CFD.
COMPUTATIONAL FLUID DYNAMICS:
a tutorial
on WS methods for CFD
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CTM.
CONCEPTS, TERMINOLOGY, METHODOLOGY:
solutions,
orthogonality, completeness, weak and variational forms
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CD.
CONVECTION-DIFFUSION:
n=1 FE for steady/unsteady convective transport, accuracy, convergence
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TAC.
THEORY, ACCURACY, CONVERGENCE:
a
tutorial
on available GWSh theory
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PNS.
PARABOLIC NAVIER-STOKES:
aerodynamics, 2,3-D
steady space marching laminar/turbulent NS algorithms
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INS.
INCOMPRESSIBLE NAVIER-STOKES:
continuity preservation,
mathematical issues for INS
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SVNS.
STREAMFUNCTION-VORTICITY INS:
vector field theory applied to INS,
accuracy, convergence, stability
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PPNS.
PRESSURE PROJECTION INS:
approximate satisfaction of
DM for INS, accuracy, convergence, stability
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PPNS.
PRESSURE PROJECTION INS II:
LISI laser processing, ALE algorithm, fluid-structure interaction, melting/solidification (graphics, no lecture)
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FVNS.
FINITE VOLUME VARIATIONS ON PPNS:
overview of
available FV approximations for PPNS
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FSNS.
FREE-SURFACE HYDRODYNAMICS:
hydrodynamics,
tidal free-surface flow
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CST.
COMPUTATIONAL SPECTRAL THEORY:
spectral
analysis theory predictions for CFD algorithms
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SU.
SUMMARY:
course summary
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