Mélanie Haupt: Catalogue data in Spring Semester 2021

Name Dr. Mélanie Haupt
Address
Ökologisches Systemdesign
ETH Zürich, HIF D 27.1
Laura-Hezner-Weg 7
8093 Zürich
SWITZERLAND
E-mailhaupt@ifu.baug.ethz.ch
URLhttp://www.esd.ifu.ethz.ch/the-group/people/person-detail.html?persid=144576
DepartmentCivil, Environmental and Geomatic Engineering
RelationshipLecturer

NumberTitleECTSHoursLecturers
102-0338-01LWaste Management and Circular Economy3 credits2GM. Haupt, U. Baier
AbstractUnderstanding the fundamental concepts of advanced waste management and circular economy and, in more detail, on biological processes for waste treatment. Application of concepts on various waste streams, including household and industrial waste streams. Insights into environmental aspects of different waste treatment technologies and waste economy.
ObjectiveThe purpose of this course is to study the fundamental concepts of waste management in Switzerland and globally and learn about new concepts such as Circular Economy. In-depth knowledge on biological processes for waste treatments should be acquired and applied in case studies. Based on this course, you should be able to understand national waste management strategies and related treatment technologies. Treatment plants and valorization concepts for biomass and organic waste should be understood. Furthermore, future designs of waste treatment processes can be evaluated using basic process understanding and knowledge obtained from the current literature.
ContentNational waste management
Waste as a resource
Circular Economy
Assessment tools for waste management strategies
Plastic recycling
Thermal waste treatment
Emerging technologies
Organic Wastes in Switzerland
Anaerobic Digestion & Biogas
Composting process technologies
Organic Waste Hygiene
Product Quality & Use
Waste Economy and environmental aspects
Lecture notesHandouts
Exercises based on literature
LiteratureDeublein, D. and Steinhauser, A. (2011): Biogas from Waste and Renewable Resources: An Introduction. 2nd Edition, Wiley VCH, Weinheim. --> One of the leading books on the subject of anaerobic digestion and biogas, covering all aspects from biochemical and microbial basics to planning and running of biogas plants as well as different technology concepts and biogas upgrade & utilization. We will be using selected chapters only in this course.

Lohri, C.R., S. Diener, I. Zabaleta, A. Mertenat, and C. Zurbrügg. 2017. Treatment technologies for urban solid biowaste to create value products: a review with focus on low- and middle-income settings. Reviews in Environmental Science and Biotechnology 16(1): 81–130.

Haupt, M., C. Vadenbo, and S. Hellweg. 2017. Do We Have the Right Performance Indicators for the Circular Economy?: Insight into the Swiss Waste Management System. Journal of Industrial Ecology 21(3): 615–627.

Schweizerische Qualitätsrichtlinie 2010 der Branche für Kompost und Gärgut: https://www.biomassesuisse.ch/files/biomasse_temp/data/Das_bieten_wir/Q-Richtlinie_2010_def_weiss_web.pdf

More information about biowaste treatment in Switzerland (www.cvis.ch) and Europe (www.compostnetwork.info and www.ecn-qas.eu)
Prerequisites / NoticeThere will be complementary exercises going along with some of the lectures, which focus on real life aspects of waste management. Some of the exercises will be solved during lessons whereas others will have to be dealt with as homework.
To pass the course and to achieve credits it is required to pass the examination successfully (Mark 4 or higher). The written examination covers all topics of the course and is based on handouts and on selected literature
102-0528-01LExperimental and Computer Laboratory (Year Course) Information Restricted registration - show details 10 credits2PD. Braun, M. Giuliani, M. Haupt, M. Holzner, J. Jimenez-Martinez, S. Li, M. Magdali, M. Maurer, J. Wang, Z. Wang, M. Willmann
AbstractIn the Experimental and Computer Laboratory students are introduced to research and good scientific practice. Experiments are conducted in different disciplines of environmental engineering. Data collected during experiments are compared to the corresponding numeric simulations. The results are documented in reports or presentations.
ObjectiveThe student will learn the following skills: basic scientific work, planning and conducting scientific experiments, uncertainty estimations of measurements, applied numerical simulations, modern sensor technology, writing reports.
ContentThe Experimental and Computer Laboratory is building on courses in the corresponding modules. Material from these courses is a prerequisite or co-requisite (as specified below) for participating in the Experimental and Computer Laboratory (MODULE: Project in the Experimental and Computer Laboratory):
- WatInfra: Water Network Management
- UWM: SysUWM + ProcUWM: Operation of Lab-WWTP
- AIR: Air Quality Measurements
- WasteBio: Anaerobic Digestion
- WasteRec: Plastic Recycling
- ESD: Environmental Assessment
- GROUND: Groundwater Field Course Kappelen
- WRM: Modelling Optimal Water Allocation
- FLOW: 1D Open Channel Flow Modelling
- LAND: Landscape Planning and Environmental Systems
- RIVER: Discharge Measurements
- HydEngr: Hydraulic Experiments
- RemSens: Earth Observation and Landscape Planning
- SOIL: Soil and Environmental Measurements Lab
Lecture notesWritten material will be available.
860-0015-00LSupply and Responsible Use of Mineral Resources I Restricted registration - show details 3 credits2GB. Wehrli, F. Brugger, K. Dolejs Schlöglova, M. Haupt, C. Karydas
AbstractStudents critically assess the economic, social, political, and environmental implications of extracting and using energy resources, metals, and bulk materials along the mineral resource cycle for society. They explore various decision-making tools that support policies and guidelines pertaining to mineral resources, and gain insight into different perspectives from government, industry, and NGOs.
ObjectiveStudents will be able to:
- Explain basic concepts applied in resource economics, economic geology, extraction, processing and recycling technologies, environmental and health impact assessments, resource governance, and secondary materials.
- Evaluate the policies and guidelines pertaining to mineral resource extraction.
- Examine decision-making tools for mineral resource related projects.
- Engage constructively with key actors from governmental organizations, mining and trading companies, and NGOs, dealing with issues along the mineral resource cycle.
Prerequisites / NoticeBachelor of Science, Architecture or Engineering, and enrolled in a Master's or PhD program at ETH Zurich. Students must be enrolled in this course in order to participate in the case study module course 860-0016-00 Supply and Responsible Use of Mineral Resources II.