Člověk je si vždycky spíš více vědom svých individuálních útrap než své surovosti vůči těm druhým.
-- Josef Čapek

Hlavní strana


Diskuzní fórum
Poslední změny
Etický kodex
Hlášení chyb

  © 1999-2008 HEAT

JSPWiki v2.4.104
Verze k tisku
This is version 2. It is not the current version, and thus it cannot be edited.
[Back to current version]   [Restore this version]

   Electrical Heat

Professors:J. Kyncl
Department: 13115

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

[1] See Attachements (below)
[2] Wolfram, Stephen: The MATHEMATICA® Book
[3] SynthLight Handbook
Heat seminars:

Tips and tricks:
Secret life of electric light - https://www.youtube.com/watch?v=v0ES9TKAf_4\\


25102019.zip Info on 25102019.zip 4480 bytes
ETTvstupni.doc Info on ETTvstupni.doc 35840 bytes
Electrical Heat 2017.zip Info on Electrical Heat 2017.zip 412409 bytes
Thermodynamics_of_humid_air.pdf Info on Thermodynamics_of_humid_air.pdf 4028182 bytes
convection.nb Info on convection.nb 13575 bytes
convection18102019.zip Info on convection18102019.zip 10635 bytes
convection2018.nb Info on convection2018.nb 21103 bytes
convection2019.nb Info on convection2019.nb 7337 bytes
englMolier.nb Info on englMolier.nb 8348 bytes
heatPumpExample.nb Info on heatPumpExample.nb 18336 bytes
heatPumps.zip Info on heatPumps.zip 1403695 bytes
hx2-1.nb Info on hx2-1.nb 17788 bytes
induction1a2018.nb Info on induction1a2018.nb 11261 bytes
pptDeskac.ppt Info on pptDeskac.ppt 1669632 bytes
teppohoda.nb Info on teppohoda.nb 14577 bytes
thermalComfort.nb Info on thermalComfort.nb 14319 bytes
thermalComfort.ppt Info on thermalComfort.ppt 514560 bytes
trubkac1.ppt Info on trubkac1.ppt 826880 bytes
trubkac2.ppt Info on trubkac2.ppt 3939328 bytes
trubkac3.ppt Info on trubkac3.ppt 2742784 bytes
vstupniTestETT.doc Info on vstupniTestETT.doc 51200 bytes
ëxchanger2.nb Info on ëxchanger2.nb 36686 bytes
Více informací... Přihlášení
This particular version was published on 15:21 08.03.2018 by musallub.