Suchergebnis: Katalogdaten im Herbstsemester 2017
Umweltingenieurwissenschaften Master | ||||||
Master-Studium (Studienreglement 2016) | ||||||
Vertiefungen | ||||||
Vertiefung Umwelttechnologien | ||||||
Obligatorische Module | ||||||
System Analysis in Urban Water Management inweis: Studierende, welche WASTE und SysUMW belegen, müssen die 102-0337-00 Landfilling, Contaminated Sites and Radioactive Waste Repositories als Ersatz für 102-0217-00 Process Engineering Ia im Modul WASTE belegen, welche in beiden Modulen vorkommt. | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
---|---|---|---|---|---|---|
102-0227-00L | Systems Analysis and Mathematical Modeling in Urban Water Management | O | 6 KP | 4G | E. Morgenroth, M. Maurer | |
Kurzbeschreibung | 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. | |||||
Lernziel | 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. | |||||
Inhalt | 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) | |||||
Skript | Copies of overheads will be made available. | |||||
Literatur | There will be a required textbook that students need to purchase: Willi Gujer (2008): Systems Analysis for Water Technology. Springer-Verlag, Berlin Heidelberg | |||||
Voraussetzungen / Besonderes | This course will be offered together with the course Process Engineering Ia. It is advantageous to follow both courses simultaneously. | |||||
102-0217-00L | Process Engineering Ia | O | 3 KP | 2G | E. Morgenroth | |
Kurzbeschreibung | Biological processes used in wastewater treatment, organic waste management, biological resource recovery. Focus on fundamental principles of biological processes and process design based on kinetic and stoichiometric principles. Processes include anaerobic digestion for biogas production and aerobic wastewater treatment. | |||||
Lernziel | Students should be able to evaluate and design biological processes. Develop simple mathematical models to simulate treatment processes. | |||||
Inhalt | Stoichiometry Microbial transformation processes Introduction to design and modeling of activated sludge processes Anaerobic processes, industrial applications, sludge stabilization | |||||
Skript | Copies of overheads will be made available. | |||||
Literatur | There will be a required textbook that students need to purchase (see Link for further information). | |||||
Voraussetzungen / Besonderes | For detailed information on prerequisites and information needed from Systems Analysis and Mathematical Modeling the student should consult the lecture program and important information (syllabus) of Process Engineering I that can be downloaded at Link |
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