- Clausius-Clapeyron equation
- Introduction to molecular thermodynamics / kinetic theory of gases
- Mixtures of ideal gases: thermal and caloric equation of state, entropy, mixture entropy
- Humid air, Mollier diagram, fundamentals of air-conditioning technology
- Equations of state of real substances: cubic equations of state and equations of virial type, thermal and caloric properties, phase equilibrium, stability of fluid phases
- Introduction to chemical thermodynamics: stoichiometry, standard enthalpy of formation, chemical equilibrium
Module MV-TD-19-M-4
Thermodynamics II (M, 4.0 LP)
Module Identification
| Module Number | Module Name | CP (Effort) |
|---|---|---|
| MV-TD-19-M-4 | Thermodynamics II | 4.0 CP (120 h) |
Basedata
| CP, Effort | 4.0 CP = 120 h |
|---|---|
| Position of the semester | 1 Sem. in SuSe |
| Level | [4] Bachelor (Specialization) |
| Language | [DE] German |
| Module Manager | |
| Lecturers | |
| Area of study | [MV-LTD] Engineering Thermodynamics |
| Reference course of study | [MV-82.103-SG] B.Sc. Mechanical Engineering |
| Livecycle-State | [NORM] Active |
Courses
| Type/SWS | Course Number | Title | Choice in Module-Part | Presence-Time / Self-Study | SL | SL is required for exa. | PL | CP | Sem. | |
|---|---|---|---|---|---|---|---|---|---|---|
| 3V+1U | MV-TD-86051-K-4 | Thermodynamics II
| P | 56 h | 64 h | - | - | PL1 | 4.0 | SuSe |
- About [MV-TD-86051-K-4]: Title: "Thermodynamics II"; Presence-Time: 56 h; Self-Study: 64 h
Examination achievement PL1
- Form of examination: written exam (Klausur) (90-120 Min.)
- Examination Frequency: each semester
- Examination number: 10051 ("Thermodynamics II")
Evaluation of grades
The grade of the module examination is also the module grade.
Contents
Competencies / intended learning achievements
1. Lecture
Students will be able to
- describe basic thermodynamic concepts
- reproduce the main working methods of thermodynamics
- characterize the thermodynamic properties of pure substances and simple fluid mixtures
- analyze or develop elementary processes of air conditioning technology
- explain basic concepts of chemical thermodynamics
2. Exercise:
Students will be able to
- work out independently the methods discussed in the lecture
- analyze and solve thermodynamic problems with real substance equations, mixtures, humid air and chemical reactions
Literature
- P. Stephan, K. Schaber, K. Stephan, F. Mayinger: Thermodynamik, Band 1 Einstoffsysteme; 16. Auflage, Springer, Berlin (2006)
- M.M. Abbott, H.C. van Ness: Thermodynamik, Theorie und Anwendungen; McGraw-Hill, Hamburg (1987)
- H.D. Baehr, S. Kabelac: Thermodynamik; 13. Auflage, Springer, Berlin (2006)
Requirements for attendance (informal)
Modules:
Requirements for attendance (formal)
None
References to Module / Module Number [MV-TD-19-M-4]
| Course of Study | Section | Choice/Obligation |
|---|---|---|
| [MV-82.103-SG] B.Sc. Mechanical Engineering | Ingenieurwissenschaftliche Grundlagen I (IWG I) | [P] Compulsory |
| [MV-82.814-SG] B.Sc. Mechanical Engineering with a minor in Economics | Ingenieurwissenschaftliche Grundlagen I | [P] Compulsory |
| [MV-82.B10-SG] B.Sc. Energy and Process Engineering | Ingenieurwissenschaftliche Grundlagen I | [P] Compulsory |
| [MV-82.A29-SG] B.Sc. Biological and Chemical Engineering | Ingenieurwissenschaftliche Grundlagen | [P] Compulsory |
| [PHY-82.B90-SG] B.Sc. TechnoPhysics | Grundlagen des Maschinenbaus | [P] Compulsory |
| [WIW-82.?-SG#2021] B.Sc. Business Administration and Engineering specialising in Mechanical Engineering 2021 [2021] | Engineering | [WP] Compulsory Elective |
Notes on the module handbook of the department Mechanical and Process Engineering
Ausnahmen: