Pretreatment and utilization of waste incineration bottom ashes: Danish experiences.

Within recent years, researchers and authorities have had increasing focus on leaching properties from waste incineration bottom ashes. Researchers have investigated processes such as those related to carbonation, weathering, metal complexation, and leaching control. Most of these investigations, however, have had a strong emphasis on lab experiments with little focus on full-scale bottom ash upgrading methods. The introduction of regulatory limit values restricting leaching from utilized bottom ashes, has created a need for a better understanding of how lab-scale experiences can be utilized in full-scale bottom ash upgrading facilities, and the possibilities for complying with the regulatory limit values. A range of Danish research and development projects have, during 1997-2005, investigated important techniques for bottom ash upgrading. The primary focus has been placed on curing/aging, washing with and without additives, organic matter, sampling techniques, utilization options, and assessment tools. This paper provides an overview of these projects. The main results and experiences are discussed and evaluated with respect to bottom ash upgrading and utilization. Based on this discussion, development needs and potential management strategies are identified.

[1]  T. H. Christensen,et al.  The dissolution kinetics of major elements in municipal solid waste incineration bottom ash particles. , 2007, Journal of contaminant hydrology.

[2]  H. Møller,et al.  Sampling of heterogeneous bottom ash from municipal waste-incineration plants , 2004 .

[3]  Harpa Birgisdottir,et al.  Life cycle assessment model for road construction and use of residues from waste incineration , 2005 .

[4]  R. Comans,et al.  Contribution of natural organic matter to copper leaching from municipal solid waste incinerator bottom ash. , 2004, Environmental science & technology.

[5]  H. A. van der Sloot,et al.  Process identification and model development of contaminant transport in MSWI bottom ash. , 2002, Waste management.

[6]  Rob N.J. Comans,et al.  Geochemical modeling of weathering reactions in municipal solid waste incinerator bottom ash , 1997 .

[7]  Andrea Ulrich,et al.  Hydrological and geochemical factors affecting leachate composition in municipal solid waste incinerator bottom ash. Part II. The geochemistry of leachate from Landfill Lostorf, Switzerland , 1999 .

[8]  T Sabbas,et al.  Management of municipal solid waste incineration residues. , 2003, Waste management.

[9]  T. Taylor Eighmy,et al.  Carbonation processes in municipal solid waste incinerator bottom ash and their effect on the leaching of copper and molybdenum , 2002 .

[10]  Poul Løgstrup Bjerg,et al.  Vejsalt genfindes i høje koncentrationer i grundvandet , 1998 .

[11]  Ole Hjelmar,et al.  An approach to the development of rational limit values for regulatory testing of waste prior to disposal or utilisation , 1999 .

[12]  Alessandra Polettini,et al.  The leaching behavior of incinerator bottom ash as affected by accelerated ageing. , 2004, Journal of hazardous materials.

[13]  Tomas Vitvar,et al.  Hydrological and geochemical factors affecting leachate composition in municipal solid waste incinerator bottom ash. Part I : The hydrology of Landfill Lostorf, Switzerland , 1998 .

[14]  J. Meima,et al.  Complexation of Cu with Dissolved Organic Carbon in Municipal Solid Waste Incinerator Bottom Ash Leachates , 1999 .