Abstract
The present work investigates the potential of two experimental field columns (FC-2 and FC-4) to reduce volatile organic compound (VOC) emissions from a municipal solid waste (MSW) landfill located in Quebec, Canada. The FC-2 and FC-4 were fed by raw biogas coming from the landfill site. The VOC were identified and quantified in emitted biogas and raw biogas. The emitted biogas was collected at the surface of FC-2 and FC-4, and the raw biogas was obtained directly from the well. The main groups of the VOC in the landfill biogas are BTEX (66 %), alkanes (19 %), cyclic compounds (10 %), and halogenated compounds (5 %). The concentration of VOC in the landfill raw biogas varies from below the limit of detection (BLD) to 22 ppmv, and that of the emitted biogas varies from BLD to 3.1 ppmv. The result of this study showed that the experimental field columns had a very high potential to reduce the VOC emissions from the investigated landfill. The effectiveness of the VOC emission removal for the FC-2 and FC-4 was shown to be practically 100 % for many compounds. The experimental field column elimination capacity of VOC emissions is in the range of 0.1 to 4.6 mg m−3 h−1.
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Ait-Benichou, S., Jugnia, L.-B., Greer, C. W., & Cabral, A. R. (2009). Methanotrophs and methanotrophic activity in engineered landfill biocovers. Waste Management, 29, 2509–2517.
Albanna, M., Fernandes, L., & Warith, M. (2007). Methane oxidation in landfill cover soil; the combined effects of moisture content, nutrient addition, and cover thickness. Journal of Environmental Engineering and Science, 6, 191–200.
Allen, M. R., Braithwaite, A., & Hills, C. C. (1997). Trace organic compounds in landfill gas at seven U.K. waste disposal sites. Environmental Science & Technology, 31, 1054–1061.
Barlaz, M. A., Green, R. B., Chanton, J. P., Goldsmith, C. D., & Hater, G. R. (2004). Evaluation of a biologically active cover for mitigation of landfill gas emissions. Environmental Science and Technology, 38, 4891–4899.
Beylot, A., Villeneuve, J., & Bellenfant, G. (2012). Life Cycle Assessment of landfill biogas management: sensitivity to diffuse and combustion air emissions. Waste Management, 33, 401–411.
Cai, L., Koziel, J. A., Lo, Y.-C., & Hoff, S. J. (2006). Characterization of volatile organic compounds and odorants associated with swine barn particulate matter using solid-phase microextraction and gas chromatography-mass spectrometry-olfactometry. Journal of Chromatography A, 1102, 60–72.
Chiriac, R., Carre, J., Perrodin, Y., Fine, L., & Letoffe, J.-M. (2007). Characterisation of VOCs emitted by open cells receiving municipal solid waste. Journal of Hazardous Materials, 149, 249–263.
Chiriac, R., De Araujos Morais, J., Carré, J., Bayard, R., Chovelon, J. M., & Gourdon, R. (2011). Study of the VOC emissions from a municipal solid waste storage pilot-scale cell: comparison with biogases from municipal waste landfill site. Waste Management, 31, 2294–2301.
Cho, E., Galera, M. M., Lorenzana, A., & Chung, W.-J. (2009). Ethylbenzene, o-xylene, and BTEX removal by Sphingomonas sp. D3K1 in rock wool-compost biofilters. Environmental Engineering Science, 26, 45–52.
Czepiel, P. M., Crill, P. M., & Harriss, R. C. (1995). Environmental factors influencing the variability of methane oxidation in temperate zone soils. Journal of Geophysical Research, [Atmospheres], 100, 9359–9364.
Desideri, U., Di Maria, F., Leonardi, D., & Proietti, S. (2003). Sanitary landfill energetic potential analysis: a real case study. Energy Conversion and Management, 44, 1969–1981.
Durmusoglu, E., Taspinar, F., & Karademir, A. (2010). Health risk assessment of BTEX emissions in the landfill environment. Journal of Hazardous Materials, 176, 870–877.
Erses, A. S., Onay, T. T., & Yenigun, O. (2008). Comparison of aerobic and anaerobic degradation of municipal solid waste in bioreactor landfills. Bioresource Technology, 99, 5418–5426.
