Assessing the impacts of seasonal variations on predicting leachate generation in gumushane open dump using water balance method

• Autorzy: Nas S.S. , Nas E.
• Języki publikacji: EN

Abstrakty

EN

Leachate quality varies depending on many factors such as the depth and the content of solid waste, seasonal variations in solid waste, and the duration of storage of solid waste; design and operation of storage space; geological and hydrogeological characteristics of storage area; and environmental interaction of leachate, which affect each other. One of the two major sources of leachate is the moisture content of the waste stored and the other is the mass of water entering the storage area from outside. A major part of the mass of water entering the storage area from outside is the infiltration of rain water through the storage area. The purpose of this study is to assess the seasonal variation in leachate of Gümüshane (Central) open dump area using the 'water balance method' for the determination of the factors affecting the seasonal variation in leachate of landfill, which particularly holds a higher risk of contaminating the environment. In addition, some of the measures to be taken in solid waste storage areas in order to minimize the mass of leachate are presented.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2014
• Tom: 23
• Numer: 5
• Opis fizyczny: p.1659-1668,fig.,ref.

Twórcy

autor

Nas S.S.

• Department of Civil Engineering, Faculty of Engineering and Natural Sciences, Gumushane University, 29100 Gumushane, Turkey

autor

Nas E.

• Department of Construction Technologies, Karadeniz Technical University, 61300 Trabzon, Turkey

