Max Maurer: Catalogue data in Autumn Semester 2017
|Name||Prof. Dr. Max Maurer|
|Field||Urban Water Systems|
Institut für Umweltingenieurwiss.
ETH Zürich, HIF D 26.1
|Telephone||+41 44 633 30 67|
|Department||Civil, Environmental and Geomatic Engineering|
|102-0214-AAL||Introduction to Urban Water Management |
Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement.
Any other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit.
|6 credits||4R||E. Morgenroth, M. Maurer|
|Abstract||Introduction to urban water management (water supply, urban drainage, wastewater treatment, sewage sludge treatment). Introduction to Urban Water Management is a self-study course.|
|Objective||This course provides an introduction and an overview over the topics of urban water management (water supply, urban drainage, wastewater treatment, sewage sludge treatment). It supports the understanding of the interactions of the relevant technical and natural systems. Simple design models are introduced.|
|Content||Overview over the field of urban water management.|
Introduction into systems analysis.
Characterization of water and water quality.
Requirement of drinking water, production of wastewater and pollutants
Production and supply of drinking water.
Urban drainage, treatment of combined sewer overflow.
Wastewater treatment, nutrient elimination, sludge handling.
Planning of urban water infrastructure.
|Lecture notes||Water Supply and Pollution Control. 8th edition (2009).|
By: Warren Viessman, Jr., Mark J. Hammer, Elizabeth M. Perez and Paul A. Chadik.
Pearson Prentice Hall, Upper Saddle River, NJ.
|Literature||In this self-study course the students must work through and understand selected sections from the following book|
Viessman, W., Hammer, M.J. and Perez, E.M. (2009) Water supply and pollution control,
Pearson Prentice Hall, Upper Saddle River, NJ.
Students must understand and be able to discuss the required reading in a 30 min oral exam. The required reading is explained in detail on the website of the professorships of urban water management. Additional information can be asked during the office hours of the professors' assistants.
The required reading and studying should correspond roughly the time invested in the course Siedlungswasserwirtschaft GZ. Students are welcome to ask the assistants (http://www.sww.ifu.ethz.ch/the-group/teaching-assistants.html) for help with questions they have regarding the reading.
|Prerequisites / Notice||Some students joining the MSc program in Environmental Engineering at ETH Zürich have to take additional courses from our BSc program. The decision of what courses to take is done at the time of admission at ETH.|
The course on "Introduction to Urban Water Management" is offered at ETH Zürich only in German. Students who can speak and understand German must take the course (Siedlungswasserwirtschaft GZ) and get a passing grade. For students that do not have sufficient German language skills there is a self-study course and they have to take an oral exam.
This course is required for further in depth courses in urban water management.
Prerequisite: Hydraulics I and Hydrology
|102-0215-00L||Urban Water Management II||4 credits||2G||M. Maurer, P. Staufer|
|Abstract||Technical networks in urban water engineering. Water supply: Optimization, water hammer, corrosion and hygiene. Urban drainage: Urban hydrology, non stationary flow, pollutant transport, infiltration of rainwater, wet weather pollution control. General planning, organisation and operation of regional drainage systems.|
|Objective||Consolidation of the basic procedures for design and operation of technical networks in water engineering.|
|Content||Demand Side Management versus Supply Side Management|
Optimierung von Wasserverteilnetzen
Kalkausfällung, Korrosion von Leitungen
Hygiene in Verteilsystemen
Siedlungshydrologie: Niederschlag, Abflussbildung
Instationäre Strömungen in Kanalisationen
Stofftransport in der Kanalisation
Einleitbedingungen bei Regenwetter
Versickerung von Regenwasser
Generelle Entwässerungsplanung (GEP)
|Lecture notes||Written material and copies of the overheads will be available.|
|Prerequisites / Notice||Prerequisite: Introduction to Urban Water Management|
|102-0227-00L||Systems Analysis and Mathematical Modeling in Urban Water Management||6 credits||4G||E. Morgenroth, M. Maurer|
|Abstract||Systematic introduction of material balances, transport processes, kinetics, stoichiometry and conservation. Ideal reactors, residence time distribution, heterogeneous systems, dynamic response of reactors. Parameter identification, local sensitivity, error propagation, Monte Carlo simulation. Introduction to real time control (PID controllers). Extensive coding of examples in Berkeley Madonna.|
|Objective||The goal of this course is to provide the students with an understanding and the tools to develop their own mathematical models, to plan experiments, to evaluate error propagation and to test simple process control strategies in the field of process engineering in urban water management.|
|Content||The course will provide a broad introduction into the fundamentals of modeling water treatment systems. The topics are:|
- Introduction into modeling and simulation
- The material balance equations, transport processes, transformation processes (kinetics, stoichiometry, conservation)
- Ideal reactors
- Hydraulic residence time distribution and modeling of real reactors
- Dynamic behavior of reactor systems
- Systems analytical tools: Sensitivity, parameter identification, error propagation, Monte Carlo simulation
- Introduction to process control (PID controller, fuzzy control)
|Lecture notes||Copies of overheads will be made available.|
|Literature||There will be a required textbook that students need to purchase:|
Willi Gujer (2008): Systems Analysis for Water Technology. Springer-Verlag, Berlin Heidelberg
|Prerequisites / Notice||This course will be offered together with the course Process Engineering Ia. It is advantageous to follow both courses simultaneously.|
|102-0250-00L||Urban Drainage Planning and Modelling |
Only for Environmental Engineers Msc in the module Water Infrastructure Planning and Stormwater Management.
|6 credits||4G||M. Maurer, F. Blumensaat, U. Karaus, J. Rieckermann|
|Abstract||In this course the students learn modern urban drainage engineering approaches, critical thinking, decision making in a complex environment and dealing with insufficient data and ill-defined problems.|
|Objective||By the end of the course, you should be able to do the following:|
-Apply different methods and methodologies to assess the impact of urban drainage on water pollution and flooding potential.
-Distinguish between hydrological and hydrodynamic models and their correct application.
-Identify the difference between emission and immersion oriented approaches for identifying drainage measures.
-Identify relevant measures, quantify their effects and assess their relative ranking/priority.
-Consider uncertainties and handle correctly incomplete data and information
-Make decisions and recommendations in a complex application case.
-Teamwork. State principles of effective team performance and the functions of different team roles; work effectively in problem-solving teams.
-Communication. Communicate and document your findings in concise group presentations and a written report.
|Content||In urban drainage the complexity of the decision-making, the available methodologies and the data availability increased strongly. In current environmental engineering practice, the focus shifted from tables and nomograms to sophisticated simulation tools.|
The topics cover:
-Integrated urban water management
-Hydrological and hydrodynamic modelling
-Water quality based assessment
-Hydraulic capacity assessment
-Sewer network operation
|102-0515-01L||Environmental Engineering Seminars||3 credits||3S||J. Wang, P. Burlando, I. Hajnsek, S. Hellweg, M. Holzner, M. Maurer, P. Molnar, E. Morgenroth, R. Stocker|
|Abstract||The course is organized in the form of seminars held by the students. Topics selected from the core disciplines of the curriculum (water resources, urban water engineering, material fluxes, waste technology, air polution, earth observation) are discussed in the class on the basis of scientific papers that are illustrated and critically reviewed by the students.|
|Objective||Learn about recent research results in environmental engineering and analyse practical applications in environmental engineering.|