Research overview

We leverage UT expertise to support drought resilience through the Geo-Techno-Social approach by monitoring and modelling key physical systems such as water, soil, vegetation, and atmosphere, building upon the expertise available in the Flow for Future cluster. We develop technical solutions that improve system resilience and align with individual behaviours and interests. We foster multi-actor collaboration and governance systems to promote behavioural change, collaboration, governance instruments, and business models that enhance drought resilience. 

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It is increasingly clear that besides reducing CO2 emissions through energy transitions, carbon dioxide removal techniques (CDR) are vital to reaching global net-zero emissions by 2050. CDR requires a multidisciplinary approach, including ethical and societal considerations, geo-observation, and technical optimization of direct air capture. UT leads research on CDR to evaluate the availability and composition of olivine mines and investigate industrial processes for accelerated olivine weathering on a large scale. 

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By 2050, the Netherlands aims to be a fully circular economy. All products and raw materials will then be continuously reused. Waste no longer exists in such a system. Is something broken? We’ll repair it until that’s no longer possible. Then the product is recycled or converted into new raw materials. Welcome to the future of economic sustainability: the circular economy. 

To achieve these ambitious plans, we need innovative solutions. The University of Twente is working with industry and policymakers to find these solutions. We need to invent new separation technologies, companies need to cooperate in new ways and products need to last longer. We need a solution for every waste stream. 

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The continuous growth of renewable generation, accompanied by their decentralized operation, is leading to massive grid investment needs if no appropriate actions are taken. The transition to a society completely based on renewable energy is one of the greatest challenges of our time.

The University of Twente has the ambition and capabilities to contribute to the development of renewable energy solutions, not only focusing on the scientific and technological aspects, but also on the societal impact.

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Planetary health is a new field of interdisciplinary research dealing with the effects of global environmental change on human health. It is not limited to understanding the effects of global environmental change on health, but it also aims to understand the drivers of global environmental change, particularly the effects of healthcare itself on the global environment, and the policies that can avert global environmental change and its related health effects. In view of the lack of sustainable product supply, innovation in sustainable product design and recycling techniques is urgently needed. Furthermore, knowledge development plays an important role in the ability to scale up sustainability and sustainable device use.

More research and education is needed on the environmental impact of certain procedures and medical devices, which considers the entire life cycle and several aspects of environmental impact. Implementation research is also needed into sustainable devices or processes, which includes an assessment of effectiveness, safety and behaviour. In addition, methods that provide insight into aspects of sustainability and hidden costs of devices can make an important contribution. By making even better use of the available knowledge at the UT and our established innovative ecosystem, we are in the unique position to contribute to these planetary health challenges.

Manufacturing value chains are significant contributors to climate-relevant global greenhouse gas (GHG) emissions. With responsibility for approximately a third of total emissions, it is actually the sector with the highest impact even before agriculture, buildings, and transport. Much of the emissions are due to the energy demand which is strongly (but not only) driven by key material-related value chains such as iron/steel, plastics, cement or aluminium.

Sustainable industry is a crucial topic, and the University of Twente is taking steps towards decarbonization through various activities related to energy and material efficiency in industrial processes and systems, as well as a substitution to alternative, renewable resources.

Providing a sustainable way to meet the demand for heat and cold in residential climatization as well as in industry is the major challenge as more than 45% of CO2 emissions are associated with these processes. Less fossil-fuel-intense technologies involve the utilization of renewable energy carriers, directly or by heat pump systems as well as the utilization of waste heat in smart heat distribution networks. Furthermore, the storage of heat is a major issue. UT leads research on component level (fuel cell, thermal energy storage, heat pump systems) as well as system design.