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Syllabus Book

Master Management and Technology of Water and Waste Water PO08 Version: 04.07.2018

Description of the degree course

Name of the degree course Shorthand expression of degree course

Master Management and Technology of Water and Waste Water PO08 M-MTW3_PO08

Type Period of study SWS ECTS-Credits Master 4 65 120

Description The master degree course “Management and Technology of Water and Waste Water” combines the in the past often separated knowledge domains “Engineering Sciences / Process Engineering” and “Management”. The graduates will be imparted the competences in deep understanding of modern water resource management systems, in particular in the domain of engineering sciences / process engineering problems with the focus on water supply, water processing and wastewater purification. The graduates will be enabled to, with the focus on water supply, water processing and waste water purification, and think in a multidisciplinary way involving business, water management and engineering. They will be able to understand complex water management systems and for example be able to transfer in international scope such water management systems and the appropriate technologies, taking in account the regional conditions depending on the country. Besides the deepening lectures in the further engineering domains (control theory, fail-safe and diagnosis of mechatronical systems, computer-aided calculation methods, fluid dynamics), follows a particular profiling in special lectures from the following areas: process engineering, water processing and wastewater purification, management and controlling and water management. For the graduates, good career perspectives as leaders or executives in particular in water supplier and sewage disposer companies, water boards or water associations, as well as in planning and engineering agencies are affordable. There is also the possibility to do a doctorate at a German or foreign university. The sphere of activities of the graduates especially lies at the intersection between process engineering / water technology and water management. This results in the following application areas: • Project planning of water treatment plants and wastewater treatment plants in the process engineering and economical perspectives; a typical example will be plant construction. • Operation of water treatment plants and wastewater treatment plants under process engineering-like and economical aspects; a typical example will be in water and waste water associations. • Establishment, realization and evaluation of quality management systems for example in the domain of drinking water supply. Here, potential employers are in particular large and international concerns, but also executive positions in water and wastewater associations as well as in small and middle-sized companies, not leaving out Freelance work or even the possibility to be an independent contractor.

Study plan

V Ü P S Cr

Master Management and Technology of Water and Waste Water PO08 Maschinenbau und Verfahrenstechnik

35 16 8 6 120

1. Management and Controlling in Water Industries

Prof. Dr.-Ing. Panglisch Prof. Dr. Wömpener

d 2 1 0 0 4

Mechanical Process Engineering for Water Treatment Processes

Prof. Dr.-Ing. Panglisch d 2 1 0 0 4

Quality Management in Water Supply Dr. Rohns e 2 1 0 0 4

Urban Water Supply and Distribution Prof. Dr.-Ing. Widmann d 2 1 0 0 4

Elective 1 NN d/e 2 1 0 0 4

Waste Water Treatment Dr.-Ing. Hobby Prof. Dr.-Ing. Panglisch

e 2 1 0 0 4

Water - Natural Science Fundamentals Prof. Dr.-Ing. Panglisch e 2 1 0 0 4

Total 14 7 0 0 28

2. Computational Fluid Dynamics (incompressible fluids)

Prof. Dr.-Ing. habil. Görner e 2 2 0 0 5

Computational Methods Prof. Dr.-Ing. Kecskemethy d 0 0 4 0 5

Practical Course Water Technology Dr.-Ing. Hobby Prof. Dr.-Ing. Panglisch

e 0 0 3 0 4

Sustainable Water Management Prof. Dr.-Ing. Niemann e 2 0 0 0 3

Thermal Process Engineering Prof. Dr.-Ing. Bathen d 2 1 0 0 4


Water Treatment 1 Prof. Dr.-Ing. Panglisch e 2 1 0 0 4

Total 10 5 7 0 29

3. Control Theory Lab OR Limp-home-Mode and Diagnosis - Practical Exercise

d/e 0 0 1 0 1

Control Theory OR Limp-home-Mode and Diagnosis of Mechatronical Systems

d/e 3 1 0 0 5

Industrial Course in Water Management and Technology Dr.-Ing. Hobby d/e 0 0 0 0 4

Membrane Technologies Prof. Dr. Ulbricht e 2 1 0 0 4

Non-technical Catalog M NN d/e 0 0 0 6 8

Production Management Prof. Dr. Deike e 2 1 0 0 4


Water Procurement Dr. Rohns d 2 0 0 0 3

Total 11 4 1 6 33

4. Master Thesis NN d/e 0 0 0 0 27

Master Thesis Colloquium NN d/e 0 0 0 0 3

Total 0 0 0 0 30

Module- und course catalog

Module Name Basics of Water Technology and Fluid Dynamics Module Coordinator Prof. Dr.-Ing. Stefan Panglisch Used in degree course • Master Management and Technology of Water and Waste Water PO08

Year Duration Type of module 1 1 Pflichtmodul

Nr. Courses/Exams Semester SWS Workload in h

ECTS-Credits

1 Water - Natural Science Fundamentals 1 3 120 4

2 Computational Fluid Dynamics (incompressible fluids) 2 4 150 5

Total 7 270 9

Module Name Basics of Water Technology and Fluid Dynamics Course/Examination Name Water - Natural Science Fundamentals Course Coordinator Prof. Dr.-Ing. Stefan Panglisch

