Professors:J. Kyncl |
Department: 13115 |
Annotation:
The aim of the first part of the course is to make students acquainted with most frequent applications of optical radiation, modern photometric and colorimetric devices used in practice, fundamentals of light control and design of dynamic lighting including new trends in light sources and luminaire progress. The aim of the second part of the course is to become students acquainted with heat transfer laws, heat pumps and problems of global optimization on electrical power engineering.
Class scheme:
1. Heat transfer: Fourier law, heat equation
2. Physical similarity theory, Fourier and Nusselt number
3. Convective heat transfer coefficient at free, forces and transient convection
4. Heat exchangers: equations, types, use
5. Heat pumps: equations, types, use
6. Mathematical models of thermal storage tanks, solar collectors, fluid mixing
7. Humid air thermodynamic principles, Mollier enthalpy diagram
8. Induction heating of materials: circuit access
9. Induction heating of materials: alemag. field access
10. FEM for thermal and elmag. Field, boundary and initial conditions
11. Arc furnaces: types, construction, connection to the grid
12. Arc models and its influence on the grid, higher harmonic frequencies and flicker compensation
13. Supplementary systems for induction heating devices (sources, cooling systems)
14. Reserve
References:
[1] See Attachements (below)
[2] Wolfram, Stephen: The MATHEMATICA® Book
[3] SynthLight Handbook
Heat seminars:
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Tips and tricks:
Secret life of electric light - https://www.youtube.com/watch?v=v0ES9TKAf_4\\