Search result: Catalogue data in Autumn Semester 2017
Environmental Engineering Bachelor | ||||||
5. Semester | ||||||
Compulsory Courses 5. Semester | ||||||
Examination Block 3 | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
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102-0215-00L | Urban Water Management II | O | 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 Druckstösse 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 | |||||
102-0455-01L | Groundwater I | O | 4 credits | 2G | M. Willmann, J. Jimenez-Martinez | |
Abstract | The course provides an introduction into quantitative analysis of groundwater flow and transport. It is focused on formulating flow and transport problems in groundwater, which are to be solved analytically. | |||||
Objective | a) Students understand the basic concepts of flow and contaminant transport processes and boundary conditions in groundwater. b) Students are able to formulate simple practical flow and transport problems. c) Students are able to understand and apply simple analytical solutions to simple flow and transport problems. | |||||
Content | - Introduction, aquifers, groundwater use, sustainability, porosity, properties of porous media. - Flow properties, Darcy's law, filter. - Flow equations, stream function - Analytical solutions flow, superposition principles, transient flow, free surface flow. - Introduction to numerical methods: Finite difference method. - Transport processes. - Analytical solutions to transport problems - Groundwater protection, groundwater remediation, groundwater management. | |||||
Literature | J. Bear, Hydraulics of Groundwater, McGraw-Hill, New York, 1979 P.A. Domenico, F.W. Schwartz, Physical and Chemical Hydrogeology, J. Wilson & Sons, New York, 1990 W. Kinzelbach, R. Rausch, Grundwassermodellierung, Gebrüder Bornträger, Stuttgart, 1995 Krusemann, de Ridder, Untersuchung und Anwendung von Pumpversuchen, Verl. R. Müller, Köln, 1970 G. de Marsily, Quantitative Hydrogeology, Academic Press, 1986 | |||||
102-0635-01L | Air Pollution Control | O | 6 credits | 4G | J. Wang, B. Buchmann | |
Abstract | The lecture provides in the first part an introduction to the formation of air pollutants by technical processes, the emission of these chemicals into the atmosphere and their impact on air quality. The second part covers different strategies and techniques for emission reduction. The basic knowledge is deepened by the discussion of specific air pollution problems of today's society. | |||||
Objective | The students gain general knowledge of the technical processes resulting in air pollution and study the methods used for air pollution control. The students can identify major air pollution sources and understand the methods for measuring pollutants, collecting and analyzing data. The students can suggest and evaluate possible control methods and equipment, design control systems and estimate their efficiency and efforts. The students know the different strategies of air pollution control and are familiar with their scientific fundamentals. They are able to incorporate goals concerning air quality into their engineering work. | |||||
Content | Part 1 Emission, Immission, Transmission Fluxes of pollutants and their environmental impact: - physical and chemical processes leading to emission of pollutants - mass and energy of processes - Emission measurement techniques and concepts - quantification of emissions from individual and aggregated sources - extent and development of the emissions (Switzerland and global) - propagation and transport of pollutants (transmission) - meteorological parameters influencing air pollution dispersion - deterministic and stochastic models, describing air pollution dispersion - dispersion models (Gaussian model, box model, receptor model) - measurement concepts for ambient air (immission level) - extent and development of ambient air mixing ratios - goal and instrument of air pollution control Part 2 Air Pollution Control Technologies The reduction of the formation of pollutants is done by modifying the processes (pro-cessintegrated measures) and by different engineering operations for the cleaning of waste gas (downstream pollution control). It will be demonstrated, that the variety of these procedures can be traced back to the application of a few basic physical and chemical principles. Procedures for the removal of particles (inertial separator, filtration, electrostatic precipitators, scrubbers) with their different mechanisms (field forces, impaction and diffusion processes) and the modelling of these mechanisms. Procedures for the removal of gaseous pollutants and the description of the driving forces involved, as well as the equilibrium and the kinetics of the relevant processes (absorption, adsorption as well as thermal, catalytic and biological conversions). Discussion of the technical possibilities to solve the actual air pollution problems. | |||||
