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  • 1
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    DSMC Grid Methodologies for Computing Low-Density, Hypersonic Flows About Reusable Launch Vehicles (1996)
    In:  CASI
    Details
    Publication Date: 2018-06-05
    Description: Two different grid methodologies are studied for application to DSMC simulations about reusable launch vehicles. One method uses an unstructured, tetrahedral grid while the other uses a structured, variable-resolution Cartesian grid. The relative merits of each method are discussed in terms of accuracy, computational efficiency, and overall ease of use. Both methods are applied to the computation of a low-density, hypersonic flow about a winged single-stage-to-orbit reusable launch vehicle concept at conditions corresponding to an altitude of 120 km. Both methods are shown to give comparable results for both surface and flowfield quantities as well as for the overall aerodynamic behavior. For the conditions simulated, the flowfield about the vehicle is very rarefied but the DSMC simulations show significant departure from free-molecular predictions for the surface friction and heat transfer as well as certain aerodynamic quantities.
    Keywords: Launch Vehicles and Launch Operations
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 2
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    Rarefaction effects on Galileo probe aerodynamics (1996)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: Solutions of aerodynamic characteristics are presented for the Galileo Probe entering Jupiter's hydrogen-helium atmosphere at a nominal relative velocity of 47.4 km/s. Focus is on predicting the aerodynamic drag coefficient during the transitional flow regime using the direct simulation Monte Carlo (DSMC) method. Accuracy of the probe's drag coefficient directly impacts the inferred atmospheric properties that are being extracted from the deceleration measurements made by onboard accelerometers as part of the Atmospheric Structure Experiment. The range of rarefaction considered in the present study extends from the free molecular limit to continuum conditions. Comparisons made with previous calculations and experimental measurements show the present results for drag to merge well with Navier-Stokes and experimental results for the least rarefied conditions considered.
    Keywords: Aerodynamics
    Type: NASA-TM-111620 , NAS 1.15:111620
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 3
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    Applied Aeroscience and CFD Branch Overview (2014)
    In:  CASI
    Details
    Publication Date: 2019-07-12
    Description: The principal mission of NASA Johnson Space Center is Human Spaceflight. In support of the mission the Applied Aeroscience and CFD Branch has several technical competencies that include aerodynamic characterization, aerothermodynamic heating, rarefied gas dynamics, and decelerator (parachute) systems.
    Keywords: General
    Type: JSC-CN-31050
    Format: application/pdf
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  • 4
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    DSMC Simulations in Support of the Columbia Shuttle Orbiter Accident Investigation (2004)
    In:  Other Sources
    Details
    Publication Date: 2019-07-18
    Description: Three-dimensional Direct Simulation Monte Carlo simulations of Columbia Shuttle Orbiter flight STS-107 are presented. The aim of this work is to determine the aerodynamic and heating behavior of the Orbiter during aerobraking maneuvers and to provide piecewise integration of key scenario events to assess the plausibility of the candidate failure scenarios. The flight of the Orbiter is examined at two altitudes: 350-kft and 300-kft. The flowfield around the Orbiter and the heat transfer to it are calculated for the undamaged configuration. The flow inside the wing for an assumed damage to the leading edge in the form of a 10- inch hole is studied.
    Keywords: Space Transportation and Safety
    Type: 37th AIAA Thermophysics Conference; 28 Jun. 1 Jul. 2004; Portland, OR; United States
    Format: text
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  • 5
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    Predicting Flows of Rarefied Gases (2005)
    In:  CASI
    Details
    Publication Date: 2019-07-12
    Description: DSMC Analysis Code (DAC) is a flexible, highly automated, easy-to-use computer program for predicting flows of rarefied gases -- especially flows of upper-atmospheric, propulsion, and vented gases impinging on spacecraft surfaces. DAC implements the direct simulation Monte Carlo (DSMC) method, which is widely recognized as standard for simulating flows at densities so low that the continuum-based equations of computational fluid dynamics are invalid. DAC enables users to model complex surface shapes and boundary conditions quickly and easily. The discretization of a flow field into computational grids is automated, thereby relieving the user of a traditionally time-consuming task while ensuring (1) appropriate refinement of grids throughout the computational domain, (2) determination of optimal settings for temporal discretization and other simulation parameters, and (3) satisfaction of the fundamental constraints of the method. In so doing, DAC ensures an accurate and efficient simulation. In addition, DAC can utilize parallel processing to reduce computation time. The domain decomposition needed for parallel processing is completely automated, and the software employs a dynamic load-balancing mechanism to ensure optimal parallel efficiency throughout the simulation.
