2.2.3 Neighbourhood scale projects Noorderhoek
Brief of the selected projects
After reviewing two urban scale design-research projects of facilitating alternative organic waste recycling in the city, It is also necessary to choose smaller scale "pilot areas" in the city to test the application of the new circular flow.. Four relevant(about circular food system) neighbourhoods are selected to be reviewed in order to find how to facilitate circular concrpt in neighbourhood.
Summary of general design approaches
order to find how circularity concepts(especially those related to food waste) can be applied to transform the built space and approaches of facilitating circularity.
(b).New infrastructures for supporting the new food (a).Transformation of flow in the food system system 1.Implementing a new type of flow model for the food 1.Distributed treatment facilities for food waste system: Local circularity benefited by food waste and the 2.Facilities for reusing and purifying the rainwater treatment of local sewage water (Recycling food waste (sewage+rainwater collection) for irrigation to fertilizer for surrounding farmland and biogas for bio(c).Transformation of urban space 1.Improving accessibility of local food production and based fuel production) waste treatment facilities to both local(for residents) and 2.Formulating a circular food loop system in the city (for Logistic) neighbourhood. ( From growing to food waste treatment) Noorderhoek
Figure21.Hammarby (Site: Stockholm,Sweden)
Figure25.Noorderhoek (Site:Sneek,the Netherland)
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Figure22.Hammarby (Site: Stockholm,Sweden)
Approaches 1.Public utility building 2.Recycling foodwaste for energy production and fertilizer for surrounding urban green and allotment. 3.Decentralized energy facility.
Figure26.Noorderhoek (Site:Sneek,the Netherland)
Approaches 1.local facilities for digesting foodwaste and sewage for heating and biogas 2.Local biogas cooker 3.Purification and reuse of rainwater through urban green space.
Figure23.Augustenborg (Site:Malmo,Sweden)
URBAN (CIRCULAR) FOOD SYSTEM
URBAN (CIRCULAR) FOOD SYSTEM
Material flow: from organic waste to heat and fer�lizer for surrounding allotment and urban green.
flow: energy from organic heat and fer�lizer for Figure27. Material Buiksloterham positivewaste districtto(Site:Amsterdam,the Netherland)
surrounding allotment and urban green.
Figure24.Augustenborg
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Figure28. Buiksloterham energy positive district
(Site:Malmo,Sweden)
Approaches
1.Renovation of roof-garden 2.15Xwasterooms for community composting 3.Community allotment 4.Renovation of community green space for stormwater storage and purification 5.Using compost for supporting local
Approaches 1.Decentralized energy falicity (Solar and bio based) 2.Reusing polluted area and post industrial area 3.Public facilities for recycling foodwaste 4.Recycling foodwaste(also sewage) for energy and nutrients for growing 5.Rainwater storage and purification
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