SubjectsSubjects(version: 855)
Course, academic year 2019/2020
  
Industrial Reactors - N409078
Title: Průmyslové reaktory
Guaranteed by: Department of Chemical Engineering (409)
Actual: from 2019
Semester: winter
Points: winter s.:5
E-Credits: winter s.:5
Examination process: winter s.:
Hours per week, examination: winter s.:2/2 C+Ex [hours/week]
Capacity: 24 / 24 (unknown)
Min. number of students: unlimited
Language: Czech
Teaching methods: full-time
Level:  
For type:  
Additional information: http://uchi.vscht.cz
Guarantor: Šnita Dalimil prof. Ing. CSc.
Kočí Petr doc. Ing. Ph.D.
Is interchangeable with: AM409030, AM409020
Annotation -
Last update: Kočí Petr doc. Ing. Ph.D. (27.09.2013)
The subject "Industrial reactors" follows up "Chemical reaction engineering" and focuses on practical applications of chemical reactors to industrially important processes and commodity productions. In addition to technological aspects, attention is paid to modelling and computer simulations of the processes.
Aim of the course -
Last update: Kočí Petr doc. Ing. Ph.D. (27.09.2013)

Students will be able to:

Practically apply theoretical background gained in the subject "Chemical Reactor Engineering".

Understand technological background of industrially important chemical processes and commodities.

Perform parametric simulation studies and dynamic simulations of industrial chemical reactors.

Literature -
Last update: SEK409 (09.10.2013)

R: Fogler H. S., Elements of Chemical Reaction Engineering, 4th Ed., Prentice Hall 2006, ISBN 0-13-127839-8

A: Salmi T. O., Mikkola J. P., Warna J. P., Chemical Reaction Engineering and Reactor Technology (Chemical Industries), 1st Ed., CRC Press, 2010, ISBN-10: 1420092685

Learning resources -
Last update: Kočí Petr doc. Ing. Ph.D. (02.01.2018)

http://uchi.vscht.cz

Syllabus -
Last update: Kočí Petr doc. Ing. Ph.D. (27.09.2013)

1. Oxidation and reduction in biggest commodity processes, sulphuric and nitric acid.

2. Oxidation in power industry, burners and furnaces, coal, gas and oil combustion, flame temperature.

3. Catalytic reactors for crude oil processing, hydrogenation, dehydrogenation, cracking, isomeration, partial oxidation.

4. Reactors for organic-chemistry syntheses and farmaceuticals.

5. Reactors for exhaust gas aftertreatment, catalytic monoliths for automotive applications and power plants.

6. Reactors for waste water treatment.

7. Industrial bio-reactors for fermentation, bakers yeast, ethanol, citric acid, biofuel.

8. Polymerization reactors, high-pressure and catalytic.

9. Coal gasification (low- and high-pressure), water gas shift, syngas, hydrogen sources.

10.Fischer-Tropsch synthesis.

11.Reactors for metal processing, blast furnace, high-temperature reactors, crbides

12.Adsorptions and desorptions with chemical reaction.

13.Electrochemical reactors, sodium hydroxide, aluminium, photochemical reactors, titanium dioxide.

14.Reactors for nanotechnology, manufacturing of nanoparticles.

Registration requirements -
Last update: Kočí Petr doc. Ing. Ph.D. (27.09.2013)

N409002 / N409002A Chemical engineering I

N409076 Chemical reactor engineering

Teaching methods
Activity Credits Hours
Obhajoba individuálního projektu 1 28
Účast na přednáškách 1 28
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi 1 28
Příprava na zkoušku a její absolvování 1 28
Účast na seminářích 1 28
5 / 5 140 / 140
Coursework assessment
Form Significance
Defense of an individual project 50
Examination test 50

 
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