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64 Min
This course format through pre-recorded video. You can buy and watch it to learn at any time.
A push towards a low carbon or net zero carbon means using fuels which provide a low carbon footprint. Green hydrogen combustion in gas turbines is a positive step towards a low or net zero carbon world. Gas turbines are a major consumer of fossil fuels. Using hydrogen for combustion leaves a negligible carbon footprint.
Following shall be covered:
1. Gas Turbine Introduction
2. Type of Gas Turbines
3. Gas Turbine Thermodynamic Cycle
4. Gas Turbine Performance
5. Emissions of Gas Turbines
6. NOx emissions from gas turbines
7. Factors influencing NOx emissions
8. NOx formation correlations for gas turbines
9. NOx formation for hydrogen / hydrogen rich gases in turbines
10. NOx reduction mentods for gas turbines
11. Gas Turbine Combustor technologies
12. Advances in Burner Technology for 100% hydrogen combustion
This course is to provide an introduction to gas turbines. In addition, hydrogen combustion shall be covered which is a hot topic due to its low carbon footprint. Another major aspect of the course is NOx control of emissions from turbine exhaust gases.
1. Gas turbine types - industrial heavy duty and aerodrivative
2. Brayton Cycle of gas turbines
3. Site rating of gas turbines based on ISO rating including effect of ambient temperature, barometric pressure, inlet losses, outlet losses
4. Exhaust gases from gas turbines
5. NOx emissions and the correlations for them
6. Burner technologies for gas turbines - lean and fuel rich combustion
7. Adiabatic flame temperature
8. Burning hydrogen and hydrogen rich gases
9. New technologies for burners
Industry domains :
Oil & Gas , Chemical & Pharmaceutical
Engineering Disciplines :
Mechanical , Process , Chemical & Process
1
Gas Turbines :
Part 5
2
Gas Turbines :
Part 4
3
Gas Turbine :
Part 5
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