Pointwise for beginners
Course syllabus:
- Pointwise controls
- Terminology
- 2D meshing in Pointwise 2D
- elliptic solver
- 2D hyberbolic grid generation
- domain (2D grid) modification
The course will take place on March 12, 2020.
Pointwise for advanced users
Course syllabus:
- 3D Meshing in Pointwise
- Single grid
- Elliptic and Hyperbolic grid generation on CAD models
- Block (3D grid) modification
- Multiblock.
The course will take place on April 2 2020, 9:00-16:00, 9:00-16:00.
EZAir Sute of Codes
Course syllabus:
- Input file
- Syntax
- Structure
- Geometry definitions
- Hierarchy
- Supported topologies
- Entity types
- Chimera review
- Simulation parameters
- Boundary conditions
- Convection fluxes and Jacobians
- Time marching
- Simulation controls
- Command-line options
- I/O
- Parallelism
- Motion simulation: Introduction to 6DOF
- Troubleshooting
The course will take place on April 20, 2020, 9:00-16:00.
Introduction to turbulence modeling
Course syllabus:
- Introduction to turbulence modeling classes: DNS, LES, Hybrid LES/RANS, RANS
- Rational
- RANS Equations
- Numerical Methods
- Application
The course will take place on July 2, 2020, 9:00-16:00.
EPPIC
Course syllabus:
- Primary capabilities of EPPIC:
- Controlling the display
- Creation and definition of new simulations
- Analyzing of results of any given simulation
The course will take place on August 6, 2020, 9:00-16:00.
EZOpt
Course syllabus:
- EZOpt workflow components
- Algorithms' interface overview
- Analyzing results and post-processing
The course will take place on September 10, 2020, 9:00-16:00.
Arion + unstructured meshing
Course syllabus:
- Arion input interface
- Grid conversion from star-cd to arion format, and setting parallelization parameters
- Setting boundary conditions
- Setting equation of state parameters
- Setting Mean-Flow & turbulent Systems
- Defining fv-uns output files
- Defining table output files
- Execution of the solver
The course will take place on October, 2020, 9:00-16:00.
Hybrid RANS/LES turbulence models
Course syllabus:
- Hybrid LES/RANS models: DDES, IDDES, PANS models
- Equations & Numerical Algorithm
- Best practice
- Applications
The course will take place on November 1, 2020, 9:00-16:00.
Computational aeroelasticity
Course syllabus:
- Theoretical background: reduce the order of the structural problem using the
modal approach - Spline types, including assessment of spline results
- Building EZAir input for an aeroelastic test case
- Special considerations for complex geometries, including collar grids
- Static and dynamic aeroelasticity modules
- Time integration types
- Case studies
CFD for managers
Course syllabus:
- Comprehensive introduction
- Review of flow equations
- Model equations
- Discontinuities
- Mesh generation methods
- Iterative and time marching schemes including stability analysis
- Solution methods for the flow equations, including flux splitting and time accurate methods
- Introduction to turbulence modeling
- Unstructured solvers
- Case studies
HyPE
Course syllabus:
- Introduction to Hypersonic and Combusting Flows
- Physical Models
- Naiver-Stokes Equations
- Thermodynamic and Chemistry Models
- Mass Transport Models
- Surface Interaction Models
- Turbulence Modeling
- Turbulence-Chemistry Interaction (TCI)
- Numerical Aspects
- Finite-volume Discretization
- Numerical Stiffness
- High-order and Low-dissipation Schemes
- Carbuncle Phenomenon
- Implicit Schemes
- Code Usage
- HyPE-specific syntax
- Special directives
- Recommended usage
- Examples