Simultaneous biodegradation of methane and styrene in biofilters packed with inorganic supports: Experimental and macrokinetic study

摘要

Four upflow 0.018 m(3) biofilters (3 beds), B-ME, B-200, B-500 and B-700, all packed with inorganic materials, were operated at a constant air flow rate of 0.18 m(3) h(-1 )to eliminate methane (CH4), a harmful greenhouse gas (GHG), and styrene (C8H8), a carcinogenic volatile organic compound (VOC). The biofilters were irrigated with 0.001 m(3) of recycled nutrient solution (NS) every day (flow rate of 60 x 10(-3) m(3) h(-1)). Styrene inlet load (IL) was kept constant in each biofilter. Different CH4-ILs varying in the range of 7-60 gCH(4) m(-3) h(-1) were examined in B-ME (IL of 0 gC(8)H(8) m(-3) h(-1)), B-200 (IL of 9 gC(8)H(8) m(-3) h(-1)), B-500 (IL of 22 gC(8)H(8) m(-3) h(-1)) and B-700 (IL of 32 gC(8)H(8) m(-3) h(-1)). Finally, the effect of C8H8 on the macrokinetic parameters of CH4 biofiltration was studied based on the Michaelis-Menten model. Average C8H8 removal efficiencies (RE) varying between 64 and 100% were obtained at CH4-ILs increasing from 7 to 60 gCH(4) m(-3) h(-1) and for C8H8-ILs range of 0-32 gC(8)H(8) m(-3) h(-1). More than 90% of C8H8 was removed in the bottom and middle beds of the biofilters. By increasing C8H8-IL from 0 to 32 gC(8)H(8) m(-3) h(-1), maximal EC in Michaelis-Menten model and macrokinetic saturation constant declined from 311 to 39 g m(-3) h(-1) and from 19 to 2.3 g m(-3), respectively, which confirmed that an uncompetitive inhibition occurred during CH4 biofiltration in the presence of C8H8. (C) 2020 Elsevier Ltd. All rights reserved.