1. Introduction to gaseous emissions from fossil fuel combustion, legislative framework, BAT. Transformation of basic flue gas components in the atmosphere, emission - immission. Recalculations.
2. Primary and secondary processes of emission reduction from combustion processes.
3. Introduction to flue gas cleaning technologies. Definition of efficiency, basic stoichiometric calculations, balance.
4. Dry desulphurization method in fluidized bed boilers. Basic chemistry methods, thermochemical calculations, reduced calorific value.
5. Implementation of the method in fluidized bed boilers, application examples,
6. Semi-dry desulfurization method. Chemism methods. Examples of technologies, examples of applications. Balance calculations. Work with drawing documentation, technological diagrams, orientation.
7. Wet desulphurization method. Chemism methods. Balance calculations. Technological scheme of the method.
8. Wet desulphurization method. Examples of technologies, examples of applications. Balance calculations. Work with drawing documentation, technological diagrams, orientation.
9. SNCR flue gas denitrification technology. Chemism methods. Examples of technologies, examples of applications. Balance calculations. Problems of relevant conditions in combustion chambers. Problems of ammonium salts. Work with drawing documentation, technological diagrams, orientation.
10. Technology of flue gas denitrification SCR. Chemism methods. Balance calculations. Fundamentals of catalysis, catalyst activity. Problems of ammonium salts, ABS.
11. SCR technology. Examples of technologies, examples of applications (High Dust, Tail End). Catalyst management, catalyst regeneration.
12. Emissions of Hg, HCl, HF during combustion of fuels. Possibilities, processes and technologies of emission reduction in fossil fuel energy.
13. Technology of emission reduction from internal combustion engines and turbines.
14. Technology of CO2 capture from flue gases. Description of relevant technologies, application possibilities, energy consumption. Balance calculations. CO2 storage options. Basis of emission-free technologies H2.
2. Primary and secondary processes of emission reduction from combustion processes.
3. Introduction to flue gas cleaning technologies. Definition of efficiency, basic stoichiometric calculations, balance.
4. Dry desulphurization method in fluidized bed boilers. Basic chemistry methods, thermochemical calculations, reduced calorific value.
5. Implementation of the method in fluidized bed boilers, application examples,
6. Semi-dry desulfurization method. Chemism methods. Examples of technologies, examples of applications. Balance calculations. Work with drawing documentation, technological diagrams, orientation.
7. Wet desulphurization method. Chemism methods. Balance calculations. Technological scheme of the method.
8. Wet desulphurization method. Examples of technologies, examples of applications. Balance calculations. Work with drawing documentation, technological diagrams, orientation.
9. SNCR flue gas denitrification technology. Chemism methods. Examples of technologies, examples of applications. Balance calculations. Problems of relevant conditions in combustion chambers. Problems of ammonium salts. Work with drawing documentation, technological diagrams, orientation.
10. Technology of flue gas denitrification SCR. Chemism methods. Balance calculations. Fundamentals of catalysis, catalyst activity. Problems of ammonium salts, ABS.
11. SCR technology. Examples of technologies, examples of applications (High Dust, Tail End). Catalyst management, catalyst regeneration.
12. Emissions of Hg, HCl, HF during combustion of fuels. Possibilities, processes and technologies of emission reduction in fossil fuel energy.
13. Technology of emission reduction from internal combustion engines and turbines.
14. Technology of CO2 capture from flue gases. Description of relevant technologies, application possibilities, energy consumption. Balance calculations. CO2 storage options. Basis of emission-free technologies H2.