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Microbial removal of selected volatile organic compounds from the model landfill gas

Autorzy
Identyfikatory
Warianty tytułu
PL
Mikrobiologiczne usuwanie wybranych lotnych związków organicznych z modelowego gazu składowiskowego
Języki publikacji
EN
Abstrakty
EN
Landfills of municipal waste are an important source of BTEXs in the atmosphere. Biodegrability of these compounds implies that biological methods, such as oxidation in landfill covers, may be an effective way to mitigate emission of these gases. The aim of the study was to evaluate the efficiency of BTEXs removal from landfill gas by biofiltration method and to analyze the influence of methane on BTEXs oxidation rate. The experiments were carried out at laboratory scale continuous flow system (microcosms) and in batch tests. A mixture of municipal waste compost and expanded clay pellets (1:1 of volume) was used as a filter bed material. The model landfill gas (50% vol. of CH4 and 50% vol. of CO2) purged through the microcosms was enriched with toluene (series 1) and all the BTEXs (series 2). The results of 7-month continuous flow experiment showed that removal efficiency of BTEXs in experimental columns ranged from 91 to 100% when the individual trace gases loading rates in model gas were in the range of 0.1-0.2 g m−2d−1. The rate of toluene removal, which followed the first order kinetics, depended on the presence of methane in treated gas. About 2-fold higher values of rate constant and 2.5-fold higher values of initial toluene removal rates were observed when no methane was present in the headspaces inside the vials used in the batch tests.
Rocznik
Strony
215--228
Opis fizyczny
Bibliogr. 28 poz., rys., wykr., tab.
Twórcy
autor
  • Environmental Engineering Faculty, Lublin University of Technology, ul. Nadbystrzycka 40B, 20-618 Lublin, Poland, phone/fax +48 81 538 19 97
autor
  • Environmental Engineering Faculty, Lublin University of Technology, ul. Nadbystrzycka 40B, 20-618 Lublin, Poland, phone/fax +48 81 538 19 97
Bibliografia
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  • [3] Albrecht A, Fischer G, Brunnemann-Stubbe G, Jäckel U, Kämpfer P. Int J Hyg Environ Health. 2008;211:121-131. DOI: 10.1016/j.ijheh.2007.05.004.
  • [4] Parker T, Dottride J, Kelly S. Investigation of the Composition and Emissions of Trace Components in Landfill Gas. R&D Technical Report P1-438/TR. Environment Agency. 2002. http://gassim.co.uk/documents/P1-438-TR%20Composition%20of%20Trace%20Components%20in%20LFG.pdf.
  • [5] EPA 1991. Air Emissions from Municipal Solid Waste Landfills - Background Information for Proposed Standards and Guidelines. EPA/450/3-90/011. http://www.epa.gov/ttn/atw/landfill/landflpg.html#TECH.
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  • [7] Hamoda MF. J Environ Sci Health. 2006;A41:77-85. DOI: 10.1080/10934520500298895.
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  • [9] Kim KH, Shonb ZH, Kim MY, Sunwoo Y, Jeon E, Honge JH. J Hazard Mater. 2008;150:754-764. DOI: 10.1016/j.jhazmat.2007.05.038.
  • [10] IARC. Monographs on the evaluation of carcinogenic risks to humans. Re-evaluation of Some Organic Chemicals, Hydrazine and Hydrogen Peroxide. Lyon: World Health Organization; 1999;71. https://monographs.iarc.fr/ENG/Monographs/vol71/mono71.pdf.
  • [11] IARC. Monographs on the evaluation of carcinogenic risks to humans. Some Organic Solvents, Resin Monomers and Related Compounds, Pigments and Occupational Exposures in Paint Manufacture and Painting. Lyon: World Health Organization; 1989;47. http://monographs.iarc.fr/ENG/Monographs/vol47/mono47.pdf.
  • [12] IARC. Monographs on the evaluation of carcinogenic risks to humans. Some Industrial Chemicals. Lyon: World Health Organization; 2000;77. http://monographs.iarc.fr/ENG/Monographs/vol77/mono77.pdf.
  • [13] IARC. Monographs on the evaluation of carcinogenic risks to humans. Some Industrial Chemicals and Dyestuffs. Lyon: World Health Organization; 1982:29. http://monographs.iarc.fr/ENG/Monographs/vol1-42/mono29.pdf.
  • [14] Allen MR, Braithwaite A, Hills CC. Environ Sci Technol. 1997;31(4):1054-1061. DOI: 10.1021/es9605634.
  • [15] Scheutz C, Bogner J, Chanton J, Blake D, Morcet M, Kjeldsen P. Environ Sci Technol. 2003;37:5150-5158, DOI: 10.1021/es034016b.
  • [16] Rasi S, Veijanen A, Rintala J. Energy. 2007;32:1375-1380. DOI: 10.1016/j.energy.2006.10.018.
  • [17] Durmusoglu E, Taspinar F, Karademir A. J Hazard Mater. 2010;176:870-877. DOI: 10.1016/j.jhazmat.2009.11.117.
  • [18] Schweigkofler M, Niessner R. Environ Sci Technol. 1999;33:3680-3685. DOI: 10.1021/es9902569.
  • [19] Davoli E, Gangai ML, Morselli L, Tonelli D. Chemosphere. 2003;51:357-368. DOI: 10.1016/S0045-6535(02)00845-7.
  • [20] Termonia A, Termonia M. Int J Environ Anal Chem. 1999;73:43-57. DOI: 10.1080/03067319908032650.
  • [21] Stępniewski W, Pawłowska M. A Possibility to Reduce Methane Emission from Landfills by Its Oxidation in the Soil Cover. In: Chemistry from the Protection of the Environment 2. Environmental Science Research. Vol. 51. New York: Plenum Press; 1996:75-92.
  • [22] Staszewska E, Pawłowska M. Ecol Chem Eng S. 2012;19(2):239-248. DOI: 10.2478/v10216-011-0018-7.
  • [23] Huber-Humer M, Röder S, Lechner P. Waste Manage. 2009;29(7):2092-2104. DOI: 10.1016/j.wasman.2009.02.001.
  • [24] Zdeb M. Annual Set Environ Protect. Rocznik Ochr Środ. 2015;17(2):1053-1073. http://ros.edu.pl/images/roczniki/2015/063_ROS_V17_R2015.pdf.
  • [25] Pawłowska M, Stępniewski W. Environ Prot Eng. 2004;30(3):81-91.
  • [26] Dou J, Liua X, Huc Z, Denga D. J Hazard Mater. 2009;151(2-3):720-729. DOI: 10.1016/j.jhazmat.2007.06.043.
  • [27] Farhadiana M, Ducheza D, Gaudetc G, Larrochea Ch. Process Biochem. 2010;45(11):1758-1762. DOI: 10.1016/j.procbio.2010.01.006.
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Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-da1a2655-782f-4078-b273-121956ee66d1
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