Postdoc position in towards a circular plastics economy within the planetary boundaries — ETH Zürich
NewCHF 73'500 - 111'500
ETH Zürich · Zurich (ZH)
- Location
- Zurich
- Contract
- fixed-term
- Posted
- Yesterday
SalaryCHF 73'500 - 111'500
Role overview
Postdoc position in towards a circular plastics economy within the planetary boundaries
100%, Zurich, fixed-term print Drucken
The Energy and Process Systems Engineering (EPSE) Group at ETH Zürich is looking for a Postdoc exploring pathways to a circular carbon economy, with a focus on plastics recycling.
- Postdoc position in towards a circular plastics economy within the planetary boundaries
- 100%, Zurich, fixed-term print Drucken
Application process
- You are highly motivated to learn and apply modern simulation and optimization techniques and work in a dynamic environment with other doctoral students and postdocs The ability to work indepe
Additional details
- 100%, Zurich, fixed-term
- We develop simulation and experimental methods to advance sustainable energy and chemical processes from the molecular to the system scale. Project background
- This analysis will identify the future potential and performance targets for novel technologies, aiding the chemical industry’s transition towards safe operation within the planetary boundaries.
- Your work will range from modeling individual technologies for alternative carbon sources to conducting techno-economic and life cycle assessment of integrated chemical and plastic production systems using mathematical optimization Specifically, you will participate in:
- These students will advance predictive and experimental methods targeting separations and the thermophysical properties of complex fluids involved in solvent-based plastic recycling
- You are highly motivated to learn and apply modern simulation and optimization techniques and work in a dynamic environment with other doctoral students and postdocs The ability to work indepe
Notes and original content
- We develop simulation and experimental methods to advance sustainable energy and chemical processes from the molecular to the system scale.
- Project background
- Job description
- Your work will range from modeling individual technologies for alternative carbon sources to conducting techno-economic and life cycle assessment of integrated chemical and plastic production systems using mathematical optimization
- Specifically, you will participate in:
- You are highly motivated to learn and apply modern simulation and optimization techniques and work in a dynamic environment with other doctoral students and postdocs
- The ability to work indepe
