Thermodynamics

Lecturer:

Jiří Doubrava, Jan Novotný

Tutor:

Josef Adamec, Jiří Doubrava, Renáta Houbová, Tomáš Hyhlík, Lukáš Manoch, Jan Matěcha, Jan Novotný, Michal Schmirler, Jan Slanec, Pavel Šafařík, Blanka Váradiová

Supervisor:

Department of Fluid Dynamics and Thermodynamics

Synopsis:

The course deal with a basic engineering approach to classical thermodynamics, heat transfer and compressible flow through nozzles and diffusers. Basic concepts and principles are introduced, and they are applied mostly to systems behaving as ideal gases or typical vapours. Basic notions associated with ideal mixtures are studied with an emphasis on psychometrics. Heat transfer covers fundamentals of conduction, convection and radiation. Heat exchangers are treated as an engineering application.Exercises and labs are devoted to practical problems and experimental technique.

Requirements:

Syllabus of lectures:

1. Basic thermodynamical concepts.

2. Basic laws of thermodynamics.

3. Mathematical relations of thermodynamics. Ideal gas application.

4. Processes in Ideal gases. Mixtures of ideal gases

5. A general approach to irreversible processes in ideal gases. Mixing.

6. Real gases. Phase change processes.

7. Reversible and irreversible processes in vapours. Throttling.

8. Psychometrics

9. Heat transfer by conduction. The Fourier-Kirchhoff equation. One-dimensional stationary cases.

10. Heat transfer by convection. Overall heat transfer.

11. Heat exchangers. Heat transfer by radiation.

12. Equations of one-dimensional compressible flow. Speed of sound.

13. Nozzles and diffusers.

14. Cycles in engineering application.

Syllabus of tutorials:

Study Objective:

The course deal with a basic engineering approach to classical thermodynamics, heat transfer and compressible flow through nozzles and diffusers. Basic concepts and principles are introduced, and they are applied mostly to systems behaving as ideal gases or typical vapours. Basic notions associated with ideal mixtures are studied with an emphasis on psychometrics. Heat transfer covers fundamentals of conduction, convection and radiation. Heat exchangers are treated as an engineering application.Exercises and labs are devoted to practical problems and experimental technique.

Study materials:

1. Jílek, M.: Thermomechanics, CTU Publishing House, Prague, 2006. 2. Jílek: Exercises and Labs in Thermomechanics, CTU Publishing House, Prague, 2007

Note:

Time-table for winter semester 2011/2012:

	06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon	roomT4:A1-505d Slanec J. 07:15–08:45 (parallel nr.1) Dejvice Ucebna 505droomT4:A1-505d Slanec J. 09:00–10:30 (parallel nr.2) Dejvice Ucebna 505droomT4:C2-438 Doubrava J. 10:45–12:15 (lecture parallel3 parallel nr.25) Dejvice Poslucharna 438roomT4:A1-505d Slanec J. 12:30–14:00 (parallel nr.3) Dejvice Ucebna 505droomT4:A1-505d Slanec J. 14:15–15:45 (parallel nr.4) Dejvice Ucebna 505droomT4:A1-505d Váradiová B. Manoch L. 16:00–17:30 (parallel nr.5) Dejvice Ucebna 505d roomT4:C2-438 Doubrava J. 08:00–10:30 (lecture parallel3) Dejvice Poslucharna 438
Tue	roomT4:A1-505d Šafařík P. 07:15–08:45 (parallel nr.6) Dejvice Ucebna 505droomT4:A1-505d Váradiová B. Manoch L. 09:00–10:30 (parallel nr.7) Dejvice Ucebna 505droomT4:A1-505d Váradiová B. Manoch L. 10:45–12:15 (parallel nr.8) Dejvice Ucebna 505droomT4:A1-505d Schmirler M. 12:30–14:00 (parallel nr.9) Dejvice Ucebna 505droomT4:A1-505d Schmirler M. 16:00–17:30 (parallel nr.10) Dejvice Ucebna 505droomT4:A1-505d Houbová R. 17:45–19:15 (parallel nr.11) Dejvice Ucebna 505d
Fri	roomT4:D1-366 Doubrava J. 14:15–16:45 (lecture parallel1) Dejvice Poslucharna 366 roomT4:A1-505d Schmirler M. 14:15–15:45 (parallel nr.12) Dejvice Ucebna 505droomT4:A1-505d Schmirler M. 16:00–17:30 (parallel nr.13) Dejvice Ucebna 505d
Thu	roomT4:A1-505d Adamec J. 07:15–08:45 (parallel nr.14) Dejvice Ucebna 505droomT4:A1-505d Adamec J. 09:00–10:30 (parallel nr.15) Dejvice Ucebna 505droomT4:A1-505d Slanec J. 12:30–14:00 (parallel nr.16) Dejvice Ucebna 505droomT4:A1-505d Matěcha J. 14:15–15:45 (parallel nr.17) Dejvice Ucebna 505droomT4:A1-505d Matěcha J. 16:00–17:30 (parallel nr.18) Dejvice Ucebna 505droomT4:A1-505d Houbová R. 17:45–19:15 (parallel nr.19) Dejvice Ucebna 505d
Fri	roomT4:A1-505d Váradiová B. Hyhlík T. 07:15–08:45 (parallel nr.20) Dejvice Ucebna 505droomT4:C2-334 Novotný J. 09:00–11:30 (lecture parallel2) Dejvice Poslucharna 334roomT4:A1-505d Novotný J. 12:30–14:00 (parallel nr.23) Dejvice Ucebna 505droomT4:A1-505d Novotný J. 14:15–15:45 (parallel nr.24) Dejvice Ucebna 505d roomT4:A1-505d Hyhlík T. 09:00–10:30 (parallel nr.21) Dejvice Ucebna 505droomT4:A1-505d Hyhlík T. 10:45–12:15 (parallel nr.22) Dejvice Ucebna 505d

Time-table for summer semester 2011/2012:

Time-table is not available yet

The course is a part of the following study plans: