Suchergebnis: Katalogdaten im Herbstsemester 2017

Nummer	Titel	Typ	ECTS	Umfang	Dozierende
Bauingenieurwissenschaften Master
1. Semester
Vertiefungsfächer
Vertiefung in Bau- und Erhaltungsmanagement
066-0415-00L	Building Physics: Theory and Applications	W	4 KP	3V + 1U	J. Carmeliet, J. Allegrini, D. Derome
Kurzbeschreibung	Principles of heat and mass transport, hygro-thermal performance, durability of the building envelope and interaction with indoor and outdoor climates, applications.
Lernziel	The students will acquire in the following fields: - Principles of heat and mass transport and its mathematical description. - Indoor and outdoor climate and driving forces. - Hygrothermal properties of building materials. - Building envelope solutions and their construction. - Hygrothermal performance and durability.
Inhalt	Principles of heat and mass transport, hygro-thermal performance, durability of the building envelope and interaction with indoor and outdoor climates, applications.
529-0193-00L	Renewable Energy Technologies I Findet dieses Semester nicht statt. Die Lerneinheiten Renewable Energy Technologies I (529-0193-00L, im HS) und Renewable Energy Technologies II (529-0191-01L, im FS) können unabhängig voneinander besucht werden.	W	4 KP	3G	A. Wokaun, A. Steinfeld
Kurzbeschreibung	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.
Lernziel	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.
Inhalt	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.
Skript	Lecture notes will be distributed electronically during the course.
Literatur	- 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)
Voraussetzungen / Besonderes	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.
066-0427-00L	Design and Building Process MBS	W	2 KP	2V	A. Paulus, S. Menz
Kurzbeschreibung	"Design and Building Process MBS" is a brief manual for prospective architects and engineers covering the competencies and the responsibilities of all involved parties through the design and building process. Lectures on twelve compact aspects gaining importance in a increasingly specialised, complex and international surrounding.
Lernziel	Participants will come to understand how they can best navigate the design and building process, especially in relation to understanding their profession, gaining a thorough knowledge of rules and regulations, as well as understanding how involved parties' minds work. They will also have the opportunity to investigate ways in which they can relate to, understand, and best respond to their clients' wants and needs. Finally, course participants will come to appreciate the various tools and instruments, which are available to them when implementing their projects. The course will guide the participants, bringing the individual pieces of knowledge into a superordinate relationship.
Inhalt	"Design and Building Process MBS" is a brief manual for prospective architects and engineers covering the competencies and the responsibilities of involved parties through the design and building process. Twelve compact aspects regarding the establishe building culture are gaining importance in an increasingly specialised, complex and international surrounding. Lectures on the topics of profession, service model, organisation, project, design quality, coordination, costing, tendering and construction management, contracts and agreements, life cycle, real estate market, and getting started will guide the participants, bringing the individual pieces of knowledge into a superordinate relationship. The course introduces the key figures, depicts the criteria of the project and highlights the proveded services of the consultants. In addition to discussing the basics, the terminologies and the tendencies, the lecture units will refer to the studios as well as the prctice: Teaching-based case studies will compliment and deepen the understanding of the twelve selected aspects. The course is presented as a moderated seminar to allow students the opportunity for invididual input: active cololaboration between the students and their tutor therefore required.
101-0427-01L	Public Transport Design and Operations Remark: Former title until HS16 "System- und Netzplanung ".	W	6 KP	4G	F. Corman, V. De Martinis
Kurzbeschreibung	This course aims at analyzing, designing, improving public transport systems, as part of the overall transport system.
Lernziel	Public transport is a key driver for making our cities more livable, clean and accessible, providing safe, and sustainable travel options for millions of people around the globe. Proper planning of public transport system also ensures that the system is competitive in terms of speed and cost. Public transport is a crucial asset, whose social, economic and environmental benefits extend beyond those who use it regularly; it reduces the amount of cars and road infrastructure in cities; reduces injuries and fatalities associated to car accidents, and gives transport accessibility to very large demographic groups. Goal of the class is to understand the main characteristics and differences of public transport networks. Their various performance criteria based on various perspective and stakeholders. The most relevant decision making problems in a planning tactical and operational point of view At the end of this course, students can critically analyze existing networks of public transport, their design and use; consider and substantiate possible improvements to existing networks of public transport and the management of those networks; optimize the use of resources in public transport. General structure: general introduction of transport, modes, technologies, system design and line planning for different situations, mathematical models for design and line planning timetabling and tactical planning, and related mathematical approaches operations, and quantitative support to operational problems, evaluation of public transport systems.
Inhalt	Basics for line transport systems and networks Passenger/Supply requirements for line operations Objectives of system and network planning, from different perspectives and users, design dilemmas Conceptual concepts for passenger transport: long-distance, urban transport, regional, local transport Planning process, from demand evaluation to line planning to timetables to operations Matching demand and modes Line planning techniques Timetabling principles Allocation of resources Management of operations Measures of realized operations Improvements of existing services
Skript	Lecture slides are provided.
