Abstract: |
COURSE OUTLINE
Illustration of the CFD approach; CFD as an engineering analysis tool.
Derivation of flow governing equations; turbulence modeling; modeling approaches for multiphase flow; initial and boundary conditions; wellposedness.
Discretization of the governing equations using finite difference/volume/element methods; concepts of consistency, stability and convergence; template for the discretization of a generic unsteady transport equation.
Solution of discretized equations; direct methods; classical iterative methods; advanced methods for structured matrices; conjugate gradient techniques; multigrid methods.
Solution of coupled equations: methods for compressible flows; evaluation of pressure in incompressible flows; pressure'velocity coupling algorithms.
Structured and unstructured grids; structured grid generation; unstructured grid generation.
Benchmarking; calibration.
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