Cities are becoming increasingly vulnerable to climate change and there is an urgent need to become more resilient. This research involves the development of the City Climate Scan methodology to measure, map, scan and assess different parameters that provide insight into the vulnerability of urban areas and neighborhoods. The research involved the development of a set of measurement tools that can be applied in different urban neighborhoods in a low-cost low-tech approach with teams of stakeholders and practitioners. The City Climate Scan method was tested in different cities around the globe with groups of young professionals and stakeholders in rapid urban appraisals.For the Rotterdam City Climate Scan (September 2017), the following challenges were selected: risk of flooding, heat stress, water quality (micro-pollutants and plastic waste) and air quality. The Rotterdam climate scan is evaluated with their triple helix partners (public, private and academic partners). The conclusion is that the City Climate Scan approach helps policy makers and practitioners to gather valuable data for decision makers in a rapid appraisal at the neighborhood and city level. The results of the City Climate Scan methodprovides insights, creates awareness and brings together stakeholders. The most valuable deliverable is the concrete and tangible results. The participatory approach brings residents and practitioners together and provides insight into local problems, while at the same time the method facilitates the collection of valuable data about the robustness of neighborhoods. As a result of this positive evaluation, the City Climate Scan will be up scaled to a number of cities in Europe and Asia in the upcoming months.
The purpose of this paper is to discuss the insights gained by testing in a design studio a particular research-by-design strategy, focusing on the generation of innovative solutions for climate change adaptation. The strategy is based on the Design Thinking Process and has been applied in the climate adaptation design studio, which took place in 2022 at a Master of Architecture degree program in the Netherlands. The case study area was the Zernike university campus in Groningen, the Netherlands, which is situated in the verge between the city and the surrounding rural landscape, facing the urgent climate change challenges of the wider region, mainly floodings due to increased frequency of rainfalls and sea level rise. Furthermore, the area faces particular challenges, such as the increasing demand for serving additional needs, beyond the current educational and business related functions, such as (student) housing. Three indicative design research projects were selected to illustrate the tested research-by-design strategy, while systematic input has been collected from the participating students regarding the impact of this strategy on their design process. The results reveal that this strategy facilitates the iterative research-by-design process and hence offers a systematic approach to convert the threats of climate change into opportunities by unravelling the potentials of the study area, resulting in place-based, innovative and adaptive solutions.
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.
