Effects of climate change in cities are evident and are expected to increase in the future, demanding adaptation. In order to share knowledge, raise awareness, and build capacity on climate adaptation, the first concept of a “ClimateCafé” has been utilized since 2012 in 25 events all over the world. In 8 years ClimateCafé grew into a field education concept involving different fields of science and practice for capacity building in climate change adaptation. This chapter describes the need, method, and results of ClimateCafés and provides tools for organizing a ClimateCafé in a context-specific case. Early ClimateCafés in the Philippines are compared with the ClimateCafé in Peru to elucidate the development of this movement, in which one of the participants of ClimateCafé Philippines 2016 became the co-organizer of ClimateCafé Peru in 2019. The described progress of ClimateCafés provides detailed information on the dynamic methodological aspects, holding different workshops. The workshops aim at generating context-specific data on climate adaptation by using tools and innovative data collection techniques addressing deep uncertainties that come with climate change adaptation. Results of the workshops show that context-specific, relevant, multidisciplinary data can be gathered in a short period of time with limited resources, which promotes the generation of ideas that can be used by local stakeholders in their local context. A ClimateCafé therefore stimulates accelerated climate action and support for adaptation solutions, from the international and the local, from the public and private sector, to ensure we learn from each other and work together for a climate resilient future. The methodology of ClimateCafé is still maturing and the evaluation of the ClimateCafés over time leads to improvements which are applied during upcoming ClimateCafés, giving a clear direction for further development of this methodology for knowledge exchange, capacity building, and bridging the gap between disciplines within climate adaptation.
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The Hanze Hogeschool Groningen, the Authoridad Nacional del Agua, and Waterschap Noorderzijlvest, together with several other Dutch and Peruvian universities, co-organise an annual ClimateCafé in the northern Peruvian areas Piura and Tumbes, as part of the Blue Deal project. The ClimateCafé methodology is a multiple-day participatory workshop composed by an international community and powered by individual, corporate, public, and academic climate change adaptation influencers. The aim is to educate and inspire tech and non-tech people, focusing on young professionals in a “learning by doing” interaction.
In 2017, renowned Prof Kate Raworth from Oxford University and Amsterdam University introduced Doughnut Economics, an economic model to enable humans to thrive within the planetary boundaries and resources. Several private and public actors, including the city of Amsterdam, adopted the model in their circular economy development's strategies. Doughnut-Architecture aims to develop further the AREA (Atelier for Resilient Environmental Architecture) Framework, a tool designed by graduating students Charlotte Uiterwaal, Isabella van der Griend, Ryan McGaffney, Karolina Bäckman, at the faculty of Architecture, Delft University of Technology (TU-Delft), under the supervision of Henri van Bennekom. AREA-Framework support architects to intervene in the built environment taking as a reference the Doughnut Economics model. The AREA-Framework is at an initial stage, and its categories and subcategories are only qualitative. TU-Delft, the architectural practices Space&Matter and SuperuseStudios, in collaboration with the interdepartmental research group Circular Built Environment Hub (CBEH) and architectural practices from the network of 400 construction companies belonging to the Ex'tax project, the advice from Kate Raworth and the Amsterdam-Donut-Coalitie will further develop the AREA-Framework primarily quantitatively and also qualitatively. TU-Delft, Space&Matter, SuperuseStudios, other architectural practices from the Ex'tax-network will test the framework on different phases of real projects, interdepartmental research and education. The ultimate goal is to develop the framework further, to increase the number of architectural practices successfully implementing the Doughnut Economics in the built environment at a national level. The framework will contribute to positioning the architectural practices concerning Doughnut Economics and the Circular Economy. The project results are firstly an online open-access publication about the further developed Framework to be applied by architects; secondly, the preparation and submission of a follow-up research proposal about the extended development and implementation of the Framework applicable to the built environment by all the Ex'tax construction sector companies.
Despite their various appealing features, drones also have some undesirable side-effects. One of them is the psychoacoustic effect that originates from their buzzing noise that causes significant noise pollutions. This has an effect on nature (animals run away) and on humans (noise nuisance and thus stress and health problems). In addition, these buzzing noises contribute to alerting criminals when low-flying drones are deployed for safety and security applications. Therefore, there is an urgent demand from SMEs for practical knowledge and technologies that make existing drones silent, which is the main focus of this project. This project contributes directly to the KET Digital Innovations\Robotics and multiple themes of the top sectors: Agriculture, Water and Food, Health & Care and Safety. The main objective of this project is: Investigate the desirability and possibilities of extremely silent drone technologies for agriculture, public space and safety This is an innovative project and there exist no such drone technology that attempts to reduce the noises coming from drones. The knowledge within this project will be converted into the first proof-of-concepts that makes the technology the first Minimum Viable Product suitable for market evaluations. The partners of this project include WhisperUAV, which has designed the first concept of a silent drone. As a fiber-reinforced 3D composite component printer, Fiberneering plays a crucial role in the (further) development of silent drone technologies into testable prototypes. Sorama is involved as an expert company in the context of mapping the sound fields in and around drones. The University of Twente is involved as a consultant and co-developer, and Research group of mechatronics at Saxion is involved as concept developer, system and user requirement verifier and validator. As an unmanned systems innovation cluster, Space53 will be involved as innovation and networking consultant.
