ment. Home owners will be able to select other options as long as the recommended performance targets are met. Phase one includes the construction of the passive and active heating system, water collection and ugrading, wastewater and organic waste treatment, green roofs and greenhouses, and some of the communal gardens. In this phase we also recommend the construction of the communal laundry facility, combined with greenhouse, kitchen, and play area. This facility will allow for approximately 20% reduction in domestic electricity use by employing laundry machines that can use hot water as a direct input and using this hot water to heat the community pool (to be built in phase two) via a heat exchanger. Phase two includes the addition of solar electricity and potentially other power generation equipment such as a gassifer. In this phase, additional communal areas will also be built, some of which, such as a community managed bed and breakfast, can also generate profit for future investments. The urban food production plan comes into full development at this stage, with collective harvesting,management,and processing of various food types in a collective area. In phase three of the development, the technological plan should remain flexible and continue to evolve. The site can serve as a pilot space for decentralized, renewable technologies. FINAL SYSTEM PERFORMANCE The Schoonschip development plan has the following key features: › Communal facilities: shared laundry facilities, kitchens, Green roof + solar infrastructure Greenhouses Green roof terraces Solar heat collectors Solar PV cells Outdoor food production Food processing & storage 1.155 sqm 490 sqm 741 sqm 384 sqm (8 sqm / house) 480 sqm (10 sqm / house) 180 sqm 120 sqm gardens, playgrounds, pools, food processing and storage, and other elements will increase community interaction and facilitate resource sharing. › Demand side management: The success of the plan will partly be achieved through strong demand-side management approaches which will limit overall resource demand. › Heat and nutrient cascades and closed material cycles: reuse of nutrients and energy on site, cascading of heat from waste sources for reuse in other functions (from greenhouses to the community pool). › Evolving technology landscape: continual improvement of system performance by adopting new technologies as they become avaiable and afFordable. FINAL TARGETS ACHIEVED (HIGHLIGHTS): › 100% renewable heat and hot water supply › 100% renewable electricity › 100% wastewater and organic waste treatment › 100% water self-sufficiency › 60 - 80% nutrient recovery › 50 - 70% reduction in electricity demand over conventional households › 60 - 80% vegetable & fruit production using locally recovered nutrients › sensor network and real-time system performance displays 218 m DESAR organic waste treatment Reedbed filtration Vertical food production Vertical ecosystem Pool and sauna Play area 110 sqm (22 sqm /pier) 600 sqm (1,4 sqm/person) 300 sqm 220 sqm 250 sqm 60 sqm HOUSE BOATS: 6300 sqm (30) JETTY: 1635 sqm 2 4 m 44 m 5 m 15 m 34 m 10 m 31 m 24 m 23 m 30 m 26 m 31 m 20 m 32 m 26 m 24 m Pagina 18
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