Galera, M. M., Cho, E., Tuuguu, E., Park, S.-J., Lee, C., & Chung, W.-J. (2008). Effects of pollutant concentration ratio on the simultaneous removal of NH3, H2S and toluene gases using rock wool-compost biofilter. Journal of Hazardous Materials, 152, 624–631.
Gaudin, F., Andres, Y., & Le Cloirec, P. (2008). Packing material formulation for odorous emission biofiltration. Chemosphere, 70, 958–966.
Haque, F., De Visscher, A., & Sen, A. (2012). Biofiltration for BTEX removal. Critical Reviews in Environmental Science and Technology, 42, 2648–2692.
Hoque, R. R., Khillare, P. S., Agarwal, T., Shridhar, V., & Balachandran, S. (2008). Spatial and temporal variation of BTEX in the urban atmosphere of Delhi, India. Science of the Total Environment, 392, 30–40.
Johari, A., Ahmed, S. I., Hashim, H., Alkali, H., & Ramli, M. (2012). Economic and environmental benefits of landfill gas from municipal solid waste in Malaysia. Renewable and Sustainable Energy Reviews, 16, 2907–2912.
Leson, G., & Winer, A. M. (1991). Biofiltration: an innovative air pollution control technology for VOC emissions. Journal of the Air & Waste Management Association, 41, 1045–1054.
Lu, C., Lin, M.-R., & Chu, C. (2002). Effects of pH, moisture, and flow pattern on trickle-bed air biofilter performance for BTEX removal. Advances in Environmental Research, 6, 99–106.
Manna, L., Zanetti, M. C., & Genon, G. (1999). Modeling biogas production at landfill site. Resources, Conservation and Recycling, 26, 1–14.
Mariné, S., Pedrouzo, M., Maria Marcé, R., Fonseca, I., & Borrull, F. (2012). Comparison between sampling and analytical methods in characterization of pollutants in biogas. Talanta, 100, 145–152.
Mello, J. M. M., de Lima Brandão, H., de Souza, A. A. U., da Silva, A., & de Souza, S. M. A. G. U. (2010). Biodegradation of BTEX compounds in a biofilm reactor—modeling and simulation. Journal of Petroleum Science and Engineering, 70, 131–139.
Ménard, C., Ramirez, A. A., Nikiema, J., & Heitz, M. (2012). Biofiltration of methane and trace gases from landfills: a review. Environmental Reviews, 20, 40–53.
Mnif, S., Zayen, A., Karray, F., Bru-Adan, V., Loukil, S., Godon, J. J., Chamkha, M., & Sayadi, S. (2012). Microbial population changes in anaerobic membrane bioreactor treating landfill leachate monitored by single-strand conformation polymorphism analysis of 16S rDNA gene fragments. International Biodeterioration & Biodegradation, 73, 50–59.
Mohan, R., Spiby, J., Leonardi, G. S., Robins, A., & Jefferis, S. (2006). Sustainable waste management in the UK: the public health role. Public Health, 120, 908–914.
Mor, S., Ravindra, K., De Visscher, A., Dahiya, R. P., & Chandra, A. (2006). Municipal solid waste characterization and its assessment for potential methane generation: a case study. Science of the Total Environment, 371, 1–10.
Mostafid, M. E., Shank, C., Imhoff, P. T., & Yazdani, R. (2012). Gas transport properties of compost-woodchip and green waste for landfill biocovers and biofilters. Chemical Engineering Journal, 191, 314–325.
Rasi, S., Veijanen, A., & Rintala, J. (2007). Trace compounds of biogas from different biogas production plants. Energy, 32, 1375–1380.
Rasi, S., Läntelä, J., & Rintala, J. (2011). Trace compounds affecting biogas energy utilisation—a review. Energy Conversion and Management, 52, 3369–3375.
Rene, E. R., Murthy, D., & Swaminathan, T. (2005). Performance evaluation of a compost biofilter treating toluene vapours. Process Biochemistry, 40, 2771–2779.
Salvador, S., Kara, Y., & Commandré, J. M. (2006). Factors influencing pollutant gas emissions of VOC recuperative incinerators—large-scale parametric study. Applied Thermal Engineering, 26, 1640–1651.
