Kai M. Udert: Katalogdaten im Frühjahrssemester 2016

NameHerr Prof. Dr. Kai M. Udert
NamensvariantenKai M. Udert
Adresse
EAWAG
Überlandstrasse 133
Postfach 611
8600 Dübendorf
SWITZERLAND
Telefon+41 58 765 53 60
E-Mailudertkai@ethz.ch
DepartementBau, Umwelt und Geomatik
BeziehungTitularprofessor

NummerTitelECTSUmfangDozierende
066-0420-16LIndoor Environment, Resources and Safety3 KP3GM. Fontana, R. Geissler, S. M. Schoenwald, K. M. Udert
KurzbeschreibungPrinciples of Building Acoustics, Water, Fire safety, and Electrical Services
LernzielBuilding Acoustics
- Fundamentals of sound: Sound waves, Sound sources and free field sound propagation, Sound descriptors and sound levels
- Sound fields in rooms: Reflection and absorption at boundaries, Diffuse sound fields (reverberation time), Room modes
- Airborne sound transmission through building elements I: Homogenous structures: Monolithic elements, Double leaf elements (walls, windows, ), Linings, toppings and additional layers
- Airborne sound transmission through building elements II: Assembled (lightweight) structures: Double leaf framed elements
- Impact sound transmission through building elements: Impact sources, Floor elements and floor toppings, Introduction structure-borne sound and vibration
- Sound transmission in buildings I: Composite elements, Flanking sound transmission I: Concept of flanking, Monolithic buildings
- Sound transmission in buildings II: Flanking sound transmission II: Lightweight framed buildings, Outline prediction methods, Noise from building systems and installations
- Measurement, Descriptors and Regulations: Standardized measurement techniques and protocols

Water
- water supply: water needs, possible resources, quality requirements for different applications and possible treatment processes
- water distribution: requirements for storage and piping
- wastewater: different type: urine, feces, blackwater, light and heavy greywater, rain water, treatment possibilities, hygienic and comfort requirements
- water cycles
- wastewater as a resource: polishing water, nutrients, energy
- integral solutions off the grid
- water as part of the urban environment and for recreational purposes in cities
- examples

Fire and Safety
- Fire safety objectives and regulations
- Fire safety concepts and measures
- Fire statistics
- Human behavior and escape
- Structural fire safety
- Technical fire safety
- Organizational fire safety
- Risk and probabilistic
- Economy of fire safety measures

Electrical Services
- Electrical services in buildings
- Grid levels
- Medium voltage equipment, Power transformers, Low voltage distribution boards
- Emergency power plants, supply, lights
- Electrical and communication installations
- Building automation
- Electromagnetic radiation
- Electrical rooms
- Earthquake safety in building services
- Fire protection in building services
- Power Usage Effectiveness (PUE)
102-0218-00LProcess Engineering II (Physical-Chemical Processes) Information 6 KP4GE. Morgenroth, K. M. Udert
KurzbeschreibungBeschreibung und Entwurf physikalisch-chemischer und biologischer Verfahren und Verfahrenskombinationen zur Trinkwasseraufbereitung und Abwasserreinigung
LernzielVerständnis für kritische Wasserqualitätsparameter in Trinkwasserressourcen und Abwasser und Kenntnis der verfahrenstechnischen Möglichkeiten zu deren Elimination. Mit Schwerpunkt auf physikalisch-chemischen Verfahren soll das Prozessverständnis geschult werden und Berechnungsgrundlagen für den Entwurf von Behandlungsverfahren und Verfahrensketten erarbeitet werden.
InhaltFolgende Verfahren und Verfahrenskombinationen werden detailliert behandelt:
Gasaustausch
Partikelcharakterisierung
Sedimentation
Flockung
Filtration
Membranprozesse
Fällungsprozesse
Chemische Oxidation und Desinfektion
Ionenaustasuch
Aktivkohleadsorption
Prozesskombinationen Abwasser
Stickstoffentfernung
Mikroverunreinigungen
Prozesskombinationen Trinkwasser
LiteraturM&E: Tchobanoglous, G., Stensel, H.D., Tsuchihashi, R. and Burton, F.L., 2013. Wastewater engineering: treatment and resource recovery. 5th edition. Volume 1 & 2. New York, McGraw-Hill.
MWH: Crittenden, J.C., Trussel, R.R., Hand, D.W., Howe, K., Tchobanoglous, G., 2012. MWH's water treatment principles and design, 3rd edition. ed. Wiley, Hoboken, N.J.
Voraussetzungen / BesonderesVoraussetzung: Besuch der Vorlesung Process Engineering I