Course Details

Building physics 1

Academic Year 2025/26

BHA026 course is part of 1 study plan

BPC-EVB Summer Semester 2nd year

Course Guarantor

Institute

Language of instruction

Czech

Credits

3 credits

Semester

summer

Forms and criteria of assessment

course-unit credit

Offered to foreign students

Not to offer

Course on BUT site

Exercise

13 weeks, 2 hours/week, compulsory

Syllabus

  • 1. Stationary 1D heat conduction - Basic introduction by program, calculation methodology and evaluation.
  • 2. Stationary 1D heat conduction - Basic introduction by program, calculation and evaluation methodology, second part.
  • 3. Stationary 1D heat conduction - humidity balance on model examples, expression of embedded thermal bridge.
  • 4. Stationary 1D heat conduction - Issues of Built-in Moisture Construction on Model Examples.
  • 5. Stationary 1D heat conduction - Calculation of the touch temperature drop and solution variants, calculation of average heat transfer coefficient - Envelope label of the building in the table editor.
  • 6. Stationary 2D heat conduction - Basic introduction by program, calculation and evaluation methodology, coordinate input, evaluation and reading of graphs.
  • 7. Stationary 2D heat conduction - Basic introduction by program, calculation and evaluation methodology, input using the superstructure.
  • 8. Stationary 2D heat conduction - calculation of the linear thermal transmittance (wall and base).
  • 9. Stationary 2D heat conduction - calculation of the linear thermal transmittance (wall-wall, wall-roof, wall-window).
  • 10. Stationary 2D heat conduction - calculation of heat transfer coefficient based on thermal flow of structures, thermal bridge representation and comparison with 1D solution and manual solution (first example).
  • 11. Stationary 2D heat conduction - Calculation of heat transfer coefficient based on thermal flow of structures, thermal bridge representation and comparison with1D solution and manual solution (second example).
  • 12. Stationary 2D heat conduction - input of a remote software environment.
  • 13. Stationary 2D heat conduction - input of a remote software environment.