Semester Cycle Language 1 WS englisch

SWS Contact hours Self-study hours Workload in h ECTS-Credits 3 45 75 120 4

Teaching form Lecture and Tutorial: Classroom presentation with PowerPoint presentation and sketches on the blackboard for further explanations and additional comments for the presentation. Learning objectives Students know the common processes for water treatment. They know special structure of water, the physical / chemical properties of water. Students also able to understand the relationships with regard to equilibria in aqueous systems, with regard to carbonic acid systems and carbonate - carbonic acid systems. Description - general introduction, - overview of processes for water treatment, - structure and properties of water, - water as solvent, - equilibria in aqueous systems, - properties of aqueous solutions, - carbonic acid system, - carbonate - carbonic acid systems, - oxidation - reduction processes, - corrosion, - compounds in natural waters, - aspects of drinking water quality. Kind of examination The examination for the lecture is offered as written examination with duration of 90 minutes. In deviation from this an oral examination can be determined with duration from 30 to 60 minutes. The announcement for the kind of examination must be done early enough at the beginning of the term. Literature Water Treatment Handbook, Volume 1 and 2 Degrémont, 7th English Edition 2007, ISBN 978-2-7430-0970-0, 978-1-84585-005-0 Lehr- und Handbuch der Wasserversorgung Bd. 6: Wasseraufbereitung – Grundlagen und Verfahren DVGW Deutsche Vereinigung des Gas- und Wasserfaches e. V. Oldenbourg Industrieverlag München Wien 2004, ISBN 3-486-26365-X Grombach, P.; Haberer, K.; Merkl, G.; Trüeb, E. U. Handbuch der Wasserversorgungstechnik R. Oldenbourg Verlag München Wien 1993, ISBN 3-486-26142-8

Stumm, Morgan Aquatic Chemistry 3rd edition 1996 Wiley New York, ISBN 0-471-51184-6 Benefiled, Judkins, Weand Process Chemistry for Water and Wastewater Treatment 1982 Prentice Hall London, ISBN 0-13-722975-5 Mark M. Benjamin Water Chemistry McGraw-Hill, New York 2002, ISBN 0-07-238390-9 Karl Höll Wasser – Nutzung im Kreislauf, Hygiene, Analyse und Bewertung Walter de Grypter & Co. Berlin 2002, ISBN 3-11-012931-0 Requirements keine

Module Name Basics of Water Technology and Fluid Dynamics Course/Examination Name Computational Fluid Dynamics (incompressible fluids) Course Coordinator Prof. Dr.-Ing. habil. Klaus Görner

Semester Cycle Language 2 SS englisch


Teaching form Lecture /Tutorial Learning objectives The students should come into the position to understand the effects and phenomena of reacting flows and to handle the knowledge transfer into mathematical models. On this basis applications to civil engineering (flows in buildings, flows around buildings) and similar fields can be understood and be handled in simple examples. Understanding the basics of: - Fluid dynamics, - Reaction, - Heat transfer, - Mathematical modelling of flows in general and - Numerical solution of the describing equations Description Balancing Equations - Euler-/Lagrange Description of the Flow Field Laminar Flow Turbulent Flow - Time-averaged equation - Turbulence models - Two-phase flow Description of the Heat Transfer - Conduction - Convective transport - Radiation - Radiative qualities Description of Chemical Reactions Basics Numerical Solution of Equations/Systems of Equations Examples for CFD-applications - Simple flow situations - Two phase flows - Reactive Flows - Flow situations around buildings - Flow situation in buildings Kind of examination written examination (2h)

Literature Görner, K.: Technische Verbrennungssysteme. Springer Verlag, Berlin Heidelberg, 1991 Goerner, K.; Klasen, Th.: Modelling, simulation and validation of the solid biomass combustion in different plants. Progr. Comp. Fluid Dyn., Vol.6, Nos.4/5, 2006 Al-Halbouni, A.; Giese, A.; Flamme, M.; Goerner, K.: Applied modelling for bio and lean gas fired micro gas turbines. Progr. Comp. Fluid Dyn., Vol.6, Nos.4/5, 2006

Module Name Practical Course Water Technology Module Coordinator Dr.-Ing. Ralph Hobby Used in degree course • Master Management and Technology of Water and Waste Water PO08 • Master Management and Technology of Water and Waste Water PO15


Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Practical Course Water Technology 2 3 120 4 Total 3 120 4

Module Name Practical Course Water Technology Course/Examination Name Practical Course Water Technology Course Coordinator Dr.-Ing. Ralph Hobby Prof. Dr.-Ing. Stefan Panglisch



Teaching form Independent preparation for the experiments with a manual, guided experiment on lab-scale pilot plants. Evaluation of the results in a seminar. Learning objectives Students use their theoretical knowledge of different water treatment processes to carry out experiments using lab-scale pilot plants. They are able to record measurement values, to process and evaluate the recorded data. Description The lab water technology includes experiments with the following topics: • Flocculation • Rapid sand filtration • Membrane filtration • Adsorption equilibrium • Adsorption kinetics • Densities of activated carbons Kind of examination Written entrance test (30 minutes) as a prerequisite for participation. Written final examination after the practical course (60 minutes). Literature Deutsche Gesetzliche Unfallversicherung: BGI-GUV 850-0: Working Safely in Laboratories – Basic Principles and Guidelines Bender, H.F. (2011): Sicherer Umgang mit Gefahrstoffen, 4. Auflage, Wiley VCH, Weinheim, Germany Bandosz, T.J. [editor] (2005): Activated Carbon Surfaces in Environmental Remediation, Elsevier, New York, London Bansal, R.C., Goyal, M. (2005): Activated Carbon Adsorption, CRC Press, Boca Raton, London, New York, Singapore Bathen, D., Breitbach, M. (2001): Adsorptionstechnik, Springer Verlag, Heidelberg, New York Sontheimer, H., Crittenden, J.C., Frick, B.R., Fettig, J., Hörner, G., Hubele, C., Zimmer, G. (1988): Activated Carbon for Water Treatment, DVGW Forschungsstelle, Engler-Bunte-Institut Universität Karlsruhe

