Municipal solid waste combusting

Combustion of plastics waste with energy recovery is discussed as one approach to the recycling and waste management of waste plastics. Their role in municipal solid waste combustion is examined, and the importance of refuse derived fuel pellets. Facts supporting the importance of waste to energy projects are reported, and details of some projects currently examining MSW combustion with energy recovery are detailed. [Pg.75]

Brussels, 1993,pp.l2. 12ins. 15/12/93. 8(13)21 ROLE OF PLASTICS IN MUNICIPAL SOLID WASTE COMBUSTION. A TECHNICAL PAPER FROM A SERIES PRODUCED BY APME AND PWMI Mark F E... [Pg.100]

The role of plastics in municipal solid waste combustion is discussed, and in particular, their fuel characteristics. Details are given of a state-of-art municipal solid waste combustor and the effects of plastics on the different combustion stages. In addition, the contribution of plastics to the total output spread over the various emission paths of solids, liquids and gases, is also assessed. [Pg.100]

The WES-PHix process is designed to chemically stabilize ash from municipal solid waste combustion. This technology reduces the solubility of certain heavy metals in ash through the addition of soluble phosphate, lime, and water. The addition of these reagents to ash promotes... [Pg.1081]

Eusden, J. D., Eighmy, T. T., Hockert, K., Holland, E. Marsella, K. 1999. Petrogenesis of municipal solid waste combustion bottom ash. Applied Geochemistry, 14, 1073-1091. [Pg.421]

Wiles, C. 1996. Municipal solid waste combustion ash State-of-the-knowledge. Journal of Hazardous Materials, 47, 325-344. [Pg.422]

Phosphate stabilization of municipal solid waste combustion residues geochemical principles... [Pg.435]

Eighmy, T. T., Crannell, B. S. et al. 1997. Heavy metal stabilization in municipal solid waste combustion dry scrubber residue using soluble phosphate. Environmental Science Technology, 31, 3330-3338. [Pg.468]

Hjelmar, O., Hansen, E.A., Andersen, K.J., Andersen, J.B. and Bjonicstad, E. (1994) An approach to the assessment of environmental impacts of marine applications of municipal solid waste combustion residues, in J.J.J.M. Goumans et al. (Eds.), Environmental Aspects of Construction with Waste Materials, Elsevier Sciences B.V., Amsterdam, NL, pp. 137-16. [Pg.372]

Fangmark I (1993), Formation of chlorinated aromatic compounds during incineration - an application of statistical experimental design", Dissertation, Universitat Ume3, Schweden Griffin RD (1987), Chemosphere 15 1987-1990. A new theory of dioxin formation in municipal solid waste combustion"... [Pg.112]

US EPA (1990), EPA 530-SW-90-029A. Characterization of municipal solid waste combustion ash, ash extracts and leachates", Washington D.C. [Pg.287]

B. CranneU, T. Eighmy, J. Krzanowski, J. Eusden, E. Shaw, and C. Francis, Heavy metal stabilization in municipal solid waste combustion bottom ash using soluble phosphate, Waste Mgmt, 20 (2000) 135-148. [Pg.213]

Goldin A, Bigelow C, Veneman PLM. 1992. Concentrations of metals in ash from municipal solid waste combusters. Chemosphere 24(3) 271-280. [Pg.188]

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