|
|
|
Training | Courses |
CFD Analysis |
ICEM-FLUENT |
Syllabus |
|
 |
Fundamental Training
|
 |
Fluid Mechanics
|
Concept of
continuum, streamline, streakline and pathlines, Buoyancy,
Lagrangian and Eulerian Descriptions, Reynolds transport
theorem, Integral and differential form of conservation
equations, Viscous and inviscid flows, Laminar and turbulent
flows, Euler and Navier Stokes equations.
|
|
Heat Transfer
|
Fundamentals of Conduction, Convection and Radiation,
Velocity and thermal boundary layers, External forced
convection, Internal forced convection, natural convection,
Heat transfer by radiation, Conjugate heat transfer.
|
|
Mathematics
|
Vector
calculus, Vector algebra, Ordinary differential equations
and Partial differential equations with engineering
applications.
|
|
Numerical Methods
|
Overview of
Finite Difference, Finite Volume Methods, Upwind and
downwind schemes, Simple and Simpler PV-Coupling, Higher
order methods, Implicit and explicit methods, Steady and
transient solutions, consistency, convergence, and
stability.
|
|
Turbulence Modeling
|
Theory of
turbulence, Closure problem, Reynolds Averaged N-S equations
(RANS), Eddy viscosity models, Algebraic models, One
equation models, Two equation models, Near wall treatment,
Large Eddy Simulation (LES) and Direct numerical simulation
(DNS).
|
|
Geometric Modeling and CAD Repair
|
File
formats and translators, Fundamentals of CAGD, Concept of
topology, Creation of water tight geometry, Healing the
geometry.
|
|
Structured Grid Generation
|
Linear
interpolations, Transfinite interpolations, Laplace grid
generation, Poisson grid generation, Map and submap,
Sweeping, Surface grid generation, Mono block, multi block,
Hierarchical multi block, Grid clustering and grid
enhancement.
|
|
Unstructured Grid Generation
|
Basic
theory of unstructured grid generation, advancing front,
Delaunay triangulation and various point insertion methods,
Unstructured quad and hex generation, grid based methods,
Concept of medial axis and medial surface, various elements
in unstructured grids, Surface mesh generation, Surface mesh
repair, Volume grid generation, Volume mesh improvement,
mesh smoothing algorithms, grid clustering and quality
checks for volume mesh.
|
|
ICEM-CFD
|
|
|
Geometry import and repair
|
|
|
Geometry creation in ICEM-CFD
|
|
|
ICEM-CFD Tetra Meshing
|
|
Extracting fluid domain and creating body
|
|
|
Controlling mesh through global meshing
parameters
|
|
|
Local meshing parameters on edges and surfaces
|
|
|
Tet/Prism and Hexa-core Meshing
|
|
|
Surface/shell meshing
|
|
|
Concept of patch dependent and independent
meshing
|
|
|
Mesh editing techniques
|
|
|
|
ICEM-CFD Hexa Meshing
|
|
Concept of multiblock grid generation technique
|
|
|
C, H and O topology
|
|
|
2D and 3D block creating techniques
|
|
|
Block split operations
|
|
|
Generation and manipulation of O-Grid
|
|
|
Vertex merge and edit block operations
|
|
|
Vertex move and alignment operations
|
|
|
Association and projection
|
|
|
Pre-mesh parameters and control
|
|
|
Exporting mesh for different solvers
|
|
|
|
ANSYS FLUENT
|
|
|
Basic steps for CFD analysis using FLUENT
|
|
|
GUI and TUI mode
|
|
|
Reading and manipulating the grid
|
|
|
Boundary conditions basics and its mathematics
|
|
|
Solver basics
|
|
|
Solver mathematics
|
|
|
Modeling conjugate heat transfer
|
|
|
Modeling turbulent flows
|
|
|
Modeling domain with moving and deforming mesh
|
|
|
Overview of multiphase flows
|
|
|
Post processing
|
|
|
|
