Author supplied: Within the Netherlands the interest for sustainability is slowly growing. However, most organizations are still lagging behind in implementing sustainability as part of their strategy and in developing performance indicators to track their progress; not only in profit organizations but in higher education as well, even though sustainability has been on the agenda of the higher educational sector since the 1992 Earth Summit in Rio, progress is slow. Currently most initiatives in higher education in the Netherlands have been made in the greening of IT (e.g. more energy efficient hardware) and in implementing sustainability as a competence in curricula. However if we look at the operations (the day to day processes and activities) of Dutch institutions for higher education we just see minor advances. In order to determine what the best practices are in implementing sustainable processes, We have done research in the Netherlands and based on the results we have developed a framework for the smart campus of tomorrow. The research approach consisted of a literature study, interviews with experts on sustainability (both in higher education and in other sectors), and in an expert workshop. Based on our research we propose the concept of a Smart Green Campus that integrates new models of learning, smart sharing of resources and the use of buildings and transport (in relation to different forms of education and energy efficiency). Flipping‐the‐classroom, blended learning, e‐learning and web lectures are part of the new models of learning that should enable a more time and place independent form of education. With regard to smart sharing of resources we have found best practices on sharing IT‐storage capacity among universities, making educational resources freely available, sharing of information on classroom availability and possibilities of traveling together. A Smart Green Campus is (or at least is trying to be) energy neutral and therefore has an energy building management system that continuously monitors the energy performance of buildings on the campus. And the design of the interior of the buildings is better suited to the new forms of education and learning described above. The integrated concept of Smart Green Campus enables less travel to and from the campus. This is important as in the Netherlands about 60% of the CO2 footprint of a higher educational institute is related to mobility. Furthermore we advise that the campus is in itself an object for study by students and researchers and sustainability should be made an integral part of the attitude of all stakeholders related to the Smart Green Campus. The Smart Green Campus concept provides a blueprint that Dutch institutions in higher education can use in developing their own sustainability strategy. Best practices are shared and can be implemented across different institutions thereby realizing not only a more sustainable environment but also changing the attitude that students (the professionals of tomorrow) and staff have towards sustainability.
With campuses opening up and stimulating interactions among different campus users more and more, we aim to identify the characteristics of successful meeting places (locations) on campus. These can help practitioners such as campus managers and directors to further optimize their campus to facilitate unplanned or serendipitous meetings between academic staff and companies. A survey on three Dutch campuses, including questions on both services and locations, was analyzed both spatially and statistically using principal component (PC) and regression analysis. Four PCs were found for services (Relax, Network, Proximity and Availability) and three PCs were found for locations (Aesthetics, Cleaned and Indoor Environment). Personal characteristics as explanatory variables were not significant or only had very small effect sizes, indicating that a campus’ design does not need to be tailored to certain user groups but can be effective for all. The pattern of successful locations is discussed, including the variables in each PC. These PCs provide a framework for practitioners who want to improve their campus’ design to further facilitate unplanned meetings, thus contributing to cooperation between campus users, hopefully leading to further innovation.
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.
Developing and realizing an innovative concept for the Active Aging campus in two years, where students, teachers, companies, residents of surrounding Campus neighborhoods will be invited to do exercise, sports, play, meet and participate. This includes, on the one hand, providing input with regard to a mobility-friendly design from an infrastructural perspective and, on the other hand, organizing activities that contribute to Healthy Aeging of the Zernike site and the city of Groningen. It is not only about having an Active Aging campus with an iconic image, but also about the process. In the process of realization, students, teachers, researchers, companies and residents from surrounding districts will be explicitly involved. This includes hardware (physical environment / infrastructure), software (social environment) and orgware (interaction between the two).
De innovatiewerkplaats Campus Design (CD) richt zich op de duurzame ontwikkeling (SDG) van de campus door middel van praktijkgerichte oplossingen en onderzoek. Vanuit het lectoraat Facility Management van de Hanze, werkt CD samen met kennis- en onderwijsinstellingen, overheden en het bedrijfsleven, bijvoorbeeld om de kwaliteit, gastvrijheid en inclusiviteit te verbeteren zodat iedereen zich welkom voelt op de campus. CD streeft naar een betere aansluiting tussen de ruimte en organisatie op de campus; ook de vergroening en biodiversiteit rekenen we daartoe. Dit doen we door praktijkvragen van onderwijsinstellingen en het bedrijfsleven te koppelen aan praktijkgericht onderzoek van onze senior-onderzoekers, onderzoekers, docenten en studenten, onder meer in architectuur, facility management, gastvrijheid, kunsten en vastgoed. Onze multidisciplinaire aanpak is zeer actiegericht; we willen de campuspraktijk écht veranderen en laten zien dat het betaalbaar is én werkt. We zorgen er dus voor dat oplossingen niet alleen theoretisch en empirisch uitstekend onderbouwd zijn, maar vooral ook praktisch toepasbaar en bewijsbaar beter. Door de goede samenwerking met onze partners, genereert CD oplossingen die onderwijsinstellingen inspireren en hen helpen de SDG te implementeren.
Gemeente Maastricht (Gemeente), Zuyd Hogeschool (Zuyd) en de Universiteit Maastricht (UM) willen zich gezamenlijk meer inzetten voor ruimtelijke en maatschappelijke opgaven in de stad. De City Deal Kennis Maken biedt de mogelijkheid deze samenwerking tussen de instellingen, met bewoners en gemeente, interdisciplinair en meer gestructureerd vorm te geven. De samenwerking tussen UM, Zuyd en de Gemeente rondom het aanpakken van ruimtelijke en sociaal maatschappelijke vraagstukken is nog te weinig vanzelfsprekend, al worden daar sinds de eerste CDKM regeling (2019) wel stappen in gezet. Vandaar dat de Impulsregeling gebruikt wordt als de bestendiging en verdere ontwikkeling van deze samenwerking. In de CDKM>M ligt de focus op de wijk. De partners gaan, door inzet van studenten, docenten en onderzoekers werken aan de toekomstbestendigheid en vitaliteit van de Maastrichtse buurten. Speciale focus ligt daarbij op de thema’s klimaatadaptatie, circulaire economie en inclusiviteit. Hiertoe is een multidisciplinaire (of interfacultaire) aanpak randvoorwaardelijk; samenwerking tussen studenten uit het sociale, technische, facilitaire/economische, technische, gezondheid/zorg en kunsten domein is vereist. De UM en Zuyd willen via de CDKM de ontwikkeling van hun studenten verder versterken door actieonderzoek in het onderwijs te integreren. Hierdoor wordt hetgeen studenten leren actueel en innovatief, en verankert het onderwijs meer, in de praktijk. Voor de studenten is en wordt de wijk een rijke leeromgeving. Partners willen een win-win situatie creëren, waarin alle partijen (e.g. studenten, inwoners, docenten, onderzoeker, professionals, bedrijven, etc.) profiteren van elkaar en van het werk dat ze samendoen t.b.v. toekomstbestendige en vitale buurten. De aanvraag maakt gebruik van een aantal stevige, reeds aanwezige bouwstenen: - het lectoraat Smart Urban Redesign van Zuyd; - het brede onderwijsaanbod van de academies van Zuyd - “Match” van het Student Service Centre van de UM, een gezamenlijk project ook vanuit Studentenstad; - de succesvolle samenwerking inzake de economische structuurversterking van de regio; o.a. via de Kennis-As Limburg en de Brightlands Campussen.