Worch, E. (2012): Adsorption Technology in Water Treatment - Fundamentals, Processes and Modelling, Walter de Gruyter GmbH, Berlin, Boston Baker, R.W. (2012): Membrane Technology and Applications, John Wiley & Sons, Ltd., Chichester, UK Melin, T. Rautenbach, R. (2007): Membranverfahren, Grundlagen der Modul- und Anlagenauslegung, Springer, Berlin, Heidelberg Bratby, J. (2008): Coagulation and Flocculation in Water and Wastewater Treatment, IWA Publishing, London Deutscher Verein des Gas- und Wasserfachs: DVGW Arbeitsblätter W 217 und W 218: Flockung in der Wasseraufbereitung Deutscher Verein des Gas- und Wasserfachs: DVGW Lehr- und Handbuch Wasserversorgung Band 6: Wasseraufbereitung – Grundlagen und Verfahren Requirements keine

Module Name Computational Methods Module Coordinator Prof. Dr.-Ing. Andres Kecskemethy Used in degree course • Master Management and Technology of Water and Waste Water PO08


Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Computational Methods 2 4 150 5 Total 4 150 5

Module Name Computational Methods Course/Examination Name Computational Methods Course Coordinator Prof. Dr.-Ing. Andres Kecskemethy

Semester Cycle Language 2 SS deutsch


Teaching form Laboratory Learning objectives The Students will learn the engineering- particular way to deal with modern computer techniques. Description The lecture is to endow the students with basic knowledge about methods and technical aspects for using numerical tools and simulations software in the construction process. Kind of examination Implementation and documentation of a program Literature Vorlesungsscript; Manuals Requirements CAD-Kenntnisse

Module Name Production Management Module Coordinator Prof. Dr.-Ing. Diethard Bergers Used in degree course • Master Management and Technology of Water and Waste Water PO08 • Master Management and Technology of Water and Waste Water PO15


Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Production Management 3 3 120 4 Total 3 120 4

Module Name Production Management Course/Examination Name Production Management Course Coordinator Prof. Dr. Rüdiger Deike



Teaching form Presentation with slides Learning objectives The students will get to know the basics of strategic and operational production management. They are able to comprehend processes in production enterprises and are able to analyse production processes both from a technical and economic point of view. Description Production Management (PM) comprises the strategic as well as the operative PM. Production enterprises can be regarded as systems consisting of the production factors (man, machine, material). The lectures contain all process steps from the choice of the product program, create of work plans /process management and the implementation of Production Planning and Control (PPC) with their strategies. Knowledge over material flow management / store management and other variables of influence are indispensable requirements in PM. Students learn how the PM is involved in the value added chain. Kind of examination Written exam (60 minutes) Literature ·106 Hans-Jürgen Warnecke: Der Produktionsbetrieb 1 : Organisation, Produkt, Planung, 2. Auflage, Springer Verlag 1995, ISBN 3-540-58392-0 ·107 Hans-Jürgen Warnecke: Der Produktionsbetrieb 2 : Produktion, Produktsicherung, 3. Auflage, Springer Verlag 1995, ISBN 3-540-58397-13. ·108 Hans-Peter Wiendahl: Betriebsorganisation für Ingenieure, 4. Auflage, Carl Hanser Verlag 1997, ISBN 3-446-18776-24. ·109 Marc A. Vonderembse/Gregory P. White: Operations Management (Concepts, Methods, Strategies), West Publishing Company NY

Module Name Advanced Control Engineering Module Coordinator Prof. Dr.-Ing. Dirk Söffker Used in degree course • Master Management and Technology of Water and Waste Water PO08

Year Duration Type of module 1 1 Wahlpflichtmodul


ECTS-Credits

1 Control Theory OR Limp-home-Mode and Diagnosis of Mechatronical Systems 3 4 150 5

2 Control Theory Lab OR Limp-home-Mode and Diagnosis - Practical Exercise 3 1 30 1

Total 5 180 6

Module Name Advanced Control Engineering Catalog Name Control Theory Lab OR Limp-home-Mode and Diagnosis - Practical Exercise

Semester Cycle Language 3 SS deutsch/englisch


Veranstaltungen / Module im Katalog • Control Theory Lab • Notlauf und Diagnose mechatronischer Systeme Praktikum

Learning objectives For details please see the course description. Description For details please see the course description. Kind of examination

Module Name Advanced Control Engineering Catalog Name Control Theory OR Limp-home-Mode and Diagnosis of Mechatronical Systems

Semester Cycle Language 3 SS deutsch/englisch


Veranstaltungen / Module im Katalog • Control Theory • Notlauf und Diagnose mechatronischer Systeme

Learning objectives For details please see the course description. Description For details please see the course description. Kind of examination

Module Name Process Engineering Module Coordinator Prof. Dr.-Ing. Stefan Panglisch Used in degree course • Master Management and Technology of Water and Waste Water PO08 • Master Management and Technology of Water and Waste Water PO15



ECTS-Credits

1 Mechanical Process Engineering for Water Treatment Processes 1 3 120 4

2 Thermal Process Engineering 2 3 120 4 Total 6 240 8

Module Name Process Engineering Course/Examination Name Mechanical Process Engineering for Water Treatment Processes Course Coordinator Prof. Dr.-Ing. Stefan Panglisch

