Chair of Energy Systems AnalysisOpen OpportunitiesThe Swiss Energy Strategy 2050 aims to achieve zero net emissions target as of 2050. The four leading Swiss research institutes — Paul Scherrer Institute (PSI), Swiss Federal Laboratories for Materials Science and Technology (EMPA), Swiss Federal Institute for Forest, Snow and Landscape Research (WSL), and Swiss Federal Institute of Aquatic Science and Technology (EAWAG)—are at the forefront of this en-deavour. In the context of the SCENE project, these institutes are collaboratively developing science-based roadmaps that outline the anticipated pathways to attain net-zero emissions before 2040. The tran-sition to net zero requires a multifaceted approach, encompassing technological advancements, con-sumption reductions, and market-based mechanisms for emission compensation and reduction. An es-sential component of this transition is a comprehensive CO2 emission-related cost analysis. This analysis will evaluate the financial implications of shifting energy technologies, reducing consumption, and imple-menting market-based emission compensation and reduction strategies. - Earth Sciences, Economics, Engineering and Technology, Policy and Political Science
- ETH Zurich (ETHZ), Master Thesis
| The objective of this Master thesis is to develop a techno-economic mixed-integer optimisation tool that supports multi-objective and / or bi-level decision-making in energy-efficient renovations in multi-family buildings. By evaluating various renovation strategies, options, and technologies, the thesis aims to present solutions that balance tenant and landlord acceptance across multiple criteria, ultimately contributing to more sustainable and socially equitable housing practices. - Economics, Engineering and Technology, Operations Research, Optimisation
- ETH Zurich (ETHZ), Master Thesis
| The large diversity in energy-political frameworks, energy and technology prices, climate, build-ing fabric and socioeconomic segmentation results in an equally large variation in the environ-mental and/or economic attractiveness of energy communities. Previous work in this context [1] has taken a case-study based approach to analysing the techno-economic feasibility of energy communities in different European countries. Such an approach relies on a large amount of data acquisition and is not easily transferable to other contexts. As an alternative, this project should take an analytical approach to the problem, in order to identify thresholds when the economic and/or environmental case for an energy community is given. This will require the development of an analytical mathematical framework, that reflects most or all of the influencing factors and establishes relationships between them. Key parameters are for example the electricity price and tariff, the grid fees (if applicable), reapportionment and other fees, energy demand and temporal structure, size of the energy community etc. - Economics, Engineering and Technology, Mathematical Sciences
- ETH Zurich (ETHZ), Master Thesis
| Noise from wind turbines can potentially affect the health of surrounding ecosystems and the human population. However, the potential adverse effects of wind turbine noise are often mitigated by proper planning, including setbacks from residential areas, strategic wind farm placement, and noise reduction technologies. Hence, research is needed to understand the specific effects of wind turbine noise on ecosystems and human populations and develop appropriate mitigation strategies. - Engineering and Technology
- Master Thesis
| The Swiss Energy Strategy has been in place in the form of the Energy Act since 2018. The strategy gives
a rough framework for the ambitious transition to a climate-neutral energy system by 2050. Since this time,
many studies have analysed the technical and economic feasibility of implementing this strategy with a
variety of methods. Still many details of the energy transition remain unanswered or at least there is a lack
of consensus in the literature. The goal of this project is specifically assess the possible future role of nuclear
energy within a Swiss context, including both existing and emerging technologies and configurations. The
objective is to perform a long-term scenario analysis to explore possible energy futures both with and without
nuclear energy, and specifically to understand the technical and economic implications. - Applied Economics, Other, Other
- ETH Zurich (ETHZ), Master Thesis
| Transitioning from fossil fuels to renewable energy sources (RE) is crucial for mitigating climate change and ensuring a sustainable future. Usually, the feasibility of the energy transition on the local scale is assessed by considering the technical and economic potentials of RE technologies, as well as their
environmental impact. However, the plans for the energy system transition often encounter local
opposition. Communities near proposed wind farms may express concerns about their visual impact, noise, or changes to their way of life. In this regard, identifying and understanding the trade-offs between different factors that may influence the local development of wind technologies is a nontrivial task. - Engineering and Technology
- Master Thesis, Semester Project
| Recently, microgrids have been recognized as a promising solution to tackle the rising number of power outages caused by extreme weather events affecting our cities and communities. These conditions, frequently induced by climate change, result in effects that go beyond damage to the energy infrastructure. The water systems are equally vulnerable to extreme weather events (including droughts caused by heat waves and floods), affecting the supply of clean water, the treatment of wastewater, and the management of stormwater. Recognizing the similarity of electricity and water microgrids, the project proposes to create a unified framework for renewable energy-powered water microgrids using concepts from electricity microgrids. - Engineering and Technology
- Master Thesis
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