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European legislation specifies a series of analyses that have to be conducted in order to determine indicators on waste generation, treatment and disposal, as well as to ensure that the latter takes place in ways that ensure the protection of human health and environment. These analyses include sampling surveys in selected areas, determination of physicochemical and biological characteristics of waste, as well as the testing of material streams deriving from waste treatment and disposal. Waste characterization is not only directly imposed by European legislation, but is also indirectly required in order to plan and operate waste treatment facilities in a secure and cost-effective manner. This paper discusses the analyses imposed by legislation and the entire frame of analyses performed on waste, accompanied by examples and results that were deri
European environmental legislation, physicochemical analyses, sampling surveys, waste characterization
[1] Directive of the European Council of 15 July 1975 on waste (75/442/EEC), Official Journal of the European Communities, No. L 194, p. 39, 1975.
[2] Directive of the European Council of 18 March 1991 amending Directive 75/442/EEC on waste (91/156/EEC), Official Journal of the European Communities, No. L 078, pp. 32–37, 1991.
[3] Directive of the European Council of 26April 1999 on the landfill of waste (99/31/EC), Official Journal of the European Communities, No. L 082, pp. 1–19, 1999.
[4] Directive of the European Council of 25 November 2002 on waste statistics, Official Journal of the European Communities, No. L 332, pp. 91–111, 2002.
[5] Decision of the European Council of 19 December 2002 (2003/33/EC), establishing criteria and procedures for the acceptance of waste at landfills, pursuant to Article 16 of and Annex II to Directive 99/31/EC, Official Journal of the European Communities, No. L 11, pp. 27–49, 2002.
[6] Tchobanoglous,G.,Theisen,H.&Vigil,S.A.,IntegratedSolidWasteManagement:Engineering Principles and Management Issues, McGraw-Hill, 1993.
[7] Koufodimos, G. & Samaras Z., Waste management options in southern Europe using field and experimental data. Waste Management, 22(1), pp. 47–59, 2002.
[8] European Environmental Agency, Environmental Signals, Environmental assessment report No. 6, 2000, http://reports.eea.eu.int/signals-2000/en
[9] Development of a methodological tool to enhance the precision and the comparability of solid wasteanalysisdata,projectfundedundertheEnergy,EnvironmentandSustainableDevelopment (EESD) specific programme of the 5th Framework Programme of the European Commission, key action ‘The City ofTomorrow and Cultural Heritage’, http://www.swa-tool.net, 2001–2004.
[10] Ploechl, C., Dobson, G. & Buell, U., Factors influencing municipal waste arising and composition. 8th Conference on Environmental Science and Technology, Lemnos, Greece, 2003.
[11] Huber, H., Jaros, M. & Lechner, P., Emission Behaviour of Municipal Waste Incineration Ash after Artificial Aging, Final Report, Institute for Applied Geology, Vienna, 1996.
[12] LAGA (German Joint Länder Working Group on Waste), Guidance document on the disposal of ashes deriving form household waste incineration, GABI No. 1, p. 66, 1995.
[13] Moussiopoulos, N., Samaras, Z., Kouimtzis, Th., Karagiannidis,A.,Voutsa, D., Perkoulidis G., Koufodimos, G. & Kouras, A., Sampling, field work and laboratory analyses in the frame of integrated investigation of municipal solid waste management in Thessaloniki, Greece. Proceedings of the 1st Environmental Conference of Macedonia, Thessaloniki, Greece, 1–4 March 2002.
[14] Chrysochoou, M., Comparison of leaching tests for the characterisation of substance release from deposited waste, Master’s thesis, Institute for Waste Management and Contaminated Site Treatment, Dresden University of Technology, 2003.
[15] Worch, E., Water and Water Substances: An Introduction to Hydrochemistry, Series Environment, Teubner: Stuttgart, 1997.
[16] Kouras, A., Voutsa, D. & Kouimtzis, Th., Characterization of bottom ash produced from combustion of fermentable matter of municipal solid wastes from northern Greece. Fresenius Environmental Bulletin, 10(8), pp. 669–673, 2001.
[17] Kouzeli-Katsiri, A., Christoulas, D., Bosdogianni, A. & Koumoulos, D., Leachate production and transformations in sanitary landfills. Proceedings of HELECO 1992, Vol. 1, pp. 149–161, 1993.
[18] Karagiannidis, A., Selecting and applying a multicriteria decision aid method for the management of municipal solid waste in a south-east European region, Master’s thesis, National and Kapodistrian University of Athens, 1994.