Subject description - AE1M15EST

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AE1M15EST Electrical Light and Heat Extent of teaching:2+2c
Guarantors:  Roles:PO,V Language of
Teachers:  Completion:Z,ZK
Responsible Department:13115 Credits:5 Semester:Z


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.

Course outlines:

1. Receivers of optical radiation. Devices for modern objective photometry and colorimetry.
2. Utilisation of optical radiation in practice.
3. Daylight and insolation.
4. Spatial characteristics of lighting. Characteristics of the light field.
5. Control of lighting systems. Dynamic lighting.
6. Properties and characteristics of modern light sources.
7. New trends in lighting systems.
8. Heat, temperature, laws of conservation, continuity of mass flow, Fourier law, Fourier Kirchhoff equation.
9. Convective heat transfer, criterial correlations for convective heat transfer coefficient assessment.
10. Radiant heat transfer laws, configuration factors, radiant heat exchange.
11. Complex heat transfer problems, SW for FEM calculations.
12. Thermal comfort of human being, electrical heating and air conditioning of interiors
13. Heat pumps, heat exchangers, energy saving in heating of buildings.
14. Optimization methods in electrical power engineering.

Exercises outline:

1. Measurement of illuminance and luminance.
2. Measurement of luminous flux.
3. Measurement of luminous intensity.
4. Flux balance model.
5. Illuminance calculations.
6. Light calculation programs.
7. Examples of light sources and luminaires.
8. Thermal field calculations in Mathematica SW.
9. Convective heat transfer coefficient assessment - free and forced convection.
10. Calculations of radiant heat exchange.
11. Complex heat transfer problems, SW for FEM calculations.
12. Thermal comfort evaluation, Mollier diagram of wet air basic use.
13. Calculation of properties of systems with heat pumps.
14. Examples of optimization techniques in electrical power engineering.


Study materials are available at


Requirements to obtain the assessment are exercises attendance and a term thesis elaborating. Successful exam passing is determined in the Study and Examination Code of CTU in Prague.


Subject is included into these academic programs:

Program Branch Role Recommended semester
MEKME1 Wireless Communication V 1
MEKME5 Systems of Communication V 1
MEKME4 Networks of Electronic Communication V 1
MEKME3 Electronics V 1
MEKME2 Multimedia Technology V 1
MEOI1 Artificial Intelligence V 1
MEOI5NEW Software Engineering V 1
MEOI5 Software Engineering V 1
MEOI4 Computer Graphics and Interaction V 1
MEOI3 Computer Vision and Image Processing V 1
MEOI2 Computer Engineering V 1
MEEEM3 Electrical Power Engineering PO 1
MEKYR4 Aerospace Systems V 1
MEKYR1 Robotics V 1
MEKYR3 Systems and Control V 1
MEKYR2 Sensors and Instrumentation V 1

Page updated 14.6.2019 17:52:56, semester: Z,L/2020-1, L/2018-9, Z,L/2019-20, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)