Semester Cycle Language 1 WS deutsch


Teaching form Classroom presentation with PowerPoint presentation and sketches on the blackboard for further explanations and additional comments for the presentation. Learning objectives Students are able to describe and to explain the basics of solving the manifold problems with disperse substances by using mechanical processes and they have an overview of the common processes. They know the importance of mechanical process engineering especially in the field of water treatment and they know the common used processes. Description Introduction into the mechanical process engineering Importance of mechanical process engineering for water treatment Particles and disperse systems (particle size characteristics, particle sizes, equivalent diameter, particle shape, particle size distribution, particle interaction, porous systems) Importance of particle size for water treatment processes solid - liquid separation: Basics and processes for water treatment (filtration, sedimentation) dust separation classification stirring and mixing: Basics and processes for water treatment (flocculation) dimension analysis measuring techniques of particle sizes Kind of examination The examination for the lecture is offered as written examination with duration of 90 minutes. In deviation from this an oral examination can be determined with duration from 30 to 60 minutes. The announcement for the kind of examination must be done early enough at the beginning of the term. Literature Stieß; Mechanische Verfahrenstechnik 1 Springer-Verlag Berlin Heidelberg 1992 Stieß; Mechanische Verfahrenstechnik 2 Springer-Verlag Berlin Heidelberg 1992, ISBN 978-2-7430-0970-0, 978-1-84585-005-0 Mathias Bohnet; Mechanische Verfahrenstechnik WILEY-VCH Verlag GmbH & Co. KGaA 2004, ISBN 978-3-527-31099-9 John Gregory; Particles in Water - Properties and Processes Taylor & Francis Group 2006, ISBN: 1-84339-102-3

Module Name Process Engineering Course/Examination Name Thermal Process Engineering Course Coordinator Prof. Dr.-Ing. Dieter Bathen

Semester Cycle Language 2 SS deutsch


Teaching form Computer-based presentation (PowerPoint) and independently treatment of exercises. Learning objectives The students know all thermal separation processes in detail, including standard equipment and internals as well as special configurations. They are able to select and design a suitable process for a given separation problem in detail. Beside thermal equilibrium models also kinetic effects are considered. They are qualified to systematically develop and optimise even complex separation sequences and chemical engineering processes considering economical and energetic aspects. In addition the students have a basic understanding of modelling and computer-based simulation of thermal separation processes. They are able to model steady-state and dynamic processes like start up processes. The use of thermodynamic models to estimate necessary thermophysical properties is managed precisely. Functionality and theoretical background of software used in the chemical industry for the simulation of chemical engineering processes are known. Description 1. Introduction 2. Thermal Unit Operations (deepened approach including kinetic effects and special configurations) Evaporation and Condensation Distillation und Rectification Extraction Absorption and Stripping Adsorption and Desorption Drying Crystallisation 3. Synthesis of Chemical Processes Systematics of Process Development Methods of Process Synthesis Synthesis of Separation Sequences Energy Integration (Pinch-Analysis) Process Optimisation 4. Modelling and Simulation of Chemical Processes Thermophysical Properties for Chemical Processes Thermodynamic Modelling I. Simple Stage Models II. Complex Thermodynamic Models Steady-State Simulation Dynamic Simulation

Kind of examination written examination, 120 minutes Literature Klaus Sattler Thermische Trennverfahren Wiley-VCH, 3. Auflage (2001) Ulfert Onken, Arno Behr Chemische Prozesskunde Lehrbuch der Technischen Chemie, Band 3 Wiley-VCH (2006) Ernst-Ulrich Schlünder, Franz Thurner Destillation, Absorption, Extraktion Vieweg Verlag (1998) J.D. Seader, E.J. Henley Separation Process Principles John Wiley & Sons, 2. Auflage (2006) R. Goedecke (Hrsg.) Fluidverfahrenstechnik Wiley VCH Verlag (2006)

Module Name Water Treatment: Conventional and Advanced Processes Module Coordinator Prof. Dr.-Ing. Stefan Panglisch Used in degree course • Master Management and Technology of Water and Waste Water PO08

Year Duration Type of module 1+2 2 Pflichtmodul

Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Water Treatment 1 2 3 120 4 2 Membrane Technologies 3 3 120 4 Total 6 240 8

Module Name Water Treatment: Conventional and Advanced Processes Course/Examination Name Water Treatment 1 Course Coordinator Prof. Dr.-Ing. Stefan Panglisch



Teaching form Classroom presentation with PowerPoint presentation and sketches on the blackboard for further explanations and additional comments for the presentation. Learning objectives Students are able to describe and explain the basics and principles of the different processes for water treatment (drinking water, process water) and they know to design the processes basically. Description After an overview of the treatment processes used for water treatment and different process combinations main focus is on the following treatment processes: Flocculation Deep bed filtration Reaction processes in deep bed filtration Adsorption Membrane filtration Sedimentation Sludge treatment Kind of examination The examination for the lecture is offered as written examination with duration of 90 minutes. In deviation from this an oral examination can be determined with duration from 30 to 60 minutes. The announcement for the kind of examination must be done early enough at the beginning of the term. Literature Sontheimer et. al., Activated Carbon for Water Treatment, DVGW¬Forschungsstelle am Engler-Bunte Institut der Universität Karlsruhe (TH) 1988 Tien, C., Granular Filtration of Aerosols and Hydrosols, Butterworth Publishers ISBN 0-409-90043-5 1989 Grombach, P.; Haberer, K.; Merkl, G.; Trüeb, E. U.; Handbuch der Wasserversorgungstechnik R. Oldenbourg Verlag München Wien, ISBN 3-486-26142-8-379, 1993 Filters and Filtration Handbook, 3rd Edition Elsevier Science Publishers LTD ISBN 1-85617-078-0, 1996 Lehr- und Handbuch der Wasserversorgung Bd. 6: Wasseraufbereitung – Grundlagen und Verfahren DVGW Deutsche vereinigung des Gas- und Wasserfaches e. V.

