Thermodynamic Cycles and Efficiency
( 25 Modules )

Module #1
Introduction to Thermodynamic Cycles
Overview of thermodynamic cycles, importance, and applications

Module #2
Thermodynamic Systems and Processes
Review of thermodynamic systems, processes, and properties

Module #3
Energy Conversion and Efficiency
Introduction to energy conversion, efficiency, and losses

Module #4
Carnot Cycle and Efficiency
Ideal Carnot cycle, its efficiency, and limitations

Module #5
Rankine Cycle
Introduction to Rankine cycle, its components, and efficiency

Module #6
Rankine Cycle Analysis
Thermodynamic analysis of Rankine cycle, including T-s and P-v diagrams

Module #7
Rankine Cycle Efficiency and Limitations
Efficiency calculations and limitations of Rankine cycle

Module #8
Regenerative Rankine Cycle
Introduction to regenerative Rankine cycle and its advantages

Module #9
Regenerative Rankine Cycle Analysis
Thermodynamic analysis of regenerative Rankine cycle

Module #10
Gas Power Cycles
Introduction to gas power cycles, including Otto and Brayton cycles

Module #11
Otto Cycle Analysis
Thermodynamic analysis of Otto cycle, including efficiency calculations

Module #12
Brayton Cycle Analysis
Thermodynamic analysis of Brayton cycle, including efficiency calculations

Module #13
Refrigeration Cycles
Introduction to refrigeration cycles, including vapor-compression and absorption cycles

Module #14
Vapor-Compression Refrigeration Cycle
Thermodynamic analysis of vapor-compression refrigeration cycle

Module #15
Absorption Refrigeration Cycle
Thermodynamic analysis of absorption refrigeration cycle

Module #16
Cogeneration and Combined Heat and Power (CHP)
Introduction to cogeneration and CHP, including thermodynamic benefits

Module #17
Combined Cycle Power Plants
Introduction to combined cycle power plants, including efficiency advantages

Module #18
Thermodynamic Cycle Optimization
Methods for optimizing thermodynamic cycles, including parametric and numerical approaches

Module #19
Thermodynamic Cycle Selection
Criteria for selecting thermodynamic cycles for specific applications

Module #20
Case Studies:Thermodynamic Cycles in Industry
Real-world applications of thermodynamic cycles in various industries

Module #21
Thermodynamic Cycle Analysis Software
Overview of software tools for thermodynamic cycle analysis, including EES and others

Module #22
Thermodynamic Cycle Design and Simulation
Design and simulation of thermodynamic cycles using software tools

Module #23
Economic and Environmental Aspects of Thermodynamic Cycles
Economic and environmental considerations in the design and operation of thermodynamic cycles

Module #24
Advanced Thermodynamic Cycles
Overview of advanced thermodynamic cycles, including supercritical CO2 and ammonia-water cycles

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Thermodynamic Cycles and Efficiency career

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Thermodynamic Cycles and Efficiency ( 25 Modules )

Thermodynamic Cycles and Efficiency
( 25 Modules )