Suchergebnis: Katalogdaten im Herbstsemester 2017

Bauingenieurwissenschaften Master Information
3. Semester
Vertiefungsfächer
Vertiefung in Bau- und Erhaltungsmanagement
NummerTitelTypECTSUmfangDozierende
101-0549-00LAK BaurechtW+3 KP2GH. Briner, D. Trümpy
KurzbeschreibungGrundkenntnisse im öffentlichen und privaten Baurecht; eingegangen wird u.a. auf Raumplanungsrecht, Umweltrecht, Bauverfahrensrecht, Bauvorschriften.
LernzielTeil 1: Erwerb von Grundkenntnissen des öffentlichen Rechts, das das Bauen betrifft: Raumplanungsrecht, Bauvorschriften, Umweltrecht und Bauverfahrensrecht
Teil 2: Erwerb von Grundkenntnissen des privaten Baurechts
InhaltTeil 1: Jede Lektion behandelt für ein bestimmtes Stadium des Projekts ein Thema des öffentlichen Baurechts wie Bau- und Zonenordnungen, Quartierpläne, Umweltverträglichkeitsprüfungen, Baubewilligungsverfahren etc..
Teil 2: Grundzüge des privaten Baurechts wie Abnahme und Genehmigung von Bauwerken, Vollmacht des Architekten / Ingenieurs zu Rechtshandlungen namens des Bauherrn, Mängelrüge im Bauwesen, Mehrheit ersatzpflichtiger Baubeteiligter, Generalunternehmervertrag, Haftung des Baumaterialverkäufers, Bauhandwerkerpfandrecht, Grundzüge der SIA-Norm 118, Baukonsortium, technische Normen, internationale Bauverträge, Architekten / Ingenieure als Gerichtsexperten, Aspekte des Bauzivilprozesses
SkriptD. Trümpy: Tafeln zu den Grundzügen des schweizerischen Bauvertragsrechts (Vorlesungsunterlage)
H. Briner: Tafeln zu den Grundzügen des öffentlichen Raumplanungs-, Bau- und Umweltrechts (Vorlesungsunterlage)
Literatur- Stöckli P./Siegenthaler Th. (Hrsg.) Die Planerverträge, Schulthess 2013
- Gauch Peter, Werkvertrag, 5. Auflage, Schulthess 2011
- Lendi, M.; Nef, U.Chr.; Trümpy, D. (Hrsg.): Das private Baurecht in der Schweiz, vdf Zürich 1994
- Trümpy, D.: Architektenvertragstypen unter Berücksichtigung der Ausgabe 1984 der SIA-Ordnung 102, Zürcher Studien zum Privatrecht Nr. 67, Zürich 1989
Voraussetzungen / BesonderesDie Teilnehmer sollen stets ein Exemplar der SIA-Norm 118, der SIA-LHO 103 sowie die Gesetzesausgaben von OR und ZGB bei sich haben.
101-0577-00LAn Introduction to Sustainable Development in the Built EnvironmentO3 KP2GG. Habert
KurzbeschreibungIn 2015, the UN Conference in Paris shaped future world objectives to tackle climate change.
in 2016, other political bodies made these changes more difficult to predict.
What does it mean for the built environment?
This course provides an introduction to the notion of sustainable development when applied to our built environment
LernzielAt the end of the semester, the students have an understanding of the term of sustainable development, its history, the current political and scientific discourses and its relevance for our built environment.

In order to address current challenges of climate change mitigation and resource depletion, students will learn a holistic approach of sustainable development. Ecological, economical and social constraints will be presented and students will learn about methods for argumentation and tools for assessment (i.e. life cycle assessment).

For this purpose an overview of sustainable development is presented with an introduction to the history of sustainability and its today definition as well as the role of cities, urbanisation and material resources (i.e. energy, construction material) in social economic and environmetal aspects.

The course aims to promote an integral view and understanding of sustainability and describing different spheres (social/cultural, ecological, economical, and institutional) that influence our built environment.

Students will acquire critical knowledge and understand the role of involved stakeholders, their motivations and constraints, learn how to evaluate challenges, identify deficits and define strategies to promote a more sustainable construction.

After the course students should be able to define the relevance of specific local, regional or territorial aspects to achieve coherent and applicable solutions toward sustainable development.