Bibliografia

• 1. KOCASOY G., CURI K. The Umraniye-Hekimbasi open dump accident. Waste Manage. Res. 13, (4), 305, 1995.
• 2. KANAT G., DEMIR A., OZKAYA B., BILGILI M.S. Addressing the operational problems in a composting and recycling plant. Waste Manage. 26, (12), 1384, 2006.
• 3. TCHOBANOGLOUS G., THEISEN H., VIGIL S.A. Integrated solid waste management: Engineering principles and management. McGraw-Hill, New York, 1993.
• 4. KHOURY R., EL-FADEL M., SADEK S., AYOUB G. Temporal variation of leachate quality in seawater saturated fills. Adv. Environ. Res. 4, (4), 313, 2000.
• 5. VEEKEN A., HAMELERS B. Sources of Cd, Cu, Pb and Zn in biowaste. The Sci. Total Environ. 300, (1), 87, 2002.
• 6. TCHOBANOGLOUS G., O'LEARY P. Landfilling, in Hand book of solid waste management (Ed.: TCHOBANOGLOUS, G., KREITH, F.). McGraw-Hill, New York, pp. 1-93, 2002.
• 7. AMALENDU B. Design of landfill and integrated solid waste management. John Wiley & Sons, New Jersey, 2004.
• 8. KURNIAWAN T.A., LO W., CHAN G.Y.S. Physico-chem­ical treatments for removal of recalcitrant contaminants from landfill leachate. J. Hazard. Mater. 129, (1), 80, 2005.
• 9. SANDERSON J., HETTIARATCHI P., HUNTE C., HUR­TADO O., KELLER A. Methane balance of a bioreactor landfill in Latin America. J. Air Waste Manage. 58, (5), 620, 2008.
• 10. CHRISTENSEN T.H., KJELDSEN P., BJERG P. Biogeochemistry of landfill leachate plume. Appl. Geochem. 16, (7-8), 659, 2009.
• 11. MOHAN S., GANDHIMATHI R. Removal of heavy metal ions from municipal solid waste leachate using coal fly ash as an adsorbent. J. Hazard. Mater. 169, (1-3), 351, 2009.
• 12. COMSTOCK S.E.H., BOYER T.H., GRAF K.C., TOWNSEND T.G. Effect of landfill characteristics on leachate organic matter properties and coagulation treatabil- ity. Chemosphere 81, (7), 976, 2010.
• 13. FELLNER J., BRUNNER P. Modeling of leachate genera­tion from MSW landfill by a 2-dimensional 2-domain approach. Waste Manage. 30, (11), 2084, 2010.
• 14. TINMAZ E., DEMIR I. Research on solid waste manage­ment system: to improve existing situation in Corlu town of Turkey. Waste Manage. 26, (3), 307, 2006.
• 15. YANG Z., ZHOU S. The biological treatment of landfill leachate using a simultaneous aerobic and anaerobic (SAA) bio-reactor system. Chemosphere 72, (11), 1751, 2008.
• 16. FRANCISCA F., GLATSTIEN D. Long term hydraulic con­ductivity of compacted soils permeated with landfill leachate. Appl. Clay Sci. 49, (3), 187, 2010.
• 17. GABKA D., WOLSKI K. Use of turf grasses in landfill leachate treatment. Pol. J. Environ. Stud. 20, (5), 1161, 2011.
• 18. FLIPKOWSKA U. Effect of recirculation method on quali­ty of landfill leachate and effectiveness of biogas produc­tion. Pol. J. Environ. Stud. 17, (2), 199, 2008.
• 19. TATSI A.A., ZOUBOULIS A.I. A field investigation of the quantity and quality of leachate from a municipal solid waste landfill in a Mediterranean Climate (Thessaloniki, Greece). Adv. Environ. Res. 6, (2), 207, 2002.
• 20. MOO-YOUNG H., JOHNSON B., JOHNSON A., CAR­SON D., LEW C., LIU S., HANCOCK K. Characterization of infiltration rates from landfills: supporting groundwater modelling efforts. Environ. Monit. Assess. 96, (1-3), 283, 2004.
• 21. ABBAS A.A., JINGSONG G., PING L.Z., YA PAN Y., WISAAM S.A. Review on landfill leachate treatments. Am. J. Appl. Sci. 6, (4), 672, 2009.
• 22. WOJCIECHOWSKA E., GAJEWSKA M., PEMP- KOWIAK H.O. Treatment of landfill leachate by construct­ed wetland: three case studies. Pol. J. Environ. Stud. 19, (3), 643, 2010.
• 23. BILGILI M.S., DEMIR A., INCE M., OZKAYA B. Metal concentrations to simulated aerobic and anaerobic pilot scale landfill reactors. J. Hazard. Mater. 145, (1), 186, 2007.
• 24. POLAT H., ERDOGAN D. Heavy metal removal from waste waters by ion flotation. J. Hazard. Mater. 148, (1-2), 267, 2007.
• 25. LI Y., LOW G.K., SCOTT J.A., AMAL R. Arsenic specia- tion in municipal landfill leachate. Chemosphere 79, (8), 794, 2010.
• 26. MATTHEWS R., WINSON M., SCULLION J. Treating landfill leachate using passive aeration trickling filters; effects of leachate characteristics and temperature on rates and process dynamics. Sci. Total Environ. 407, (8), 2557, 2009.
• 27. FLYHAMMAR P. Estimation of heavy metal transforma­tions in municipal solid waste. Sci. Total Environ. 198, (2), 123, 1997.
• 28. PALMA L., MECOZZI R. Batch and column tests of metal mobilization in soil impacted by landfill leachate. Waste Manage. 30, (8-9), 1594, 2010.
• 29. OZKAYA B., DEMIR A., BASTURK A., BILGILI M.S. Investigation of leachate recirculation effects in Istanbul Odayeri sanitary landfill. J. Environ. Sci. Heal. A 39, (4), 869, 2004.
• 30. BERKUN M., ARAS E., NEMLIOGLU S. Disposal of solid waste in Istanbul and along the Black Sea Coast of Turkey. Waste Manage. 25, (8), 847, 2005.
• 31. TRANKLER J., VISVANATHAN C., KURUPARAN P., TUBTIMTHAI O. Influence of tropical seasonal variations on landfill leachate characteristics-results from lysimeter studies. Waste Manage. 25, (10), 1013, 2005.
• 32. KALE S.S., KADAM A.K., KUMAR S., PAWAR N.J. Evaluating pollution potential of leachate from landfill site, from the Pune Metropolitan City and its impact on shallow basaltic aquifers. Environ. Monit. Assess. 162, (1), 327, 2009.
• 33. BELLA G.D., TRAPANI D.D., MANNINA G., VIVIANI G. Modeling of perched leachate zone formation in munici­pal solid waste landfills. Waste Manage. 32, (3), 456, 2012.
• 34. ZHANG S.J., PENG Y.Z., WANG S.Y., ZHENG S.W., GUO J. Organic matter and concentrated nitrogen removal by shortcut nitrification on denitrification from mature municipal landfill leachate. J. Environ. Sci. 19, (6), 647, 2007.
• 35. NAS S.S., BAYRAM A. Municipal solid waste characteris­tics and management in Gümüshane, Turkey. Waste Manage. 28, (12), 2435, 2008.
• 36. DE VELÁSQUEZ T.O., RIVERA R.C., VALENCIA N.R., RAMÍREZ I.M., GÓMEZ J.S. Serial water balance method for predicting leachate generation in landfills. Waste Manage. Res. 21, (2), 127, 2003.
• 37. BLIGHT G.E. Graded landfill requirements in South Africa - the climatic water balance classification. Waste Manage. Res. 24, (5), 482, 2003.
• 38. COSSU R., ROSSETTI R.D. The PAF model: An integrat­ed approach for landfill sustainability. Waste Manage. 23, (1), 37, 2003.
• 39. CARDOSO A.J., LEVINE A.D., RHEA L.R. Batch test assessment of waste-to-energy combustion residues impacts on precipitate formation in landfill leachate collection sys­tems. J. Air Waste Manage. Assoc. 58, (1), 19, 2008.
• 40. BABOROWSKI M., BÜTTNER O., EINAX J.W. Assessment of water quality in the Elbe River at low water conditions based on factor analysis. Clean 39, (5), 437, 2011.
• 41. OJOAWO S.O., AGBEDE O.A., SANGODOYIN A.Y. A System dynamics modeling approach for dumpsite waste generation and its attendant challenges in Ogo Oluwa Local Government Area, Nigeria. J. Environ. Sci. Water Resour. 1, (4), 80, 2012.
• 42. ALSLAIBI T.M., ABUSTAN I., MOGHEIR Y.K., AFIFI S. Quantification of leachate discharged to groundwater using the water balance method and the hydrologic evaluation of landfill performance (HELP) model. Waste Manage. Res. 31, (1), 50, 2013.
• 43. YILDIZ E., UNLU K., ROWE R. Modeling leachate quali­ty and quantity in municipal solid waste landfills. Waste Manage. Res. 22, (2), 78, 2004.
• 44. NAS S.S., BAYRAM A., BULUT V.N., GÜNDOGDU A. Heavy metals in compostable wastes: a case study of Gümüshane, Turkey. Fresen. Environ. Bull. 16, (9a), 1069, 2007.
• 45. NAS S.S., BAYRAM A. Environmental problems from the open dump in Gümüshane province and investigation of bio­logical recycling for the organic solid wastes. Environ. Earth Sci. 7, 1055, 2011.