Daryl L. Bonhaus scite author profile

An implicit, Navier-Stokes solution algorithm is presented for the computation of turbulent flow on unstructured grids. The inviscid fluxes are computed using an upwind algorithm and the solution is advanced in time using a backward-Euler time-stepping scheme. At each time step, the linear system of equations is approximately solved with a point-implicit relaxation scheme. This methodology provides a viable and robust algorithm for computing turbulent flows on unstructured meshes.Results are shown for subsonic flow over a NACA 0012 airfoil and for transonic flow over a RAE 2822 airfoil exhibiting a strong upper-surface shock. In addition, results are shown for 3-element and 4-element airfoil configurations. For the calculations, two one-equation turbulence models are utilized. For the NACA 0012 airfoil, a pressure distribution and force data are compared with other computational results as well as with experiment. Comparisons of computed pressure distributions and velocity profiles with experimental data are shown for the RAE airfoil and for the 3-element configuration. For the 4-element case, comparisons of surface pressure distributions with experiment are made. In general, the agreement between the computations and the experiment is good.

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Implicit/multigrid algorithms for incompressible turbulent flows on unstructured grids

Anderson¹,

Rausch²,

Bonhaus³

1995

106

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SummaryAn implicit code for computing inviscid and viscous incompressible flows on unstructured grids is described. The foundation of the code is a backward Euler time discretization for which the linear system is approximately solved at each time step with either a point implicit method or a preconditioned Generalized Minimal Residual (GMRES) technique. For the GMRES calculations, several techniques are investigated for forming the matrix-vector product. Convergence acceleration is achieved through a multigrid scheme that uses non-nested coarse grids that are generated using a technique described in the present paper. Convergence characteristics are investigated and results are compared with an exact solution for the inviscid flow over a four-element airfoil. Viscous results, which are compared with experimental data, include the turbulent flow over a NACA 4412 airfoil, a three-element airfoil for which Mach number effects are investigated, and three-dimensional flow over a wing with a partial-span flap.

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Airfoil Design on Unstructured Grids for Turbulent Flows

1999

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An aerodynamic design algorithm for turbulent flows using unstructured grids is described. The current approach uses adjoint (costate) variables to obtain derivatives of the cost function. The solution of the adjoint equations is obtained by using an implicit formulation in which the turbulence model is fully coupled with the flow equations when solving for the costate variables. The accuracy of the derivatives is demonstrated by comparison with finite-difference gradients and a few sample computations are shown. Recommendations on directions of further research into the Navier-Stokes design process are made.

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Implicit/Multigrid Algorithms for Incompressible Turbulent Flows on Unstructured Grids

Anderson

Rausch²,

Bonhaus

1996

Journal of Computational Physics

202

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Navier-Stokes computations and experimental comparisons for multielement airfoil configurations

Anderson

Bonhaus

McGhee

et al. 1995

Journal of Aircraft

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Daryl L. Bonhaus

An implicit upwind algorithm for computing turbulent flows on unstructured grids

Implicit/multigrid algorithms for incompressible turbulent flows on unstructured grids

Airfoil Design on Unstructured Grids for Turbulent Flows

Implicit/Multigrid Algorithms for Incompressible Turbulent Flows on Unstructured Grids

Navier-Stokes computations and experimental comparisons for multielement airfoil configurations

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