Stefano Boeri Architetti designed the Mexican futuristic city that will have nearly double the amount of trees compared to residents
Imagine living surrounded by trees and plants, with everything you need either within walking or cycling distance. All your energy is derived from the sun or water, and to top all things off you still have access to world renowned lectures and cultural events.
This is precisely what architecture firm, Stefano Boeri Architetti, in Milan has proposed.
Their innovative nature-focused city is called Smart Forest City Cancun — as its to be based in Mexico — and is a model for sustainable urban planning.
The details of Smart Forest City Cancun
The city was created for the property developer, Grupo Karim, as an alternative to plans for a shopping district in Cancun, Mexico.
Stefano Boeri Architetti’s plan would reforest the 557-hectare site and would be 100% food and energy self-sufficient.
Smart Forest City would be able to house 130,000 residents, and have 260,000 trees. In total there would be over 7.5 million plants across the 400 hectares allocated for plants. These have all been carefully selected by botanist and landscape architect, Laura Gatti.
How would the city function?
With the help of Germany-based Transsolar, the Smart Forest City will be surrounded by a ring of solar panels and agricultural fields irrigated by an underwater maritime pipe.
Water is key to the entire project. It’ll be gathered in a massive basin by the entrance to the city, where a desalination tower will also be located. Once properly desalinated, the water will be distributed through navigable canals across the entire area. Moreover, a number of water gardens will be created to help fight any potential floods.
Furthermore, because the city would function so innovatively and environmentally-focused, it would become a center for advanced research and able to host worldwide events and lectures from renowned universities and companies.
If they win the project, Stefano Boeri Architetti’s urban concept would hopefully become a sustainability and green infrastructure model for future urban planning.