Markus Ettlin: Katalogdaten im Frühjahrssemester 2016 |
Name | Herr Markus Ettlin |
Adresse | Inst. f. Technologie in der Arch. ETH Zürich, HIB E 35 Stefano-Franscini-Platz 1 8093 Zürich SWITZERLAND |
ettlin@arch.ethz.ch | |
Departement | Architektur |
Beziehung | Dozent |
Nummer | Titel | ECTS | Umfang | Dozierende | |
---|---|---|---|---|---|
051-0854-00L | Bauphysik I: Wärme und Akustik | 2 KP | 3G | J. Carmeliet, M. Ettlin | |
Kurzbeschreibung | Heat: Stationary heat transport: conduction, convection and radiation Heat transport through transparent elements Akustik: Grundlagen des Schallschutzes und der Raumakustik | ||||
Lernziel | Heat: The goals are to acquire basic knowledge of stationary heat transport and building acoustics skills for application of knowledge for the design and performance analysis of buildings and building components. The students have basic knowledge in the following fields: 1. Heat transport. general: definitions, conduction, convection and radiation 2. Stationary heat transport 3. Conduction: Transport and heat conservation, •1-dimensional conduction: thermal resistance, single and multi-layered walls, U-value, axi-symmetric problems (tubes), 2D and 3D heat transport: thermal bridges. 4. Convection: Driving forces and nature of flow, convective heat transfer coefficient. 5. Radiation: General: definitions, Radiation between black bodies,• Radiation between grey bodies, Heat transfer coefficient for radiation •Solar radiation. 6. Heat transport through transparent elements: glass, advanced glazing Akustik: Die Studierenden erwerben Grundlagenwissen in folgenden Gebieten: Schall, Schallwahrnehmung, Eigenschaften von Schallwellen, Schallausbreitung, Rechtliche und Planerische Grundlagen, Luftschalldämmung, Trittschalldämmung, Raumakustik. Die Studierenden können einfache Schalldämmnachweise und Nachhallzeitberechnungen selbständig erstellen. | ||||
Inhalt | HEAT: The goals are to acquire basic knowledge of stationary heat transport and building acoustics skills for application of knowledge for the design and performance analysis of buildings and building components. The students have basic knowledge in the following fields: 1. Heat transport. general: definitions, conduction, convection and radiation 2. Stationary heat transport 3. Conduction: Transport and heat conservation, •1-dimensional conduction: thermal resistance, single and multi-layered walls, U-value, axi-symmetric problems (tubes), 2D and 3D heat transport: thermal bridges. 4. Convection: Driving forces and nature of flow, convective heat transfer coefficient. 5. Radiation: General: definitions, Radiation between black bodies,• Radiation between grey bodies, Heat transfer coefficient for radiation •Solar radiation. 6. Heat transport through transparent elements: glass, advanced glazing AKUSTIK: 1. Grundlagen: Schall, Schallwahrnehmung, Eigenschaften von Schallwellen, Schallausbreitung. 2. Bauakustik: Rechtliche und Planerische Grundlagen, Lärmschutz, Luftschalldämmung, Trittschalldämmung, Anwendung. 3. Raumakustik: Einführung, Schallabsorption, Schallreflexion, Nachhall, raumakustische Planung. | ||||
Skript | Ein Skript wird vor der ersten Vorlesung zum Selbstkostenpreis abgegeben. | ||||
Voraussetzungen / Besonderes | Lehrsprachen: J. Carmeliet (Heat): Englisch; Dozent M. Ettlin (Akustik): Deutsch. |