Scheutz, C., Bogner, J., Chanton, J. P., Blake, D., Morcet, M., Aran, C., & Kjeldsen, P. (2008). Atmospheric emissions and attenuation of non-methane organic compounds in cover soils at a French landfill. Waste Management, 28, 1892–1908.
Schweigkofler, M., & Niessner, R. (1999). Determination of siloxanes and VOC in landfill gas and sewage gas by canister sampling and GC-MS/AES analysis. Environmental Science and Technology, 33, 3680–3685.
Shin, H.-C., Park, J.-W., Park, K., & Song, H.-C. (2002). Removal characteristics of trace compounds of landfill gas by activated carbon adsorption. Environmental Pollution, 119, 227–236.
Singh, R. S., Agnihotri, S. S., & Upadhyay, S. N. (2006). Removal of toluene vapour using agro-waste as biofilter media. Bioresource Technology, 97, 2296–2301.
Singh, R. S., Rai, B. N., & Upadhyay, S. N. (2010). Removal of toluene vapour from air stream using a biofilter packed with polyurethane foam. Process Safety and Environmental Protection, 88, 366–371.
Slack, R. J., Gronow, J. R., & Voulvoulis, N. (2005). Household hazardous waste in municipal landfills: contaminants in leachate. Science of the Total Environment, 337, 119–137.
Spokas, K., Bogner, J., Chanton, J. P., Morcet, M., Aran, C., Graff, C., Golvan, Y. M.-L., & Hebe, I. (2006). Methane mass balance at three landfill sites: what is the efficiency of capture by gas collection systems? Waste Management, 26, 516–525.
Staley, B. F., Xu, F., Cowie, S. J., Barlaz, M. A., & Hater, G. R. (2006). Release of trace organic compounds during the decomposition of municipal solid waste components. Environmental Science & Technology, 40, 5984–5991.
Tassi, F., Montegrossi, G., Vaselli, O., Liccioli, C., Moretti, S., & Nisi, B. (2009). Degradation of C2-C15 volatile organic compounds in a landfill cover soil. Science of the Total Environment, 407, 4513–4525.
Wang, Y., Raihal, S., T., Jackman, P., A., & John, S., R. (1996). Use of Tedlar bags in VOC testing and storage: evidence of significant VOC losses. Environment Science Technology, 30, 3115–3117.
Wang, Y., Ren, X., Ji, D., Zhang, J., Sun, J., & Wu, F. (2012). Characterization of volatile organic compounds in the urban area of Beijing from 2000 to 2007. Journal of Environmental Sciences, 24, 95–101.
Wu, C.-H., Feng, C.-T., Lo, Y.-S., Lin, T.-Y., & Lo, J.-G. (2004). Determination of volatile organic compounds in workplace air by multisorbent adsorption/thermal desorption-GC/MS. Chemosphere, 56, 71–80.
Yu, J., Cai, W., Chen, J., Feng, L., Jiang, Y., & Cheng, Z. (2012). Conversion characteristics and mechanism analysis of gaseous dichloromethane degraded by a VUV light in different reaction media. Journal of Environmental Sciences, 24, 1777–1784.
Zarook, S. M., Shaikh, A. A., Ansar, Z., & Baltzis, B. C. (1997). Biofiltration of volatile organic compound (VOC) mixtures under transient conditions. Chemical Engineering Science, 52, 4135–4142.
Zilli, M., Palazzi, E., Sene, L., Converti, A., & Borghi, M. D. (2001). Toluene and styrene removal from air in biofilters. Process Biochemistry, 37, 423–429.
Acknowledgment
Support for this research was provided by Natural Sciences and Engineering Research Council of Canada (NSERC) and Waste Management (WM Quebec Inc.). The authors acknowledge Jean Guy Lemelin, Serge Bérubé, Marlon Capanema, and Adnane Filali for their support and help to realize this project.
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Lakhouit, A., Cabral, A.R. & Cabana, H. Two Novel Biofilters to Remove Volatile Organic Compounds Emitted by Landfill Sites. Water Air Soil Pollut 227, 113 (2016). https://doi.org/10.1007/s11270-016-2813-3
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DOI: https://doi.org/10.1007/s11270-016-2813-3