Lecture notes | Brigitte Buchmann, Air pollution control, Part I Jing Wang, Air pollution control, Part II Lecture slides and exercises | |||||
Literature | List of literature included in script | |||||
Prerequisites / Notice | College lectures on basic physics, chemistry and mathematics. Language of instruction: In German or in English. | |||||
102-0675-00L | Earth Observation | O | 4 credits | 3G | I. Hajnsek, E. Baltsavias | |
Abstract | The aim of the course is to provide the fundamental knowledge about earth observation sensors, techniques and methods for bio/geophysical environmental parameter estimation. | |||||
Objective | The aim of the course is to provide the fundamental knowledge about earth observation sensors, techniques and methods for bio/geophysical environmental parameter estimation. Students should know at the end of the course: 1. Basics of measurement principle 2. Fundamentals of image acquisition 3. Basics of the sensor-specific geometries 4. Sensor-specific determination of environmental parameters | |||||
Content | Die Lehrveranstaltung gibt einen Einblick in die heutige Erdbeoachtung mit dem follgenden skizzierten Inhalt: 1. Einführung in die Fernerkundung von Luft- und Weltraum gestützen Systemen 2. Einführung in das Elektromagnetische Spektrum 3. Einführung in optische Systeme (optisch und hyperspektral) 4. Einführung in Mikrowellen-Technik (aktiv und passiv) 5. Einführung in atmosphärische Systeme (meteo und chemisch) 6. Einführung in die Techniken und Methoden zur Bestimmung von Umweltparametern 7. Einführung in die Anwendungen zur Bestimmung von Umweltparametern in der Hydrologie, Glaziologie, Forst und Landwirtschaft, Geologie und Topographie | |||||
Lecture notes | Folien zu jeden Vorlesungsblock werden zur Verfügung gestellt. | |||||
Literature | Ausgewählte Literatur wird am Anfang der Vorlesung vorgestellt. | |||||
Examination Block 4 In place of the German course 851-0703-03L Introduction to Law for Civil Engineering students can take the French course 851-0709-00L Droit civil. | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
101-0031-02L | Business Administration Remark: Students BSc Civil Engineering (StR2014) are not allowed to assign to 101-0031-02, but have to assign 101-0031-04 in spring semester (2. Sem). | O | 2 credits | 2V | J.‑P. Chardonnens | |
Abstract | Introduction to business administration Principles of accounting and financial management Financial planning and capital budgeting of projects Costing systems by corporations | |||||
Objective | Prepare and analyze the financial statements of organizations Establish budget and determine profitability of investment Understand the major costing systems Perform some product calculations | |||||
Content | Overview in business administration Financial Accounting - Balance sheet, income statement - Accounts, double-entry bookkeeping - Year-end closing and financial statements Financial Management - Financial statement analysis - Financial planning - Investment decisions Management Accounting - Full costing and marginal costing - Product costing - Management decisions | |||||
851-0703-03L | Introduction to Law for Civil Engineering Only for Civil Engineering BSc, Geomatic Engineering and Planning BSc, Environmental Engineering BSc and Spatial Development and Infrastructure Systems MSc Students who have attended or will attend the lecture "Introduction to Law for Architecture " (851-0703-01L) cannot register for this course unit. | W | 2 credits | 2V | G. Hertig, T. Ender, E. Rüegg | |
Abstract | This class introduces students to basic features of the legal system. Questions of constitutional and administrative law, contract law, tort law, corporate law, as well as litigation are covered. | |||||
Objective | Introduction to fundamental questions of public and private law which serves as a foundation for more advanced law classes. | |||||
Content | 1. Public Law Fundamental rights, administrative decisions, procedural law, basics of police, environmental and zoning law. 2. Private law SIA (Swiss Society of Engineers and Architects) Design Engineering Services Contract, SIA-Norm 118 (SIA General Terms and Conditions for Construction Services) including unforseen ground conditions, liability of designers/civil engineers, construction insurance, property law for civil engineers, sale of land, contaminated sites, public procurement. | |||||
Lecture notes | There are 'Lecture Notes' (in German) for this course. | |||||
851-0709-00L | Introduction to Civil Law | W | 2 credits | 2V | H. Peter | |
Abstract | The course Private Law focuses on the Swiss Code of Obligations (contracts, torts) and on Property Law (ownership, mortgage and easements). In addition, the course will provide a short overview of Civil Procedure and Enforcement. | |||||
Objective | Enseignement des principes du droit, en particulier du droit privé. Introduction au droit. | |||||
