Turbomachinery in Aerospace Propulsion
( 30 Modules )

Module #1
Introduction to Aerospace Propulsion
Overview of aerospace propulsion systems, importance of turbomachinery, and course objectives

Module #2
Fundamentals of Turbomachinery
Basic principles of turbomachinery, including thermodynamics, fluid mechanics, and energy conversion

Module #3
Turbine Design and Performance
Design considerations, performance metrics, and component interaction in turbines

Module #4
Compressor Design and Performance
Design considerations, performance metrics, and component interaction in compressors

Module #5
Fan and Blower Design
Design considerations and performance metrics for fans and blowers in aerospace applications

Module #6
Aerothermodynamics of Turbomachinery
Heat transfer, fluid flow, and aerodynamic principles in turbomachinery

Module #7
Turbomachinery Materials and Manufacturing
Material selection, manufacturing techniques, and structural integrity in turbomachinery

Module #8
Rotor Dynamics and Vibration
Rotor dynamics, vibration analysis, and balancing in turbomachinery

Module #9
Seals and Bearing Systems
Design and functionality of seals and bearing systems in turbomachinery

Module #10
Turbomachinery Control and Instrumentation
Control systems, instrumentation, and sensor technologies in turbomachinery

Module #11
Turbomachinery in Aerospace Propulsion Systems
Integration of turbomachinery in aerospace propulsion systems, including turbojets, turbofans, and turboprops

Module #12
Electric and Hybrid-Electric Propulsion
Electric and hybrid-electric propulsion systems, including motor-driven fans and generators

Module #13
Turbomachinery in Rocket Propulsion
Turbomachinery applications in rocket propulsion systems, including pumps, turbines, and expander cycles

Module #14
Thermodynamic Cycles and Analysis
Thermodynamic cycles, including Brayton, Rankine, and hybrid cycles, and analysis techniques

Module #15
Aerodynamic Design and Optimization
Aerodynamic design and optimization techniques, including CFD and numerical methods

Module #16
Structural Integrity and Life Assessment
Structural integrity, life assessment, and fatigue analysis in turbomachinery

Module #17
Turbomachinery Testing and Validation
Testing and validation methods, including experimental techniques and data analysis

Module #18
Aerospace Propulsion Systems Design and Integration
System-level design and integration of aerospace propulsion systems, including turbomachinery and other components

Module #19
Sustainability and Environmental Considerations
Sustainability and environmental considerations in aerospace propulsion systems, including emissions and noise reduction

Module #20
Advanced Topics in Turbomachinery
Emerging trends and advanced topics in turbomachinery, including additive manufacturing and artificial intelligence

Module #21
Case Studies in Aerospace Propulsion
Real-world case studies and applications of turbomachinery in aerospace propulsion systems

Module #22
Design Project:Turbomachinery Component Design
Students design and analyze a turbomachinery component, applying course concepts and principles

Module #23
Design Project:Aerospace Propulsion System Design
Students design and analyze an aerospace propulsion system, integrating turbomachinery and other components

Module #24
Computational Tools and Methodologies
Overview of computational tools and methodologies used in turbomachinery design and analysis

Module #25
Experimental Techniques and Instrumentation
Experimental techniques and instrumentation used in turbomachinery testing and validation

Module #26
Additive Manufacturing in Turbomachinery
Applications and challenges of additive manufacturing in turbomachinery design and production

Module #27
Digital Twin and Predictive Maintenance
Digital twin technology and predictive maintenance in turbomachinery and aerospace propulsion systems

Module #28
Turbomachinery in Electric and Hybrid-Electric Aircraft
Turbomachinery applications in electric and hybrid-electric aircraft, including electrification and hybridization

Module #29
Turbomachinery in Future Aerospace Propulsion Systems
Future directions and emerging trends in turbomachinery and aerospace propulsion systems

Module #30
Course Wrap-Up & Conclusion
Planning next steps in Turbomachinery in Aerospace Propulsion career

WIZAPE

ONLINE RESOURCES

ABOUT WIZAPE

ONLINE PORTAL

Our priority is to cultivate a vibrant community before considering the release of a token. By focusing on engagement and support, we can create a solid foundation for sustainable growth. Let’s build this together!

We're giving our website a fresh new look and feel! 🎉 Stay tuned as we work behind the scenes to enhance your experience.
Get ready for a revamped site that’s sleeker, and packed with new features. Thank you for your patience. Great things are coming!

CONTACT-US PRIVACY POLICY

Turbomachinery in Aerospace Propulsion ( 30 Modules )

Turbomachinery in Aerospace Propulsion
( 30 Modules )