Oldenbourg Industrieverlag München Wien, ISBN 3-486-26365-X, 2004 Water Treatment Handbook, Volume 1 and 2 Degrémont, 7th English Edition, ISBN 978-2-7430-0970-0, 978-1-84585-005-0, 2007 Grohmann, A. N.; Jekel, M.; Grohmann, A.; Szewick, R.; Szewyk, U. Wasser: Chemie, Mikrobiologie und nachhaltige Nutzung Walter de Gruyter GmbH & Co. KG, Berlin / New York, ISBN 978-3-11-021308-9, 2011 Worch, E.; Adsorption Technology in Water Treatment: Fundamentals, Processes, and Modeling Walter de Gruyter GmbH & Co. KG, Berlin / New York, ISBN 978-3-11-174740-8, 2012 Requirements keine

Module Name Water Treatment: Conventional and Advanced Processes Course/Examination Name Membrane Technologies Course Coordinator Prof. Dr. Mathias Ulbricht



Teaching form Classroom presentation with PowerPoint presentation, material available online Learning objectives On the basis of fundamental knowledge in physical chemistry and (chemical) process engineering, the students are able to describe and to explain the fundamentals of membranes and membrane separations as well as the most important membrane technologies which are applied to water treatment and/or purification. Description Contents Membranes: – Types (non-porous vs. porous, ion-exchange, affinity) – Processes by type and driving force (gas separation, reverse osmosis, nanofiltration, ultrafiltration, microfiltration, dialysis, electrodialysis, pervaporation, specials) – Materials and preparation / manufacturing – Shape (flat-sheet, hollow fibre) and morphology Membrane fouling and scaling Membrane modules and principles of membrane separation engineering Membrane adsorbers Membrane reactor concepts Examples (case studies) with particular relevance to water technologies: - Desalination by reverse osmosis, nanofiltration and electrodialysis - Purification and ultrapurification by reverse osmosis, nano-, ultra- and microfiltration as well as combined processes - Membrane bioreactors Kind of examination Written exam, duration: 90 minutes Literature a) M. Mulder, Basic principles of membrane technology, 2nd Ed., Dordrecht: Kluwer Academic Publishers, 1996. b) R. W. Baker, Membrane technology and applications, 2nd Ed., Chichester: John Wiley and Sons, 2004.

Module Name Storm and Waste Water: Technology of Sewer Systems and Treatment Technologies Module Coordinator Dr.-Ing. Ralph Hobby Used in degree course • Master Management and Technology of Water and Waste Water PO08 • Master Management and Technology of Water and Waste Water PO15


Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Waste Water Treatment 1 3 120 4 2 Urban Water Supply and Distribution 1 3 120 4 Total 6 240 8

Module Name Storm and Waste Water: Technology of Sewer Systems and Treatment Technologies Course/Examination Name Urban Water Supply and Distribution Course Coordinator Prof. Dr.-Ing. Renatus Widmann



Teaching form Lecture and Tutorial: Classroom presentation with overhead transparencies and PowerPoint presentation. Sketches on the blackboard for further explanations and additional comments for the presentation. Learning objectives The students know the basics of planning sewer systems, storm water treatment facilities and decentral facilities for rain water infiltration. Further more they know the principles of hydrological and hydrodynamic simulation tools for sewer systems and they know how to use pollution load models. Description Dimensioning of sewers according to ATV-DVWK-A 118 Principles of storm water treatment Dimensioning of storm water treatment facilities Surface runoff models Principles of hydrological simulation tools for sewer systems Application of hydrological simulation tools for sewer systems Principles of hydrodynamic simulation tools for sewer systems Application of hydrodynamic simulation tools for sewer systems Principles of integrated modelling of sewer systems, sewage treatmen plats and receiving wa-ters Kind of examination The examination for the lecture is offered as written examination with duration of 90 minutes. In deviation from this an oral examination can be determined with duration from 30 to 60 minutes. The announcement for the kind of examination must be done early enough at the beginning of the term. Literature ATV-DVWK Regelwerke (GFA e.V., Hennef) Bischof, Hosang (1998): Abwassertechnik. 11., neubearb. und erw. Aufl. (Teubner) Geiger, Dreiseitel (2001): Neue Wege für das Regenwasser. 2. Auflage. (Oldenbourg Verlag, München) Gujer (1999): Siedlungswasserwirtschaft. (Springer Verlag, Berlin) Imhof (2006): Taschenbuch der Stadtentwässerung. 30., verb. Aufl. (Oldenbourg Verlag, München) Butler, David et Davies, John W. (2000): Urban Drainage, E&FB Spon, New York

Module Name Storm and Waste Water: Technology of Sewer Systems and Treatment Technologies Course/Examination Name Waste Water Treatment Course Coordinator Dr.-Ing. Ralph Hobby Prof. Dr.-Ing. Stefan Panglisch



Teaching form Classroom presentation with PowerPoint presentation and sketches on the blackboard for further explanations and additional comments to the presentation. Learning objectives Students have basic knowledge with regard to the topic waste water treatment. They know the typical analytic wastewater parameters (analytic sum parameters) and know how to assess a wastewater with theses parameters. They are able to describe and explain the different treatment processes which are used for municipal waste water treatment and they are able to design the processes basically. Description One topic of the lecture are the different processes used for municipal wastewater treatment. Another topics are water balances (water demand, waste water production) and the assessment of waste water compounds (origins of waste water, waste water characteristics, waste water compounds, analytics, assessment) Contents: Introduction in waste water treatment Water cycle, water demand, waste water production Waste water characteristics, waste water compounds, analytics, law Mechanical processes Biological processes Physical and chemical processes Sludge treatment Kind of examination The examination for the lecture is offered as written examination with duration of 90 minutes. In deviation from this an oral examination can be determined with duration from 30 to 60 minutes. The announcement for the kind of examination must be done early enough at the beginning of the term.

