Dattner Architects has won the 1st Award for the project Eco-Friendly Waste-Transfer Station at Global Architecture & Design Awards (GADA 2018) hosted by Rethinking The Future with the idea of acknowledging the works of professionals and students of architecture. GADA is an all exclusive design competition, analysing and comparing the conceptual and built works of professionals. The competition received a total of 748 Registrations from across the globe. Rethinking The Future Awards have gained a Big name among the Architecture Awards Internationally with Winners from renowned Studios like BIG & DIALOG Architects, HOK, Perkins Eastman, UNStudio, Aecom, Gensler, Henning Larsen, LMN Architects, DLR Group, AHR, Page, RTKL, EYP Inc, LAN Architecture, WOW Architects and many more.
Original Article: Rethinking The Future
About the project:
Late Twentieth Century cities developed ecological solutions to the problem of waste disposal by recycling, large scale composting, converting garbage into alternate energy through incineration or creating new landforms out of municipal waste. These measures offset some of the pollution to land, water, and air associated with trash disposal. The challenge of the new millennium is to take these advances further towards the idealized frontier of Zero Waste—reducing the amount unproductive, un-recycled, or un-converted waste to a minimum and reduce production of greenhouse gases associated with these measures as much as possible.
Our proposal uses a pioneering technology that works by converting trash into a synthesis gas or “syngas,” mostly hydrogen and carbon monoxide, as well as a small volume of ecologically harmless materials that can be used for industrial and construction uses. The Plasma Arc technology uses trash as feedstock for the gasification process. The process occurs in a low oxygen environment, so there is no combustion or emissions into the atmosphere. The syngas is cooled and scrubbed of impurities into a highly refined fuel.
Any leftover material is cooled from a liquid into an inert, glasslike material. The thermal energy generated during the process is turned into steam, which powers turbines to generate electricity, for plant operations or directed into the municipal electric grid. The syngas is not burned on site, but shipped or piped to a clean burning incinerator that produces green power on a large scale.
These new Plasma Plants are municipal prototypes and future waterfront landmarks. The processing equipment is concentrated in a circular plan to minimizes its footprint and allow it to be integrated into a limited area. A perforated mesh skin shields the truck ramp and conveyer areas and prevents unauthorized access. Sightseers climbing up the spiral walkway to a rooftop park will be able to see and understand the process happening inside. A series of “hives” enclosing the largest pieces of equipment appear as features in the landscape.
In addition to its environmental benefits, these structures will also bridge the distinction between infrastructure and civic spaces, allowing current and future city inhabitants to understand their place in the urban eco-system.
Three cities illustrate the global potential of Plasma Power Technology:
New York City. Today, only 25% of NYC’s solid waste is recycled or composted. To meet its Zero Waste goal in 2030, Plasma Plants will replace the City’s existing Five Marine Transfer Stations that now ship trash to landfills.
Norway is already a leader in waste to energy conversion and imports trash on the international market as source of fuel. A Plasma Plant on the Oslo waterfront will complement a conventional waste to energy operation in Klemetsrud, in the city suburbs.
Densely populated Japan has been a pioneer of trash based land creation in Tokyo and other port cities. A plasma plant on an existing artificial Island in the Tokyo Bay will be integrated into the Umi-No-Mori public park now under construction.