    Keywords: Computer Programming and Software
    Type: MSC-23445 , NASA Tech Briefs, May 2005; 13
    Format: application/pdf
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  • 6
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    Hypersonic Shock Interactions About a 25 deg/65 deg Sharp Double Cone (2002)
    In:  CASI
    Details
    Publication Date: 2019-07-10
    Description: This paper presents the results of a numerical study of shock interactions resulting from Mach 10 air flow about a sharp double cone. Computations are made with the direct simulation Monte Carlo (DSMC) method by using two different codes: the G2 code of Bird and the DAC (DSMC Analysis Code) code of LeBeau. The flow conditions are the pretest nominal free-stream conditions specified for the ONERA R5Ch low-density wind tunnel. The focus is on the sensitivity of the interactions to grid resolution while providing information concerning the flow structure and surface results for the extent of separation, heating, pressure, and skin friction.
    Keywords: Fluid Mechanics and Thermodynamics
    Type: NASA/TM-2002-211778 , L-18199 , NAS 1.15:211778
    Format: application/pdf
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  • 7
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    Orbiter Aerodynamic Acceleration Flight Measurements in the Rarefied-Flow Transition Regime (1996)
    In:  CASI
    Details
    Publication Date: 2019-07-10
    Description: Acceleration data taken from the Orbital Acceleration Research Experiment (OARE) during reentry on STS-62 have been analyzed using calibration factors taken on orbit. This is the first Orbiter mission which collected OARE data during the Orbiter reentry phase. The data examined include the flight regime from orbital altitudes down to about 90 km which covers the free-molecule-flow regime and the upper altitude fringes of the rarefied-flow transition into the hypersonic continuum. Ancillary flight data on Orbiter position, orientation, velocity, and rotation rates have been used in models to transform the measured accelerations to the Orbiter center-of-gravity, from which aerodynamic accelerations along the Orbiter body axes have been calculated. Residual offsets introduced in the measurements by unmodeled Orbiter forces are identified and discussed. Direct comparisons are made between the OARE flight data and an independent micro-gravity accelerometer experiment, the High Resolution Accelerometer Package (HiRAP), which also obtained flight data on reentry during the mission down to about 95 km. The resulting OARE aerodynamic acceleration measurements along the Orbiter's body axis, aid the normal to axial acceleration ratio in the free-molecule-flow and transition-flow regimes are presented and compared with numerical simulations from three direct simulation Monte Carlo codes.
    Keywords: Spacecraft Design, Testing and Performance
    Type: AIAA Paper96-2467
    Format: application/pdf
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  • 8
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    NASA Aerosciences Activities to Support Human Space Flight (2011)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: The Lyndon B. Johnson Space Center (JSC) has been a critical element of the United State's human space flight program for over 50 years. It is the home to NASA s Mission Control Center, the astronaut corps, and many major programs and projects including the Space Shuttle Program, International Space Station Program, and the Orion Project. As part of JSC's Engineering Directorate, the Applied Aeroscience and Computational Fluid Dynamics Branch is charted to provide aerosciences support to all human spacecraft designs and missions for all phases of flight, including ascent, exo-atmospheric, and entry. The presentation will review past and current aeroscience applications and how NASA works to apply a balanced philosophy that leverages ground testing, computational modeling and simulation, and flight testing, to develop and validate related products. The speaker will address associated aspects of aerodynamics, aerothermodynamics, rarefied gas dynamics, and decelerator systems, involving both spacecraft vehicle design and analysis, and operational mission support. From these examples some of NASA leading aerosciences challenges will be identified. These challenges will be used to provide foundational motivation for the development of specific advanced modeling and simulation capabilities, and will also be used to highlight how development activities are increasing becoming more aligned with flight projects. NASA s efforts to apply principles of innovation and inclusion towards improving its ability to support the myriad of vehicle design and operational challenges will also be briefly reviewed.
    Keywords: Space Sciences (General)
    Type: JSC-CN-25093 , JAXA Engineering Digital Innovation Symposium; Nov 24, 2011 - Nov 25, 2011; Osaka; Japan
    Format: application/pdf
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  • 9
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    Direct Simulation Monte Carlo Calculations in Support of the Columbia Shuttle Orbiter Accident Investigation (2003)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: The Direct Simulation Monte Carlo method was used to provide 3-D simulations of the early entry phase of the Shuttle Orbiter. Undamaged and damaged scenarios were modeled to provide calibration points for engineering "bridging function" type of analysis. Currently the simulation technology (software and hardware) are mature enough to allow realistic simulations of three dimensional vehicles.
    Keywords: Spacecraft Design, Testing and Performance
    Type: JSC-CN-8122 , Fifth Biennial Tri-Laboratory Engineering Conference; Oct 21, 2003 - Oct 23, 2003; Santa Fe, NM; United States
    Format: application/pdf
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