Technical Building Facilities I
Niveau
Introduction
Learning outcomes of the courses/module
In respect of the heating, cooling, ventilation and electrical engineering trades, students are able to:
• Describe technical building requirements
• Analyze and calculate technical solutions in the construction sector and compile them in a preliminary planning phase.
• Have professional communication with TGA planners
• Describe technical building requirements
• Analyze and calculate technical solutions in the construction sector and compile them in a preliminary planning phase.
• Have professional communication with TGA planners
Prerequisites for the course
Civil Engineering I (TEC.1), Civil Engineering II (TEC.2)
Course content
• Meteorological fundamentals, comfort
• Heating and cooling loads
• Heating systems: Description and characteristics of the most important components, e.g. heat exchangers, boilers, burners, heat pumps, solar systems, automation equipment
• Ventilation technology: Description and characteristics of the most important components, e.g. fans, air heaters and air coolers, air filters, air humidifiers and dehumidifiers, heat recovery, fire protection, automation equipment.
• Refrigeration: Description and characteristics of the most important components, e.g. refrigerating machines, recooling plants, cooling ceilings, circulating air cooling units
• Electrical engineering: Description and characteristics of the most important components, e.g. distribution, fuses, equipment
• Heating and cooling loads
• Heating systems: Description and characteristics of the most important components, e.g. heat exchangers, boilers, burners, heat pumps, solar systems, automation equipment
• Ventilation technology: Description and characteristics of the most important components, e.g. fans, air heaters and air coolers, air filters, air humidifiers and dehumidifiers, heat recovery, fire protection, automation equipment.
• Refrigeration: Description and characteristics of the most important components, e.g. refrigerating machines, recooling plants, cooling ceilings, circulating air cooling units
• Electrical engineering: Description and characteristics of the most important components, e.g. distribution, fuses, equipment
Recommended specialist literature
• Recknagel, H., et al., 2018. Taschenbuch für Heizung und Klimatechnik 2019/20. 79th edition. Munich: Oldenbourg
• Burkhardt, W. and R. Kraus, 2011. Projektierung von Warmwasserheizungen. 8th edition. Munich: Oldenbourg
• Hausladen, G., K. Tichlmann, 2009. Ausbau Atlas - Integrale Planung, Innenausbau, Haustechnik. 1st edition. Munich: Edition Detail
• Hausladen, G., et al., 2004. ClimaDesign - Lösungen für Gebäude die mit weniger Technik mehr können. Munich: Callwey Verlag
• Daniels, K., 2003. Advanced Building Systems. Munich, Zürich: Birkhäuser
• Büttner, W. et al., 2011. Grundlagen der Elektrotechnik, 1st Munich: Oldenbourg
• Bumiller, H et al., 2018. Fachkunde Elektrotechnik. Haan-Gruiten: Verlag Europa-Lehrmittel
• Burkhardt, W. and R. Kraus, 2011. Projektierung von Warmwasserheizungen. 8th edition. Munich: Oldenbourg
• Hausladen, G., K. Tichlmann, 2009. Ausbau Atlas - Integrale Planung, Innenausbau, Haustechnik. 1st edition. Munich: Edition Detail
• Hausladen, G., et al., 2004. ClimaDesign - Lösungen für Gebäude die mit weniger Technik mehr können. Munich: Callwey Verlag
• Daniels, K., 2003. Advanced Building Systems. Munich, Zürich: Birkhäuser
• Büttner, W. et al., 2011. Grundlagen der Elektrotechnik, 1st Munich: Oldenbourg
• Bumiller, H et al., 2018. Fachkunde Elektrotechnik. Haan-Gruiten: Verlag Europa-Lehrmittel
Assessment methods and criteria
Term paper and written exam
Language
German
Number of ECTS credits awarded
6
Share of e-learning in %
30
Semester hours per week
3.0
Planned teaching and learning method
Blended Learning
Semester/trimester in which the course/module is offered
4
Name of lecturer
Director of Studies
Academic year
Key figure of the course/module
TEC.3
Type of course/module
integrated lecture
Type of course
Compulsory
Internship(s)
none