The course offers an environmental, socio-economic and socio-technical perspective focussing on buildings, cities and their transition to resilience with sustainable development. Students will learn on theory and application of current scientific pathways towards sustainable development.
InhaltThe following topics give an overview of the themes that are to be worked on during the lecture.

- Overview on the history and emergence of sustainable development
- Overview on the current understanding and definition of sustainable development

Methods
- Method 1: Life cycle assessment (planning, construction, operation/use, deconstruction)
- Method 2: Life Cycle Costing
- Method 3: Labels and certification

Main issues:
- Operation energy at building, urban and national scale
- Mobility and density questions
- Embodied energy for developing and developed world

- Synthesis: Transition to sustainable development
SkriptAll relevant information will be online available before the lectures. For each lecture slides of the lecture will be provided.
LiteraturA list of the basic literature will be offered on a specific online platform, that could be used by all students attending the lectures.
101-0587-00LWorkshop on Sustainable Building Certification Belegung eingeschränkt - Details anzeigen
Maximale Teilnehmerzahl: 25
W+3 KP2GD. Kellenberger, G. Habert
KurzbeschreibungBuilding labels are used to certify buildings and neighbourhoods in term of sustainability. Many different labels have been developed and can be used in Switzerland (LEED, DGNB, SNBS, Minergie). In this course the differences between the certification labels and its application on 3 emblematic case study buildings will be discussed.
LernzielAfter this course, the students are able to understand and use the different certification labels.
They have a clear view of what the labels take into consideration and what they don't.
InhaltThree buildings case study will be presented.

Different certification schemes, including LEED (American standard), DGNB (German Standard with Swiss adaptation), SNBS, MINERGIE-ECO and 2000-Watt-Society (Swiss standards) will be presented and explained by experts.

After this overall general presentation and in order to have a closer look to specific aspects of sustainability, students will work in groups and assess during one or two weeks this specific criteria on one of the case studies presented before. This practical hands on the label will end with a presentation and a discussion where we will highlight differences between the labels.

This alternance of working session on one specific criteria for one specific building followed by a group presentation and discussion to compare labels is repeated for the different focus point (operation energy, mobility, daylight, indoor air quality).
SkriptThe slides from the presentations will be made available.
LiteraturAll documents for certification labels as well as detail plans of the buildings will be available for the students.
101-0439-00LIntroduction to Economic Analysis - A Case Study Approach with Cost Benefit Analysis in Transport
Remark:
Former Title "Introduction to Economic Policy - A Case Study Approach with Cost Benefit Analysis in Transport".
W6 KP4GK. W. Axhausen, R. Schubert
KurzbeschreibungDie Vorlesung stellt einige grundlegende ökonomische Prinzipien sowie die Verfahren der Kosten-Nutzen-Analyse vor; sie führt auch in Methoden zur Ermittlung von Bewertungsgrössen ein
LernzielSichere Kenntnis mikro- und makroökonomischer Grundlagen. Erarbeitung und Übung von Verfahren der Bewertung von Massnahmen und infrastrukturellen Ausbauten
InhaltMikro-und makroökonomische Grundlagen; Kosten - Nutzen - Analyse; Nutzwertanalyse; Europäische Richtlinien; Stated response Verfahren; Reisekostenansatz et al.; Bewertung von Reisezeitveränderungen; Bewertung der Verkehrssicherheit
Skriptmoodle Plattform für die ökonomischen Grundlagen; Umdrucke
LiteraturTaylor, M.P., Mankiw, N.G. (2014): Economics; Harvard Press

VSS (2006) SN 640 820: Kosten-Nutzen-Analysen im Strassenverkehr, VSS, Zürich.

Boardman, A.E., D.H. Greenberg, A.R. Vining und D.L. Weimer (2001) Cost – Benefit – Analysis: Concepts and Practise, Prentice-Hall, Upper Saddle River.

