M949 – Innovation in Industry and Transportation

Modul
Innovation in Industry and Transportation
Innovation in Industry and Transportation
Modulnummer
M949
Version: 1
Fakultät
Maschinenbau
Niveau
Master
Dauer
1 Semester
Turnus
Wintersemester
Modulverantwortliche/-r

Prof. Dr.-Ing. Gunther Göbel
gunther.goebel(at)htw-dresden.de

Dozent/-in(nen)

Prof. Dr.-Ing. Gunther Göbel
gunther.goebel(at)htw-dresden.de
Dozent/-in in: "Innovation in Industry and Transportation"

Prof. Dr.-Ing. Thomas Grischek
thomas.grischek(at)htw-dresden.de
Dozent/-in in: "Innovation in Industry and Transportation"

Dipl.-Ing. (FH) Jakob Ebermann
jakob.ebermann(at)htw-dresden.de
Dozent/-in in: "Innovation in Industry and Transportation"

Prof. Dr.-Ing. Gunther Claus Stehr
gunther.stehr(at)htw-dresden.de
Dozent/-in in: "Innovation in Industry and Transportation"

Lehrsprache(n)

Englisch
in "Innovation in Industry and Transportation"

ECTS-Credits

3.00 Credits

Workload

90 Stunden

Lehrveranstaltungen

2.00 SWS (2.00 SWS Übung)

Selbststudienzeit

60.00 Stunden

Prüfungsvorleistung(en)
Keine
Prüfungsleistung(en)

Alternative Prüfungsleistung - Beleg
Modulprüfung | Wichtung: 100% | wird in englischer Sprache abgenommen
in "Innovation in Industry and Transportation"

Lehrform

Seminar

Medienform
Keine Angabe
Lehrinhalte/Gliederung

Overview in various areas of environmental engineering. This includes e-mobility, production technology, space technology, energy efficiency, solar energy, facility management. Examples for specific topics are:

  • Production with a small ecological footprint: Energy efficient production methods

  • Surface technologies as a key factor for environmental applications

  • Challenges of e-mobility for the industrial production: new designs, materials and production concepts”

  • Solar thermal use of solar energy (non-concentrating and concentrating collectors, solar thermal systems, solar power stations), Photovoltaics (solar cell, losses, energy storage,…)

  • Modern fluid pumping technologies, including case study
  • Introduction to hydraulic fracking
  • Differentiation and industrial use of algae
  • Innovative propulsion technology for aerospace
Qualifikationsziele
  • Students will gain insights into environmental aspects of modern technology. This includes background information on world wide energy demand and distribution, main industrial consumption and modern use of renewable energies (including physical principles, most important components etc).
  • Students will have an understanding of current production trends driven by ecological demands and be able to describe modern production methods like joining or surface technologies to answer these demands
  • Students will be able to describe latest environmental technologies in specialist areas, and discuss these innovations in detail and have a basic knowledge of the economic aspects of renewable energy and e-mobility.
Sozial- und Selbstkompetenzen
Keine Angabe
Besondere Zulassungsvoraussetzung
Keine Angabe
Empfohlene Voraussetzungen

Minimum of four semesters previous studies in an Engineering or Environmental Science program.

Knowledge of English language on the level of B1.

Fortsetzungsmöglichkeiten
Keine Angabe
Literatur
  • Peuser, F. (2011) Solar Thermal Systems: Successful Planning and Construction. Solarpraxis, ISBN 978-1849713313.
  • Häberlin, H. (2012) Photovoltaics: System Design and Practice. VDE-Verlag, ISBN 978-3800733514.
  • Gevorkian, P. (2012) Large-Scale Solar Power System Design. Cambridge University Press, ISBN 978-1107027688.
Aktuelle Lehrressourcen

Lehrmaterial und Einschreiblisten sind über die Lehr- und Lernplattform OPAL verfügbar

Link zum OPAL-Katalog der Fakultät Maschinenbau

Hinweise
Keine Angabe