Jet Engine Design and Analysis
( 30 Modules )

Module #1
Introduction to Jet Engines
Overview of jet engine history, types, and applications

Module #2
Thermodynamic Cycles
Review of thermodynamic principles and application to jet engines

Module #3
Jet Engine Components
Overview of compressor, combustion chamber, turbine, and nozzle components

Module #4
Aerothermodynamics
Fundamentals of airbreathing and rocket-based propulsion

Module #5
Design Requirements and Constraints
Overview of performance, weight, and environmental considerations

Module #6
Compressor Aerodynamics
Blade design, compressor maps, and performance analysis

Module #7
Compressor Performance Analysis
Compressor efficiency, pressure ratio, and flow coefficient calculation

Module #8
Fan Design and Analysis
Fan aerodynamics, fan maps, and performance analysis

Module #9
Compressor-Fan Interaction
Aerodynamic coupling and matching between compressor and fan

Module #10
Compressor and Fan Optimization
Multi-disciplinary optimization techniques for compressor and fan design

Module #11
Combustion Chamber Design
Fuel atomization, evaporation, and combustion principles

Module #12
Combustion Chamber Performance Analysis
Combustion efficiency, emissions, and temperature calculation

Module #13
Nozzle Design and Analysis
Nozzle aerodynamics, nozzle efficiency, and thrust calculation

Module #14
Nozzle Performance Analysis
Nozzle performance maps, thrust-to-weight ratio, and specific impulse

Module #15
Combustion Chamber-Nozzle Interaction
Aerodynamic coupling and matching between combustion chamber and nozzle

Module #16
Turbine Aerodynamics
Turbine blade design, turbine maps, and performance analysis

Module #17
Turbine Performance Analysis
Turbine efficiency, power output, and temperature calculation

Module #18
Turbine Cooling Systems
Turbine blade cooling techniques and heat transfer analysis

Module #19
Turbine Optimization
Multi-disciplinary optimization techniques for turbine design

Module #20
Turbine-Combustion Chamber Interaction
Aerodynamic coupling and matching between turbine and combustion chamber

Module #21
Jet Engine Performance Analysis
Thrust, specific fuel consumption, and engine efficiency calculation

Module #22
Engine Control Systems
Fuel control, ignition systems, and engine health monitoring

Module #23
Engine Installation and Integration
Engine installation, aircraft integration, and nacelle design

Module #24
Environmental Impact and Emissions
NOx, CO2, and noise emissions, as well as environmental regulations

Module #25
Engine Maintenance and Repair
Engine inspection, maintenance, and repair techniques

Module #26
Electric and Hybrid-Electric Propulsion
New trends in electric and hybrid-electric propulsion systems

Module #27
Additive Manufacturing and 3D Printing
Applications of additive manufacturing in jet engine design and production

Module #28
Advanced Materials and Coatings
New materials and coatings for improved engine performance and durability

Module #29
Case Study:Modern Commercial Jet Engine
In-depth analysis of a modern commercial jet engine, such as the GE90 or Rolls-Royce Trent

Module #30
Course Wrap-Up & Conclusion
Planning next steps in Jet Engine Design and Analysis career

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Jet Engine Design and Analysis ( 30 Modules )

Jet Engine Design and Analysis
( 30 Modules )