Assessing landfill leachate quality and leachate treatment efficiency using good sampling practices
DOI:
https://doi.org/10.15626/Eco-Tech.2003.020Keywords:
Landfill leachate quality; Assessment of leachate treatment methods; Good sampling practices; Sampling errors; Non-homogenised water bodies; Adsorption to equipment material; Contamination; Sample conservation; Loss of compounds; Alteration of instable samplesAbstract
A number of the compounds detected in landfill leachates have proved to be harmful to humans and to the natural environment. As a result, appropriate landfill leachate treatment methods must be developed, with the aim to reduce harmful concentrations of pollutants to levels which do not impose a threat to the natural environment. The complex nature of the leachates makes it difficult to select the most appropriate set of treatment methods for a specific landfill, and the actual efficiency of a treatment plant is measured in situ by comparing the quality of the water entering the plant with the quality of the water leaving the plant. The complex nature of the leachates puts high demands on the sampling, handling of sample before analyses, and analyses, as the character of the sample must not be altered. The demands increase with decreasing concentrations of the targeted compounds (µg/1 level or less). Despite this, no standard protocols for sampling and handling of leachate samples exist. The purpose of this study was to give examples of good sampling practices. Important aspects to consider during sampling and handling of samples are; i) sampling of nonhomogenized water bodies, ii) contamination, and iii) alterations of samples during collection and storage. It was found that a number of substances are enriched in the surface layer of a water body, why it was concluded that the surface layer is an important matrix to consider, both concerning the presence and the transport of harmful compounds. The risk of contamination during sampling was evaluated with the use of a field water blank, which was handled as a true water sample. It was found that despite careful handling contaminants were found at low concentrations (µg/1 level) in the field water blank, which indicated a severe risk of contamination during leachate sampling, handling of sample and/or analyses. Also in this study, the alteration of leachate samples during transport and storage was assessed. The results showed that preservation with 0.2 weight-% sodium azide immediately after sampling and storing at 48° C for a maximum of seven days in borosilicate glass bottles, resulted in the lowest loss of organic compounds from the samples. It has been evident since long that the reported character of sampled landfill leachates varies significantly. The variations can been assumed to sometimes origin from the sampling procedures used. In conclusion, the choice of sampling, transport, storage, and sample preparation before analyses is more crucial for the outcome of leachate characterisation studies than sometimes conceived.
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References
Öman C. and Hynning P.-A., 1993, Identification of organic compounds in municipal landfill lechates. Environ. Pollut., 80 (3), 265-271. https://doi.org/10.1016/0269-7491(93)90047-R
Öman, C., Bengtsson, A. and Rosqvist, R., 1999, Changes with depth and with time of leachates from a pilot-scale landfill Proceedings of the Seventh International Landfill Symposium, Cagliary, Italy.
Öman, C. and Rosqvist, H., 1999, Transport fate of organic compounds with water through landfills, Water Res. 33, 2247-2254 https://doi.org/10.1016/S0043-1354(98)00446-1
Christensen T. H. , Kjeldsen P., Bjerg P.L., Jensen D.L., Christensen J.B., Baun A. Albrechtsen H-J and Heron G., 2001, Biogeochemistry of Landfill Leachate Plumes. Appl. Geochem., 16, 659-718. https://doi.org/10.1016/S0883-2927(00)00082-2
Kjeldsen, P. Barlaz, M.A., Rooker, A.P., Baun, A., Ledin, A., and Christensen T.H., 2002, Present and long-term composition of MSW landfill leachate: A review. Crit. Rev. in Environ. Sci. Technol. 32 (4), 297-336 https://doi.org/10.1080/10643380290813462
Öman, C., 2000, Evaluation of leachate treatment methods in perspective of the character of specific organic compounds. Proceedings of The 1st Intercontinental Landfill Research Symposium. Luleå University, Sweden.
Öman C. , 1993, Identifierade organiska föreningar i lakvatten från avfallsupplag - en litteratursammanställning. Proceedings från Symposium om svensk upplagsforskning, Luleå, 33-44
House, W.A., Ziqing, Ou, 1992, Chemophere, 24, 819.
Öman, C., 1998, An automated experimental equipment for studying the fate of organic compounds in landfills. Intern. J. Environ. Anal. Chem., 71, 73-85. https://doi.org/10.1080/03067319808032618
Grathwohl, P ., 1990, Environ. Sci. Technol., 24, 1687-1693
Sigleo, A.C., Means, J.C., 1 990, Rev. Environ. Contam. To.x., 112, 1 23.
Åkerblom, M., 1995, Extraction and cleanup, in Analyses of pesticides in ground and surface - Water I, Ed. Stan H.-J. Chemistry and Plant protection, SpringerVerlag Berlin Heidelberg, Germany, 21-66.
Backhaus, D.A., Ryan, J.N., Grober, D.M., Macfarlane, J.K. and Gschwend, P.M., 1993, Sampling colloids and colloid-associated contaminants in ground water.Ground Water, 31, 466-479 https://doi.org/10.1111/j.1745-6584.1993.tb01849.x
Gounaris, V., Anderson, P.R., and Holsen, T.M., 1993, Characteristics and environmental significance of colloids in landfill leachate, Environ. Sci. Technol., 27, 1381. https://doi.org/10.1021/es00044a013
Knulst, J.C., Backlund, P., Hessen, D.O., Riise, G., and Södergren, A., 1997, Response of surface micro-layers to artifical acid precipitation in a meso-humic lake in Norway. Water Res, 13, 2177-86 https://doi.org/10.1016/S0043-1354(97)00061-4
Junested, J.,in preparation, Contaminats present in the surface layer of a landfill leachate pond
Parkman, H. and Remberger, M., 1995, Phthalates in Swedish sediments. Swedech Environmental Research Institute B-1167, Stockholm, Sweden.
Andersen, K.S. and Lam, J., 1979, Chromatography, 169, 101-106.
ISO 5667-2; 199 l (E), Internal Standard- Water quality - sampling, part 2: Guidance sampling techniques. International Organisation of Standardization, Geneve, Switzerland
ISO 5667-14;1998 (E), Internal Standard- Water quality - sampling, part 14: Guidance on quality assurance of environmental water sampling and handling. International Organisation of Standardization, Geneve, Switzerland
Öman, C., 2001, Comparision between the predicted fate of organic compounds in landfills and the actual emissions. Environ. Sci. Techn., 35, 232-239 https://doi.org/10.1021/es9812599