PhD position in “Environmental Life Cycle Assessment of Hydropower”

This is one of two PhD positions that are part of an international and multidisciplinary research project funded by the European Commission’s Horizon Europe programme entitled “Innovative Storage Technology and Operations in Hydropower”. The overall project goal is to develop innovative and sustainable pumped storage technologies and control strategies to support the flexibility and resilience of the EU energy grid. This is achieved by enhancing the lifetime and recyclability of components and equipment, devising operation strategies for unconventional conditions (e.g. salt water or coal mine applications), and through sensor-based condition monitoring systems. Furthermore, digital tools for operational management are employed to consider the dynamics of renewable energy generation and demand as well as improving efficiency and reliability. These individual components are integrated in a cyber-physical platform for advanced decision support to promote a broader operating range and increased flexibility of EU hydropower generation and storage as part of Europe’s energy transition.

The specific focus of your PhD project is the analysis of the environmental effect caused by the innovations developed in the project by means of life cycle assessment (LCA). You get the chance to work with technological and operational hydropower experts from the early development stages of technologies to inform and influence the design processes. Next to analysing global environmental impacts along the supply chain, you will develop ways to analyse local impacts on water quality and aquatic biodiversity as well as the contribution of the technologies to circular economy. Finally, you can compare the environmental performance of the innovations developed in the project to conventional hydropower technologies and to alternative energy storage solutions like batteries and hydrogen. This analysis will help pinpoint their advantages and drawbacks in the transition towards sustainable energy storage. You will work in close cooperation with a second PhD candidate whose focus is on economic life cycle costing and integrated sustainability assessment.

For additional information regarding this position, you can contact prof.dr.ir. Markus Berger, email [email protected].

Please apply by uploading a motivation letter (1 page), your CV (max 2 pages), a writing sample (max 1 page e.g., an abstract of a publication or a summary of your master’s thesis) as well as relevant certificates until 10 June 2024 using the link below.

The first (online) job interview will take place on 18/19 June 2024.

We encourage Master students to apply even if they still have to graduate in the coming months.

The Chair of Multidisciplinary Water Management. Freshwater is essential to sustain life and economic development but it is also a vulnerable resource whose availability and quality varies around the globe. We need to understand the natural and socio-economic processes that affect water resources and develop solutions to water scarcity, flooding, and pollution while considering interactions with other aspects of sustainable development.  

Our group studies the dynamics of water demand and availability as influenced by agricultural and industrial production, consumption and international trade as well as climate change, the energy transition, environmental policies, and offsetting strategies. The methods we use include water footprint and life cycle assessment, hydrological modelling, environmentally extended input-output analysis, integrated assessment, and policy evaluation.  

We understand water related grand challenges as a shared responsibility in a wider environmental and socio-economic context. Hence, we engage different stakeholders and sectors to develop both science-based and actionable solutions. To support decision-making, we provide data, models, and tools and share our knowledge in academic teaching and science dissemination.

The Faculty of Engineering Technology (ET) engages in education and research of Mechanical Engineering, Civil Engineering and Industrial Design Engineering. We enable society and industry to innovate and create value using efficient, solid and sustainable technology. We are part of a ‘people-first' university of technology, taking our place as an internationally leading center for smart production, processes and devices in five domains: Health Technology, Maintenance, Smart Regions, Smart Industry and Sustainable Resources. Our faculty is home to about 2,900 Bachelor's and Master's students, 550 employees and 150 PhD candidates. Our educational and research programmes are closely connected with UT research institutes Mesa+ Institute, TechMed Center and Digital Society Institute.