Literatur	Ceder, Avi: Public Transit Planning and Operation, CRC Press, 2015, ISBN 978-1466563919 (English) Holzapfel, Helmut: Urbanismus und Verkehr – Bausteine für Architekten, Stadt- und Verkehrsplaner, Vieweg+Teubner, Wiesbaden 2012, ISBN 978-3-8348-1950-5 (Deutsch) Hull, Angela: Transport Matters – Integrated approaches to planning city-regions, Routledge / Taylor & Francis Group, London / New York 2011, ISBN 978-0-415-48818-4 (English) Vuchic, Vukan R.: Urban Transit – Operations, Planning, and Economics, John Wiley & Sons, Hoboken / New Jersey 2005, ISBN 0-471-63265-1 (English) Walker, Jarrett: Human Transit – How clearer thinking about public transit can enrich our communities and our lives, ISLAND PRESS, Washington / Covelo / London 2012, ISBN 978-1-59726-971-1 (English) White, Peter: Public Transport - Its Planning, Management and Operation, 5th edition, Routledge, London / New York 2009, ISBN 978-0415445306 (English)
101-0522-00L	Introduction to Construction Information Management & Modelling Findet dieses Semester nicht statt.	W+	3 KP	2G	Noch nicht bekannt
Kurzbeschreibung	This course will provide both a theoretical background and a pragmatic project work (case studies) on current trends and developments of information modeling and management in the construction industry around the world and in Switzerland. The course will include external lecturers from engineering and construction companies in Switzerland.
Lernziel	Students enrolled in this course are expected to become familiar with current information modeling and management technologies and their applications to the construction industry, and to get a good understanding of new project delivery systems and technologies for integrated practice.
Inhalt	The content of the course is summarized in the following topics: - Introduction to information modeling and management technologies - Integrated Project Delivery (IPD) (vs. traditional delivery methods) - Information model execution plan - Information modeling tools and parametric modeling - Interoperability - Standards and foundations - Implications for engineers and the construction industry - Implications for owners and facility managers - Information Modeling and Prefabrication - Construction Analysis and Planning (4D modeling) - Quantity Takeoff and Cost Estimating (5D modeling)
Skript	The slides for the class will be available for download from Moodle at least one day before each class. Copies of all necessary documents will be distributed at appropriate times.
Literatur	Relevant readings will be recommended throughout the course and made available to the students via Moodle.
Voraussetzungen / Besonderes	There are no pre-requisites to enroll in this course. Note: the use of special software (e.g. Revit, ArchiCAD) or simulation software (e.g., Bentley ConstrucSim, Navisworks, Solibri Model Checker, etc.) is beyond the scope of this course.
101-0509-00L	Infrastructure Management 1: Process Remark: Former Title "Infrastructure Management Systems".	W+	4 KP	3G	B. T. Adey
Kurzbeschreibung	The course provides an introduction to the steps included in the infrastructure management process. The lectures are given by a mixture of external people in German and internal people in English.
Lernziel	Upon completion of the course, students will - understand the steps required to manage infrastructure effectively, - understand the complexity of these steps, and - have an overview of the tools that they can use in each of the steps.
Inhalt	- The infrastructure management process and guidelines - Knowing the infrastructure - Dealing with data - Establishing goals and constraints - Establishing organization structure and processes - Making predictions - Selecting strategies - Developing programs - Planning interventions - Conducting impact analysis - Reviewing the process
Skript	Appropriate reading / and study material will be handed out during the course. Transparencies will be handed out at the beginning of each class.
Literatur	Appropriate literature will be handed out when required.
101-0517-10L	Baubetrieb im Untertagbau	W	3 KP	2G	H. Ehrbar
Kurzbeschreibung	Bauverfahren für konventionelle Vortriebe im Lockermaterial und im Fels (Tunnel-, Schacht- und Kavernenbau) -Bauverfahren für maschinellen Vortrieb -Entscheidungskriterien für die Wahl der Vortriebsmethoden -Baustelleneinrichtungen, Logistik und Analyse des Baubetriebs
Lernziel	Vermittlung praxisnaher Kenntnisse bezüglich -Auswahl der Bauverfahren -Arbeitszyklen und Ausführung im konventionellen und maschinellen Vortrieb, inkl. Materialbewirtschaftung -Ausführungskontrollen und Überwachung -Anforderungen der Arbeitssicherheit, Gesundheitsschutz und Umweltschutz -Leistungsermittlung, Termin- und Kostenplanung -Erhaltungsmassnahmen Die Studierenden werden befähigt, ein Untertagbauprojekt in der Phase Bauprojekt als Planer (unter Berücksichtigung unternehmerischer Überlegungen) zu bearbeiten.
Inhalt	Allgemeine Grundlagen -SIA 196, SIA 197, SIA 198, SIA 118/198 -Kenntnis der Vortriebsmethoden -Entscheidungsgrundlagen zur Wahl der Vortriebsmethode -Baustellenlogistik (Transporte, Lüftung, Kühlung, Wasser, Materialbewirtschaftung) -Werkstoffe Konventioneller Vortrieb -Ausbruchmethoden (Vollausbruch / Teilausbruch) -Ausbruchsicherung -Abdichtung -Innengewölbe Maschineller Vortrieb -Offener Vortrieb (Gripper-TBM), Ausbruchsicherungskonzepte -Schildvortriebe Innenausbau -Abdichtung und Entwässerung -Innengewölbe -Bankette BIM im Tunnelbau -Überblick über den derzeitigen Stand und künftige Entwicklungsschritte
Skript	Vorlesungsfolien
Literatur	Im Rahmen der Vorlesung wird auf die gängige Fachliteratur hingewiesen

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