Length: 2 Days
The Certified Hypersonic Aerodynamics Specialist (CHAS) Certification Course by Tonex provides in-depth knowledge and practical skills in fundamental principles of hypersonic aerodynamics, shock wave behavior, thermal effects on airflow, and computational fluid dynamics (CFD) modeling. Participants will gain expertise in analyzing and designing hypersonic vehicles and systems.
Learning Objectives:
- Understand the fundamental principles of hypersonic aerodynamics.
- Analyze shock wave behavior and its impact on aerodynamic performance.
- Evaluate thermal effects on airflow in hypersonic conditions.
- Master computational fluid dynamics (CFD) modeling techniques for hypersonic applications.
- Develop skills in designing and optimizing hypersonic vehicles and systems.
- Apply theoretical knowledge to practical scenarios in the field of hypersonic aerodynamics.
Audience: This certification course is designed for aerospace engineers, researchers, scientists, and professionals seeking specialized knowledge and skills in hypersonic aerodynamics. It is also suitable for individuals involved in the design, analysis, and optimization of hypersonic vehicles and systems.
Course Outline:
Module 1: Introduction to Hypersonic Aerodynamics
- Hypersonic Flight Regime
- Characteristics of Hypersonic Flow
- Importance of Hypersonic Aerodynamics
- Historical Perspective
- Challenges and Opportunities
- Future Trends
Module 2: Shock Wave Dynamics and Effects
- Basics of Shock Waves
- Types of Shock Waves
- Shock Wave Interaction
- Shock-Induced Boundary Layer Separation
- Shock Wave Reflection and Refraction
- Shock Wave Compression and Heating Effects
Module 3: Thermal Management in Hypersonic Flows
- Thermal Protection Systems (TPS)
- Aerothermodynamics of TPS Materials
- Active Cooling Techniques
- Thermal Analysis Methods
- Thermal Protection System Design Considerations
- Thermal Performance Optimization
Module 4: Fundamentals of Computational Fluid Dynamics (CFD) Modeling
- Introduction to CFD
- Governing Equations of Fluid Flow
- Numerical Methods for Solving Fluid Flow Equations
- Grid Generation Techniques
- Boundary Conditions in CFD
- Validation and Verification of CFD Models
Module 5: Advanced CFD Techniques for Hypersonic Applications
- High-Speed Turbulence Modeling
- Shock-Capturing Methods
- Implicit vs. Explicit Methods
- Adaptive Mesh Refinement
- Parallel Computing in CFD
- Uncertainty Quantification in CFD
Module 6: Design and Optimization of Hypersonic Vehicles and Systems
- Vehicle Configuration Design Considerations
- Aerodynamic Shape Optimization
- Integration of Thermal Management Systems
- Multi-disciplinary Optimization Techniques
- Performance Evaluation Metrics
- Case Studies and Real-World Applications
Overview of the Certification Process:
- Familiarize yourself with the prerequisites, if any, for taking the exam.
- Review the certification roadmap to understand the different levels of certification offered (e.g., Foundation, Advanced, Expert) and the requirements for each level.
- Identify the benefits of obtaining the certification for your career and professional development.