Course Manual SYE
Systems Engineering for Energy Efficiency
PDF
Course Catalog
Deutsche Version: SYE
Version: 4 | Last Change: 30.09.2019 21:04 | Draft: 0 | Status: vom verantwortlichen Dozent freigegeben
Long name |
Systems Engineering for Energy Efficiency
|
Approving CModule |
SYE_MaET
|
Responsible |
Prof. Dr. Johanna May Professor Fakultät IME
|
Valid from |
winter semester 2020/21 |
Level |
Master |
Semester in the year |
winter semester |
Duration |
Semester |
Hours in self-study |
78 |
ECTS |
5 |
Professors |
Prof. Dr. Johanna May Professor Fakultät IME
|
Requirements |
Bachelor electrical engineering, renewable energy or comparable |
Language |
German, English if necessary
|
Separate final exam |
Yes |
Literature
M. Pehnt: Energieeffizienz: Ein Lehr- und Handbuch, Springer, 1. korrigierter Nachdruck 2010, ISBN 9783642142512
|
M. Günther: Energieeffizienz durch Erneuerbare Energien: Möglichkeiten, Potenziale, Systeme, Springer Fachmedien Wiesbaden, 2015, ISBN 9783658067533 |
F. Wosnitza, H.G. Hilgers: Energieeffizienz und Energiemanagement: Ein Überblick heutiger Möglichkeiten und Notwendigkeiten, Vieweg + Teubner Verlag, 2012, ISBN 9783834886712 |
J. Hesselbach: Energie- und klimaeffiziente Produktion: Grundlagen, Leitlinien und Praxisbeispiele, Vieweg + Teubner Verlag, 2012, ISBN 9781280786358 |
Recherche über scopus, Webinare der EU (leonardo) |
Final exam
Details |
project presentation with background documentation (50%) oral exam (50%)
|
Minimum standard |
project: at least 50% of tasks from project task completed
oral exam: at least 50% of questions answered correctly
|
Exam Type |
EN andere summarische Prüfungsform
|
Learning goals
Goal type |
Description |
Knowledge |
electrical power measurements and thermography (lab), analyse load profiles and simulation in python, use relevant standards for evaluation of energy payback time, economic viability and life cycle analysis, overview over most frequenz energy efficiency measures (pressurized air, lighting, heat recovery) |
Skills |
translate functional requirements on systems and products into technical key parameters and document knowlegde, apply measurements and critically evaluate own and data from literature, find influencing factors, use creativity methods, simulate strong influence factors in functional models and evaluate potentials for improvement quantitatively, evaluate acceptance from different viewpoints |
Expenditure classroom teaching
Type |
Attendance (h/Wk.) |
Lecture |
2 |
Exercises (whole course) |
1 |
Exercises (shared course) |
0 |
Tutorial (voluntary) |
0 |
Accompanying material
|
manuscript, slides
|
Separate exam
|
No
|
Learning goals
Goal type |
Description |
Knowledge |
thermography, measurement of electrical energy of more or less energy efficient consumers, measure electrical load profiles (at home), critical evaluation of measurement uncertainty |
Expenditure classroom teaching
Type |
Attendance (h/Wk.) |
Practical training |
1 |
Tutorial (voluntary) |
0 |
Accompanying material
|
instructions for lab classes, safety instructions
|
Separate exam
|
No
|
Learning goals
Goal type |
Description |
Skills |
apply methods of lecture to a specific (every semester newly conceived) project topic in the area of energy efficiency, work in a team |
Expenditure classroom teaching
Type |
Attendance (h/Wk.) |
Project |
0 |
Tutorial (voluntary) |
0 |
Accompanying material
|
project task description
|
Separate exam
|
No
|
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