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Provided by: Centre for Computational Technologies Pvt. Ltd CFD Internship ProgramMechanical |
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Training
Provided by Centre for Computational Technologies Pvt. Ltd
Because of the exponential growth in computational power and development in numerical algorithms, CFD is becoming more and more extensively used virtual simulation technique. Almost all design companies are using these tools directly or indirectly in their design activities. If an engineering student is aware of this technique, he/ she will have endless opportunities in the core engineering domain.
The Summer Internship Program (SIP) at CCTech provides an opportunity to spend the summer working side-by-side with industry professionals working in the domain of Computational Fluid Dynamics (CFD). This is an excellent opportunity for engineering students to get hands-on experience in a cutting edge field.
During the summer internship program, you will be exposed to fundamentals of CFD and will gather knowledge about software packages used in the field of CFD. This is the perfect precursor for your further steps in core engineering domain.
Following are the highlights of the program
- Training on Computational Fluid Dynamics (CFD) fundamentals
- Training on commercial CFD software packages used in industry
- A project work involving industrial exposure
- Interaction with working professionals
- Internship certificate given by CCTech
You will learn a lot, grow your skills, and gain competitive advantage.
Related Software Programs or Products: ICEM-CFD, ANSYS FLUENT
Related Awards, Degrees or Certifications: ICEM-CFD and Fluent Training Course
Related Jobs or Careers: CFD Analysis Engineer, CFD Engineer, Design Engineer
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CFD Internship Program
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
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
About The Training Provider: Centre for Computational Technologies Pvt. Ltd
Centre for Computational Technologies Pvt. Ltd - We provide courses in CAD development and CFD application. We offer six-month advanced diploma courses for fresh graduates (DACAD and DACFD), short term courses as well as Corporate Training pertaining to our two verticals.
CAD development courses cover advanced CAD technologies such as Parasolid, Hoops3D and OpenGL with in-depth training on SolidWork customization using CPP and VB. We also...
