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The study was conducted to measure the emission from landfill in the years 2005– 2011. The results are used to diagnose the emissions of CH4. The mean value of CH4 in vol. % in the collection wells ranged from 0 to 2.14 vol. % the mean concentration of CH4 in mg/m3 ranged from 0 to 25 251 mg/m3, the average concentration of CH4 in mg/Nm3 at the measuring and control points ranged from 2.2 to 24.1 mg/Nm3. CH4 emissions from the landfill do not exceed the reporting thresholds the landfill does not meet conditions for being included in the Integrated Register of Pollutants.
Czasopismo
Rocznik
Tom
Strony
9--17
Opis fizyczny
Bibliogr. 33 poz., tab., rys.
Twórcy
autor
- Department of Applied and Landscape Ecology, Faculty of AgriSciences, Mendel University in Brno, Zemědělská 1, 613 00 Brno, Czech Republic
autor
- Department of Applied and Landscape Ecology, Faculty of AgriSciences, Mendel University in Brno, Zemědělská 1, 613 00 Brno, Czech Republic
autor
- Department of Morphology, Physiology and Animal Genetics, Faculty of AgriSciences, Mendel University in Brno, Zemědělská 1, 613 00 Brno, Czech Republic
Bibliografia
- 1. Abichou T., Chanton J., Powelson D., Fleiger J., Escoriaza S., Lei Y., Stern J. 2006. Methane flux and oxidation at two types of intermediate landfill covers. Waste Manage. 26, 1305–1312.
- 2. Adamcová, D., Vaverková, M.D. 2014a. Degradation of biodegradable/degradable plastics in municipal solid waste landfill. Pol J Environ Stud. 4(23), 1071–1078.
- 3. Adamcová, D., Vaverková, M.D., Bartoň, S., Havlíček, Z., Břoušková, E. 2016. Soil contamination in landfills: A case study of a landfill in Czech Republic. Solid Earth 1(7), 239–247.
- 4. Aronica S., Bonanno A., Piazza V., Pignato L., Trapani S. 2009. Estimation of biogas produced by the landfill of Palermo, applying a Gaussian model. Waste Manage. 29, 233–239.
- 5. Bai, X.Y., Wang, S.J., and Xiong, K.N. 2013. Assessing spatial–temporal evolution processes of karst rocky desertification land: indications for restoration strategies. Land Degrad Dev. 24, 47–56.
- 6. Bakare, A.A., Mosuro, A.A., and Osibanjo O. 2005. An in vivo evaluation of induction of abnormal sperm morphology in mice by landfill leachates. Mutat Res-Gen Tox En. 582, 28–34.
- 7. Borjesson G., Danielsson Å., Svensson B.H. 2000. Methane fluxes from a swedish landfill determined by geostatistical treatment of static chamber measurements. Environ Sci Technol. 34, 4044–4050.
- 8. Capaccioni B., Caramelli C., Tatàno F., Viscione A. 2011. Effects of a temporary HDPE cover on landfill gas emissions: multiyear evaluation with the static chamber approach at an Italian landfill. Waste Manage. 31, 956–965
- 9. Chen, X.W., Tsz-Fung, Wong, J., Mo, W.Y., Man, Y.B., Wang-Wai, Ng. Ch., Wong M.H. 2015. Ecological Performance of the Restored South East New Territories (SENT) Landfill in Hong Kong (2000–2012), Land Degrad Dev. DOI: 10.1002/ ldr.2366.
- 10. Di Trapania D., Di Bellab G., Viviania G. 2013. Uncontrolled methane emissions from a MSW landfill surface: Influence of landfill features and side slopes. Waste Manage. 33 (10), 2108–2115.
- 11. El-Fadel M, Abi-Esber L., Salhab S. 2012. Emission assessment at the Burj Hammoud inactive municipal landfill: Viability of landfill gas recovery under the clean development mechanism, Waste Manage. 32(11), 2106–2114.
- 12. El-Fadel, M., Findikakis, A.N., and Leckie, J.O. 1997. Environmental impacts of solid waste landfilling. J Environ Manage. 50, 1–25.
- 13. Fischer C., Maurice Ch., Langerkvist A. 1999. Gas emission from landfills, an overview of issues and research needs, AFR-REPORT 264, Swedish Environmental Protecting Agency, Stockholm.
