Chemical reaction engineering
7.5 ECTS creditsInstruction is in the form of lectures, exercises, and computer sessions.
The course comprises the following components:
Basic kinetics: speed expressions, speed constants, and temperature dependence. Connection between kinetics and balance. Analysis of batch reactors to determine reaction kinetics.
Integral balances: Process chart overview. Materials and energy flows.
Ideal reactors: Tank and tube reactor. Multi reaction systems. Parallel and serial connection of reactors.
Non-isothermal reactors: Tank reactor stability. Adiabatic tube reactor. Adiabatic equilibrium reactions.
Non-ideal reactors: Residence interval distribution. Characterisation of flow images.
The course comprises the following components:
Basic kinetics: speed expressions, speed constants, and temperature dependence. Connection between kinetics and balance. Analysis of batch reactors to determine reaction kinetics.
Integral balances: Process chart overview. Materials and energy flows.
Ideal reactors: Tank and tube reactor. Multi reaction systems. Parallel and serial connection of reactors.
Non-isothermal reactors: Tank reactor stability. Adiabatic tube reactor. Adiabatic equilibrium reactions.
Non-ideal reactors: Residence interval distribution. Characterisation of flow images.
Progressive specialisation:
G2F (has at least 60 credits in first‐cycle course/s as entry requirements)
Education level:
Undergraduate level
Admission requirements
At least 60 ECTS credits completed in the Master Programme in Chemical Engineering and admitted to Chemical Calculations (7.5 ECTS credits), or equivalent
Selection:
Selection is usually based on your grade point average from upper secondary school or the number of credit points from previous university studies, or both.
This course is included in the following programme
- Master of Science in Chemical Engineering (studied during year 2)