Literature Kunz, Peter; Behandlung von Abwasser 4. überarbeitete Auflage – Würzburg: Vogel, ISBN 3-8023-1562-6, 1995 Water Treatment Handbook, Volume 1 and 2 Degrémont, 7th English Edition, ISBN 978-2-7430-0970-0, 978-1-84585-005-0, 2007 Sperling, M.; Biological Wastewater Treatment Series: Wastewater Characteristics, Treatment and

Disposal, Volume 1 IWA Publishing London, New York, ISBN 1 84339 161 9, 2007 Sperling, M.; Biological Wastewater Treatment Series: Basic Principles of Waste Water Treatment, Volume 2 IWA Publishing London, New York, ISBN 1 84339 162 7, 2007 Vesilind, P. A.; Rooke, R. L.; Wastewater Treatment Plant Design Water Environment Federation 2003, IWA Publishing London, New York ISBN 10 1-84339-024-8, ISBN 13 978-1-84339-024-4, Reprinted 2009 Requirements keine

Module Name Management and Controlling Module Coordinator Dr.-Ing. Wolf Merkel Used in degree course • Master Management and Technology of Water and Waste Water PO08


Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Management and Controlling in Water Industries 1 3 120 4 2 Quality Management in Water Supply 1 3 120 4 Total 6 240 8

Module Name Management and Controlling Course/Examination Name Management and Controlling in Water Industries Course Coordinator Prof. Dr.-Ing. Stefan Panglisch Prof. Dr. Andreas Wömpener



Teaching form Lecture and Tutorial: Classroom presentation with PowerPoint presentation and sketches on the blackboard for further explanations and additional comments to the presentation. The theoretical part of business economics is further on offered as videos. Learning objectives Students know the business related basics and the tools of management and controlling. Especially they are familiar with the requirements on the management in water industries. Description In the course "Management and Controlling in Water Industries" essentially the Branchenbild (section overview) of the German Water Supply is presented and legal and economic water management topics are addressed in theory. In addition to teaching business basics, special issues such as the requirements for the management of water supply companies are taught in practice-oriented readings. Kind of examination The examination for the lecture is offered as written examination with duration of 90 minutes. In deviation from this an oral examination can be determined with duration from 30 to 60 minutes. The announcement for the kind of examination must be done early enough at the beginning of the term. Literature Berens/Knauer Grundlagen des betriebswirtschaftlichen Rechnungswesens, 2013, ISBN 3-00-015978-9 Günter Wöhe / Ulrich Döring (2008): Einführung in die Allgemeine Betriebswirtschaftslehre, 23. Auflage 2008. Vahlen ISBN 978-3-8006-3524-5, In Vorbereitung für März 2008. Dietmar Vahs/Jan Schäfer-Kunz (2007); Einführung in die Betriebswirtschaftslehre, 5., überarbeitete und erweiterte Auflage, Schaeffer-Poeschel 2007. ISBN: 3-7910-2661-5 Requirements keine

Module Name Management and Controlling Course/Examination Name Quality Management in Water Supply Course Coordinator Dr. Hans-Peter Rohns



Teaching form Lecture and Tutorial: Classroom presentation with PowerPoint presentation and sketches on the blackboard for further explanations and additional comments to the presentation. Learning objectives Students are able to understand national and international regulations in the water supply as the basis for the quality management. They know concepts for monitoring, the assessment of the catchment area, the treatment and distribution system. Focussing on the dependency of the locality and the treatment technology and the demands on the applied materials and the working stuff will explain the complexity. Students are able to perform a risk-based assessment and the performance of emergency measures including a quality management with approaches for alternative water supply and disinfection measures. Description On a basis of national and international rules and regulations the students will assess resources for drinking water and develop measures for their protection. The protection of resources is a combination of knowledge about processes like bank filtration and soil as a biological filter and activities like the cooperation with the farmers including groundwater modelling as a reliable tool. With this awareness, the definition of quality criteria will be useful to develop an efficient treatment system and to integrate a management system. A risk based assessment will emphasize the advantages and disadvantages of treatment systems including ozone, filtration, adsorption with activated carbon and membranes. The requirements for a drinking water quality according to the guidelines of the WHO (World Health Organisation) also define the performance of a water-safety-plan and the requirements of the working stuff and the material applied in the treatment and distribution system. The quality management for water includes the interaction and communication with the client and their responsibility for the drinking water quality in sanitation. The communication with the clients and the authorities is of great importance not only in emergency cases. The quality management in the water supply also includes measures for emergency in order to provide the clients with sufficient information and to apply disinfection measures to obtain a safe drinking water quality. Kind of examination The examination for the lecture is offered as written examination with duration of 90 minutes. In deviation from this an oral examination can be determined with duration from 30 to 60 minutes. The announcement for the kind of examination must be done early enough at the beginning of the term. Literature WHO Guidelines, Water-Safety-plan, Trinkwasserverordnung etc. Requirements keine

Module Name Water Management Module Coordinator Prof. Dr.-Ing. Stefan Panglisch Used in degree course • Master Management and Technology of Water and Waste Water PO08 • Master Management and Technology of Water and Waste Water PO15

Year Duration Type of module 1+2 2 Pflichtmodul

Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Sustainable Water Management 2 2 90 3 2 Water Procurement 3 2 90 3 Total 4 180 6

Module Name Water Management Course/Examination Name Sustainable Water Management Course Coordinator Prof. Dr.-Ing. André Niemann



Teaching form Lecture, discussion groups: Classroom presentation with overhead transparencies and PowerPoint presentation. Sketches on the blackboard for further explanations and additional comments for the presentation. Learning objectives The students - gain insight in responsibilities and targets in river basin management planning (depending on administration and stakeholders involved) - know different strategies to assess and weigh up competing demands in water management Description River basin characteristics, human pressure analysis, measure scenarios ("best practice"), public participation, monitoring, transboundary basins, administrative competencies in river basin management Kind of examination The Examination of the lecture is offered as term paper. Literature European CIS Guidance Documents to the EU Water Framework Directive, reports on river basin management plans of selected examples. Requirements keine

