Energy recovery from New York City municipal solid wastes

Energy recovery from New York City municipal solid wastes

This work was part of a major study that examined the policy and technology implications of alternatives for managing the municipal solid wastes (MSW) of New York City. At this time, of the 4.1 million metric tons of MSW collected by the City annually, 16.6% are recycled, 12.4% are combusted in Wast...

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Veröffentlicht in:Waste management & research 2002-06, Vol.20 (3), p.223-233
Hauptverfasser: Themelis, Nickolas J., Kim, Young Hwan, Brady, Mark H.
Format: Artikel
Sprache:eng
Schlagworte:
Calorific value
Conservation of Natural Resources
Consumption
Energy management
Energy-Generating Resources
Fossil Fuels
Glass
Molecular Structure
Municipal waste management
New York City
Organic Chemicals
Organic compounds
Organic materials
Recovering
Refuse Disposal
Solid wastes
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Zusammenfassung:This work was part of a major study that examined the policy and technology implications of alternatives for managing the municipal solid wastes (MSW) of New York City. At this time, of the 4.1 million metric tons of MSW collected by the City annually, 16.6% are recycled, 12.4% are combusted in Waste-to-Energy (WTE) plants, and the remaining 71% are landfilled. Despite the heterogeneity of organic materials in MSW, the composite molecular structure can be approximated by the organic compound C6 H10 O4. A formula was derived that allows the prediction of the heating value of MSW as a function of moisture and glass/metal content and compares well with experimentally derived values. The performance of a leading Waste-to-Energy plant that utilises suspension firing of shredded MSW, processes one million tons of MSW per year, and generates a net of 610 kWh/metric ton was examined. The results of this study showed that WTE processing of the MSW reduces fossil fuel consumption and is environmentally superior to landfilling.
ISSN:0734-242X
1096-3669
DOI:10.1177/0734242X0202000303