Continued studies of chemical engineering
7.5 ECTS creditsInstruction is in the form of lectures and calculation exercises. Students are required to submit hand-in assignments orally and in writing.
The following components are covered:
- material and energy balances with chemical reaction
- classification and practical design of industrial reactors
- multiple stationary point of power and reactor stability
- adiabatic equilibrium processes
- real reactors, reactor cpacity, complex reactions and selectivity
- energy conversation in incineration and cogeneration of power and heat
- energy use in thermal separation processes, such as destillation, evaporation and drying and energy optimisation of these unit operations,
- minimising external needs of cooling and heating for a process system.
The following components are covered:
- material and energy balances with chemical reaction
- classification and practical design of industrial reactors
- multiple stationary point of power and reactor stability
- adiabatic equilibrium processes
- real reactors, reactor cpacity, complex reactions and selectivity
- energy conversation in incineration and cogeneration of power and heat
- energy use in thermal separation processes, such as destillation, evaporation and drying and energy optimisation of these unit operations,
- minimising external needs of cooling and heating for a process system.
Progressive specialisation:
G2F (has at least 60 credits in first‐cycle course/s as entry requirements)
Education level:
Undergraduate level
Admission requirements
The courses Separation Processes 7.5 ECTS cr and Heat and Fluid Dynamics for Chemical Reactors 7.5 ECTS 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.
Course code:
CKGB5B
The course is not included in the course offerings for the next period.