Multigrid computation of high-speed turbulent flows in ducts
The existence of shock/turbulent-boundary-layer interaction leads to very complicated flow phenomena and poses a challenge for numerical simulation. In this study, three different turbulence models, the Baldwin-Lomax (B-L) model, the Johnson-King (J-K) model and a two-layer k-e/k-1 model, are incorp...
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sg-ntu-dr.10356-199332023-03-11T16:54:57Z Multigrid computation of high-speed turbulent flows in ducts Ding, Zhongman Zhao, Yong School of Mechanical and Production Engineering DRNTU::Engineering::Mechanical engineering The existence of shock/turbulent-boundary-layer interaction leads to very complicated flow phenomena and poses a challenge for numerical simulation. In this study, three different turbulence models, the Baldwin-Lomax (B-L) model, the Johnson-King (J-K) model and a two-layer k-e/k-1 model, are incorporated and modified to model internal compressible flows with multiple walls. A more advanced Reynolds stress model, the so-called algebraic stress model (ASM) which was originally developed for incompressible flow simulations, is also discussed and formulations for two-dimensional (2D) and three-dimensional (3D) compressible flows are derived in details for future implementation to the present solver. The numerical method used is based on an explicit five-stage Runge-Kutta time-stepping scheme. Multigrid technique and implicit residual smoothing strategy are employed to ensure a high computing efficiency and convergent rate. Different grids of various refinement are tested in the computation and the grids used have been proved to be sufficiently refined. Master of Engineering (MPE) 2009-12-14T07:51:58Z 2009-12-14T07:51:58Z 1997 1997 Thesis http://hdl.handle.net/10356/19933 en Nanyang Technological University 109 p. application/pdf |
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DRNTU::Engineering::Mechanical engineering Ding, Zhongman Multigrid computation of high-speed turbulent flows in ducts |
| description |
The existence of shock/turbulent-boundary-layer interaction leads to very complicated flow phenomena and poses a challenge for numerical simulation. In this study, three different turbulence models, the Baldwin-Lomax (B-L) model, the Johnson-King (J-K) model and a two-layer k-e/k-1 model, are incorporated and modified to model internal compressible flows with multiple walls. A more advanced Reynolds stress model, the so-called algebraic stress model (ASM) which was originally developed for incompressible flow simulations, is also discussed and formulations for two-dimensional (2D) and three-dimensional (3D) compressible flows are derived in details for future implementation to the present solver. The numerical method used is based on an explicit five-stage Runge-Kutta time-stepping scheme. Multigrid technique and implicit residual smoothing strategy are employed to ensure a high computing efficiency and convergent rate. Different grids of various refinement are tested in the computation and the grids used have been proved to be sufficiently refined. |
| author2 |
Zhao, Yong |
| author_facet |
Zhao, Yong Ding, Zhongman |
| format |
Theses and Dissertations |
| author |
Ding, Zhongman |
| author_sort |
Ding, Zhongman |
| title |
Multigrid computation of high-speed turbulent flows in ducts |
| title_short |
Multigrid computation of high-speed turbulent flows in ducts |
| title_full |
Multigrid computation of high-speed turbulent flows in ducts |
| title_fullStr |
Multigrid computation of high-speed turbulent flows in ducts |
| title_full_unstemmed |
Multigrid computation of high-speed turbulent flows in ducts |
| title_sort |
multigrid computation of high-speed turbulent flows in ducts |
| publishDate |
2009 |
| url |
http://hdl.handle.net/10356/19933 |
| _version_ |
1761782010404143104 |