Abstract
A novel three-stage integrated biofilter (TSIBF) composed of acidophilic bacteria reaction segment (ABRS), fungal reaction segment (FRS) and heterotrophic bacteria reaction segment (HBRS) was constructed for the treatment of odors and volatile organic compounds (VOCs)from municipal solid waste (MSW) comprehensive treatment plants. The performance, counts of predominant microorganisms, and bioaerosol emissions of a full-scale TSIBF system were studied. High and stable removal efficiencies of hydrogen sulfide, ammonia and VOCs could be achieved with the TSIBF system, and the emissions of culturable heterotrophic bacteria, fungi and acidophilic sulfur bacteria were relatively low. The removal efficiencies of different odors and VOCs, emissions of culturable microorganisms, and types of predominant microorganisms were different in the ABRS, FRS and HBRS due to the differences in reaction conditions and mass transfer in each segment. The emissions of bioaerosols from the TSIBF depended on the capture of microorganisms and their volatilization from the packing. The rational segmentation, filling of high-density packings and the accumulation of the predominant functional microorganisms in each segment enhanced the capture effect of the bioaerosols, thus reducing the emissions of microorganisms from the bioreactor.
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Agarwal S, Mandal P, Srivastava A (2016). Quantification and characterization of size-segregated bioaerosols at municipal solid waste dumping site in Delhi. Procedia Environmental Sciences, 35: 400–407
Barbusinski K, Kalemba K, Kasperczyk D, Urbaniec K, Kozik V (2017). Biological methods for odor treatment: A review. Journal of Cleaner Production, 152: 223–241
Estrada J M, Kraakman N B, Muñoz R, Lebrero R (2011). A comparative analysis of odour treatment technologies in wastewater treatment plants. Environmental Science &Technology, 45(3): 1100–1106
Ghanbarian M, Ghanbarian M, Ghanbarian M, Mahvi A H, Hosseini M (2020). Determination of bacterial and fungal bioaerosols in municipal solid-waste processing facilities of Tehran. Journal of Environmental Health Science & Engineering, 18(2): 865–872
Gjaltema A, Tijhuis L, Van Loosdrecht M, Heijnen J (1995). Detachment of biomass from suspended nongrowing spherical biofilms in airlift reactors. Biotechnology and Bioengineering, 46(3): 258–269
Han M F, Wang C, Yang N Y, Hu X R, Wang Y C, Duan E H, Ren H W, Hsi H C, Deng J G (2020a). Performance enhancement of a biofilter with pH buffering and filter bed supporting material in removal of chlorobenzene. Chemosphere, 251: 126358
Han Y, Wang Y, Chai F, Ma J, Li L (2020b). Biofilters for the cotreatment of volatile organic compounds and odors in a domestic waste landfill site. Journal of Cleaner Production, 277: 124012
Ibanga I E, Fletcher L A, Noakes C J, King M F, Steinberg D (2018). Pilot-scale biofiltration at a materials recovery facility: The impact on bioaerosol control. Waste Management (New York, N.Y.), 80: 154–167
Khatami S, Deng Y, Tien M, Hatcher P G (2019). Lignin contribution to aliphatic constituents of humic acids through fungal degradation. Journal of Environmental Quality, 48(6): 1565–1570
Liu J, Kang X, Liu X, Yue P, Sun J, Lu C (2020a). Simultaneous removal of bioaerosols, odors and volatile organic compounds from a wastewater treatment plant by a full-scale integrated reactor. Process Safety and Environmental Protection, 144: 2–14
Liu J W, Yue P, Huang L H, Zhao M F, Kang X Y, Liu X L (2020b). Styrene removal with an acidic biofilter with four packing materials: Performance and fungal bioaerosol emissions. Environmental Research, 191: 110154
Liu Q, Li M, Chen R, Li Z, Qian G, An T, Fu J, Sheng G (2009). Biofiltration treatment of odors from municipal solid waste treatment plants. Waste Management (New York, N.Y.), 29(7): 2051–2058
Liu Y, Zhang Y, Shi Y, Shen F, Yang Y, Wang M, Zhang G, Deng T, Lai S (2021). Characterization of fungal aerosol in a landfill and an incineration plants in Guangzhou, Southern China: The link to potential impacts. Science of the Total Environment, 764: 142908
López M E, Rene E R, Boger Z, Veiga M C, Kennes C (2017). Modelling the removal of volatile pollutants under transient conditions in a two-stage bioreactor using artificial neural networks. Journal of Hazardous Materials, 324: 100–109
Melse R W, Ploegaert J P M, Ogink N W M (2012). Biotrickling filter for the treatment of exhaust air from a pig rearing building: Ammonia removal performance and its fluctuations. Biosystems Engineering, 113(3): 242–252
Mohammad B T, Rene E R, Veiga M C, Kennes C (2017). Performance of a thermophilic gas-phase biofilter treating high BTEX loads under steady-and transient-state operation. International Biodeterioration & Biodegradation, 119: 289–298
