NKEK13021U Sustainable Chemistry
The course covers the following topics:
- The basic concepts of energy and sustainable chemistry
- Industrial aspects of sustainable chemistry
- Advanced reaction kinetics
- Applications of heterogeneous catalysis including fuel cell applications,
- Chemical energy conversion
including solar energy storage and conversion
- Renewables – organic feedstock beyond fossil fuels
- Green chemistry using enzymes and other renewable biomolecules
Giving examples of industrial implementations of sustainable chemistry and sustainable energy conversion
Selected processes relevant to renewable chemicals including organic and inorganic building blocks. –
Structure-function relationships in enzymes and how rational designed enzymes can be utilized in green chemistry.
Describing catalytic processes mathematically in form of kinetic models.
Accounting for the underlying concepts of sustainable chemistry.
Accounting for different applications of heterogeneous catalysis
Accounting for the energetics involved in energy storage processes and identify potentially relevant reactions
Accounting for natural photosynthesis and various approaches to artificial photosynthesis
Accounting for different applications of homogeneous catalysis using enzymes
To be able to judge the ecofriendliness and sustainability of processes
Literature will be announced on Absalon
- 15 ECTS
- Type of assessment
- Oral examinationWritten assignmentAn essay with one week preparation time and a 30 minutes oral exam. External censorship, graded according to the 7-step scale.
- Marking scale
- 7-point grading scale
- Censorship form
- External censorship
Criteria for exam assesment
See learning outcome
- Practical exercises