Engineering Thermodynamics - Interactive curriculae of TU Ilmenau
The interactive curriculae provide information on the degree programmes offered by the TU Ilmenau.
Please refer to the respective study and examination rules and regulations for the legally binding curricula (Annex Curriculum).
You can find all details on planned lectures and classes in the course catalogue.
Please note that this page is no longer updated. All modules and study plans from PO version 2021 onwards (Bachelor and Master study programs) are now available on the Campus Portal.
| module properties module number 1614 - common information | |
|---|---|
| module number | 1614 |
| department | Department of Mechanical Engineering |
| ID of group | 2346 (Engineering Thermodynamics) |
| module leader | Prof. Dr. Christian Cierpka |
| language | Deutsch |
| term | Sommersemester |
| previous knowledge and experience | Physikgrundkenntnisse, Mathematikgrundkenntnisse |
| learning outcome | Nach einer Vermittlung der physikalischen Mechanismen der Technischen Thermodynamik sollen die Studierenden in der Lage sein, - technisch relevante thermodynamische Probleme ingenieursmäßig zu analysieren, - die physikalische und mathematische Methoden zur Modellbildung beherrschen, - die problemspezifischen Zustandsänderungen zu erkennen und physikalisch zu interpretieren, - die mathematische Beschreibung von Zustandsänderungen sicher zu verwenden, - die Lösungsansätze gezielt auszuwählen, - die erzielten Lösungen zu diskutieren und auf ihre Plausibilität prüfen zu können. |
| content | - Konzepte und Definitionen - Energieformen und Hauptsätze der Thermodynamik - Ideales Gas - Nassdampf-Thermodynamik - Erhaltungssätze für Kontrollvolumen - Dampfkraftprozesse - Gaskraftprozesse - Wärmepumpen- und Kälteprozesse |
| media of instruction and technical requirements for education and examination in case of online participation | Tafel, Übungsblätter, Powerpoint, Moodle: https://moodle2.tu-ilmenau.de/course/view.php?id=1130 |
| literature / references | 1. Fundamentals of Engineering Thermodynamics, Moran & H.N. Shapiro, Wiley & Sons, New York, 1995 2. Thermodynamik kompakt,B. Weigand & J. von Wolfersdorf, Springer, Berlin, 2016 3. Thermodynamik: Vom Tautropfen zum Solarkraftwerk, R. Müller, De Gruyter, Berlin, 2016 |
| evaluation of teaching | |
| Details reference subject | |
|---|---|
| module name | Engineering Thermodynamics |
| examination number | 2300039 |
| credit points | 4 |
| SWS | 4 |
| on-campus program (h) | 45 |
| self-study (h) | 75 |
| obligation | obligatory module |
| exam | written examination performance, 90 minutes |
| details of the certificate | |
| link to Moodle course | |
| teacher | |
| signup details for alternative examinations | |
| maximum number of participants | |
|
Details
in degree program
Bachelor Biotechnische Chemie 2013, Bachelor Technische Kybernetik und Systemtheorie 2013 ATTENTION: not offered anymore |
|
|---|---|
| module name | Engineering Thermodynamics |
| examination number | 2300039 |
| credit points | 5 |
| on-campus program (h) | 45 |
| self-study (h) | 105 |
| obligation | obligatory module |
| exam | written examination performance, 90 minutes |
| details of the certificate | |
| link to Moodle course | |
| signup details for alternative examinations | |
| maximum number of participants | |