Course focuses on computational approaches to solve the Navier-Stokes equations. Course assumes knowledge of numerical methods and therefore directly attacks the obstacles to applying these methods to the Navier-Stokes equations. Issues concerning implementation of finite difference methods (FDM), finite volume methods (FVM) and finite element methods (FEM) will be discussed. These issues include: the discrete formulation, nonlinear equation iterator (steady)/marcher (time-accurate), linear equation formation, boundary condition prescription, and linear equation solution.
| Spring | Summer | Fall | ||
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| (Session 1) | (Session 2) | |||
| 2023 |
Computational Fluid Dynamics (3c)
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Computational Fluid Dynamics (3c)
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| 2022 |
Computational Fluid Dynamics (3c)
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Computational Fluid Dynamics (3c)
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| 2021 |
Computational Fluid Dynamics (3c)
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Computational Fluid Dynamics (3c)
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| 2020 |
Computational Fluid Dynamics (3c)
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Computational Fluid Dynamics (3c)
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| 2019 |
Computational Fluid Dynamics (3c)
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Computational Fluid Dynamics (3c)
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| 2018 | ||||
| 2017 |
Computational Fluid Dynamics (3c)
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Computational Fluid Dynamics (3c)
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| 2016 | ||||
| 2015 |
Computational Fluid Dynamics (3c)
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Computational Fluid Dynamics (3c)
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| 2014 | ||||
| 2013 |
Computational Fluid Dynamics (3c)
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| 2012 | ||||
| 2011 |
Computational Fluid Dynamics (3c)
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| 2010 | ||||
| 2009 |
Computational Fluid Dynamics (3c)
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| 2008 |
Computational Fluid Dynamics (3c)
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| 2007 | ||||
| 2006 |
Computational Fluid Dynamics (3c)
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| 2005 | ||||
| 2004 |
Computational Fluid Dynamics (3c)
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| 2003 | ||||
| 2002 | ||||
| 2001 | ||||
| 2000 | ||||
| 1999 | ||||
| 1998 | ||||