Module Name Water Management Course/Examination Name Water Procurement Course Coordinator Dr. Hans-Peter Rohns



Teaching form Lecture: Classroom presentation with PowerPoint presentation andsketches on the blackboard for further explanations and additional comments to the presentation. Learning objectives The students have basics to the theme of water procurement. They know the fundamental items of hydrogeology and the different types of water winning and they are able to assess the quality of a raw water used for drinking water production. They know the fundamentals of the european and german water rights and they are familar with the most important principles of resource protection. Description Basics of hydrogeology: • Water balance (occurence, supply, consumption) • Groundwater and aquifers • Groundwater flow Water procurement: • Wells (planning, construction, operation, rehabilitation) • Springs • Bank filtration • Slow sand filtration • Surface water Water quality: • Hydrogeochemical processes • Inorganic and organic substances • Groundwater sanitation Water rights and water protection: • EU-water frame directive, water laws, drinking water directive • Application of water rights • Application of water protection zones Kind of examination The examination for the lecture is offered as written examination with duration of 90 minutes. In deviation from this an oral examination can be determined with duration from 30 to 60 minutes. The announcement for the kind of examination must be done early enough at the beginning of the term.

Literature Hölting, B. & Coldewey, W. G. (2005): Hydrogeologie - Einführung in die allgemeine und angewandte Hydrogeologie.- 6. Aufl., 326 S., 118 Abb., 46 Tab., ISBN 3827415268 Langguth, H.-R. & Voigt, R. (2004): Hydrogeologische Methoden.- 2. Aufl., 1005 S., 304 Abb., ISBN 3540211268 Balke, K.-D., Beims, U., Heers, F. W., Hölting, B., Homrighausen, R., Mattheß, G., & Kirsch, R. (2000): Grundwassererschließung - Grundlagen, Brunnenbau, Grundwasserschutz, Wasserrecht.- 740 S., 398 Abb., 81 Tab., ISBN 3443010148 Requirements keine

Module Name Industrial Course in Water Management and Technology Module Coordinator Dr.-Ing. Ralph Hobby Used in degree course • Master Management and Technology of Water and Waste Water PO08 • Master Management and Technology of Water and Waste Water PO15

Year Duration Type of module 1 1 Wahlmodul


ECTS-Credits

1 Industrial Course in Water Management and Technology 3 0 120 4

Total 0 120 4

Module Name Industrial Course in Water Management and Technology Course/Examination Name Industrial Course in Water Management and Technology Course Coordinator Dr.-Ing. Ralph Hobby

Semester Cycle Language 3 WS und SS deutsch/englisch


Teaching form Within the internship students learn the different economical and procedural processes in a "water"company and are involved into these processes with different jobs. The processes and the jobs have to be described in detail in the report. Learning objectives Within the master study course the internship should amend the theoretical part of the study course and the theoretical knowledge may be deepened by practical jobs in the internship. Description Students of the ISE master study course "Management and Technology of Water and Waste Water" have to do an industrial internship for at least 6 weeks. They have to show this internship latest by the registration for the master thesis. In the industrial internship students have the possibility to get to know different departments of a "water" company. There they can apply the theoretical economic and procedural knowledge from the lectures. The students have the possibility to see inside the special economic and procedural processes of a "water" company and get to know the linkage of the economic and procedural processes. Another important topic is the sociological aspect of a company. Students should to get to know the sociological structure and the labor relations to rank their own position and possibilities in a company for the future. Kind of examination Students prepare a detailed report which will be assessed at the end of the internship. Literature

Module Name Non-technical Subjects M Module Coordinator NN Used in degree course • Master Computational Mechanics PO07 • Master Management and Technology of Water and Waste Water PO08 • Master Automation and Control Engineering PO08 • Master Electrical and Electronic Engineering (Communications Engineering) PO08 • Master Electrical and Electronic Engineering (Power and Automation) PO08 • Master Computer Science and Communications Engineering PO08 • Master Mechanical Engineering (Energy and Environmental Engineering) PO08 • Master Metallurgy and Metal Forming PO08 • Master Mechanical Engineering (General Mechanical Engineering) PO08 • Master Mechanical Engineering (Mechatronics) PO08 • Master Mechanical Engineering (Production and Logistics) PO08 • Master Automation and Control Engineering PO15 • Master Communications Engineering PO15 • Master Power Engineering PO15 • Master Computer Engineering (Interactive Systems and Visualization) PO15 • Master Computer Engineering (Intelligent Networked Systems) PO15 • Master Embedded Systems Engineering PO15 • Master Management and Technology of Water and Waste Water PO15 • Master Metallurgy and Metal Forming PO15 • Master Mechanical Engineering (General Mechanical Engineering) PO15 • Master Mechanical Engineering (Mechatronics) PO15 • Master Mechanical Engineering (Production and Logistics) PO15 • Master Mechanical Engineering (Energy and Environmental Engineering) PO15 • Master Computational Mechanics PO15 • Master Mechanical Engineering (Ship and Offshore Technology) PO15

Year Duration Type of module 2 1 Wahlmodul

Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Non-technical Catalog M 3 0 240 8 Total 6 240 8

Module Name Non-technical Subjects M Course/Examination Name Non-technical Catalog M Course Coordinator NN