Content | Le cours de droit civil porte notamment sur le droit des obligations (droit des contrats et responsabilité civile) et sur les droits réels (propriété, gages et servitudes). De plus, il est donné un bref aperçu du droit de la procédure et de l'exécution forcée. | |||||
Literature | Editions officielles récentes des lois fédérales, en langue française (Code civil et Code des obligations) ou italienne (Codice civile e Codice delle obbligazioni), disponibles auprès de la plupart des librairies. Sont indispensables: - le Code civil et le Code des obligations; Sont conseillés: - Nef, Urs Ch.: Le droit des obligations à l'usage des ingénieurs et des architectes, trad. Bovay, J., éd. Payot, Lausanne - Scyboz, G. et. Gilliéron, P.-R, éd.: Edition annotée du Code civil et du Code des obligations, Payot, Lausanne, et Helbing & Lichtenhahn, - Boillod, J.-P.: Manuel de droit, éd Slatkine, Genève - Biasio, G./Foglia, A.: Introduzione ai codici di diritto privato svizzero, ed. Giappichelli, Torino | |||||
Prerequisites / Notice | Remarques - Le cours de droit civil et le cours de droit public (2e sem.) sont l'équivalent des cours "Recht I" et "Recht II" en langue allemande et des exercices y relatifs. - Les examens peuvent se faire en français ou en italien. - Examen au 1er propédeutique; convient pour travail de semestre. - Con riassunti in italiano. E possibile sostenere l'esame in italiano. | |||||
101-0515-00L | Project Management | O | 2 credits | 2G | C. G. C. Marxt | |
Abstract | The course gives a detailed introduction on various aspects of professional project management out of theory and practice. Established concepts and methods for project organization, planning, execution and evaluation are introduced and major challenges discussed. The course includes an introduction on specialized project management software as well as agile project management concepts. | |||||
Objective | Projects are not only the base of work in modern enterprises but also the primary type of cooperation with customers. Students of ETH will often work in or manage projects in the course of their career. Good project management knowledge is not only a guarantee for individual, but also for company wide success. The goal of this course is to give a detailed introduction into project management. The students should learn to plan and execute a project. | |||||
Content | Project planning (aims, appointments, capacities, efforts and costs), project organization, scheduling and risk analysis, project execution, supervision and control, project evaluation, termination and documentation, conflict management, multinational project management, IT support as well as agile project management methods such as SCRUM. | |||||
Lecture notes | No. The lecture slides and other additional material will be available for download from Moodle a week before each class. | |||||
Additional Compulsory Courses | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
102-0515-01L | Environmental Engineering Seminars | O | 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. | |||||
Elective Blocks | ||||||
Elective Block: Environmental Planning | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
102-0535-00L | Noise Abatement | W | 5 credits | 4G | K. Eggenschwiler, J. M. Wunderli | |
Abstract | Basics of acoustics and hearing. Measurement of sound. Impact of noise (physiological, psychological, social, economic). Legislation (focus on Swiss noise abatement ordinance), spatial planning. Sound propagation outdoor and in buildings. Calculation models and measurement procedures. Traffic noise (roads, railways, airports), shooting noise, noise from industrial plants. Building acoustics. | |||||
Objective | The students will understand the basics of noise abatement: acoustics, impact of noise, meas-urement techniques and legislation. The students will be able to analyze different noise prob-lems and they will be able to solve simple problems of noise abatement. | |||||
Content | Physikalische Grundlagen: Schalldruck, Wellen, Quellenarten. Akustische Messtechnik: Umgang mit Dezibel, Akustische Masse, Schallpegelmesser, Spektralanalyse. Lärmwirkungen: Gehör, Gesundheitliche Wirkungen von Lärm, Störung/Belästigung, Belastungsmasse. Gesetzliche Grundlagen der Lärmbekämpfung / Raumplanung: Lärmschutzverordnung/SIA 181. Zusammenhang mit der Raumplanung. Schallausbreitung im Freien: Abstandsgesetze, Luftdämpfung, Bodeneffekt, Abschirmung, Reflexion, Streuung, Bebauung, Wettereinflüsse. Kurze Einführung in die Bauakustik und in die einfachsten Grundlagen der Raumakustik. Eigenschaften von Schallquellen: Akustische Beschreibung von Schallquellen, Lärmminderung an der Quelle. Lärmarten und Prognoseverfahren: Messen/Berechnen, Strassenlärm, Eisenbahnlärm, Fluglärm, Schiesslärm, Industrielärm. | |||||
Lecture notes | Skript "Lärmbekämpfung" erhältlich zu Beginn der Vorlesung. Bestellung auch hier möglich: Sekretariat der Abteilung Akustik, EMPA Dübendorf. Link. +41 58 765 4692. Link | |||||
Prerequisites / Notice | 1 - 2 Exkursionen | |||||
Elective Block: Soil Protection | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
