This is a course on introduction to computational fluid dynamics. This course provides knowledge necessary to model engineering applications consistent with energy and fluid dynamic physical laws. Discretization models include: overview of finite difference, finite element, and finite volume discretization approaches, physical problem classification, discretization techniques, and numerical guidelines. Applications include: incompressible and compressible flows, laminar and turbulence flows, with introduction to computational fluid dynamics turbulence modeling, followed by boundary layer, and parabolized flow simplifications.
Spring | Summer | Fall | ||
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(Session 1) | (Session 2) | |||
2023 |
Intro Computat Fluid Dynamics (3c)
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2022 |
Intro Computat Fluid Dynamics (3c)
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2021 |
Intro Computat Fluid Dynamics (3c)
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Introduction To Computational Fluid Dynamics (3c)
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2020 |
Intro Computat Fluid Dynamics (3c)
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2019 |
Intro Computat Fluid Dynamics (3c)
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2018 |
Intro Computat Fluid Dynamics (3c)
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2017 |
Intro Computat Fluid Dynamics (3c)
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2016 | ||||
2015 | ||||
2014 | ||||
2013 | ||||
2012 | ||||
2011 | ||||
2010 | ||||
2009 | ||||
2008 | ||||
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2004 | ||||
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2002 | ||||
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2000 | ||||
1999 | ||||
1998 |