Course detail

Conversion of Energy and Its Impact on Environment

FSI-LVP Acad. year: 2019/2020 Summer semester

The course is focused on impacts of power engineering and its influence on the environment, above all, on the Air Quality, air pollution meteorology and dispersion of a polutants. Students will be made familiar with harmfull pollutants from combustion process, and they will learn of flue gas cleaning (gas filter, impingement separator, electrostatic presipitatorts), desulfurization process and technologies reducing NOx emissions(primary andsecondary measurments).
Last lecture deals with the dumping of solid residues from cleaning technologies.

Language of instruction

Czech

Number of ECTS credits

5

Department

Learning outcomes of the course unit

Students will learn of basic stoichiometric calculation of combustion processes, calculation of reactant consumption. They will acquire the basic knowledge of flue gas cleaning technologies and knowledge for designing individual devices used for flue gas cleaning.

Prerequisites

Boilers, sources and transformation of energy, termomechanics.

Planned learning activities and teaching methods

The course is taught through lectures explaining the basic principles and theory of the discipline. Exercisses are focused on practical topics presented in lectures.

Assesment methods and criteria linked to learning outcomes

Active participation at seminars, handing in 2 assignments. Attendance on excursion Waste -to Energy plant.
The exam is written and oral.

Aims

Student will be made familiar with the main pollutants of combustion processes, dispersion of these pollutants and with methods protection of the environment . They will be also informed of the design of dust removing equipment and desuphurization devices and NOx decreasing methods.

Specification of controlled education, way of implementation and compensation for absences

Attendance at seminars is required, compensation of missed lessons to be negotiated with a teacher.

The study programmes with the given course

Programme M2I-P: Mechanical Engineering, Master's
branch M-ENI: Power Engineering, compulsory

Programme M2I-P: Mechanical Engineering, Master's
branch M-FLI: Fluid Engineering, compulsory-optional

Programme M2I-P: Mechanical Engineering, Master's
branch M-TEP: Environmental Engineering, compulsory-optional

Type of course unit

 

Lecture

39 hours, optionally

Teacher / Lecturer

Syllabus

1. Component of environment, atmosphere, composition of atmosphere. Physical properties.
2. Solid, liquid and gaseous industrial emission. Power generation emissions overview. Origin and sources.
3. Emission of CO, CO2, greenhouse effect, biomass and its combustion, specific emission of CO2.
4. Emissions of acid gases NOx, SOx, HCl, HF, secondary pollutions, O3 in ground layers of atmosphere.
5. Emission of PCDD, PCDF, PAH, soot, sources of emissions, options for decreasing pollutants concentrations.
6. Solid particles, fly ash, soot, ash balance, manipulation and storage of fly ash and slag.
7. Pollution spreading in atmosphere, air turbulence, atmosphere stability, inversion, calculation models of air pollutions.
8. Mechanical separators, particles settlement in gravity field, cyclones, construction and operation, filtration, textile filters, hose and pocket filters.
9. Electrostatic separators, principle, construction and operating. V-A characteristic, backward corona.
10. Desulphurisation of flue gases, chemical reactions, limestone methods.
11. NOx emission decreasing, primary steps, asid gas removal, catalytic methods of NOx decreasing.
12. Simultaneous removal of SO2 and NOX, flue gas cleaning in incineration stations.
13. Law for protecting of atmosphere cleanness, emission limits, removal of rests from cleaning technologies.

Exercise

26 hours, compulsory

Teacher / Lecturer

Syllabus

1-2. Refreshing of thermodynamics basics.
3. Stoichiometry + calculation of SO2 emissions, fly ash and slag.
4. Stoichiometry + calculation of CO2 emissions for different kinds of fuels.
5. Determination part of CO2 emissions from desulphurization.
6. Design and calculation of cyclone.
7. Acid gas removal.
8. Excursion – heating station – paper.
9. Calculation of separation ability of electrostatic precipitators.
10. Calculation of imission concentration in atmosphere.
11. Regulation NO.415/2012 Sb – Specific emission limits – example.
12. Excursion – Waste -to-Energy Plant.
13.Credit.