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The project analyses why circular economy targets are not being met and how policy instruments, actors and value systems need to change. Through a broad synthesis, it generates knowledge that can support an effective transition.

In this project, we focus on the environmental impact of both artificial and natural grass pitches, as well as their energy usage throughout their life cycle.

The UPSCALED project conducts circularity analyses for the large-scale use of future energy conversion technologies and examines how perovskite-based solar cells can be scaled up sustainably from laboratory to industry.

The project explores how recycling actors can develop their roles and strategies to gradually and robustly contribute to a more resource-efficient society in the transition to a circular economy.

Step into the Circular Upskilling Arena and gain the expertise to make your operations more sustainable. Master circular design, lifecycle strategies, and digital tools for remanufacturing.

Denmark has become a pioneer in biogas and biomethane. Behind this lie clear strategies and political stability on energy issues following the oil crisis of the 1970s.

We aim to explore the cognitive and neurocognitive aspects of sustainable design to support current and future practitioners in creating more sustainable products, services, and systems.

The pulp and paper industry consumes large amounts of energy. But despite stricter EU requirements for efficiency improvements, there has been no way to compare energy consumption between different companies. Now there may be a solution.

How can cities' energy systems become more resilient to climate change and geopolitical challenges? The project explores opportunities for increased local resilience through decentralization, user flexibility, and energy storage.