701-0501-00L | Pedosphere | W | 3 credits | 2V | R. Kretzschmar | |
Abstract | Introduction to the formation and properties of soils as a function of parent rock, landscape position, climate, and soil organisms. Complex relationships between soil forming processes, physical and chemical soil properties, soil biota, and ecological soil properties are explained and illustrated by numerous examples. | |||||
Objective | Introduction to the formation and properties of soils as a function of parent rock, landscape position, climate, and soil organisms. Complex relationships between soil forming processes, physical and chemical soil properties, soil biota, and ecological soil properties are explained and illustrated by numerous examples. | |||||
Content | Definition of the pedosphere, soil functions, rocks as parent materials, minerals and weathering, soil organisms, soil organic matter, physical soil properties and functions, chemical soil properties and functions, soil formation, principles of soil classification, global soil regions, soil fertility, land use and soil degradation. | |||||
Lecture notes | Lecture notes can be purchased during the first lecture (15.- SFr) | |||||
Literature | - Scheffer/Schachtschabel - Soil Science, Springer, Heidelberg, 2016. - Brady N.C. and Weil, R.R. The Nature and Properties of Soils. 14th ed. Prentice Hall, 2007. | |||||
Prerequisites / Notice | Prerequisites: Basic knowledge in chemistry, biology and geology. | |||||
701-0533-00L | Soil Chemistry | W | 3 credits | 2G | R. Kretzschmar, D. I. Christl | |
Abstract | This course discusses chemical and biogeochemical processes in soils and their influence on the behavior and cycling of nutrients and pollutants in terrestrial systems. Approaches for quantitative modeling of the processes are introduced. | |||||
Objective | Understanding of important chemical soil properties and processes and their influence on the behavior (e.g., speciation, bioavailability, mobility) of nutrients and pollutants. | |||||
Content | Important topics include the structure and properties of clays and oxides, the chemistry of the soil solution, gas equilibria, dissolution and precipitation of mineral phases, cation exchange, surface complexation, chemistry of soil organic matter, redox reactions in flooded soils, soil acidification and soil salinization. | |||||
Lecture notes | Handouts in lectures. | |||||
Literature | - Selected chapters in: Encyclopedia of Soils in the Environment, 2005. - Chapters 2 and 5 in Scheffer/Schachtschabel - Soil Science, 1st English edition, Springer, 2016. | |||||
Elective Block: Civil Engineering | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
101-0339-00L | Environmental Geotechnics | W | 3 credits | 2G | M. Plötze | |
Abstract | Introduction of basic knowledge about problems with contaminated sites, investigation of this sites, risque management, remediation and reclamation techniques as well as monitoring systems. Introduction in landfill design and engineering with focus on barrier- and drainage systems and lining materials, evaluation of geotechnical problems, e.g. stability | |||||
Objective | Introduction of basic knowledge about problems with contaminated sites, investigation of this sites, risque management, remediation and reclamation techniques as well as monitoring systems. Introduction in landfill design and engineering with focus on barrier- and drainage systems as wellas lining materials, evaluation of geotechnical problems, e.g. stability | |||||
Content | Definition of contaminated sites, site investigation methods, historical research and technical investigation, risque assessment, contamination transport, remediation, clean-up and retaining techniques (e.g. bioremediation, incineration, retaining walls, pump-and-treat, permeable reactive barriers), monitoring, research projects and results waste, waste disposal, treatment and management, multi-barrier-systems, site investigation, lining systems and recovering systems of landfill (e.g. materials, drainage systems, geosynthetics), stability, research projects and results | |||||
Lecture notes | Dr. R. Hermanns Stengele, Dr. M. Plötze: Environmental Geotechnics (german) digital | |||||
Prerequisites / Notice | excursion | |||||
101-1249-00L | Hydraulics of Engineering Structures | W | 3 credits | 2G | H. Fuchs, I. Albayrak, L. Schmocker | |
Abstract | Hydraulic fundamentals are applied to hydraulic structures for wastewater, flood protection and hydropower. Typical case studies from engineering practice are further described. | |||||
Objective | Understanding and quantification of fundamental hydraulic processes with particular focus on hydraulic structures for wastewater, flood protection and hydropower | |||||
