Every element is designed to guarantee excellent light quality with high efficiency and low energy consumption. Long running times unplugged go hand- in-hand with rapid recharging times. The soft, diffused light emission can be adjusted to different brightness settings to create different ambiances. It is perfect for everyday lighting scenarios in personal spaces, but also for more social moments.
By constructing a traffic bridge using apartments and office space as the main construction instead of concrete or steel, the bridge becomes an object for private investment, offering a large amount of new square meters in attractive, but already dense locations. The top of the bridge would accommodate vehicular traffic, cars, bikes and pedestrians, allowing crossing passengers spectacular views of the Copenhagen skyline, across the port and all the way to Sweden. Right below the street, a layer of parking. The rest of the bridge would become a kilometer long slab of housing and offices.
To enhance the passenger experience, the spaces within the new terminal use daylight as a natural wayfinding system. A linear skylight – created by the unfolding roof of the pier – widens toward the central hub and opens up into the atrium where all departing, arriving, and transferring passengers meet. By placing the control tower in its center, the tower is experienced from the inside as a beacon that creates a sense of place, akin to a town square rather than an airport.
The building’s double curved, precast concrete façade bows inwards to create a generous urban canopy that responds to the ‘shock wave’ of the park’s circular running track, activity pods and planting vignettes – rippling outwards like rings in water to invade the building’s footprint. Visitors and employees can admire the mothballed ships sitting in the adjacent docks while embracing the Central Green Park.
Building a sustainable presence on the Moon requires more than rockets. Project Olympuss robust structures will provide better thermal, radiation, and micrometeorite protection than metal or inflatable habitats can offer. Built using ICON’s D printing technology, using lunar regolith as the main building material, the habitat is designed to accommodate four astronauts for a period of up to a month at a time and maximize In Situ Resource Utilization.