Featuring an energy-neutral design with stacked sports halls, and a lively public interior fashioned from circularly harvested, re-used materials, ‘Sports Building’ comes to life as a solid and playful campus entrance stimulating social and healthy student life.
The new Sports Building of the Erasmus University in Rotterdam is a training and competition facility; a venue to work out and to play team sports – over fifty sports! About 11.000 students, colleagues as well as top athletes gather here for their dunks, asanas, and squats. Or for lunch and coffee.
Sports Building marks the entrance of the University’s Campus Woudestein. Respecting the campus layout, we arranged all sports facilities on the compact plot by organizing them in stacked ‘sports boxes’. Think: the weightlifting space constructed on top of the spinning class, basketball court on top of the gym. The boxes form two volumes, slightly offset from each other, connected by a public core. This communal area links functions, sports and athletes, as well as both sides of campus. We organized this public interior as easy to navigate, adaptive to alternating use. The beating heart of Sports Building functions as destination and transit at the same time.
Sports Building is enveloped by a glass and aluminum skin with an interplay of horizontal articulation and vertical fins in multiple rhythms. The slightly curved eastern façade of the complex opens with a full height glass corner. Also, both end ends of the central passage are glass-only. Of course, the transparency maximizes views, enables a smooth indoor-outdoor transition, and allows for daylight to enter; it also marks the lively spots: the public functions, on street-level and above, plus the sports activities that do not require a closed hall. This way, passersby and, for instance, fitness groups can interact.
Due to shared high ambitions in the field of sustainability and energy consumption, the building functions energy neutral, an increasingly urgent condition. Full facilities are built in to capture, retain, exchange and reuse water and solar energy; and to minimize its use.
Furthermore, we shaped the public interior from building materials harvested from circular demolition. For example, metal panels from a former juvenile detention center in Zeist once again function as a ceiling and we gave 1,100m2 of wooden floors of the TU Eindhoven pavilion a new life as facade panels that characterize the inner street.
With these parts visibly second-hand and with ongoing underlining of this re-use, we aim to socially engage and inspire this community of students to contribute to the circular economy.