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FUN3D Manual: 13.5 (2019)

Park, Michael A. ; Lee-Rausch, Elizabeth M. ; Jones, William T. ; [et al.]

In: CASI

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Publication Date: 2019-05-24

Description: This manual describes the installation and execution of FUN3D (Fully-UNstructured three-dimensional CFD (Computational Fluid Dynamics) code) version 13.5, including optional dependent packages. FUN3D is a suite of computational fluid dynamics simulation and design tools that uses mixed-element unstructured grids in a large number of formats, including structured multiblock and overset grid systems. A discretely-exact adjoint solver enables efficient gradient-based design and grid adaptation to reduce estimated discretization error. FUN3D is available with and without a reacting, real-gas capability. This generic gas option is available only for those persons that qualify for its beta release status.

Keywords: Fluid Mechanics and Thermodynamics

Type: NASA/TM-2019-220271 , L-21013 , NF1676L-32825

Format: application/pdf

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Emerging CFD Capabilities and Outlook: A NASA Langley Perspective (2004)

Pao, S. Paul ; Biedron, Robert T. ; Thomas, James L.

In: CASI

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Publication Date: 2018-06-11

Description: COMSAC goals include increasing the acceptance of CFD as a viable tool for S&C predictions, as well as to focus CFD development and improvement towards the needs of the S&C community. We view this as a symbiotic relationship, with increasing improvement of CFD promoting increasing acceptance by the S&C community, and increasing acceptance spurring further improvements. In this presentation we want to provide an overview for the non CFD expert of current CFD strengths and weaknesses, as well as to highlight a few emerging capabilities that we feel will lead toward increased usefulness in S&C applications.

Keywords: Fluid Mechanics and Thermodynamics

Type: COMSAC: Computational Methods for Stability and Control; 48-68; NASA/CP-2004-213028/PT1

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Efficiency and Accuracy of Time-Accurate Turbulent Navier-Stokes Computations (1995)

Parlette, Edward B. ; Sanetrik, Mark D. ; Biedron, Robert T. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The accuracy and efficiency of two types of subiterations in both explicit and implicit Navier-Stokes codes are explored for unsteady laminar circular-cylinder flow and unsteady turbulent flow over an 18-percent-thick circular-arc (biconvex) airfoil. Grid and time-step studies are used to assess the numerical accuracy of the methods. Nonsubiterative time-stepping schemes and schemes with physical time subiterations are subject to time-step limitations in practice that are removed by pseudo time sub-iterations. Computations for the circular-arc airfoil indicate that a one-equation turbulence model predicts the unsteady separated flow better than an algebraic turbulence model; also, the hysteresis with Mach number of the self-excited unsteadiness due to shock and boundary-layer separation is well predicted.

Keywords: Fluid Mechanics and Thermodynamics

Type: AIAA Paper 95-1835 , 13th AIAA Applied Aerodynamics Conference; Jun 19, 1995 - Jun 22, 1995; San Diego, CA; United States

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Computation of UH-60A Airloads Using CFD/CSD Coupling on Unstructured Meshes (2011)

Lee-Rausch, Elizabeth M. ; Biedron, Robert T.

In: CASI

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Publication Date: 2019-07-13

Description: An unsteady Reynolds-averaged Navier-Stokes solver for unstructured grids is used to compute the rotor airloads on the UH-60A helicopter at high-speed and high thrust conditions. The flow solver is coupled to a rotorcraft comprehensive code in order to account for trim and aeroelastic deflections. Simulations are performed both with and without the fuselage, and the effects of grid resolution, temporal resolution and turbulence model are examined. Computed airloads are compared to flight data.

Keywords: Fluid Mechanics and Thermodynamics

Type: NF1676L-11439 , Paper 182 , American Helicopter Society 67th Annual Forum and Technology Display; May 03, 2011 - May 05, 2011; Virginia Beach, VA; United States

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Navier-Stokes Computations of Longitudinal Forces and Moments for a Blended Wing Body (2005)

Vicroy, Dan D. ; Park, Michael A. ; Biedron, Robert T. ; [et al.]

