Czech

Not applicable.

Institute of Building Structures (PST)

Student will be able to design construction to rise of the Fundamentals in thermal evaluation of buildings. Design of building constructions with respect of thermal insulation requirements. Evaluation of thermal comfort and energy efficiency of buildings. Introduction to solving basic equation of stress analysis and introduction to basics of fracture mechanics with respect to typical structural materials.

Fundamentals in Matematics, Thermal Transfer and thermal properties of building materials. Fundamental knowledge in Acoustics and Photometry. Basics of theory of elasticity – stress, principal stress, deformation, strain, Hooke law.

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Requirements for successful completion of the subject are specified by guarantor’s regulation updated for every academic year.

1. Thermal comfort in buildings, heat transfer, thermal properties of building materials.
2. Steady state thermal evaluations. Heat transfer through building constructions. Calculation of the overall heat transfer coefficient. Thermal bridges in building constructions. Temperature distribution in building constructions – temperature profiles. 3. Determination of the condensation region within building constructions. Annual balance of evaporated and condensed vapour within building constructions.
4. Non-steady state thermal conditions, temperature damping of building constructions. Thermal receptivity of floor finishings. Thermal stability of the reference room.
5. Energy saving requirements for buildings. Evaluation of energy efficiency of buildings.
6. Basic terminology and quantities of building acoustics, sound propagation, sonic field. Air-borne and structure-borne sound reduction.
7. Daylighting, sky luminance, daylight factor assessment of a room.
8. Plane stress analysis.
9. Application of Airy stress function to solving of basic equations of linear stress analysis, approximate methods.
10. Fracture mechanics – introduction, linear elastic fracture mechanics.
11. Non-linear fracture mechanics. Approximate methods of non-linear fracture.
12. Fracture parameters – methods od determination. Brittleness, size effect.
13. Using of finite element methods in solution of fracture mechanics problems; application to structural materials: plain/reinforced concrete, high strength/performance concrete, ceramics, metals.

Not applicable.

Construction must be design for so that not happen to rise of the Fundamentals in thermal evaluation of buildings. Design of building constructions with respect of thermal insulation requirements. Evaluation of thermal comfort and energy efficiency of buildings. Summary of basic requirements for buildings and their constructions from thermal, acoustic and visual comfort point of view. Introduction to solving basic equation of stress analysis and introduction to basics of fracture mechanics with respect to typical structural materials.

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Not applicable.

Not applicable.

Maier,K.: Územní plánování. ČVUT Praha, 1997. (CS)
Marhold,K.: Obnova sídel. FA ČVUT Praha, 1989. (CS)

Rukojeť projektanta. ÚSES, 0. (CS)