Imagining and Realizing Our Future Cities
On a cold Sunday afternoon last winter my eleven year old daughter, Tyla, was sick and we visited the local walk-in clinic to see a doctor. Knowing there would be a lengthy wait time, I brought my digital device to research sustainable design (and, hopefully, not end up watching the Mindcraft videos my daughter would surely request). As many OCAD University students and faculty are interested in sustainability, I knew the topic would make for a good exhibition and I wanted to learn more about the current conversation.
The site that held our attention the most was from design group Terreform ONE, a non-profit New York-based design group that promotes environmentally conscious urban planning. Scientists, artists, architects and students collaboratively explore and advance the larger framework of socio-ecological design through their projects. Their designs are an exciting mixture of architecture, landscape, urban design, biology, engineering and art and are dedicated to finding innovative solutions for sustainability in energy, transportation, city infrastructure and waste management.
My daughter and I spent over four hours looking through their projects, some completed and currently in use, some futuristic and abstract. Tyla had no problem imagining a city with cars that look like lambs or living tree houses—in fact, she talked about the possibilities for hours afterwards!
I want to share with you a few of the projects Tyla and I discovered that day:
Currently, every hour the City of New York produces enough waste to fill the Statue of Liberty. Toronto produces over 57 tons per hour. Terreform ONE has designed a unique way to reuse this waste:
New York City is disposing of 38,000 tons of waste per day. Most of this discarded material ended up in Fresh Kills landfill before it closed. The Rapid Re(f)use project supposes an extended New York reconstituted from its own landfill material. Our concept remakes the city by utilizing the trash at Fresh Kills. With our method, we can remake seven entirely new Manhattan islands at full scale. Automated robot 3d printers are modified to process trash and complete this task within decades. These robots are based on existing techniques commonly found in industrial waste compaction devices. Instead of machines that crush objects into cubes, these devices have jaws that make simple shape grammars for assembly. Different materials serve specified purposes; plastic for fenestration, organic compounds for temporary scaffolds, metals for primary structures, and etc. Eventually, the future city makes no distinction between waste and supply.– Rapid Re(f)use: Waste to Resourcehttp://www.terreform.org/projects_urbanity_rapid_refuse.html
Growing Houses to Think, Feel and Breath
Terreform ONE, has envisioned two types of building materials for homes, both radically different in the way they use materials as well as the way they return these materials to the earth when not in use. Imagine a home, grown from trees, native to their environment.
Our dwelling is composed with 100% living nutrients. Here traditional anthropocentric doctrines are overturned and human life is subsumed within the terrestrial environs. Home, in this sense, becomes indistinct and fits itself symbiotically into the surrounding ecosystem. This home concept is intended to replace the outdated design solutions at Habitat for Humanity. We propose a method to grow homes from native trees. A living structure is grafted into shape with prefabricated Computer Numeric Controlled (CNC) reusable scaffolds. Therefore, we enable dwellings to be fully integrated into an ecological community.– FAB TREE HAB: Living Graft Prefab Structurehttp://www.terreform.org/projects_habitat_fab.html
They have also conceived a model for a structure grown from pig cells with windows that open and close with sphincter muscles.
This is an architectural proposal for the fabrication of 3D printed extruded pig cells to form real organic dwellings. It is intended to be a “victimless shelter”, because no sentient being was harmed in the laboratory growth of the skin. We used sodium benzoate as a preservative to kill yeasts, bacteria and fungi. Other materials in the model matrix are; collagen powder, xanthan gum, mannitol, cochineal, sodium pyrophosphate, and recycled PET plastic scaffold. As of now, the concept model consists of essentially very expensive fitted cured pork or articulated swine leather with an extensive shelf life. The actual scale of the non-perishable prototype is 11”x3”x7”.– IN VITRO MEAT HABITAThttp://www.terreform.org/projects_habitat_meat.html
Meetings in a Moving Pod
Tired of waiting for the office elevator to take you to your meeting? Suppose you could start your client meeting on the ground floor and program a meeting pod to move slowly as you did your business. After an hour long meeting you and your clients arrive at a display area or a restaurant with no time or energy wasted.
Peristal City is a tall building made of a cluster of shifting pod spaces. The pod skins alter the volume locations within. This soft, pliable, sealed, and non-mechanical innovation encapsulates volumetric structures. Textile reinforced hoses execute a peristaltic action. Thus, the modules are enabled to create an articulated motion that is symbiotically connected to an urban armature. By employing a dynamic spatial application against the traditional organization of core and space, we dissolved the dichotomy between circulation and habitable environments. We have eliminated typological stacking where experiences are vapidly suggested to be diversified by simply designating floors to particular social practices. Instead, we propose a spatial layout that establishes heterogeneous movements, and not just assorted practices, as the criteria for a dynamic assemblage.– PERISTALTIC CITY: Circulatory Habitat Cluster for New Yorkhttp://www.terreform.org/projects_urbanity_peristaltic.html
Since I began researching Terreform ONE, my imagination has been on fire. Collaboration between disciplines is key. And, it is crucial to radically alter what we think is possible in our environments, particularly as our cities become more dense. I am thrilled to be bringing Terreform ONE for a solo exhibition of projects to Onsite [at] OCAD University this fall, details below!