A gorgeous green oasis has surfaced in one of the world’s most densely populated areas in Mongkok, Hong Kong. New World Development’s Adrian Cheng teamed up with Dutch architecture studio concrete to craft Skypark, an innovative luxury development where like-minded millennials can connect in beautiful co-living spaces. The project’s crown jewel—and the inspiration behind the development’s name—is the unique rooftop park, as well as the rooftop solar panels and wind turbines.
Partially powered by clean energy, Skypark paves the way for local developers to take a more eco-friendly approach in construction. “Inspired by the crowded and narrow streets of Mongkok, where space is limited and people bump into each other, concrete created a place for residents to escape the chaos and for people to truly connect,” wrote the architects, which designed the residential complex with young professionals in mind. “Almost literally, by ‘breaking down the walls’ of a generic clubhouse, an open and transformable public space was made.”
Garden designer Adrian L Norman created the Skypark roof garden using principles from New World Development’s Artisanal Movement concept that combines creativity, craftsmanship, and community. The sky park is distinguished by its large lawned garden, called The Lawn, that offers residents the luxury of picnicking next to stunning panoramic views. A wealth of other social spaces are available, including private nooks and an outdoor kitchen with a grill. Below the rooftop garden is The Aurora, a modern clubhouse on the 28th floor with an indoor swimming pool, poolside bar, library, and a gym. The Sky Stairs, a set of oversized steps with colorful cushions that double as seating, connect The Lawn with The Aurora.
The rooftop wind turbines generate electricity for some of the lighting, while solar energy is used to heat the clubhouse showers. Recycled rainwater is used for rooftop irrigation. The Skypark was completed in March 2017 and comprises mostly studio and one-bedroom apartments.
Images via concrete