- 14. Huber-Humer M., Gebert J., Hilger H. 2008. Biotic systems to mitigate landfill methane emissions. Waste Manage Res. 26, 33–46.
- 15. IPCC (Intergovernmental Panel on Climate Change), 2007. Climate Change 2007 – The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the IPCC, New York, Cambridge.
- 16. Ishigaki T., Yamada M., Nagamori M., Ono Y., Inoue Y. 2005. Estimation of methane emission from whole waste landfill site using correlation between flux and ground temperature. Environ. Geol. 48, 845–853.
- 17. Li, X.L., Gao, J., Brierley, G., Qiao, Y.M., Zhang, J., Yang, Y.W. 2013. Rangeland degradation on the Qinghai–Tibet Plateau: implications for rehabilitation. Land Degrad Dev. 24, 72–80.
- 18. Lohila A., Laurila T., Tuovinen J.P., Aurela M., Hatakka J., Thum T., Pihlatie M., Rinne J., Vesala T. 2007. Micrometeorological measurements of methane and carbon dioxide fluxes at a municipal landfill. Environ Sci Technol. 41 (8), 2717–2722.
- 19. Lou X.F., Nair J. 2009. The impact of landfilling and composting on greenhouse gas emissions – a review. Bioresour. Technol. 100, 3792–3798.
- 20. Mackie K.R., Cooper C.D. 2009. Landfill gas emission prediction using Voronoi diagrams and importance sampling. Environ Modell Softw. 24, 1223–1232.
- 21. Messineo A., Freni G., Volpe R. 2012. Collection of thermal energy available from a biogas plant for leachate treatment in an urban landfill: a Sicilian case study. Energies 5 (10), 3753–3767.
- 22. Messineo A., Panno D. 2008. Municipal waste management in Sicily: practices and challenges. Waste Manage. 28, 1201–1208.
- 23. Pikoń K., Gaska K. 2010. Greenhouse gases emission mitigation relevant to changes in MSW management system. J. Air Waste Manage. Assoc. 60 (7), 782–788.
- 24. Scheutz C., Kjeldsen P., Bogner J.E., De Visscher A., Gebert J., Hilger H.A, Huber-Humer M., Spokas K. 2009. Microbial methane oxidation processes and technologies for mitigation of landfill gas emissions. Waste Manage Res. 27, 409–455.
- 25. Scheutz C., Kjeldsen P., Gentil E. 2009. Greenhouse gases, radiative forcing, global worming potential and waste management – an introduction. Waste Manage Res. 27, 716–723.
- 26. Sharff H., Jacobs J. 2006. Applying guidance for methane emission estimation for landfills. Waste Manage. 26, 417–429.
- 27. Spokas K., Graff C., Morcet M., Aran C. 2003. Implications of the spatial variability on landfill emission rates on geospatial analyses. Waste Manage. 23, 599–607.
- 28. Swati, Ghosh, P., Tanay D. M., and Thaku, I.S. 2014. In vitro toxicity evaluation of organic extract of landfill soil and its detoxification by indigenous pyrene-degrading Bacillus sp. ISTPY1. Int Biodeter Biodeg. 90, 145–151.
- 29. Thomaz, E.L., and Luiz, J.C. 2012. Soil loss, soil degradation and rehabilitation in a degraded land area in Guarapuava (Brazil). Land Degrad Dev. 23, 72–81.
- 30. Thompson S., Sawyer J., Bonam R., Valdivia J.E. 2009. Building a better methane generation model: validating models with methane recovery rates from 35 Canadian landfills. Waste manage. 29 (7), 2085–2091.
- 31. Vaverková, M.D., Adamcová, D. 2014b. Can vegetation indicate a municipal solid waste landfill’s impact on the environment? Pol J Environ Stud. 23, 501–509.
- 32. Wang H.-Q., Zhao Q., Zeng D.-H., Hu Y.-L., Yu Z.-Y. 2015. Remediation of a magnesium-contaminated soil by chemical amendments and leaching. Land Degrad Dev. 26, 6, 613–619.
- 33. Zhang H., He P., Shao L. 2008. Methane emissions from MSW landfill with sandy soil covers under leachate recirculation and subsurface irrigation. Atmos. Environ. 42, 5579–5588
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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