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Advanced Energy Conversion Analysis Webinar

In this webinar, the student gets familiar with the ideal simple and basic power cycles, power cycle components/processes and compressible flow and their T - s, p - V and h - T diagrams, operation and major performance trends when air, argon, helium and nitrogen are considered as the working fluid.
Performance Objectives:
Introduce basic energy conversion engineering assumptions and equations
Know basic elements of Carnot Cycle, Brayton Cycle, Otto Cycle, Diesel Cycle, compression, combustion and expansion processes and compressible flow (nozzle, diffuser and thrust) and their T - s, p - V and h - T diagrams
Be familiar with Carnot Cycle, Brayton Cycle, Otto Cycle, Diesel Cycle, compression, combustion, expansion and compressible flow (nozzle, diffuser and thrust) operation
Understand general Carnot Cycle, Brayton Cycle, Otto Cycle, Diesel Cycle, compression, combustion, expansion and compressible flow (nozzle, diffuser and thrust) performance trends

 

Keywords: energy conversion, power cycles. Carnot, Brayton, Otto, Diesel, power cycle components/processes, Compression, Combustion, Expansion, compressible flow components, Nozzle, diffuser, thrust

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
Compression
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
Expansion
Analysis
Assumptions
Governing Equations
Input Data
Results
Conclusions
Nozzle
Analysis
Assumptions
Governing Equations
Input Data
Results
Conclusions
Diffuser
Analysis
Assumptions
Governing Equations
Input Data
Results
Conclusions

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