Course Details

Applied physics

Academic Year 2022/23

DBB012 course is part of 3 study plans

DKC-V Summer Semester 1st year

DKA-V Summer Semester 1st year

DPA-V Summer Semester 1st year

Selected problems from heat conduction. Hydrodynamic a thermokinetic similarity. Heat transfer from a moving heat-carrying medium. Selected problems from heat radiation. Combined transfer of heat.

Course Guarantor

prof. RNDr. Tomáš Ficker, DrSc.

Institute

Institute of Physics

Objective

Mastering advanced knowledge from building thermodynamics. Accent is put on the current research results. Illustrations will have the form of excerpts from journal papers which enables students to acquire basic formal skills necessary for presentation of research results in scientific journals.

Knowledge

Mastering advanced knowledge from building thermodynamics. Accent is put on the current research results. Illustrations will have the form of excerpts from journal papers which enables students to acquire basic formal skills necessary for presentation of research results in scientific journals.

Syllabus

1. Overview of basic notions of heat conduction.
2. Steady state heat conduction through a sandwich cylinder structure.
3. Heat transfer through heterogeneous interphases.
4. Estimation of surface coefficients of heat transfer using the principle of physical similarity.
5. Overview of basic notions of heat convection.
6. Hydrodynamic and thermokinetic similarity.
7. Heat transfer from a moving heat-carrying medium.
8. Overview of basic notions of heat radiation.
9. Kirchhoff laws of radiating field.
10. Radiation of absolute black bodies and gray bodies.
11. Heat exchange between two planes.
12. Radiation within closed air cavities inside building structures.
13. Combined heat transfer.

Prerequisites

Basic knowledge from physical and mathematical courses of bachelor and master studies.

Language of instruction

Czech

Credits

8 credits

Semester

summer

Forms and criteria of assessment

examination

Specification of controlled instruction, the form of instruction, and the form of compensation of the absences

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

Offered to foreign students

Not to offer

Course on BUT site

https://www.vut.cz/en/students/courses/detail/255943

Lecture

13 weeks, 3 hours/week, elective

Syllabus

1. Overview of basic notions of heat conduction.
2. Steady state heat conduction through a sandwich cylinder structure.
3. Heat transfer through heterogeneous interphases.
4. Estimation of surface coefficients of heat transfer using the principle of physical similarity.
5. Overview of basic notions of heat convection.
6. Hydrodynamic and thermokinetic similarity.
7. Heat transfer from a moving heat-carrying medium.
8. Overview of basic notions of heat radiation.
9. Kirchhoff laws of radiating field.
10. Radiation of absolute black bodies and gray bodies.
11. Heat exchange between two planes.
12. Radiation within closed air cavities inside building structures.
13. Combined heat transfer.