Semester Cycle Language 3 WS+SS deutsch/englisch


Teaching form The type of instruction depends on the chosen course. Learning objectives The module aims at deepening the general knowledge of the students and resp. at improving their language skills as well as strengthening their professional qualifications through the learning of teamwork and expose techniques. Description This module offers the students the opportunity to, besides the pure technical courses they take, attend some so called “non-technical subjects” and latter provide an attest for them. These courses can be chosen from the overall offers of the Duisburg-Essen university, whereby the “Institut für Optionale Studien“(IOS) proposes a catalog containing courses which fall under the named supplementary area. Kind of examination The type and duration of the examination will be defined from the lecturer before the semester starts. Literature Spezifisch für das gewählte Thema

Module Name Electives Module Module Coordinator NN Used in degree course • Master Computer Engineering PO04 • Master Computer Science and Communications Engineering PO04 • Master Control and Information Systems PO04 • Master Electrical and Electronic Engineering (Communications Engineering) PO04 • Master Electrical and Electronic Engineering (Power and Automation) PO04 • Master Mechanical Engineering (Water Resources and Environmental Engineering) PO04 • Master Mechanical Engineering (Production and Logistics) PO04 • Master Mechanical Engineering (Mechatronics) PO04 • Master Mechanical Engineering (General Mechanical Engineering) PO04 • Master Management and Technology of Water and Waste Water PO08 • Master Automation and Control Engineering PO08 • Master Electrical and Electronic Engineering (Communications Engineering) PO08 • Master Electrical and Electronic Engineering (Power and Automation) PO08 • Master Computer Engineering (Reliable Systems) PO08 • Master Computer Engineering (Interactive Systems and Visualization) PO08 • Master Computer Science and Communications Engineering PO08 • Master Mechanical Engineering (Energy and Environmental Engineering) PO08 • Master Metallurgy and Metal Forming PO08 • Master Mechanical Engineering (General Mechanical Engineering) PO08 • Master Mechanical Engineering (Mechatronics) PO08 • Master Mechanical Engineering (Production and Logistics) PO08


Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Elective 1 1 3 120 4 2 Elective 2 2 3 120 4 3 Elective 3 3 3 120 4 Total 9 360 12

Module Name Electives Module Course/Examination Name Elective 1 Course Coordinator NN

Semester Cycle Language 1 deutsch/englisch


Teaching form Learning objectives With a targeted choice of the elective subjects, the students should follow their affinities and qualify themselves for a job resp. for an academic career. Description The electives module should give the students the opportunity to expand the focus of their study program and of their specialization. By so doing, the deepness of the disciplinary education becomes more important. This can be on one hand very precious for a clearly defined professional use but on the other hand a door-opening to a scientific research (PhD) consecutive to the master degree. Alternatively, other subjects, which are relevant of other study fields of the Faculty of Engineering or which belong to other specializations, could also be chosen. In this way, interdisciplinary abilities, which are considerably important in the professional world in the sense of double qualifications, could be acquired. Kind of examination According to the examination regulation the type and duration of the examination will be defined from the lecturer before the semester starts. Literature

Module Name Master-Thesis Module Coordinator NN Used in degree course • Master Computational Mechanics PO07 • Master Management and Technology of Water and Waste Water PO08 • Master Automation and Control Engineering PO08 • Master Electrical and Electronic Engineering (Communications Engineering) PO08 • Master Electrical and Electronic Engineering (Power and Automation) PO08 • Master Computer Engineering (Reliable Systems) PO08 • Master Computer Engineering (Interactive Systems and Visualization) PO08 • Master Computer Science and Communications Engineering PO08 • Master Mechanical Engineering (Energy and Environmental Engineering) PO08 • Master Metallurgy and Metal Forming PO08 • Master Mechanical Engineering (General Mechanical Engineering) PO08 • Master Mechanical Engineering (Mechatronics) PO08 • Master Mechanical Engineering (Production and Logistics) PO08


Nr. Courses/Exams Semester SWS Workload in h ECTS-Credits 1 Master Thesis 4 0 0 27 2 Master Thesis Colloquium 4 0 0 3 Total 0 0 30

Module Name Master-Thesis Course/Examination Name Master Thesis Course Coordinator NN



Teaching form Master Thesis 6 month including a colloquium Learning objectives The master thesis is used to show that a student is capable of processing a problem from the corresponding field of engineering sciences autonomously and with scientific methods and presenting it comprehensibly, within a given period of time. Description The master thesis is an examination paper which concludes the scientific education in every master degree course within the academic program ISE. Within the colloquium the students will present intermediate and final results of their master thesis and will also participate in discussions of other thesis projects. Kind of examination A master thesis can be topically assigned without restrictions somewhere inside the faculty of engineering sciences. The processing time for a master thesis amounts to six months. The master thesis has to be drafted in German or English language and three hardcopies have to be handed in to the examination committee in time. The hardcopies have to be in DIN A4 format and they have to be bound. The master thesis shall normally consist out of 40 to 60 pages. Literature

Module Name Master-Thesis Course/Examination Name Master Thesis Colloquium Course Coordinator NN



Teaching form Presentation and discussion of the master thesis. Learning objectives The aim of the colloquium is to bring the students to be able to present the intermediate and final results of their work within a given length of time in a reasonable way. Description In the course of the accompanying colloquium, the students present the intermediate and final results of their master thesis and likewise take part in the discussions on other presented master thesis. Kind of examination Assessment of the master thesis together with the presentation of the colloquium. Literature

Imprint University of Duisburg Essen Faculty of Engineering Coordinator: Prof. Dr.-Ing. Stefan Panglisch Street: Forsthausweg 2 City: 47057 Duisburg Phone: 0203 379 3477 Fax: 0203 379 3017 E-mail: [email protected] Legally binding is only the exam regulation.

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WS Winter Semester SS Summer Semester SWS Contact hours per week Cr. Credits V Lecture Ü Exercise P Laboratory S Seminar d German e English

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