Thermodynamics II
| Vortragende/r (Mitwirkende/r) | |
|---|---|
| Nummer | 0000002081 |
| Art | Vorlesung |
| Umfang | 2 SWS |
| Semester | Wintersemester 2022/23 |
| Unterrichtssprache | Englisch |
| Stellung in Studienplänen | Siehe TUMonline |
| Termine | Siehe TUMonline |
- 21.10.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 28.10.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 04.11.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 11.11.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 18.11.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 25.11.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 02.12.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 09.12.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 16.12.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 23.12.2022 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 13.01.2023 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 20.01.2023 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 27.01.2023 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 03.02.2023 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
- 10.02.2023 09:00-10:30 019, LMU Hörsaal im Physik Werkstattgebäude
Teilnahmekriterien
Lernziele
The aim of the course is to advance the knowledge gained from the Thermodynamics I lectures by a few new aspects:
1) towards non-equilibrium and more realistic conditions,
2) towards the consideration of Heat Transfer, Chemical Reactions, and Compressible Flow, and
3) towards applications in aerospace and energy engineering.
1) towards non-equilibrium and more realistic conditions,
2) towards the consideration of Heat Transfer, Chemical Reactions, and Compressible Flow, and
3) towards applications in aerospace and energy engineering.
Beschreibung
The contents of the new Thermodynamics II lectures are:
1) Review of TD1 and outline of TD2,
– Recap: 1st law, 2nd law and applications for different cycles
2) Gas mixtures:
– Composition,
– p-v-T diagrams,
– Properties.
3) Gas-vapor mixtures:
– Specific and relative humidity of air,
– Humid air properties,
– Processes in Air-conditioning (HVAC).
4) Heat transfer processes:
– Basic heat transfer modes,
– Simplified heat transfer consideration in engineering systems.
5) Chemical reactions:
– Ideal and actual combustion processes,
– Enthalpy of formation and combustion,
– First law analysis of a reacting systems,
– Adiabatic flame temperature,
– Entropy change of reacting systems,
– Second law analysis of reacting systems.
6) Chemical and phase equilibrium:
– Criterion of chemical equilibrium,
– Equilibrium for ideal gases,
– Chemical equilibrium for simultaneous reactions,
– Phase equilibrium.
7) Compressible flow:
– Mach number, Stagnation properties ,
– One-dimensional, isentropic flow,
– Shock wave and expansion wave,
– Duct flow with heat transfer.
8) Renewable energies:
– Energy and environmental technologies overview,
– Solar energy,
– Wind energy,
– Geothermal, hydrothermal, biomass,
– Energy storage systems.
1) Review of TD1 and outline of TD2,
– Recap: 1st law, 2nd law and applications for different cycles
2) Gas mixtures:
– Composition,
– p-v-T diagrams,
– Properties.
3) Gas-vapor mixtures:
– Specific and relative humidity of air,
– Humid air properties,
– Processes in Air-conditioning (HVAC).
4) Heat transfer processes:
– Basic heat transfer modes,
– Simplified heat transfer consideration in engineering systems.
5) Chemical reactions:
– Ideal and actual combustion processes,
– Enthalpy of formation and combustion,
– First law analysis of a reacting systems,
– Adiabatic flame temperature,
– Entropy change of reacting systems,
– Second law analysis of reacting systems.
6) Chemical and phase equilibrium:
– Criterion of chemical equilibrium,
– Equilibrium for ideal gases,
– Chemical equilibrium for simultaneous reactions,
– Phase equilibrium.
7) Compressible flow:
– Mach number, Stagnation properties ,
– One-dimensional, isentropic flow,
– Shock wave and expansion wave,
– Duct flow with heat transfer.
8) Renewable energies:
– Energy and environmental technologies overview,
– Solar energy,
– Wind energy,
– Geothermal, hydrothermal, biomass,
– Energy storage systems.
Inhaltliche Voraussetzungen
Thermodynamics I
in Aerospace or Mechanical Engineering
in Aerospace or Mechanical Engineering
Studien-, Prüfungsleistung
Written Exam
Empfohlene Literatur
(1) Achim Schmidt, Technical Thermodynamics for Engineers: Basics and Applications, Springer Nature, 2022 ISBN: 3030971503.
(2) Hans Dieter Baehr, Stephan Kabelac, Thermodynamik – Grundlagen und technische Anwendungen, 16. , aktualisierte Aufl. 2016. ISBN: 3662495678 (German)
(3) Çengel, Yunus A., Thermodynamics – an engineering approach, Eighth edition, New York, McGraw-Hill Education. 2015. ISBN: 9780073398174
(2) Hans Dieter Baehr, Stephan Kabelac, Thermodynamik – Grundlagen und technische Anwendungen, 16. , aktualisierte Aufl. 2016. ISBN: 3662495678 (German)
(3) Çengel, Yunus A., Thermodynamics – an engineering approach, Eighth edition, New York, McGraw-Hill Education. 2015. ISBN: 9780073398174