In: CASI

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Publication Date: 2019-07-11

Description: The object of this paper is to investigate the feasibility of applying CFD methods to aerodynamic analyses for aircraft stability and control. The integrated aerodynamic parameters used in stability and control, however, are not necessarily those extensively validated in the state of the art CFD technology. Hence, an exploratory study of such applications and the comparison of the solutions to available experimental data will help to assess the validity of the current computation methods. In addition, this study will also examine issues related to wind tunnel measurements such as measurement uncertainty and support interference effects. Several sets of experimental data from the NASA Langley 14x22-Foot Subsonic Tunnel and the National Transonic Facility are presented. Two Navier-Stokes flow solvers, one using structured meshes and the other unstructured meshes, were used to compute longitudinal static stability derivatives for an advanced Blended Wing Body configuration over a wide range of angles of attack. The computations were performed for two different Reynolds numbers and the resulting forces and moments are compared with the above mentioned wind tunnel data.

Keywords: Fluid Mechanics and Thermodynamics

Type: AIAA Paper 2005-0045

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Computations of Wall Distances Based on Differential Equations (2004)

Rumsey, Chris L. ; Spalart, Philippe R. ; Tucker, Paul G. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The use of differential equations such as Eikonal, Hamilton-Jacobi and Poisson for the economical calculation of the nearest wall distance d, which is needed by some turbulence models, is explored. Modifications that could palliate some turbulence-modeling anomalies are also discussed. Economy is of especial value for deforming/adaptive grid problems. For these, ideally, d is repeatedly computed. It is shown that the Eikonal and Hamilton-Jacobi equations can be easy to implement when written in implicit (or iterated) advection and advection-diffusion equation analogous forms, respectively. These, like the Poisson Laplacian term, are commonly occurring in CFD solvers, allowing the re-use of efficient algorithms and code components. The use of the NASA CFL3D CFD program to solve the implicit Eikonal and Hamilton-Jacobi equations is explored. The re-formulated d equations are easy to implement, and are found to have robust convergence. For accurate Eikonal solutions, upwind metric differences are required. The Poisson approach is also found effective, and easiest to implement. Modified distances are not found to affect global outputs such as lift and drag significantly, at least in common situations such as airfoil flows.

Keywords: Fluid Mechanics and Thermodynamics

Type: AIAA Paper 2004-2232 , 34th AIAA Fluid Dynamics Conference and Exhibit; Jun 28, 2004 - Jul 01, 2004; Portland, OR; United States

Format: application/pdf

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Control of Inflow Distortion in a Scarf Inlet (2002)

Clark, Lorenzo R. ; Biedron, Robert T. ; Gerhold, Carl H.

In: CASI

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Publication Date: 2019-07-13

Description: The scarf inlet has the potential to reduce aircraft inlet noise radiation to the ground by reflecting it into the space above the engine. Without forward motion of the engine, the non-symmetry of the inlet causes inflow distortion which generates noise that is greater than the noise reduction of the scarf. However, acoustic evaluations of aircraft engines are often done on static test stands. A method to reduce inflow distortion by boundary layer suction is proposed and evaluated using a model of a high bypass ratio engine located in an anechoic chamber. The design goal of the flow control system is to make the inflow to the inlet circumferentially uniform and to eliminate reversed flow. This minimizes the inflow distortion and allows for acoustic evaluation of the scarf inlet on a static test stand. The inlet boundary layer suction effectiveness is evaluated both by aerodynamic and by acoustic measurements. Although the design goal is not met, the control system is found to have a beneficial effect on the engine operation, reducing blade stall and speed variation. This is quantified by two acoustic benefits, reduction both of the variability of tone noise and of the low frequency wideband noise due to the inflow distortion. It is felt that a compromise in the manufacture of the control hardware contributes to the inability of the control system to perform as expected from the analysis. The control system with sufficient authority is felt to have the potential to permit reliable acoustic testing in a static configuration of engines with non-symmetric inlets. Because the control system can improve operation of the engine, it may also have the potential to reduce noise and vibration and enhance engine longevity during low speed ground operations in the terminal area.

