SubjectsSubjects(version: 861)
Course, academic year 2019/2020
  
Air Pollution Control Technology - D216002
Title: Technologie ochrany ovzduší
Guaranteed by: Department of Gaseous and Solid Fuels and Air protection (216)
Actual: from 2011
Semester: both
Points: 0
E-Credits: 0
Examination process:
Hours per week, examination: 0/0 other [hours/week]
Capacity: winter:unknown / unknown (unknown)
summer:unknown / unknown (unknown)
Min. number of students: unlimited
Language: Czech
Teaching methods: full-time
Level:  
For type:  
Note: course is intended for doctoral students only
can be fulfilled in the future
you can enroll for the course in winter and in summer semester
Guarantor: Machač Pavel Ing. CSc.
Z//Is interchangeable with: AP216002, P216002
Annotation -
Last update: Machač Pavel Ing. CSc. (02.04.2014)
The course deals with technological and chemico-engineering tools applied in the field of air protection technology . The process of greening the technology is based on the current scheme and the mass and heat balances . For individual process streams are considered the possibility of applying appropriate technical operations leading to the separation of pollutants. The specific examples are compared to various environmental technologies both in terms of efficiency and in terms of economic - investment and operational performance.
Aim of the course -
Last update: Hlinčík Tomáš doc. Ing. Ph.D. (31.05.2017)

Students will be able to:

Work with specific technological scheme of the environmental technologies.

Determined key technological currents based on the mass balance of the process.

Specify technological conditions have a significant influence on the separation efficiency of pollutants.

Descriptors -
Last update: Machač Pavel Ing. CSc. (02.04.2014)

Technology of control air pollutants, technological flow , mass balance , heat balance, the separation process efficiency

Literature -
Last update: Hlinčík Tomáš doc. Ing. Ph.D. (31.05.2017)

Z:Doc.Ing.J.Vejvoda,CSc., Ing.P.Machač, CSc., Prof.Ing.P.Buryan,DrSc., Technologie ochrany ovzduší a čištění odpadních plynů, Praha 2003, ISBN 80-7080-517-X

Z:Warnatz J., Maas U., Dibble R.W., Combustion, New York,1999,3-540-65228-0

Z:Moser R.E,, Overview on the Use of Additives in Wet FGD Systems. APRI, CA 94303.

Z:Moser et al.Cleair Liquor Organic Acid Flue Gas Desulphurisation System.,U.S. Patent No.5.770.164.June 1998 Chemical Engineering Science.

Z:Frandsen J.B.W., Kiil S., Johnsson J.E., Optimisation of a Wet FGD Pilot Plant Using Fine Limestone and Organic Acids, 2001 Matos, Manuel A.

Z:Borrego,Carlos: Poluição Atmosférica I,Environmental and Planning Department, Aveiro Univ., 1994

D:Vladyka J., Pětioký K., Předávací dokumentace - Laboratoř pro výzkum procesu odsíření spalin, Zkušební absorber, EVECO, s.r.o. 07.2011.,

D:Garrison. F, Wells.W., Dewatering of Flue Gas Desulphurisation Sulphite Solids. U.S. Patent No.4.454.101. June 1984.

Teaching methods -
Last update: Machač Pavel Ing. CSc. (02.04.2014)

Once a week, two hours of lectures and one hour of exercise.

Syllabus -
Last update: Machač Pavel Ing. CSc. (02.04.2014)

1. Air pollution prevention and control legislation of Czech Republic.

2. Principal features of EU legislation.

3. Dust control technology. Cyclones. Eletrostatic precipitators and fabric filters.

4. Sulphur oxides emission control. Wet limestone process. Dry limestone technology.

5. Spray dryers absorption. Fluidized bed combustion. Regenerative processes.

6. Apparatus of desulphurization processes.

7. Nitrogen oxides emission control. NOx formation at fuel combustion.

8. Selective catalytic reduction of NOx by NH3.

9. Selective non-catalytic process.

10. Municipal and hazardous waste combustion and emission control.

11. Absorption, adsorption and catalytic processes for air pollution control in industry.

12. Thermal non-catalytic processes.

13. Biofilters and biowashers.

14. Mobil sources emission control technology. Gas and diesel engines.

Entry requirements -
Last update: Machač Pavel Ing. CSc. (02.04.2014)

Chemical Engineering I.

Course completion requirements -
Last update: Machač Pavel Ing. CSc. (30.01.2018)

For successful completion of the course, it is first necessary to achieve at least 50 points in the credit test and to pass the written part of the examination to more than 50 points. It is also necessary to pass the oral part successfully.

 
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