Content | 1. Introduction & Basic equations 2. Losses in flow & Maximum discharge 3. Uniform flow & Critical flow 4. Hydraulic jump and stilling basin 5. Backwater curves 6. Weirs/End overfalls & Venturi 7. Sideweir & Sidechannel 8. Bottom opening & Culverts, throttling pipes, inverted siphons 9. Fall manholes & Vortex drop 10. Supercritical flow & Special manholes 11. Air/water flows and bottom outlets 12. Vegetated flows - Introduction 13. Vegetated flows - Application 14. Summary & Preparation for examination | |||||
Lecture notes | Text books Hager, W.H. (2010). Wastewater hydraulics. Springer: New York. | |||||
Literature | Exhaustive references are contained in the suggested text book. | |||||
Elective Block: Energy | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
529-0193-00L | Renewable Energy Technologies I Does not take place this semester. The lectures Renewable Energy Technologies I (529-0193-00L) and Renewable Energy Technologies II (529-0191-01L) can be taken independently from one another. | W | 4 credits | 3G | A. Wokaun, A. Steinfeld | |
Abstract | Scenarios for world energy demand and CO2 emissions, implications for climate. Methods for the assessment of energy chains. Potential and technology of renewable energies: Biomass (heat, electricity, biofuels), solar energy (low temp. heat, solar thermal and photovoltaic electricity, solar chemistry). Wind and ocean energy, heat pumps, geothermal energy, energy from waste. CO2 sequestration. | |||||
Objective | Scenarios for the development of world primary energy consumption are introduced. Students know the potential and limitations of renewable energies for reducing CO2 emissions, and their contribution towards a future sustainable energy system that respects climate protection goals. | |||||
Content | Scenarios for the development of world energy consumption, energy intensity and economic development. Energy conversion chains, primary energy sources and availability of raw materials. Methods for the assessment of energy systems, ecological balances and life cycle analysis of complete energy chains. Biomass: carbon reservoirs and the carbon cycle, energetic utilisation of biomass, agricultural production of energy carriers, biofuels. Solar energy: solar collectors, solar-thermal power stations, solar chemistry, photovoltaics, photochemistry. Wind energy, wind power stations. Ocean energy (tides, waves). Geothermal energy: heat pumps, hot steam and hot water resources, hot dry rock (HDR) technique. Energy recovery from waste. Greenhouse gas mitigation, CO2 sequestration, chemical bonding of CO2. Consequences of human energy use for ecological systems, atmosphere and climate. | |||||
Lecture notes | Lecture notes will be distributed electronically during the course. | |||||
Literature | - Kaltschmitt, M., Wiese, A., Streicher, W.: Erneuerbare Energien (Springer, 2003) - Tester, J.W., Drake, E.M., Golay, M.W., Driscoll, M.J., Peters, W.A.: Sustainable Energy - Choosing Among Options (MIT Press, 2005) - G. Boyle, Renewable Energy: Power for a sustainable futureOxford University Press, 3rd ed., 2012, ISBN: 978-0-19-954533-9 -V. Quaschning, Renewable Energy and Climate ChangeWiley- IEEE, 2010, ISBN: 978-0-470-74707-0, 9781119994381 (online) | |||||
Prerequisites / Notice | Fundamentals of chemistry, physics and thermodynamics are a prerequisite for this course. Topics are available to carry out a Project Work (Semesterarbeit) on the contents of this course. | |||||
227-1631-00L | Energy System Analysis | W | 4 credits | 3G | G. Hug, S. Hellweg, F. Noembrini, A. Schlüter | |
Abstract | The course provides an introduction to the methods and tools for analysis of energy consumption, energy production and energy flows. Environmental aspects are included as well as economical considerations. Different sectors of the society are discussed, such as electric power, buildings, and transportation. Models for energy system analysis planning are introduced. | |||||
Objective | The purpose of the course is to give the participants an overview of the methods and tools used for energy systems analysis and how to use these in simple practical examples. | |||||
Content | The course gives an introduction to methods and tools for analysis of energy consumption, energy production and energy flows. Both larger systems, e.g. countries, and smaller systems, e.g. industries, homes, vehicles, are studied. The tools and methods are applied to various problems during the exercises. Different conventions of energy statistics used are introduced. The course provides also an introduction to energy systems models for developing scenarios of future energy consumption and production. Bottom-up and Top-Down approaches are addressed and their features and applications discussed. The course contains the following parts: Part I: Energy flows and energy statistics Part II: Environmental impacts Part III: Electric power systems Part IV: Energy in buildings Part V: Energy in transportation Part VI: Energy systems models | |||||
Lecture notes | Handouts | |||||
Literature | Excerpts from various books, e.g. K. Blok: Introduction to Energy Analysis, Techne Press, Amsterdam 2006, ISBN 90-8594-016-8 |
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