Heating and Cooling Technology

Studiengang

Masterstudiengang Umwelt-, Verfahrens- & Energietechnik

Kennzahl der Lehrveranstaltung

UVET_MA17_3_14

Anzahl der zugewiesenen ECTS-Credits

2.5

Name des/der Vortragenden

Renzler Michael, PhD

Art der Veranstaltung

face-to-face

empfohlene optionale Programmeinheiten

Derzeit nur in Englisch verfügbar
none

empfohlene Fachliteratur

Derzeit nur in Englisch verfügbar
- Bäck, H. J. et.al.: Anlagenmechanik Sanität-, Heizungs- und Klimatechnik, Westermann Verlag, 2010
- Quaschning, V.: Regenerative Energiesysteme, Hanser Verlag, 2008
- Kaltschmitt, M., Streicher, W.: Regenerative Energien in Österreich, Vieweg&Teubner, 2009
- Boyle, G.: Renewable Energy, Oxford university press, 2004
- Karl, J.: Dezentrale Energiesysteme, Oldenburg Wissenschafts-verlag GmbH, 2004

Prüfungsmethode

Exam, Course immanent examination, Homework

Zusatzinfo zu Prüfungsmodalidäten

Assessment: 100Pkt. written examination

If the number of participants is low, an oral examination is also possible in the case of a re-examination.

Attendance requirement: 75%

Niveau der Lehrveranstaltung laut Lehrplan

Master

Studienjahr

Fall 2025

Semester in dem die Lehrveranstaltung angeboten wird

3

Unterrichtssprache

English

Lernergebnisse der Lehrveranstaltung

Derzeit nur in Englisch verfügbar
Students gain well-founded knowledge in heating, ventilation, and air conditioning. They develop a detailed understanding of the most recently developed renewable technologies and the ability to combine them with conventional systems. Moreover, students get to know the fundamentals of building technology with a special focus on low-energy, passive, and energy-plus houses. Students can apply their knowledge of basic engineering to modern heating and air conditioning systems.
Students have the ability to evaluate the technical and economic feasibility of alternative, non-material-conversion concepts of energy supply. This means they know how to assess the input and output of, for example, solar systems, and photovoltaic power plants qualitatively and quantitatively. Furthermore, they can design intelligent solutions for the interaction between several systems.

Voraussetzungen laut Lehrplan

Derzeit nur in Englisch verfügbar
SC, CPD, APT2, EE2

Lehrinhalte

Derzeit nur in Englisch verfügbar
• Advanced knowledge of conventional heating, ventilation, and air conditioning technologies
• Geotechnical and hydrological foundations for the use of near-surface geothermal energy
• Current state of technology and research in the use of geothermal energy for the operation of heat pumps
• Current state of technology and research in the use of solar thermal energy
• Current state of technology and research in air conditioning (air conditioning, refrigeration, etc.)
• Building technology, thermal insulation, energy consumption standards
• Intelligent solutions for the combination of renewable systems and conventional heating and air conditioning systems
• Technical calculations of conventional heating and air conditioning technology
• Technical calculations for the combined application of conventional air conditioning and renewable technology
• Calculations of the potential of new technologies
• Considerations of the overall ecological and economic use of different renewable systems and respective combinations

Lehr- und Lernformen

Derzeit nur in Englisch verfügbar
The course comprises an interactive mix of lectures, discussions and individual work.

Praktikum

none

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