Advanced Power Cycles and Combustion Analysis
1h! Run Time
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What you'll learn
Skills covered in this course
Description
This course presents the analysis of ideal power cycles and combustion using a clear mathematical approach.
What this course covers:
- Carnot, Brayton, Otto and Diesel power cycles
- Working fluids including air, argon, helium and nitrogen
- Thermal efficiency derivations and T-s diagrams
- Combustion of carbon, hydrogen, sulfur, coal, oil and gas
- Flame temperature, oxidant-to-fuel ratio and higher heating value
Performance trends are plotted against compression ratio, turbine inlet temperature and mass flow rate.
Table of Contents
Carnot Cycle
Analysis
Assumptions
Governing Equations
Input Data
Results
Conclusions
Brayton Cycle (Gas Turbine) for Power Application
Analysis
Assumptions
Governing Equations
Input Data
Results
Conclusions
Otto Cycle
Analysis
Assumptions
Governing Equations
Input Data
Results
Conclusions
Diesel Cycle
Analysis
Assumptions
Governing Equations
Input Data
Results
Conclusions
Combustion
Analysis
Case Study A
Case Study B
Case Study C
Case Study D
Assumptions
Governing Equations
Input Data
Results
Case Study A
Case Study B
Case Study C
Case Study D
Figures
Conclusions
System Requirements
See System Requirements in the Coggno Knowledge Base