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The subject is focused on the analysis of behaviour of chemically reacting systems and on the design of chemical reactors. Mathematical models of basic types of chemical reactors including steady-state and unsteady-state mass and heat balances are explained. The students are introduced to methods of evaluation of experimental kinetic data and simulation of chemical reactors.
Last update: Čapek Pavel (14.02.2018)
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Studenti musí úspěšně napsat zápočtové testy a následně uspět u ústní zkoušky. Last update: Patera Jan (21.02.2018)
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A: H.S.Fogler, Elements of Chemical Reaction Engineering, Prentice Hall, New Jersey, 2006, 0130473944 Last update: Čapek Pavel (16.08.2024)
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Dva průběžné testy. Zápočtové minimum v každém testu činí 50 bodů. Neúspěšní studenti absolvují náhradní zápočtový test v rozsahu odpovídajícím neúspěšným testům. Zápočtové minimum je opět 50 bodů. Ústní zkouška. Last update: Čapek Pavel (16.02.2018)
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1. Definitions of the rate of chemical reaction and relationships between the reaction rates and stoichiometric equations 2. Rate laws, irreversible reactions as functions of concentrations and temperature. 3. Reversible reactions as functions of concentrations and temperature. Role of chemical equilibrium 4. Elementary reactions. Multiple reactions. Definitions of selectivity and yield. Side, consecutive and autocatalytic reactions 5. Rate laws for catalytic reactions 6. Overview of chemical reactors, ideal mixing and plug flow 7. Principles of mass and heat balances in chemical reactors 8. Batch reactor, mathematical model 9. Plug flow reactor, mathematical model 10. Continuous stirred tank reactor (CSTR) and CSTRs in series, mathematical model 11. Construction and design of chemical reactors 12. Behaviour and performance characteristics of chemical reactors 13. Research methods of chemical kinetics at laboratory and pilot-plant scales 14. Laboratory chemical reactors Last update: Čapek Pavel (14.02.2018)
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1. Perry's chemical engineering handbook, McGraw-Hill, New York, 1999, 0071154485 2. Matlab software. Last update: Čapek Pavel (14.02.2018)
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Students will be able to: 1. Develop mass and energy balances of reacting systems. 2. Describe the behaviour of chemical reactors on the basis of mathematical models. 3. Interpret the static and dynamic behaviour of chemical reactors on the basis of numerical solution of mathematical models. 4. Interpret the experimental kinetic data on the basis of kinetic models. Last update: Čapek Pavel (14.02.2018)
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Physical chemistry I, Chemical engineering I, Matehmatics II Last update: Čapek Pavel (14.02.2018)
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Teaching methods | ||||
Activity | Credits | Hours | ||
Účast na přednáškách | 1 | 28 | ||
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 1 | 28 | ||
Příprava na zkoušku a její absolvování | 2 | 56 | ||
Účast na seminářích | 1 | 28 | ||
5 / 5 | 140 / 140 |
Coursework assessment | |
Form | Significance |
Continuous assessment of study performance and course -credit tests | 50 |
Oral examination | 50 |