Lecture, Master Program Energy Conversion

The conversion of energy from one form into another is the basis of technology, our society and of life itself. In this course we will cover many aspects of energy conversion, with an emphasis on processes and devices where functional materials play a key role. Typical examples are thermogenerators, that convert heat into electricity, solar cells and batteries, but also the energetics of living cells. Before that, a formal basis in the form of thermodynamics and phase diagrams is laid and illustrated using classical cyclic processes like the Carnot and Rankine cycles.

After the course, students:

understand the fundamental concepts and laws for energy conversion and can apply these in calculations
understand the working mechanisms of selected energy conversion devices and systems, and can quantitatively evaluate their performance characteristics
understand and can evaluate/discuss the demands on the materials used in energy conversion
can apply the concepts in novel technological and societal situations

Organization:
The course consists of weekly lectures (2 hrs/week) and tutorials (2 hrs/week) during which the participants actively work with the concepts that are introduced in the lectures. Examination is oral, details will depend on the number of participants and will be communicated during the lectures.

The course is held yearly in the winter semester. Further information on dates, times and locations can be found in the heiCO system. Interested students should register via the heiCO system.

Required knowledge:
The course is intended for master students and assumes the student has a followed introductory courses on physics, chemistry and mathematics.

Topics:

Types of energy
Thermodynamics
Energy in matter
Thermal energy conversion
Phase-change energy conversion
Solar energy and solar cells
Thermoelectric generators
Biological energy
Energy efficiency
Energy storage and batteries

For any further information please contact Martijn Kemerink

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