【 摘 要 】

The removal of xylene vapors was studied in a biofilter packed with a new hybrid (scoria/compost) packing material at various inlet loads (IL) and empty bed residence times (EBRT) of 90, 60, and 40s. The best performance was observed for EBRT of 90s, where a removal efficiency of 98% was obtained under steady state condition for inlet xylene concentration of 1.34 g m⁻³, while a maximum elimination capacity of 97.5 g m⁻³ h⁻¹ was observed for IL of 199.5 g m⁻³ h⁻¹. Carbon dioxide production rates and the microbial counts for xylene-degraders followed xylene elimination capacities. Overall look to the results of this study indicates that the scoria/compost mixture could be considered as a potential biofilter carrier, with low pressure drop (here <4 mm H₂O), to treat air streams containing VOCs.

【 授权许可】

   
2014 Amin et al.; licensee BioMed Central Ltd.

【 预 览 】

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【 参考文献 】

• [1]Saravanan V, Rajamohan N: Treatment of xylene polluted air using press mud-based biofilter. J Hazard Mater 2009, 162:981-988.
• [2]ATSDR: Toxicological Profile Information Sheet. Agency for Toxic Substances and Disease Registry, Department of Health and Human Services, Public Health Service, USA; 2003.
• [3]Rene ER, Murthy DVS, Swaminathan T: Effect of flow rate, concentration and transient-state operations on the performance of a biofilter treating xylene vapors. Water Air Soil Pollut 2010, 211:79-93.
• [4]Cox HHJ, Deshusses MA: Effect of starvation on the performance and re-acclimation of biotrickling filters for air pollution control. Environ Sci Technol 2002, 36:3069-3073.
• [5]Dehghanzadeh R, Aslani H, Torkian A, Asadi M: Interaction of acrylonitrile vapors on a bench scale biofilter treating styrene-polluted waste gas streams. Iran J Environ Health Sci Eng 2011, 8:159-168.
• [6]Mehdinia SM, Abdul Latif P, Taghipour H: A comparative evaluation of dried activated sludge and mixed dried activated sludge with rice husk silica to remove hydrogen sulfide. Iran J Environ Health Sci Eng 2013, 10:22. BioMed Central Full Text
• [7]Hernández J, Prado ÓJ, Almarcha M, Lafuente J, Gabriel D: Development and application of a hybrid inert/organic packing material for the biofiltration of composting off-gases mimics. J Hazard Mater 2010, 178:665-672.
• [8]Roshani B, Torkian A, Aslani H, Dehghanzadeh R: Bed mixing and leachate recycling strategies to overcome pressure drop buildup in the biofiltration of hydrogen sulfide. Bioresour Technol 2012, 109:26-30.
• [9]Lee S, Li C, Heber AJ, Ni J, Huang H: Biofiltration of a mixture of ethylene, ammonia, n-butanol, and acetone gases. Bioresour Technol 2013, 127:366-377.
• [10]Sun D, Li J, An T, Xu M, Sun G, Guo J: Evaluation of the performance of structured mixed packing and inert packing materials in toluene biotrickle-filtration. Biotechnol Bioproc Eng 2011, 16:1009-1018.
• [11]Prado ÓJ, Veiga MC, Kennes C: Treatment of gas-phase methanol in conventional biofilters packed with lava rock. Water Res 2005, 39:2385-2393.
• [12]Detchanamurthy S, Gostomski PA: Biofiltration for treating VOCs: an overview. Rev Environ Sci Biotechnol 2012, 11:231-241.
• [13]Strauss JM, Riedel KJ, Plessis CA: Mesophilic and thermophilic BTEX substrate interactions for a toluene-acclimatized biofilter. Appl Microbiol Biotechnol 2004, 64:855-861.
• [14]Gabaldón C, Martínez-Soria V, Martín M, Marzal P, Penya-roja JP, Alvarez-Hornos FJ: Removal of TEX vapours from air in a peat biofilter: influence of inlet concentration and inlet load. J Chem Technol Biotechnol 2006, 81:322-328.
• [15]Gallastegui G, Ramirez AÁ, Elías A, Jones JP, Heitz M: Performance and macrokinetic analysis of biofiltration of toluene and p-xylene mixtures in a conventional biofilter packed with inert material. Bioresour Technol 2011, 102:7657-7665.
• [16]Mathur AK, Balomajumder C: Rahul: Biological treatment and modeling aspect of BTEX abatement process in a biofilter. Bioresour Technol 2013, 142:9-17.
• [17]Kwon JS, Yun ST, Lee JH, Kim SO, Jo HY: Removal of divalent heavy metals (Cd, Cu, Pb, and Zn) and arsenic (III) from aqueous solutions using scoria: kinetics and equilibria of sorption. J Hazard Mater 2010, 174:307-313.
• [18]Lodge JP: Methods of Air Sampling and Analysis. Lewis Publishing Inc, New York; 1989.
• [19]Jorio H, Payre G, Heitz M: Mathematic modeling of gas-phase biofilter performance. J Chem Technol Biotechnol 2003, 78:834-846.
• [20]Hwang JW, Jang SJ, Lee EY, Choi CY, Park S: Evaluation of composts as biofilter packing material for treatment of gaseous p-xylene. Biochem Eng J 2007, 35:142-149.
• [21]Jorio H, Jin Y, Elmrini H, Nikiema J, Brzezinski R, Heitz M: Treatment of VOCs in biofilters inoculated with fungi and microbial consortium. Environ Technol 2009, 30:477-485.
• [22]Rene ER, Mohammad BT, Veiga MC, Kennes C: Biodegradation of BTEX in a fungal biofilter: influence of operational parameters, effect of shock-loads and substrate stratification. Bioresour Technol 2012, 116:204-213.
• [23]Jorio H, Bibeau L, Viel G, Heitz M: Effects of gas flow rate and inlet concentration on xylene vapors biofiltration performance. Chem Eng J 2000, 76:209-221.
• [24]Gallastegui G, Muñoz R, Barona A, Ibarra-Berastegi G, Rojo N, Elías A: Evaluating the impact of water supply strategies on p-xylene biodegradation performance in an organic media-based biofilter. J Hazard Mater 2011, 185:1019-1026.
• [25]Znad HT, Katoh H, Kawase Y: High loading toluene treatment in a compost based biofilter using up-flow and down-flow swing operation. J Hazard Mater 2007, 141:745-752.
• [26]Wu D, Quan X, Zhao Y, Chen S: Removal of p-xylene from an air stream in a hybrid biofilter. J Hazard Mater 2006, B136:288-295.
• [27]Li L, Liu JX: Removal of xylene from off-gas using a bioreactor containing bacteria and fungi. Int Biodeterior Biodegrad 2006, 58:60-64.
• [28]Kong X, Wang C, Ji M: Analysis of microbial metabolic characteristics in mesophilic and thermophilic biofilters using Biolog plate technique. Chem Eng J 2013, 230:415-421.
• [29]Rene ER, Veiga M, Kennes C: Performance of a biofilter for the removal of high concentrations of styrene under steady and non-steady state conditions. J Hazard Mater 2009, 168:282-290.
• [30]Dorado AD, Baeza JA, Lafuente J, Gabriel D, Gamisans X: Biomass accumulation in a biofilter treating toluene at high loads-Part 1: experimental performance from inoculation to clogging. Chem Eng J 2012, 209:661-669.
• [31]Estrada JM, Hernández S, Muñoz R, Revah S: A comparative study of fungal and bacterial biofiltration treating a VOC mixture. J Hazard Mater 2013, 250–251:190-197.