38th Aerospace Sciences Meeting and Exhibit 2000
DOI: 10.2514/6.2000-271
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An investigation of parallel implicit solution algorithms for incompressible flows on multielement unstructured topologies

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Cited by 107 publications
(55 citation statements)
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“…The 2nd-order spatially accurate Roe flux [12] is utilized. A directional derivative viscous method is used to calculate the viscous flux [13]. Characteristic variable boundary conditions [14] with specified free stream wind velocities are applied at the far field boundaries in the computational domain.…”
Section: Computational Fluid Dynamics Code: Umentioning
confidence: 99%
“…The 2nd-order spatially accurate Roe flux [12] is utilized. A directional derivative viscous method is used to calculate the viscous flux [13]. Characteristic variable boundary conditions [14] with specified free stream wind velocities are applied at the far field boundaries in the computational domain.…”
Section: Computational Fluid Dynamics Code: Umentioning
confidence: 99%
“…For the mixed element meshes, the calculation of the diffusive fluxes needs to be compatible with the edge-based data structure, where solutions and their gradients are stored at the two vertices of an edge. One way to evaluate the gradients on the face of a control volume is called directional derivative method [19]. The second approach is called a normal directive method, which imposes positivity along the normal direction of a median dual face.…”
Section: Diffusive Flux Evaluationmentioning
confidence: 99%
“…The solution of the sparse system of equations is obtained by a relaxation scheme in which Δ q n+1,m is obtained through a sequence of iterations, {Δ q n+1,m } i , which converge to Δ q n+1,m . There are several variations of classic relaxation procedures that have been used in the past for solving this linear system of equations [18][19][20]. In this study, a symmetric implicit Gauss-Seidel procedure [19] is used.…”
Section: Gauss-seidel Relaxationmentioning
confidence: 99%
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“…The gradients used in the linear reconstruction can influence the numerical dissipation and can dissipate vortices present in the flow field. Two of the most commonly used methods are the weighted averaging together with Gauss theorem [8]and least square approach [9,10,11].…”
Section: Gradient Estimationmentioning
confidence: 99%