| Anotace | (semestr ) |
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| Basic overview of the thermal protection of buildings, building acoustics, daylighting and the measurement of hygro-thermal quantities.
Heat transfer, thermal conductivity, thermal resistence and thermal transmitance, multidimensional heat transfer, thermal bridges and thermal joints, diffusion of water vapour and vapour condensation, mould growth, transient heat transfer, risk of overheating, low-energy, passive and zero-energy buildings, sound propagation in outdoor and indoor environment, sound insulation in buildings, calculation of noise levels from sound sources, daylighting in buildings, human eye, visual comfort and health aspects, basic photometric quantities, sunlight, assessment methods, glare and view-out, sun in urban structure, basic and advanced daylighting strategies, shading systems, theory of measurement, measurement of parameters of the internal environment, infrared thermography, measurement of the air permeability, monitoring of the building thermal performance. |
| Obsah | |
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1. Heat transfer, thermal transmittance, heat loss by conduction and ventilation, low-energy and zero-energy buildings
2. Thermal bridges and thermal joints, risk of surface condensation and mould growth
3. Diffusion of water vapour and condensation in the constructions, design strategies for hygro-safe constructions
4. Transient heat transfer and thermal inertia, the risk of overheating in summer period
5. Sound pressure, frequency, spectral analysis, perception of sound, sound sources, sound power
6. Outdoor sound propagation, noise barriers, indoor sound propagation, sound absorption, noise limits
7. Airborne sound insulation, weighted sound reduction index, impact sound insulation, weighted normalized impact sound pressure level of floors
8. Daylighting in buildings, visual comfort and health aspects, photometric quantities, requirements on daylight and sunlight, assessment methods
9. Sun in the urban structure (case studies), basic and advanced daylighting strategies, shading systems
10. Introduction to the theory of measurement – estimation of uncertainty, error analysis, accuracy of measurement devices
11. Measurement of selected physical quantities – physical principles, measuring devices, measurement procedures
12. Measurement of parameters of the internal environment, measurement of meteorological conditions, infrared thermography
13. Measurement of the air permeability of buildings (blower door test), measurement of energy consumption. |
| Literatura | |
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Doporučená literatura:
[1] Hugo S. L. Hens: Building Physics - Heat, Air and Moisture: Fundamentals and Engineering Methods with Examples and Exercises, Ernst & Sohn, 2012, ISBN 978-3-433-60235-5.
[2] https://www.who.int/occupational_health/publications/noise.pdf
[3] CIBSE: Lighting Guide 10: Daylighting — A guide for designers: Light in the built environment. The Chartered Institution of Building Services Engineers – The Society of Light and Lighting 2014, ISBN: 978 1 906846 48 0.
[4] FICKER, T.: Handbook of Building Thermal Technology, Acoustics and Daylighting, CERM, Brno 2004, ISBN 80-214-2670-5.
[5] Taylor J.R.: An introduction to error analysis, University science books, Sausalito, 1997, ISBN 0-935702-75-X.
[6] Vollmer, M., Mollman, K.-P.: Infrared Thermal Imaging: Fundamentals, Research and Applications, WILEY-VCH Verlag GmbH & Co. KGaA, 2018, ISBN 978-3-527-41351-5.
Studijní pomůcky:
[7] Study documentation (lectures and other information) available after login to web page of the course.
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| Návaznosti | |
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| Studijní plány | |
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Předmět je zařazen do následujících studijních plánů:
- studijní plán Buildings and Environment (NY2023), skupina Buildings and Environment, 2nd semester (NY20230200), dop. semestr 2 (valid from 2023/24, in 2023 not opened )
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