Introduction to combustion theory. Chemical equilibrium and the products of combustion. Combustion kinetics and types of combustion. Pollutant formation. Design of combustion systems for gaseous, liquid and solid fuels. The use of alternative fuels (hydrogen, biofuels, etc.) and their effect on combustion systems.
Doctor of Philosophy (PhD) in Mechanical Engineering
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| content serial | Description |
|---|
| 1 | Introduction |
| 2 | Chemical equilibrium and the products of combustion |
| 3 | Chemical equilibrium, the products of combustion and combustion efficiency |
| 4 | Combustion kinetics and types of combustion. |
| 5 | Pollutant formation and environmental impacts |
| 6 | Pollutant formation and environmental impacts |
| 7 | Design of combustion systems for gaseous |
| 8 | Design of combustion systems for liquid fuels |
| 9 | Design of combustion systems for solid fuels |
| 10 | Biofuel productions |
| 11 | The use of alternative fuels (hydrogen, biofuels, etc.) |
| 12 | Premixed combustion models |
| 13 | Premixed combustion models |
| 14 | Cost analysis for combustion system |
| 15 | Presentations for selected topics |
| 16 | Final Examination |
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