| タイトル | A fast implicit upwind solution algorithm for three-dimensional unstructured dynamic meshes |
| 本文(外部サイト) | http://hdl.handle.net/2060/19920005832 |
| 著者(英) | Batina, John T. |
| 著者所属(英) | NASA Langley Research Center |
| 発行日 | 1991-12-01 |
| 言語 | eng |
| 内容記述 | A fast implicit upwind algorithm for the solution of the time-dependent Euler equations is presented for aerodynamic analysis involving unstructured dynamic meshes. The spatial discretization of the scheme is based on the upwind approach of Roe, referred to as flux-difference splitting (FDS). The FDS approach is naturally dissipative and captures shock waves and contact discontinuities sharply. The temporal discretization of the scheme involves an implicit time-integration using a two-sweep Gauss-Seidel relaxation procedure. The procedure is computationally efficient for either steady or unsteady flow problems. A detailed description is given of the implicit upwind solution algorithm along with results which assess the capability. The results are presented for the NACA 0012 airfoil and for the Boeing 747 aircraft. The 747 geometry includes the fuselage, wing, horizontal and vertical tails, under-wing pylons, and flow-through engine nacelles. Euler solutions for the 747 aircraft on an unstructured tetrahedral mesh containing approximately 100,000 cells were obtained to engineering accuracy in less than one hour CPU time on a Cray-2 computer. |
| NASA分類 | AERODYNAMICS |
| レポートNO | 92N15050
NASA-TM-104186
NAS 1.15:104186 |
| 権利 | No Copyright |
| URI | https://repository.exst.jaxa.jp/dspace/handle/a-is/129204 |
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