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- Author: Gordan Feric
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Energy Conversion Analysis Webinar Monday Feb 19 2018 |
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Advanced Power Cycles and Power Cycle Components/Processes Analysis Monday Feb 19 2018 |
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Power Cycles and Power Cycle Components/Processes Analysis Monday Feb 19 2018 |
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Power Cycles Analysis Monday Feb 19 2018 |
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Energy Conversion Ideal vs Real Operation Analysis Webinar Monday Feb 19 2018 |
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Power Cycle Components/Processes and Compressible Flow Analysis Webinar Monday Feb 19 2018 |

Advanced Energy Conversion Analysis
Author: Gordan Feric
Category: Online Engineering Training > Other
The ideal, simple and basic power cycles (Carnot Cycle, Brayton Cycle, Otto Cycle and Diesel Cycle), ideal power cycle components/processes (compression, combustion and expansion) and ideal compressible flow components (subsonic nozzle, diffuser and thrust) are presented in this course material. ...
Keywords: Power Cycles, Power Cycle Components/Processes and Compressible Flow
Discounted Price | $30.0 | $28.75 | $28.13 | $27.5 | $26.25 |
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# Licenses | 1 | 10 | 25 | 50 | 100 |
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
Thrust
Analysis
Assumptions
Governing Equations
Input Data
Results
Conclusions
His over 25 years engineering experience includes performing analytical modeling and computer modeling of physical properties, power cycles, power cycle components/processes and compressible flow. Also, conducting conceptual design, analysis and evaluation of energy conversion systems for basic and simple power and propulsion cycles.