The sinuous direction of the façade corresponds to the solar orientation: it maximizes north-facing openings for natural light and views, while minimizing exposure on the sunny sides. Working with Arup engineers, BIG calculated that this very simple idea reduces the solar exposure and resultant air conditioning expenses by % &#; without any moving parts or complicated technology. Purely because of the inherent properties of the building geometry, the building performs

A new public promenade ties together the bay in east and leisure harbor in west. The meandering shape of the promenade defines a series of new public spaces on land and water weaving together the two and extending the new public realm into the water earlier reserved for industrial purposes. The promenade brings life to the area through a sports plaza, harbor bath, theater, restaurants, cafés, and beach huts which all together create a new vibrant waterfront in Aarhus.

Over the course of the concept design, the BIG team held public workshops and + smaller stakeholder sessions, with more than , participants from the community and surrounding neighborhoods providing input. Taken together, the ESCR project builds physical, social, and economic resiliency, strengthening the City’s coastline while re-establishing public space, enabling outdoor gathering opportunities, and improving waterfront accessibility.

The units are experiments in communal living. While each resident has their own bedroom, bathroom, and kitchen, they share amenities like a courtyard, kayak landing, bathing platform, barbecue area, and roof terrace. Decks and staircases connect the apartments. Inside, the units are well appointed with modern finishes and ample daylighting; floor-to-ceiling windows let the students take in panoramic views.

The instructional and research spaces are organized around the perimeter of the building – providing classrooms with picturesque views while keeping the quieter instructional spaces farther away from the more social atrium. Overall, the interior’s materiality is defined by the contrast of the warm wood-clad beams, concrete floors, and the functional double-duty surfaces found within the integrated sciences labs.