Keywords: Fluid Mechanics and Thermodynamics

Type: AIAA Paper 2002-2432 , 8th AIAA/CESA Aeroacoustics Conference; Jun 16, 2002 - Jun 18, 2002; Breckenridge, CO; United States

Format: application/pdf

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Simulation of Unsteady Flows Using an Unstructured Navier-Stokes Solver on Moving and Stationary Grids (2005)

Vatsa, Veer N. ; Atkins, Harold L. ; Biedron, Robert T.

In: CASI

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Publication Date: 2019-07-13

Description: We apply an unsteady Reynolds-averaged Navier-Stokes (URANS) solver for unstructured grids to unsteady flows on moving and stationary grids. Example problems considered are relevant to active flow control and stability and control. Computational results are presented using the Spalart-Allmaras turbulence model and are compared to experimental data. The effect of grid and time-step refinement are examined.

Keywords: Fluid Mechanics and Thermodynamics

Type: AIAA Paper 2005-5093 , 17th AIAA Computational Fluid Dynamics Conference; Jun 06, 2005 - Jun 09, 2005; Toronto, Ontario; Canada

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Navier-Stokes Computations of Longitudinal Forces and Moments for a Blended Wing Body (2004)

Biedron, Robert T. ; Pao, S. Paul ; Park, Michael A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The object of this paper is to investigate the feasibility of applying CFD methods to aerodynamic analyses for aircraft stability and control. The integrated aerodynamic parameters used in stability and control, however, are not necessarily those extensively validated in the state of the art CFD technology. Hence, an exploratory study of such applications and the comparison of the solutions to available experimental data will help to assess the validity of the current computation methods. In addition, this study will also examine issues related to wind tunnel measurements such as measurement uncertainty and support interference effects. Several sets of experimental data from the NASA Langley 14x22-Foot Subsonic Tunnel and the National Transonic Facility are presented. Two Navier-Stokes flow solvers, one using structured meshes and the other unstructured meshes, were used to compute longitudinal static stability derivatives for an advanced Blended Wing Body configuration over a wide range of angles of attack. The computations were performed for two different Reynolds numbers and the resulting forces and moments are compared with the above mentioned wind tunnel data.

Keywords: Fluid Mechanics and Thermodynamics

Type: AIAA Paper 2005-0045 , 43rd AIAA Aerospace Sciences Meeting and Exhibit; Jan 10, 2005 - Jan 13, 2005; Reno, NV; United States

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Recent Enhancements To The FUN3D Flow Solver For Moving-Mesh Applications (2009)

Thomas, James L. ; Biedron, Robert T,

In: CASI

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Publication Date: 2019-07-13

Description: An unsteady Reynolds-averaged Navier-Stokes solver for unstructured grids has been extended to handle general mesh movement involving rigid, deforming, and overset meshes. Mesh deformation is achieved through analogy to elastic media by solving the linear elasticity equations. A general method for specifying the motion of moving bodies within the mesh has been implemented that allows for inherited motion through parent-child relationships, enabling simulations involving multiple moving bodies. Several example calculations are shown to illustrate the range of potential applications. For problems in which an isolated body is rotating with a fixed rate, a noninertial reference-frame formulation is available. An example calculation for a tilt-wing rotor is used to demonstrate that the time-dependent moving grid and noninertial formulations produce the same results in the limit of zero time-step size.

Keywords: Fluid Mechanics and Thermodynamics

Type: LF99-7107 , 47th AIAA Aerospace Sciences Meeting and Exhibit; Jan 05, 2009 - Jan 08, 2009; Orlando, FL; United States

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