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Aerospace Engineering Systems and the Advanced Design Technologies Testbed Experience (1999)

Melton, John E. ; VanDalsem, William R. ; Torres, Francisco J. ; [et al.]

In: CASI

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Publication Date: 2004-12-03

Description: Continuous improvement of aerospace product development processes is a driving requirement across much of the aerospace community. As up to 90% of the cost of an aerospace product is committed during the first 10% of the development cycle, there is a strong emphasis on capturing, creating, and communicating better information (both requirements and performance) early in the product development process. The community has responded by pursuing the development of computer-based systems designed to enhance the decision-making capabilities of product development individuals and teams. Recently, the historical foci on sharing the geometrical representation and on configuration management are being augmented: 1) Physics-based analysis tools for filling the design space database; 2) Distributed computational resources to reduce response time and cost; 3) Web-based technologies to relieve machine-dependence; and 4) Artificial intelligence technologies to accelerate processes and reduce process variability. The Advanced Design Technologies Testbed (ADTT) activity at NASA Ames Research Center was initiated to study the strengths and weaknesses of the technologies supporting each of these trends, as well as the overall impact of the combination of these trends on a product development event. Lessons learned and recommendations for future activities are reported.

Keywords: Engineering (General)

Type: HPCCP/CAS Workshop Proceedings 1998; 197-204; NASA/CP-1999-208757

Format: text

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The 3D Euler solutions using automated Cartesian grid generation (1993)

Melton, John E. ; Berger, Marsha J. ; Enomoto, Francis Y.

In: CASI

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Publication Date: 2013-08-31

Description: Viewgraphs on 3-dimensional Euler solutions using automated Cartesian grid generation are presented. Topics covered include: computational fluid dynamics (CFD) and the design cycle; Cartesian grid strategy; structured body fit; grid generation; prolate spheroid; and ONERA M6 wing.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: NASA. Langley Research Center, Unstructured Grid Generation Techniques and Software; p 251-260

Format: application/pdf

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Flow Field Characterization of an Angled Supersonic Jet Near a Bluff Body (2011)

Wernet, Mark P. ; Melton, John E. ; Childs, Robert ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: An experiment was performed to acquire data from a hot supersonic jet in cross flow for the purpose of validating computational fluid dynamics (CFD) turbulence modeling relevant to the Orion Launch Abort System. Hot jet conditions were at the highest temperature and pressure that could be acquired in the test facility. The nozzle pressure ratio was 28.5, and the nozzle temperature ratio was 3. These conditions are different from those of the flight vehicle, but sufficiently high to model the observed turbulence features. Stereo Particle Image Velocimetry (SPIV) data and capsule pressure data are presented. Features of the flow field are presented and discussed

Keywords: Aerodynamics

Type: NASA/TM-2011-216958 , AIAA Paper 2010-4829 , E-17563 , 28th AIAA Applied Aerodynamics Conference; Jun 28, 2010 - Jul 01, 2010; Chicago, IL; United States

Format: application/pdf

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UAM Research at NASA (2019)

Melton, John E.

In: CASI

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Publication Date: 2019-08-08

Description: Presentation for Oshkosh 2019 describing UAM research at NASA

Keywords: Aeronautics (General); Engineering (General)

Type: ARC-E-DAA-TN70709 , EAA Airventure 2019; Jul 22, 2019 - Jul 28, 2019; Oshkosh, WI; United States

Format: application/pdf

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Estimating Flow-Through Balance Momentum Tares with CFD (2016)

Melton, John E. ; Flamm, Jeffrey D. ; James, Kevin D. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This paper describes the process used for estimating flow-through balance momentum tares. The interaction of jet engine exhausts on the BOEINGERA Hybrid Wing Body (HWB) was simulated in the NFAC 40x80 wind tunnel at NASA Ames using a pair of turbine powered simulators (TPS). High-pressure air was passed through a flow-through balance and manifold before being delivered to the TPS units. The force and moment tares that result from the internal shear and pressure distribution were estimated using CFD. Validation of the CFD simulations for these complex internal flows is a challenge, given limited experimental data due to the complications of the internal geometry. Two CFD validation efforts are documented, and comparisons with experimental data from the final model installation are provided.

Keywords: Aircraft Design, Testing and Performance; Fluid Mechanics and Thermodynamics

Type: ARC-E-DAA-TN28731 , AIAA Science and Technology Forum and Exposition (SciTech 2016); Jan 04, 2016 - Jan 08, 2016; San Diego, CA; United States

Format: application/pdf

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NASA ERA Integrated CFD for Wind Tunnel Testing of Hybrid Wing-Body Configuration (2016)

Stremel, Paul M. ; James, Kevin D. ; Schuh, Michael ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The NASA Environmentally Responsible Aviation (ERA) Project explored enabling technologies to reduce impact of aviation on the environment. One project research challenge area was the study of advanced airframe and engine integration concepts to reduce community noise and fuel burn. To address this challenge, complex wind tunnel experiments at both the NASA Langley Research Center's (LaRC) 14'x22' and the Ames Research Center's 40'x80' low-speed wind tunnel facilities were conducted on a BOEING Hybrid Wing Body (HWB) configuration. These wind tunnel tests entailed various entries to evaluate the propulsion-airframe interference effects, including aerodynamic performance and aeroacoustics. In order to assist these tests in producing high quality data with minimal hardware interference, extensive Computational Fluid Dynamic (CFD) simulations were performed for everything from sting design and placement for both the wing body and powered ejector nacelle systems to the placement of aeroacoustic arrays to minimize its impact on vehicle aerodynamics. This paper presents a high-level summary of the CFD simulations that NASA performed in support of the model integration hardware design as well as the development of some CFD simulation guidelines based on post-test aerodynamic data. In addition, the paper includes details on how multiple CFD codes (OVERFLOW, STAR-CCM+, USM3D, and FUN3D) were efficiently used to provide timely insight into the wind tunnel experimental setup and execution.

Keywords: Aircraft Design, Testing and Performance; Numerical Analysis; Fluid Mechanics and Thermodynamics

Type: ARC-E-DAA-TN28326 , AIAA Science and Technology (SciTech) Forum and Exposition 2016; Jan 04, 2016 - Jan 08, 2016; San Diego, CA; United States

Format: application/pdf

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