Heat and Moisture Transfer in Environmental Engineering (E161051)
Departments: | ústav techniky prostředí (12116) |
Abbreviation: | | Approved: | 27.02.2017 |
Valid until: | ?? | Range: | 2P+1C |
Semestr: | * | Credits: | 4 |
Completion: | Z,ZK | Language: | EN |
Annotation
Theoretical fundamentals of heat and moisture transfer and their application in environmental engineering.
· Stationary and non-stationary heat conduction.
· Heat transfer by convection, classification of heat convection cases, natural convection currents in enclosed
spaces.
· Heat transfer modelling, similitude criteria, criterion equations.
· Heat transfer by radiation, spectral and directional properties of surfaces and heat radiation.
· Heat flow in an enclosed system of diffuse grey surfaces, mean radiant temperature in a room.
· Solar radiation, direct and diffuse irradiation of the building, radiation of the Earth and building towards the sky.
· Combined heat transfer – heat transfer through wall, heat loss from piping and heat storage tanks.
· Outdoor climatic conditions, design conditions, characteristic curves.
· Heat transfer through opaque building structures, sol-air temperature, heat accumulation effect.
· Heat transfer through translucent building structures, thermal and optical properties of glazing.
· Moisture transfer by diffusion and convection, similitude criteria, criterion equations.
· Moisture transfer in air and building structures.
· Combined heat and moisture transfer, analogy between heat and mass transfer by diffusion and convection, wetbulb
thermometer temperature.
Teacher's
Ing. Martin Barták Ph.D.
Zimní 2022/2023
Ing. Martin Barták Ph.D.
Zimní 2021/2022
Structure
Theoretical fundamentals of heat and moisture transfer and their application in environmental engineering.
· Stationary and non-stationary heat conduction.
· Heat transfer by convection, classification of heat convection cases, natural convection currents in enclosed
spaces.
· Heat transfer modelling, similitude criteria, criterion equations.
· Heat transfer by radiation, spectral and directional properties of surfaces and heat radiation.
· Heat flow in an enclosed system of diffuse grey surfaces, mean radiant temperature in a room.
· Solar radiation, direct and diffuse irradiation of the building, radiation of the Earth and building towards the sky.
· Combined heat transfer – heat transfer through wall, heat loss from piping and heat storage tanks.
· Outdoor climatic conditions, design conditions, characteristic curves.
· Heat transfer through opaque building structures, sol-air temperature, heat accumulation effect.
· Heat transfer through translucent building structures, thermal and optical properties of glazing.
· Moisture transfer by diffusion and convection, similitude criteria, criterion equations.
· Moisture transfer in air and building structures.
· Combined heat and moisture transfer, analogy between heat and mass transfer by diffusion and convection, wetbulb
thermometer temperature.
Structure of tutorial
Heat transfer by conduction in plane and cylidrical wall; natural and forced convection; similarity and dimensionless correlations for convective heat transfer; heat radaition; solar radiation on opaque and transparent walls; combined heat transfer; heat exchangers.
Literarture
Hens, H. Building Physics – Heat, Air and Moisture: Fundamentals and Engineering Methods with Examples and
Excersises. Berlin: Enrst & Sohn, 2012. 315 s. ISBN 978-3433030271.
Lienhard IV J.H. and Lienhard V J.H. A Heat Transfer Textbook, 4th ed. Cambridge, MA : Phlogiston Press,
2018. 755 pp. [e-book ver. 2.12].