Mutuku J K, Hou W C, Chen W H (2020). An overview of experiments and numerical simulations on airflow and aerosols deposition in human airways and the role of bioaerosol motion in COVID-19 transmission. Aerosol and Air Quality Research, 20(6): 1172–1196
Nicolella C, Di Felice R, Rovatti M (1996). An experimental model of biofilm detachment in liquid fluidized bed biological reactors. Biotechnology and Bioengineering, 51(6): 713–719
Ottengraf S P P, Konings J H G (1991). Emission of microorganisms from biofilters. Bioprocess Engineering, 7(1): 89–96
Rene E R, Mohammad B T, Veiga M C, Kennes C (2012). Biodegradation of BTEX in a fungal biofilter: Influence of operational parameters, effect of shock-loads and substrate stratification. Bioresource Technology, 116(4): 204–213
Rittmann B (1989). Structure and Function of Biofilms. W G Characklis, P A Wilderer, eds. Hoboken: John Wiley & Sons
Sun S, Jia T, Chen K, Peng Y, Zhang L (2019). Simultaneous removal of hydrogen sulfide and volatile organic sulfur compounds in off-gas mixture from a wastewater treatment plant using a two-stage bio-trickling filter system. Frontiers of Environmental Science & Engineering, 13(4): 60
Sun Y, Xue S, Li L, Ding W, Liu J, Han Y (2018). Sulfur dioxide and oxylene co-treatment in biofilter: Performance, bacterial populations and bioaerosols emissions. Journal of Environmental Sciences (China), 69: 41–51
Tijhuis L, van Loosdrecht M C M, Heijnen J J (1995). Dynamics of biofilm detachment in biofilm airlift suspension reactors. Biotechnology and Bioengineering, 45(6): 481–487
Torretta V, Raboni M, Copelli S, Caruson P (2015). Effectiveness of a multi-stage biofilter approach at pilot scale to remove odor and VOCs. International Journal of Sustainable Development and Planning, 10(3): 373–384
Van der Heyden C, Volcke E I, Brusselman E, Demeyer P (2019). Comparative 1-year performance study of two full-scale biotrickling filters for ammonia removal including nitrous oxide emission monitoring. Biosystems Engineering, 188: 178–189
Vanek T, Halecky M, Paca J, Zapotocky L, Gelbicova T, Vadkertiova R, Kozliak E, Jones K (2015). A two-stage combined trickle bed reactor/biofilter for treatment of styrene/acetone vapor mixtures. Journal of Environmental Science and Health. Part A, Toxic/Hazardous Substances & Environmental Engineering, 50(11): 1148–1159
Wang R, Lin J Q, Liu X M, Pang X, Zhang C J, Yang C L, Gao X Y, Lin C M, Li Y Q, Li Y, Lin J Q, Chen L X (2019). Sulfur oxidation in the acidophilic autotrophic Acidithiobacillus spp. Frontiers in Microbiology, 9: 3290
Wang Z, Lv J, Gu F, Yang J, Guo J (2020). Environmental and economic performance of an integrated municipal solid waste treatment: A Chinese case study. Science of the Total Environment, 709: 136096
Wikuats C F H, Duarte E H, Prates K V M C, Janiaski L L L, de Oliveira Gabriel B, da Cunha Molina A, Martins L D (2020). Assessment of airborne particles and bioaerosols concentrations in a waste recycling environment in Brazil. Scientific Reports, 10(1): 14812
Yang K, Li L, Xue S, Wang Y, Liu J, Yang T (2019). Influence factors and health risk assessment of bioaerosols emitted from an industrial-scale thermophilic biofilter for off gas treatment. Process Safety and Environmental Protection, 129: 55–62
Zhan Y, Yang M, Zhang S, Zhao D, Duan J, Wang W, Yan L (2019). Iron and sulfur oxidation pathways of Acidithiobacillus ferrooxidans. World Journal of Microbiology & Biotechnology, 35(4): 60
Zhang Y, Liu J, Qin Y, Yang Z, Cao J, Xing Y, Li J (2019). Performance and microbial community evolution of toluene degradation using a fungi-based bio-trickling filter. Journal of Hazardous Materials, 365: 642–649
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This work was financially supported by the key Projects in the National Science & Technology Pillar Program of China during the Twelfth Five-Year Plan Period (No. 2013BAC25B00-004).
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Highlights
• TSIBF was composed of ABRS, FRS and HBRS.
• THIBF can effectively remove various odors, VOCs and bioaerosols.
• Different reaction segments in TSIBF can remove different types of odors and VOCs.
• TSIBF can reduce the emission of bioaerosols through enhanced interception.
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Liu, J., Yue, P., Zang, N. et al. Removal of odors and VOCs in municipal solid waste comprehensive treatment plants using a novel three-stage integrated biofilter: Performance and bioaerosol emissions. Front. Environ. Sci. Eng. 15, 48 (2021). https://doi.org/10.1007/s11783-021-1421-7
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DOI: https://doi.org/10.1007/s11783-021-1421-7