Complete CFD Training: From Mathematical Foundations to Complex Flow Analysis
Master Computational Fluid Dynamics with this comprehensive ANSYS Fluent course. Through 12 structured sessions, learn from CFD basics to complex flow simulations.
What you’ll learn
- Fundamental Concepts.
- Numerical Methods and Techniques.
- Practical Skills in ANSYS Fluent.
- Real-world Applications.
- Advanced Modeling Capabilities.
- Problem-Solving Skills.
Course Content
- Introduction –> 1 lecture • 25min.
- Finite Volume Method (FVM) –> 1 lecture • 25min.
- Solver Types and Pressure-Velocity Coupling Methods –> 1 lecture • 35min.
- Density-Based Solvers and Numerical Schemes –> 1 lecture • 36min.
- Discretization Methods –> 1 lecture • 24min.
- Cavity Flow –> 1 lecture • 26min.
- Algorithms –> 1 lecture • 28min.
- Foundations of Computational Fluid Dynamics –> 1 lecture • 51min.
- Poiseuille Flow –> 1 lecture • 35min.
- Airfoil –> 1 lecture • 28min.
- Pipe Flow –> 1 lecture • 42min.
- Compressible Flow –> 1 lecture • 1hr 7min.
Requirements
Master Computational Fluid Dynamics with this comprehensive ANSYS Fluent course. Through 12 structured sessions, learn from CFD basics to complex flow simulations.
What You’ll Learn:
• CFD fundamentals and Finite Volume Method
• Solver types and numerical schemes
• Pressure-velocity coupling methods
• Practical ANSYS Fluent implementation
• Real-world applications
• Advanced mesh generation techniques
• Boundary condition optimization
• Convergence strategies
Course Highlights:
✓ Step-by-step tutorials
✓ Practical case studies
✓ Heat transfer analysis
✓ Airfoil aerodynamics
✓ Turbulent flow modeling
✓ Multi-phase simulations
✓ Transient analysis methods
Who Should Take This Course:
• Engineers and CFD analysts
• Graduate students
• Research scientists
• Industry professionals
• Design engineers
• Project managers
Prerequisites:
• Basic fluid mechanics
• Fundamental calculus
• Access to ANSYS Fluent
• Basic computer skills
By completion, you’ll confidently:
• Run complex CFD simulations
• Select appropriate methods
• Analyze flow problems
• Validate results
• Optimize mesh quality
• Debug simulation issues
Transform your engineering capabilities with industry-leading CFD expertise.
Additional Benefits:
• Lifetime access to course materials
• Interactive Q&A sessions
• Regular software updates guidance
• Certificate of completion
• Access to exclusive CFD community
• One-on-one mentoring sessions
• Weekly live workshops
• Project feedback sessions
Bonus Content:
• Advanced turbulence modeling techniques
• Multi-phase flow simulation guidelines
• Industry case studies from aerospace and automotive sectors
• Best practices for mesh generation
• Performance optimization strategies
• Post-processing visualization techniques
• Custom UDF implementation
• Parallel processing setup