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Holgate, Joshua William, author.
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Industrial Computational Fluid Dynamics / Holgate, Joshua William, author.
by
Dusane, Ajay, author.
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fluid dynamics of moon jellyfish. The thesis uses a linear elastic material to describe the behavior of
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Begum, Assma, author.
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the surface of the cylinder were studied using Computational Fluid Dynamics (CFD). The flow
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Barr, Stephen M., author. (orcid)0000-0002-0450-165X
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for four inflow conditions ranging from cut-in to rated wind speeds. The computational fluid dynamics
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Haynes, Christopher A., author.
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pressure loading is supported with the model, but fully coupled fluid-structure interaction is not
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Karkisaval Ganapati, Abhijith, author.
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including fluid-structure interaction is developed for the sensor geometry and the dynamics of the sensor
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Rodriguez, Steven N., author.
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numerically as a coupled fluid-structure interaction (aeroelastic) phenomenon. The near-wake aerodynamics are
by
Jalalisendi, Mohammad, author.
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framework which advances fundamental research in experimental fluid mechanics, structural dynamics, and
by
Sarkar, Snigdha, author.
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A commercial Computational Fluid Dynamics (CFD) solver, ANSYS Fluent 18.2, is used to model
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DiGregorio, Nicholas J., author. (orcid)0000-0002-3264-9125
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range of 0.3 up to 16 using the computational fluid dynamics (CFD) software, VULCAN. The boundary
by
Farajidizaji, Farzad, author.
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industrial processes. In classical computational fluid dynamics (CFD), there are three major methods which
by
Heidari Pahlavian, Soroush, author.
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computational fluid dynamics simulation. A relatively small neural tissue motion (~150 to 300 microm) was found
by
Li, Qiaochu, author.
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discovered a general approach to manipulate the network dynamics by controlling the crosslink structural
by
Myers, Taylor, author.
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these Lagrangian particles is in turn simulated in FireFOAM (an open source computational fluid dynamics
by
Vardaman, Nathan James, author.
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In this study, a computational fluid dynamics (CFD) model is created to mimic the mixing of the
by
Dyson, Gary, author.
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Computational Fluid Dynamics is presented which, when compared with time averaged pressure readings from the
by
Eyre, C. J., author.
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Steam Turbine design capability. In particular it was thought that emerging Computational Fluid Dynamics
by
Jackson, Brandon A., author. (orcid)0000-0002-4148-6380
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The first study included in this dissertation presents a computational fluid dynamics model of the
by
Okosun, Tyamo, author.
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The goal of this research is to utilize computational fluid dynamics (CFD) modeling to provide a
by
Chowdhury, Arifur Rahim, author.
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condition. For modeling of the system, a commercial computational fluid dynamics simulation tool, ANSYS
by
Bakhshi, Shashwat, author.
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15.0, a commercial Computational Fluid Dynamics (CFD) software to simulate the whirling motion of the
by
Erukulla, Gautami D., author.
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simulations are performed, using open source Computational Fluid Dynamics (CFD) solver OpenFOAM. The
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