An1(na), An2(na); Statistical Physics 1 recommended but not required
In this course you develop a Physicist's toolkit to understanding (sustainable) energy resources: You get a working knowledge of Thermodynamics and you are introduced to Hydrodynamics.
The fundamentals of the course would appeal to the theoretically inclined: the Thermodynamics is presented in its theoretical framework (with proofs and derivations where applicable); it is the only course at BSc level that deals with Hydrodynamics and non-linear differential equations. However, the emphasis is in making these tractable and on applying them to representative problems (in lectures and exercises) and to one of the most pressing challenges facing society, that of sustainable energy (in project work).
In particular, the course tackles:
the fundamentals of Thermodynamics and how these apply to energy extraction (e.g., efficiencies of heat engines and forms of energy)
the hydrodynamic equations and their simplified versions that are applicable to power from wind and water.
energy transport (conduction, convection, radiation)
Further, there is room for a special topic among: waves, stellar structure or a suitable topic of interest suggested by the class.
The material is treated in lectures and exercise classes. You apply the framework to a sustainable energy source in a group project.
Upon successful completion of the course you will be able to
State the Thermodynamic laws and apply them to classical thermal cycle problems
Derive and apply Thermodynamic relations to describe gasses
Analyze and characterize fluid flows and work out problems of elementary hydrodynamics
Use dimensional analysis to gain insight into hydrodynamic equations and different energy sources and energy conversion systems.
Calculate the energy efficiency of energy conversion stages.
Use Thermodynamic potentials, derive and apply Maxwell's relations
Have an understanding of the phase transitions of water and the operation of steam engines.
Calculate energy gains from energy sources.
Calculate energy losses due to different transport mechanisms.
Make estimates of resources requirements of different energy extraction technologies.
Evaluate the merit of different energy sources based on quantitative comparisons.
Work in groups.
Work on a project (case study) unsupervised, to clear goals, plan and deadlines
Identify relevant trade literature and use it selectively
Prepare a report of an analysis
Present the report in class
Create a exam-type question/problem on the topics of the course.
For detailed information go to Timetable in Brightspace
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For more information, watch the video or go the the 'help-page' in MyTimetable. Please note: Joint Degree students Leiden/Delft have to merge their two different timetables into one. This video explains how to do this.
Mode of Instruction
6EC equivalent to 168 hours
Exam (70%); project work (case study, report, and presentation) (30%)
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