray propulsion system developed at Massachusetts Institute of Technology's (MIT) Space Propulsion Laboratory is one of the first systems to offer compact and efficient propulsion that is compatible with the CubeSat form factor. However, existing thruster heads have lifetimes less than the required firing time for a deep-space mission. Therefore, a stage-based approach is considered where burnt out thruster heads are ejected and replaced, thereby extending the overall lifetime of the propulsion system.
    Keywords: Spacecraft Propulsion and Power
    Type: NASA FS-2018-03-09-ARC , ARC-E-DAA-TN55964
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 5
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    Human Missions to Mars Orbit, Phobos, and Mars Surface Using 100-kWe-Class Solar Electric Propulsion (2014)
    In:  Other Sources
    Details
    Publication Date: 2019-07-13
    Description: No abstract available
    Keywords: Spacecraft Propulsion and Power
    Type: AIAA SPACE 2014; Aug 04, 2014 - Aug 07, 2014; San Diego, CA; United States
    Format: text
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    NASA TECHNICAL REPORTS
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