We summarize what we assess as the past year's most important findings within climate change research: limits to adaptation, vulnerability hotspots, new threats coming from the climate–health nexus, climate (im)mobility and security, sustainable practices for land use and finance, losses and damages, inclusive societal climate decisions and ways to overcome structural barriers to accelerate mitigation and limit global warming to below 2°C.
MULTIFILE
Sustainable Open Solutions Climate Waterfront is an interdisciplinary project that aims to explore waterfronts in Europe facing extreme situations under the threat of climate change, eg. heat, too much absent rain and sea level rise with all its consequences. The central goal is to exchange adaptive strategies for sustainable solutions for infrastructure and urban planning. The multidisciplinary perspective in cooperation with all possible partners, stakeholders and citizens, leads to a better understanding of the challenges and adaptation strategies.The participating parties are six coastal cities: Lisbon, Rome, Thessaloniki, Gdansk, Stockholm and the Amsterdam region. All these cities, except ‘Amsterdam’, are represented by a university. The Amsterdam area is represented by a multidisciplinary, educated but not necessarily academically employed delegation.
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The question of how to design climate-resilient landscapes plays a major role in the European projects in which the green university has been involved, such as Future Cities and F:ACTS!. These are projects in which various European organizations, government authorities and universities have joined forces to find an answer to climate-related issues. Van Hall Larenstein also collaborates with Almere, a relatively new Dutch municipality that is changing rapidly and that prioritizes climate resilience in its development. Over the years there has been a clear development in climate-adaptive planning, both in education and in practice.
MULTIFILE
The proposed study is focused on finding out whether Virtual Reality is a feasible method to train for composite manufacturing. The demand for cost-effective training methods for composite production is growing. The current training methods are not satisfying the demands of the fast-growing industry. This could be solved with the help of Virtual Reality (VR), potentially cutting down training time and use of material, hence reducing costs. This project will create insight into the technical and economic feasibility of this idea. This will be achieved with interns from Inholland, lecturer and researchers.
