Urban Skyscraper Farms are still purely conceptual for now but are amazing theoretical propositions. They would provide locally grown food in densely packed urban centres. Some such designs incorporate elaborate rainwater reuse systems and other sustainable strategies intended to minimize their environmental impact and maximize their productivity. However, they are massive in scale and would cost a great deal to build. This huge initial outlay is part of what is keeping them out of production.
Imagine the world in 2050 with almost 80% of the planet’s population living in urban centres and our fruit, vegetables and even animals are grown in … skyscrapers? One man’s vision has sparked a series of designs leading closer and closer to what will be the first real-life vertical urban farm in Las Vegas, Nevada of all places. Here are five of these remarkable architectural designs for sustainable (and stylish) urban farm towers that may revolutionize agriculture as we know it. In the long run such structures may not only provide food for hundreds of thousands of people per building but they will also relieve much of the burden on other flat landscapes where fewer and fewer usable growing spaces exist.
One of the first designs of its kind, the compelling vertical farm project above was undertaken by Chris Jacobs in cooperation with the grandfather of skyscraper farm concepts: Dr. Dickson Despommier of Columbia University. His ideal: all-in-one eco-towers would be actually produce more energy, water (via condensation/purification) and food than their occupants would consume. His mission: to gather architects, engineers, economists and urban planners to develop a sustainable and high-tech wonder of ecological engineering.
Architect Pierre Sartoux of Atelier SOA has gone a step further and put some serious design talent behind his proposal for a vertical farming skyscraper. A light-shading skin wraps around the structure and opens to admit sunlight at particular locations for various functional (and aesthetic) purposes. The building’s air, heating and cooling systems are wind-driven and circulate oxygen and carbon dioxide between growing and living spaces. The simple but reinforced structure is designed to handle additional dead loads from the weight of growing floors and also serve to make the entire building more durable (and thus sustainable).
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