ecoplan and metron (2005) Kosten-Nutzen-Analysen im Strassenverkehr: Kommentar zu SN 640 820, UVEK, Bern.
101-0419-00LEisenbahnbau und -erhaltungW4 KP4GU. A. Weidmann, P. Güldenapfel, M. Kohler, M. J. Manhart, weitere Referent/innen
KurzbeschreibungGleisgeometrie einschliesslich deren Berechnung und Vermessung sowie zugehörige Datensysteme; Interaktion Fahrweg - Fahrzeug, Fahrzeugdynamik, Oberbaubeanspruchung; Fahrbahnbau einschliesslich spezieller Aspekte des Ingenieurbaus; Zustandsdiagnose und -prognose; Fahrbahnerhaltung und Erhaltungsmethoden
LernzielDie Vorlesung gibt einen vertiefenden Einblick in die geometrische Linienführung, die Interaktionen Fahrweg - Fahrzeug sowie in Aufbau und Bemessung des Gleises. Methoden der Zustandserfassung und von dessen Prognose werden behandelt. Zeitgemässe Strategien und Verfahren für Bau, Erhaltung und Unterhalt von Bahnanlagen werden dargestellt.
InhaltGleisgeometrie einschliesslich deren Berechnung und Vermessung sowie zugehörige Datensysteme; Interaktion Fahrweg - Fahrzeug, Fahrzeugdynamik, Oberbaubeanspruchung; Fahrbahnbau einschliesslich spezieller Aspekte des Ingenieurbaus; Zustandsdiagnose und -prognose; Fahrbahnerhaltung und Erhaltungsmethoden
SkriptDie Vorlesungsfolien werden zur Verfügung gestellt.
LiteraturEs wird eine Liste mit weiterführender Literatur abgegeben.
Voraussetzungen / BesonderesDer vorgängige Besuch der Vorlesung Bahninfrastrukturen (Verkehr II) wird empfohlen.
101-0507-00LInfrastructure Management 3: Optimisation Tools
Remark:
New title from HS17 on: Infrastructure Management 3: Optimisation Tools now in HS. Old title until FS17: Infrastructure Maintenance Management.
W+3 KP2GB. T. Adey
KurzbeschreibungThis course will provide an introduction to the methods and tools that can be used to determine optimal inspection and intervention strategies and work programs for infrastructure.
LernzielUpon successful completion of this course students will be able:
- to use preventive maintenance models, such as block replacement, periodic preventive maintenance with minimal repair, and preventive maintenance based on parameter control, to determine when, where and what should be done to maintain infrastructure
- to take into consideration future uncertainties in appropriate ways when devising and evaluating monitoring and management strategies for physical infrastructure
- to use operation research methods to find optimal solutions to infastructure management problems
InhaltPart 1:
Explanation of the principal models of preventative maintenance, including block replacement, periodic group repair, periodic maintenance with minimal repair and age replacement, and when they can be used to determine optimal intervention strategies

Part 2:
Explanation of preventive maintenance models that are based on parameter control, including Markovian models and opportunistic replacement models

Part 3:
Explanation of the methods that can be used to take into consideration the future uncertainties in the evaluation of monitoring strategies

Part 4:
Explanation of how operations research methods can be used to solve typical infrastructure management problems.
SkriptA script will be given out at the beginning of the course.
Class relevant materials will be distributed electronically before the start of class.
A copy of the slides will be handed out at the beginning of each class.
Voraussetzungen / BesonderesSuccessful completion of IM1: 101-0579-00 Evaluation tools is a prerequisite for this course.
101-0520-00LProject Management: Project Execution to CloseoutW+3 KP2GJ. J. Hoffman
KurzbeschreibungThe course will give Engineering students a comprehensive overview and enduring understanding of the techniques, processes, tool and terminology to manage the Project Triangle (time, cost Quality) and to organize,analyze,control and report a complex project from start of Project Execution to Project Completion. Responsibilities will be detailed in each phase of the execution.
LernzielA student after completing the course will have the understanding of the Project Management duties, responsibilities, actions and decisions to be done during the Execution phase of a complex project.
InhaltExecution Phase of the Project
Engineering Management - Scope, EV Measurement, Reporting and Organization
Procurement and Transportation - Scope, EV Measurement, Reporting and Organization
Civil Construction and Erection - Scope, EV Measurement, Reporting and Organization
Financial Reporting and forecasting
Risk & Opportunity Identification Assessment and Quantification during Execution
Team Organization and Leadership
Risk and opportunity identification and quantification
Contract Claims and Delays
Execution Quality
Environmental Health and safety during execution
LiteraturRequired and suggested reading will be uploaded on weakly basis.
Voraussetzungen / BesonderesPrerequisite for this course is course Project Management: Pre-Tender to Contract Execution number 101-0517-01 G, unless otherwise approved by the lecturer.
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